JP6929161B2 - Open / close control system - Google Patents

Description

The present invention relates to an open / close control system.

Conventionally, for a shutter device attached to an opening of a building, a reference position for controlling the opening / closing movement of the shutter curtain under predetermined conditions (specifically, the upper limit position and the lower limit position of the shutter curtain are specified. A device for confirming a reference position for this purpose, hereinafter referred to as a "reference position") has been proposed. This device includes an origin sensor that detects the reference position by switching the contact state when the lower end of the shutter curtain moves beyond the reference position. Then, when the power state of this device is switched from the off state to the on state and the information indicating the upper limit position and the lower limit position of the shutter curtain registered in the shutter device is lost, the contact state of the origin sensor is set. Based on this, if it is determined that the lower end of the shutter curtain is located closer to the opening direction of the shutter curtain than the reference position, the shutter curtain is closed and moved, and then when the lower end of the shutter curtain passes the reference position, the origin sensor Check the reference position by switching the contact state.

Japanese Unexamined Patent Publication No. 2011-80234

Here, in the above-mentioned conventional device, when the lower end of the shutter curtain comes into contact with an obstacle during the opening / closing movement of the shutter curtain, a force acting in a direction opposite to the driving direction of the switch acts to cause the switch. Could cause a large overload. Therefore, in order to solve such a problem, a seat plate switch for detecting an obstacle or an overload detecting means for detecting an overload state of the switch is provided to detect the seat plate switch or the overload detecting means. It is conceivable to control the opening / closing movement of the shutter curtain based on the result. However, when a seat plate switch or an overload detecting means is provided, when the opening / closing movement of the shutter curtain is controlled in order to confirm the reference position in the device as described above, the upper limit position and the lower limit position of the shutter curtain are changed. Since it has not been specified, the following problems may occur. That is, when the seat plate switch is provided, for example, the lower end of the shutter curtain is in the lower limit position (here, in front of the position where the opening is fully closed by the shutter curtain) while the shutter curtain is closed and moved. Since it is not possible to switch from the touch-up operation (the operation of stopping the shutter curtain and then raising it by a predetermined height) to the touch stop operation (the operation of simply stopping the shutter curtain) at (position), the lower end of the shutter curtain When the touch-up operation is performed when the part reaches the floor surface, it is not possible to make the opening fully closed by the shutter curtain, so it may be difficult to perform control that can ensure crime prevention. There was sex. Further, when the overload detecting means is provided, the overload state of the switch cannot be accurately detected by the overload detecting means. Therefore, control for ensuring usability by erroneous detection of the overload detecting means is performed. It could be difficult to do. From the above, there is room for improvement from the viewpoint of user convenience in using a system such as the above device.

An object of the present invention is to solve the above-mentioned problems in the prior art, and to provide an open / close control system capable of improving user convenience in using the open / close control system.

The opening / closing control system according to claim 1 is an opening / closing control system for controlling the opening / closing movement of a shutter curtain that opens / closes an opening of a building in order to solve the above-mentioned problems and achieve the object. A reference position located between the fully closed position corresponding to the state in which the opening is fully closed by the shutter curtain and the fully opened position corresponding to the state in which the opening is fully opened by the shutter curtain. A detection means for detecting whether or not the end of the shutter curtain on the closing direction side has passed a reference position that serves as a reference for controlling the opening / closing movement of the shutter, and an obstacle that hinders the closing movement of the shutter curtain. When the obstacle detecting means for detecting an object and the control position information registered in the opening / closing control system and indicating the position necessary for controlling the opening / closing movement of the shutter curtain are lost. In the pre-detection control that controls the opening / closing movement of the shutter curtain until it is detected by the detection means that the end portion of the shutter curtain on the closing direction side has passed the reference position, and the shutter by the detection means. The opening / closing movement is provided with post-detection control means for controlling the opening / closing movement of the shutter curtain after it is detected that the end portion of the curtain on the closing direction side has passed the reference position, and an opening / closing movement control means for performing the opening / closing movement. The control means makes the pre-detection control based on the detection result of the obstacle detecting means different from the post-detection control based on the detection result of the obstacle detecting means.

The opening / closing control system according to claim 2 includes an operating means for receiving an operation instruction regarding opening / closing movement of the shutter curtain in the opening / closing control system according to claim 1, and the detecting means closes the shutter curtain. The opening / closing movement control means detects whether the position of the end portion on the directional side is a position on the closing direction side of the reference position or a position on the opening direction side of the reference position. When the pre-control is performed, the operation instruction received via the operation means opens and closes the shutter curtain so that the position of the end portion of the shutter curtain on the closing direction side approaches the reference position. The first pre-detection control, which is the control of opening / closing movement of the shutter curtain, which is performed when the first operation instruction to be moved, and the operation instruction received via the operation means are on the closing direction side of the shutter curtain. If the second pre-detection control, which is the control of the opening / closing movement of the shutter curtain, is performed when the second operation instruction for opening / closing the shutter curtain is made so that the position of the end portion of the shutter curtain is moved away from the reference position. Let me.

The opening / closing control system according to claim 3 is the opening / closing control system according to claim 2, wherein the opening / closing movement control means receives the first operation instruction via the operation means in the first pre-detection control. If so, the shutter curtain is opened and closed even if the reception of the first operation instruction is not continued thereafter, and in the second pre-detection control, the second operation instruction is performed via the operation means. Is accepted, the opening / closing movement of the shutter curtain is performed only while the second operation instruction is received, or the opening / closing movement of the shutter curtain is restricted.

The opening / closing control system according to claim 4 is the opening / closing control system according to claim 3, wherein the opening / closing movement control means opens / closes the shutter curtain in the first pre-detection control. When it is detected by the detecting means that the end portion of the shutter curtain on the closing direction side has passed the reference position, the opening / closing movement of the shutter curtain is continued in the post-detection control.

The opening / closing control system according to claim 5 has a plurality of reference positions located between the fully closed position and the fully open position in the opening / closing control system according to any one of claims 1 to 4. The opening / closing movement control means performs the pre-detection control until it is detected by the detection means that the end portion of the shutter curtain on the closing direction side has passed any one of the plurality of reference positions, and the above-mentioned pre-detection control means is performed. After the detection means detects that the end of the shutter curtain on the closing direction side has passed any one of the plurality of reference positions, the post-detection control is performed.

The opening / closing control system according to claim 6 is the opening / closing control system according to any one of claims 1 to 5, wherein the opening / closing movement control means closes and moves the shutter curtain in the pre-detection control. When the obstacle is detected by the obstacle detecting means, the closing movement of the shutter curtain is stopped, and the closing movement of the shutter curtain is performed in the post-detection control. When the obstacle is detected by the obstacle detecting means, the shutter curtain is opened and moved by a predetermined amount after the closing movement of the shutter curtain is stopped.

According to the opening / closing control system according to claim 1, when the control position information registered in the opening / closing control system is lost, it is detected that the end portion of the shutter curtain on the closing direction side has passed the reference position. Pre-detection control that controls the opening / closing movement of the shutter curtain, and post-detection control that controls the opening / closing movement of the shutter curtain after it is detected that the end of the shutter curtain on the closing direction side has passed the reference position. The opening / closing movement control means comprises the opening / closing movement control means for performing the above, and the opening / closing movement control means makes the pre-detection control based on the detection result of the obstacle detecting means different from the post-detection control based on the detection result of the obstacle detecting means. Therefore, compared to the case where the pre-detection control based on the detection result of the obstacle detecting means and the post-detection control based on the detection result of the obstacle detecting means are made the same, the control that can ensure security or usability is performed. This makes it possible to improve the convenience of the user in using the open / close control system.

According to the opening / closing control system according to claim 2, when the opening / closing movement control means is performing pre-detection control and the operation instruction received via the operation means is the first operation instruction. The first pre-detection control, which is the control of the opening / closing movement of the shutter curtain, and the second detection, which is the control of the opening / closing movement of the shutter curtain, is performed when the operation instruction received via the operating means is the second operation instruction. Since the pre-control is different from that of the pre-detection control, for example, the shutter curtain can be easily opened and closed in the first pre-detection control, and the shutter device or obstacles are harmed in the second pre-detection control. It is possible to perform control that can avoid the addition of the above, and further improve the convenience of the user in using the closed control system as compared with the case where the first pre-detection control and the second pre-detection control are the same. Becomes possible.

According to the opening / closing control system according to claim 3, when the opening / closing movement control means receives the first operation instruction in the first pre-detection control, the acceptance of the first operation instruction is not continued thereafter. Even if the shutter curtain is opened and closed, if the second operation instruction is received in the second pre-detection control, the shutter curtain is opened and closed only while the second operation instruction is received. Or, since the opening / closing movement of the shutter curtain is restricted, when the first operation instruction is received in the first pre-detection control, the opening / closing movement of the shutter curtain is performed only while the first operation instruction is received. Compared with the case (so-called "control of the opening / closing movement of the shutter curtain by the push-off operation"), the opening / closing movement of the shutter curtain can be performed more easily. Further, in the second pre-detection control, when the second operation instruction is received, the shutter device (as compared with the case where the shutter curtain is opened and closed even if the reception of the second operation instruction is not continued thereafter is performed. For example, shutter curtains) or obstacles can be avoided from being harmed.

According to the opening / closing control system according to claim 4, when the opening / closing movement control means opens / closes the shutter curtain in the first pre-detection control, the end portion of the shutter curtain on the closing direction side sets the reference position. When it is detected that the shutter has passed, the shutter curtain opening / closing movement is continued in the post-detection control. Therefore, for example, the opening / closing movement of the shutter curtain by the first pre-detection control is stopped immediately after the post-detection control is executed. It is possible to perform control that can avoid giving a feeling of strangeness to the user as compared with the case of causing the user to feel uncomfortable.

According to the opening and closing control system according to claim 5, until closing movement control means, the end of the closing direction of the shutter curtain has passed one of the plurality of reference positions are detected, before detecting Control is performed, and after it is detected that the end of the shutter curtain on the closing direction side has passed any one of a plurality of reference positions, post-detection control is performed. Therefore, when there is only one reference position. In comparison, the time required for pre-detection control can be shortened, and control that can ensure safety can be performed.

According to the opening / closing control system according to claim 6, when the opening / closing movement control means closes and moves the shutter curtain in the pre-detection control and an obstacle is detected, the shutter curtain is closed. When the movement is stopped and the shutter curtain is closed and moved in the post-detection control, if an obstacle is detected, the shutter curtain is opened by a predetermined amount after the closing movement of the shutter curtain is stopped. Since it is moved, when an obstacle is detected in the pre-detection control, after stopping the closing movement of the shutter curtain, the shutter curtain is opened and moved by a predetermined amount (so-called "touch-up operation" is performed). In comparison, when the position of the end portion of the shutter curtain on the closing direction side reaches the floor surface, the fully closed state can be maintained, and crime prevention can be ensured. Further, when an obstacle is detected in the post-detection control, the shutter device (for example, a shutter curtain, etc.) or an obstacle is compared with the case where the closing movement of the shutter curtain is simply stopped (so-called "touch stop operation" is performed). It is possible to prevent harm to things.

It is a figure which conceptually shows the shutter device which concerns on Embodiment 1 of this invention. It is a block diagram which showed the electrical structure of a control device. It is a flowchart of the opening / closing process which concerns on Embodiment 1. FIG. It is a flowchart of the control process before detection. It is a flowchart of the control process after detection. It is a figure which conceptually shows the shutter device which concerns on Embodiment 2. FIG. It is a flowchart of the pre-detection control process which concerns on Embodiment 2. It is a figure which shows the modification of the setting of a reference position.

Hereinafter, embodiments of the open / close control system according to the present invention will be described in detail with reference to the accompanying drawings. First, the basic concept of the embodiment of [I] will be described, then the specific contents of the embodiment of [II] will be described, and finally, a modified example of the embodiment of [III] will be described. However, the present invention is not limited to the embodiments.

[I] Basic concept of the embodiment First, the basic concept of the embodiment will be described. Embodiments typically relate to an open / close control system for controlling the open / close movement of a shutter curtain that opens and closes an opening in a building.

Here, the "building" is a concept including, for example, a detached house, an apartment house such as an apartment or a condominium, an office building, a commercial facility, a public facility, etc., although the specific structure and type thereof are arbitrary. .. Further, the "opening of a building" is an opening formed for installing an entrance or a window in a part of the building frame (for example, a wall, a floor, a ceiling, etc.). Further, a shutter device including a shutter curtain is a device attached to an opening of a building for crime prevention and fire prevention, and is a concept including, for example, all types of shutter devices capable of electrically driving a lightweight shutter or the like. Further, the opening / closing direction of the shutter device corresponds to, for example, the vertical direction, the horizontal direction, the front-rear direction, and the like. The "shutter curtain state" includes, for example, a "fully closed state" in which the opening is fully closed by the shutter curtain, a "fully open state" in which the opening is fully opened by the shutter curtain, and a part of the opening is opened. It is a concept including a "half-open state" in which the other part of the opening is closed. In the embodiment, the position of the shutter curtain in the fully closed state is referred to as a "fully closed position", and the position of the shutter curtain in the fully open state is referred to as a "fully open position". Hereinafter, in the embodiment, a case where the shutter device is a vertically openable and lightweight electric shutter provided at the entrance / exit of a garage of a building such as a detached house will be described.

[II] Specific contents of the embodiment Next, the specific contents of the embodiment will be described.

[Embodiment 1]
First, the open / close control system according to the first embodiment will be described. The first embodiment is a mode in which the obstacle detecting means is a seat plate switch.

(composition)
First, the configuration of the shutter device to which the open / close control system according to the first embodiment is applied will be described. In the following description, the X direction in FIG. 1 is the left-right direction or the width direction of the shutter device (−X direction is the left direction of the shutter device, + X direction is the right direction of the shutter device), and the Y direction in FIG. 1 is the top and bottom of the shutter device. The direction (+ Y direction is the upward direction of the shutter device, -Y direction is the downward direction of the shutter device), the direction orthogonal to the X direction and the Y direction is the front-back direction (the direction leading to the front side of the paper in FIG. 1 is the front of the shutter device). The direction (direction on the outdoor side of the building) and the direction leading to the back side of the paper in FIG. 1 are referred to as the rear direction of the shutter device (direction on the indoor side of the building).

As shown in FIG. 1, the shutter device 1 roughly includes a shutter accommodating portion 10, a guide rail 20, a shutter curtain 30, a switch 40, a take-up shaft (not shown), and an open / close control system 50. There is. However, the description of the shutter device 1 unless otherwise specified will be omitted as it is the same as the conventional one.

(Structure-shutter storage)
The shutter accommodating portion 10 is a hollow body for accommodating each portion of the shutter device 1. As shown in FIG. 1, the shutter storage portion 10 is installed above the upper end portion of the opening 2 on the wall of the building. Further, inside the shutter storage unit 10, an opening / closing machine 40, a take-up shaft, a position detecting unit 70 described later, a passing detecting unit 90 described later, a receiving unit 111 described later, and a control device of the opening / closing control system 50 are provided. In a state where the shutter curtain 30 is wound up by the winding shaft while the 120 is housed, at least a part of the shutter curtain 30 is also housed inside the shutter storage part 10. Further, the specific configuration of the shutter accommodating portion 10 is arbitrary, but for example, a plurality of bent steel plate-shaped bodies are formed by being connected to each other by a mounting tool such as a screw or a mounting screw. doing.

(Configuration-Guide rail)
The guide rail 20 guides the shutter curtain 30 so as to move along the opening / closing direction (vertical direction) of the opening 2. The guide rail 20 is a long body formed so that the cross-sectional shape is substantially U-shaped, and is arranged at each of the left and right ends of the shutter device 1 in a direction substantially along the vertical direction. It is fixed directly to the wall of the building or indirectly via a base material (not shown).

(Composition-Shutter curtain)
The shutter curtain 30 is a shielding means that sets the state of the shutter curtain 30 to a fully open state, a fully closed state, or a half open state by being closed or opened by the winding shaft. As shown in FIG. 1, the shutter curtain 30 is configured to include a plurality of slats 31, and the plurality of slats 31 are mutually provided via fitting portions formed at both upper and lower ends of each slats 31. It is mated and connected. Further, each of both ends of the shutter curtain 30 in the left-right direction is inserted into the guide rail 20 via the U-shaped open end of the guide rail 20, and the inside of the guide rail 20 in the vertical direction. Is slidable and is regulated so that it does not fall out of the guide rail 20 in the front-rear direction. A seat plate 32 is connected to the lower end of the shutter curtain 30. The seat plate 32 is arranged so as to be close to or in contact with the floor surface of the building when the shutter curtain 30 is in the fully closed state, and covers the entire length of the lower end portion of the shutter curtain 30 in the left-right direction. It is formed.

(Configuration-Switch)
The switch 40 is an opening / closing moving means for closing or opening the shutter curtain 30 by rotationally driving the take-up shaft. The switch 40 is composed of, for example, a known switch, and is configured to include an output shaft, a drive unit, a brake unit, a power supply unit, and a control unit (all of which are not shown).

Of these, the output shaft is for transmitting the rotational force transmitted from the drive unit to the take-up shaft. The brake unit is a braking means that brakes the rotation of the take-up shaft by acting on the output shaft. The drive unit is a drive means for driving the shutter curtain 30 by electrically rotating the output shaft. The power supply unit is a power supply means for supplying electric power supplied from a commercial power source (not shown) to each part of the switch 40. The control unit is a control means for controlling each part of the switch 40, and is a control means for controlling the opening and closing of the shutter curtain 30 based on the output from the control device 120.

(Structure-winding shaft)
The take-up shaft is a rotation shaft for closing or opening the shutter curtain 30. This take-up shaft is configured by using, for example, a known take-up shaft, and is installed along the left-right direction. Further, a connecting slat (not shown) connected to the upper end of the shutter curtain 30 is connected to the winding shaft, and by rotating the winding shaft, the shutter curtain 30 is closed and moved via the connecting slat. Or it can be moved open. Further, since the left end (or right end) of the take-up shaft is connected to the output shaft of the switch 40 via a chain (not shown), the take-up shaft is rotated with the rotation of the output shaft of the switch 40. Can be rotated.

(Configuration-Open / Close Control System)
Next, the configuration of the open / close control system 50 will be described. As shown in FIG. 1, the open / close control system 50 includes an operation device 60, a position detection unit 70, a passage detection unit 90, a seat plate switch 100, a transmission unit 110, a reception unit 111, and a control device 120.

(Configuration-Open / Close control system-Operating device)
The operation device 60 is an operation means for receiving an operation input related to the closing movement or the opening movement of the shutter curtain 30. The operating device 60 is configured by using, for example, a known operating device, an open button for electrically opening and moving the shutter curtain 30, a closing button for electrically closing and moving, and stopping the electrically closed or open movement. It is equipped with a stop button (not shown). When the open button, the close button, or the stop button is pressed by the user, an operation signal (that is, an open signal, a close signal, and a stop signal) corresponding to the pressed button is transmitted to the switch via the control device 120. By outputting to 40, the shutter curtain 30 can be electrically closed or opened by the switch 40, or the closed or open movement of the shutter curtain 30 can be electrically stopped.

In the first embodiment, the operation device 60 will be described as communicating with the control device 120 by wire, but the present invention is not limited to this, and for example, the operation device 60 may communicate wirelessly with the control device 120. Further, both the wired type and the wireless type operating device 60 may be provided.

(Configuration-Open / Close control system-Position detector)
The position detection unit 70 detects the position of the shutter curtain 30 (specifically, the position of the closed side end portion described later), and a signal indicating the detected position (hereinafter, referred to as “position signal”) has a predetermined cycle. It is a position detection means for outputting with. The position detecting unit 70 is configured by using, for example, a known position detecting means (for example, a Hall IC or the like), and is provided at a position near the switch 40 as shown in FIG.

Here, in the first embodiment, since the upper limit switch and the lower limit limit switch are not provided, in order to execute the opening / closing process described later, the fully open position (upper limit position of the shutter curtain 30) and the position before fully closing (shutter). It is necessary to set the lower limit position of the shutter 30. In the second embodiment described later, the fully closed position is set instead of the fully closed position). Here, the "position before fully closed" means a position in front of the fully closed position, and in the embodiment, the position will be described as a position above the fully closed position by a predetermined distance (for example, about 50 mm). The method of setting the fully open position and the fully closed position is arbitrary, but is set as shown below, for example. That is, first, the user performs a predetermined operation via the operation device 60 to set the operation mode of the shutter device 1 from the normal mode to the fully open position and the fully closed position (hereinafter referred to as "limit setting mode"). Switch to). Next, by operating the close button of the operation device 60 in the limit setting mode, the shutter curtain 30 corresponds to the position signal acquired from the position detection unit 70 while the shutter curtain 30 is closed and moved from the fully open state. The positions are associated with each other and stored in the storage unit 125 of the control device 120, which will be described later. Then, the shutter curtain 30 is closed and moved until it becomes fully closed, and after the closed movement is stopped, a predetermined operation is performed via the operation device 60, so that the shutter curtain 30 is acquired from the position detection unit 70 at the relevant timing. The position of the shutter curtain 30 corresponding to the position signal is set as the position before fully closed (specifically, the information indicating the position before fully closed is stored in the storage unit 125 of the control device 120 described later). Further, by operating the release button of the operation device 60 in the limit setting mode, the shutter curtain 30 corresponds to the position signal acquired from the position detection unit 70 while the shutter curtain 30 is opened and moved from the fully closed state. The positions are associated with each other and stored in the storage unit 125 of the control device 120, which will be described later. Then, the shutter curtain 30 is opened and moved until the state of the shutter curtain 30 is fully opened, and after the open movement is stopped, a predetermined operation is performed via the operation device 60, so that the position acquired from the position detection unit 70 at the timing is obtained. The position of the shutter curtain 30 corresponding to the signal is set as the fully open position (specifically, the information indicating the fully open position is stored in the storage unit 125 of the control device 120 described later).

(Configuration-Open / Close Control System-Pass Detection Unit)
The passage detection unit 90 determines whether or not the reference position PP has passed the end portion of the shutter curtain 30 on the closing direction side (the lower end portion of the shutter curtain 30 in FIG. 1, hereinafter referred to as the “closing side end portion”). It is a passage detecting means for detecting the above, and is configured by using, for example, a known detecting means (for example, a mechanical limit or the like), and is provided at a position near the switch 40 as shown in FIG. .. Here, the method of setting the reference position PP is arbitrary, but in the first embodiment, one is set between the fully closed position and the fully open position, and specifically, as shown in FIG. In addition, it is set to a position near the fully open position and a predetermined distance (for example, about 500 mm) from the fully open position. With such a setting, when detecting whether or not the closed side end has passed the reference position PP, the amount of closing movement of the shutter curtain 30 can be reduced, so that contact with the obstacle when there is an obstacle can be reduced. Can be avoided.

Further, the detection operation when the passage detection unit 90 is the mechanical limit is arbitrary, but is as shown below, for example. That is, when the position of the closed side end is located between the fully open position and the reference position PP, the contact state of the micro switch of the passage detection unit 90 is turned off, and the position of the closed side end is the fully closed position. When the contact state of the mechanical limit micro switch is turned on when it is located between the reference position PP and the reference position PP, the position of the closed end is the position on the opening direction side of the shutter curtain 30 with respect to the reference position PP. When the contact state of the micro switch is switched from the off state to the on state by closing the shutter curtain 30 so as to be at the position on the closing direction side of the shutter curtain 30, the closing side end is set to the reference position PP. A signal (hereinafter, referred to as a "passing signal") indicating that the signal has passed is output. Further, the shutter curtain 30 is opened and moved so that the position of the end on the closing side is from the position on the closing direction side of the shutter curtain 30 to the position on the opening direction side of the shutter curtain 30 with respect to the reference position PP. When the contact state of the switch is switched from the on state to the off state, a passing signal is output. On the other hand, the shutter curtain 30 is opened and closed so that the position of the end on the closing side maintains the position on the closing direction side of the shutter curtain 30 (or the position on the opening direction side of the shutter curtain 30) with respect to the reference position PP. Therefore, when the contact state of the micro switch is not switched, the passing signal is not output. Further, when the position of the closing side end portion is located on the closing direction side of the shutter curtain 30 with respect to the reference position PP, a signal indicating that fact (hereinafter referred to as "closing direction side signal") is output and the closing side is output. When the position of the end portion is located on the opening direction side of the shutter curtain 30 with respect to the reference position PP, a signal indicating that fact (hereinafter, referred to as "opening direction side signal") is output.

(Configuration-Open / Close Control System-Seat Plate Switch)
The seat plate switch 100 is an obstacle detecting means for detecting an obstacle, and is configured by using, for example, a known seat plate switch (for example, a micro switch), and is attached to the seat plate 32.

The detection operation when the seat plate switch 100 is a micro switch is arbitrary. For example, the lower end of the shutter curtain 30 comes into contact with an obstacle during the closing movement of the shutter curtain 30, and the shutter curtain 30 touches the shutter curtain 30. On the other hand, when it is lifted relatively upward, a signal including information indicating that an obstacle has been detected by detecting the lifted displacement by a micro switch or the like (hereinafter, "obstacle detection signal"). ") Is output. On the other hand, when the lower end of the shutter curtain 30 is not in contact with an obstacle and is not lifted upward relative to the shutter curtain 30 during the closing movement of the shutter curtain 30, an obstacle detection signal is signaled. Is not output.

In the first embodiment, it will be described that the seat plate switch 100 is provided, but the present invention is not limited to this, and for example, instead of the seat plate switch 100, an arbitrary detection means for detecting an obstacle is used. As an example, an ultrasonic sensor, a capacitance sensor, or an optical sensor may be used to detect an obstacle below the lower end of the shutter curtain 30.

(Configuration-Open / Close Control System-Transmission Unit)
The transmission unit 110 is a transmission means that wirelessly (radio waves, infrared rays, or the like) transmits an obstacle detection signal by the seat plate switch 100. The transmitter 110 is configured by using, for example, a known wireless transmitter, is provided in the vicinity of the seat plate switch 100 as shown in FIG. 1, and has wiring (not shown) with the seat plate switch 100. It is connected so that it can communicate via.

(Configuration-Open / Close Control System-Receiver)
The receiving unit 111 is a receiving means for receiving an obstacle detection signal wirelessly (radio waves, infrared rays, or the like). The receiving unit 110 is configured by using, for example, a known wireless receiver, and is provided in the vicinity of the control device 120 as shown in FIG.

(Configuration-Open / Close Control System-Control Device)
The control device 120 links each part of the shutter device 1 with each other. The control device 120 is electrically connected to the switch 40, the operation device 60, the position detection unit 70, the passage detection unit 90, and the reception unit 111 via the wiring 3, and is input as shown in FIG. It includes a unit 121, an output unit 122, a power supply unit 123, a control unit 124, and a storage unit 125.

(Configuration-Open / Close Control System-Input Unit)
The input unit 121 is an input means that receives an input of a signal including an operation signal, a position signal, a passing signal, an obstacle detection signal, and the like, and is configured by using, for example, a known input terminal or the like.

(Configuration-Open / Close Control System-Output Unit)
The output unit 122 is an output means for outputting a signal to the switch 40, and is configured by using, for example, a known output terminal or the like.

(Configuration-Open / Close control system-Power supply unit)
The power supply unit 123 supplies electric power supplied from a commercial power source or a battery (for example, a battery or the like) (not shown) to each unit of the control device 120, and also supplies the operation device 60, the position detection unit 70, the passage detection unit 90, and the reception. It is a power supply means that also supplies the unit 111.

(Configuration-Open / Close Control System-Control Unit)
The control unit 124 is a control means for controlling each unit of the control device 120. Specifically, the control unit 124 includes a CPU, various programs that are interpreted and executed on the CPU (including a basic control program such as an OS, and an application program that is started on the OS and realizes a specific function) and a program. It is a computer configured with an internal memory such as a RAM for storing various types of data.

Further, as shown in FIG. 2, the control unit 124 includes a detection unit 124a and an open / close movement control unit 124b in terms of functional concept.

The detection unit 124a is a detection means for detecting whether or not the closing side end portion has passed the reference position PP, and the position of the closing side end portion is a position on the closing direction side of the shutter curtain 30 with respect to the reference position PP. It is a detection means for detecting whether the shutter curtain 30 is present or is located on the opening direction side of the shutter curtain 30 with respect to the reference position PP. The above-mentioned "passage detection unit 90" and "detection unit 124a" correspond to "detection means" in the claims.

When the control position information registered in the open / close control system 50 (specifically, the storage unit 125 of the control device 120 described later) is lost, the open / close movement control unit 124b is closed by the detection unit 124a. Control to control the opening / closing movement of the shutter curtain 30 (hereinafter referred to as “pre-detection control”) until it is detected that It is an opening / closing movement control means that controls the opening / closing movement of the shutter curtain 30 (hereinafter, referred to as “post-detection control”) after it is detected that the shutter curtain 30 has passed. Here, the "control position information" is information indicating a position necessary for controlling the opening / closing movement of the shutter curtain 30, and is, for example, information indicating a fully open position, information indicating a position before fully closed, and a fully closed position. Although it is a concept including information indicating the reference position PP, information indicating the reference position PP, and the like, in the first embodiment, it will be described as information indicating the fully open position and information indicating the position before the fully closed position (note that in the second embodiment described later). , Information indicating the fully open position and information indicating the fully closed position). Further, "when the control position information is lost" means that the control position information is lost by switching the power supply state of the control device 120 from the off state to the on state, for example, and the storage unit 125 of the control device 120. This corresponds to the loss of control position information due to a failure. The details of the processing executed by the control unit 124 will be described later.

(Configuration-Open / Close Control System-Storage Unit)
The storage unit 125 is a storage means for storing programs and various data (for example, control position information, closing direction side distance information described later, opening direction side distance information described later, etc.) necessary for the operation of the control device 120. It is configured using a known rewritable recording medium, and a non-volatile recording medium such as a flash memory can be used.

(Opening and closing process)
Next, the opening / closing process executed by the shutter device 1 configured in this way will be described. In the following description, in the description of each process shown in FIGS. 3 to 5, the step is abbreviated as “S”. The opening / closing process is a process for controlling the opening / closing movement of the shutter curtain 30. The timing for executing this opening / closing process is arbitrary, but in the first embodiment, the opening / closing device 40, the operation device 60 of the opening / closing control system 50, the position detection unit 70, the passage detection unit 90, the seat plate switch 100, and the passage It will be described as assuming that the detection unit 90, the reception unit 111, and the control device 120 are activated after the power is turned on.

When the opening / closing process is activated, as shown in FIG. 3, the control unit 124 of the control device 120 in SA1 determines whether or not the control position information registered in the opening / closing control system 50 is lost. The method for determining whether or not the control position information is lost is arbitrary, but for example, whether or not the power supply state of the control device 120 has returned from the off state to the on state, or the storage unit 125 of the control device 120. Judgment is made based on whether or not the control position information is stored in, and if the control position information is not returned from the off state to the on state or the control position information is stored, the control position information is not lost. Judgment is made, and it is determined that the control position information is lost when the control position information is returned from the off state to the on state or when the control position information is not stored. Then, when it is determined that the control position information is lost (SA1, Yes), the control unit 124 of the control device 120 activates the pre-detection control process (SA2), and the control position information is not lost. If it is determined that (SA1, No), the post-detection control process (SA3) is activated.

(Open / close processing-pre-detection control processing)
Next, the pre-detection control process of SA2 in FIG. 3 will be described. The pre-detection control process is a process for performing pre-detection control.

When the pre-detection control process is activated, as shown in FIG. 4, the detection unit 124a of the control device 120 in SB1 identifies the position of the closed end portion based on the detection result of the passage detection unit 90. The method of specifying the position of the closing side end portion is arbitrary, but for example, it is specified based on whether or not the input unit 121 accepts the input of either the closing direction side signal or the opening direction side signal. However, when the input of the closing direction signal is accepted, the position of the closing side end is specified as the position of the shutter curtain 30 on the closing direction side of the reference position PP, and the input of the opening direction signal is accepted. If so, the position of the opening side end is specified as the position on the opening direction side of the shutter curtain 30 with respect to the reference position PP.

Here, the reason for specifying the position of the closed side end portion by using the above-mentioned specifying method is that the control position information registered in the open / close control system 50 is lost in the pre-detection control process, so that the open / close movement is performed. This is because the control unit 124b cannot specify the fully closed pre-closed position and the fully open position, so that the position of the closed side end cannot be accurately specified based on the detection result of the position detecting unit 70. On the other hand, in the post-detection control process, since the control position information is registered in the open / close control system 50, the open / close movement control unit 124b can specify the fully closed pre-closed position and the fully open position. The position of the closed side end will be specified based on.

In SB2, the open / close movement control unit 124b of the control device 120 determines whether or not the input of the first operation signal has been accepted by the input unit 121. Here, the "first operation signal" is an operation signal (for example, a closure signal) indicating an operation instruction received via the operation device 60 so that the position of the end on the closing side approaches the reference position PP. It means a signal indicating an operation instruction (hereinafter, referred to as "first operation instruction") for opening and closing the shutter curtain 30.

Further, the method of determining whether or not the input of the first operation signal is accepted is arbitrary, but in the first embodiment, the operation signal received by SB2 is the closed end specified by SB1. Judgment is made based on whether or not the signal indicates the first operation instruction for opening and closing the shutter curtain 30 so that the position of the portion approaches the reference position PP. 1 It is determined that the input of the operation signal has been accepted, and if the signal does not indicate the first operation instruction or the input of the signal has not been accepted, it is determined that the input of the first operation signal has not been accepted. For example, the operation signal received by SB2 = the closing signal, the position of the closing side end specified by SB1 = the position on the opening direction side of the shutter curtain 30 from the reference position PP, or received by SB2. When the operation signal is the open signal and the position of the closed end specified by SB1 is the position on the closing direction side of the shutter curtain 30 with respect to the reference position PP, the input of the first operation signal is accepted. It is judged that the shutter was used. On the other hand, when the operation signal received by SB2 = open signal, the position of the closed end specified by SB1 = the position on the opening direction side of the shutter curtain 30 with respect to the reference position PP, or at SB2. When the received operation signal = closing signal, the position of the closing side end specified by SB1 = the position on the closing direction side of the shutter curtain 30 with respect to the reference position PP, the input of the first operation signal is accepted. It is judged that it has not been done.

Then, when it is determined that the input of the first operation signal is not accepted (SB2, No), the open / close movement control unit 124b of the control device 120 shifts to SB3, and the input of the first operation signal is accepted. If it is determined that the result is (SB2, Yes), the process shifts to SB4.

In SB3, the open / close movement control unit 124b of the control device 120 determines whether or not the input of the second operation signal has been accepted by the input unit 121. Here, the "second operation signal" is an operation signal (for example, a closure signal) indicating an operation instruction received via the operation device 60 so that the position of the end portion on the closing side moves away from the reference position PP. It means a signal indicating an operation instruction (hereinafter, referred to as "second operation instruction") for opening and closing the shutter curtain 30.

Further, the method of determining whether or not the input of the second operation signal is accepted is arbitrary, but in the first embodiment, the operation signal received by SB3 is the closed end specified by SB1. Judgment is made based on whether or not it is a signal indicating a second operation instruction for opening and closing the shutter curtain 30 so that the position of the unit moves away from the reference position PP. 2 It is determined that the input of the operation signal has been accepted, and if the signal does not indicate the second operation instruction or the input of the signal has not been accepted, it is determined that the input of the second operation signal has not been accepted. For example, the operation signal received by SB3 = the closing signal, the position of the closing side end specified by SB1 = the position on the closing direction side of the shutter curtain 30 with respect to the reference position PP, or received by SB3. When the received operation signal = open signal, the position of the closed side end specified by SB1 = the position on the open direction side of the shutter curtain 30 with respect to the reference position PP, the input of the second operation signal is accepted. It is judged that the shutter was used. On the other hand, when the operation signal received by SB3 = open signal, the position of the closed end specified by SB1 = the position on the closing direction side of the shutter curtain 30 with respect to the reference position PP, or at SB3. When the received operation signal = closing signal, the position of the closing side end specified by SB1 = the position on the opening direction side of the shutter curtain 30 with respect to the reference position PP, the input of the second operation signal is accepted. It is judged that it has not been done.

Then, when it is determined that the input of the second operation signal is not accepted (SB3, No), the open / close movement control unit 124b of the control device 120 shifts to SB1 and receives the input of the second operation signal. If it is determined that the result is (SB3, Yes), the process shifts to SB5.

In SB4, the opening / closing movement control unit 124b of the control device 120 controls the opening / closing movement of the shutter curtain 30 when the operation signal received by SB2 is the first operation signal (hereinafter, “first detection pre-detection control””. ) Is executed, and then the process proceeds to SB6.

Here, the control method of the first pre-detection control is arbitrary, but in the first embodiment, when the input of the first operation signal is accepted by SB2, the input of the first operation signal is subsequently accepted. The shutter curtain 30 is opened and closed even if the above is not continued (so-called "control of the opening and closing movement of the shutter curtain 30 by self-holding operation" is performed). For example, when the first operation signal received by SB2 = the closing signal, the shutter curtain 30 is closed and moved even if the reception of the closing signal input is not continued thereafter. As a result, when the input of the first operation signal is accepted by SB2, the shutter curtain 30 is opened and closed only while the input of the first operation signal is accepted (so-called "push-off operation"). "Controlling the opening / closing movement of the shutter curtain 30"), the opening / closing movement of the shutter curtain 30 can be performed more easily. Since the shutter curtain 30 is opened and closed by the first pre-detection control by the above control method, the stop signal is performed in the processing after SB4 (specifically, the processing not related to the pre-detection control processing and the post-detection control processing). The opening / closing movement of the shutter curtain 30 is continued until the input of the shutter curtain 30 is accepted or the opening / closing movement of the shutter curtain 30 is stopped.

In SB5, the opening / closing movement control unit 124b of the control device 120 controls the opening / closing movement of the shutter curtain 30 when the operation signal received by SB3 is the second operation signal (hereinafter, “second detection pre-control””. ) Is executed, and then the process proceeds to SB6. The control method of the second pre-detection control is arbitrary, but in the first embodiment, when the input of the second operation signal is received by SB3, while the second operation signal is received, Only the shutter curtain 30 is opened and closed. As a result, when the input of the second operation signal is received by SB3, the shutter device is opened and closed even if the reception of the input of the second operation signal is not continued, as compared with the case where the shutter curtain 30 is opened and closed. It is possible to avoid harm to 1 (for example, shutter curtain 30 or the like) or an obstacle.

In SB6, the open / close movement control unit 124b of the control device 120 determines whether or not an obstacle exists. The method for determining whether or not the obstacle exists is arbitrary, but in the first embodiment, the determination is made based on whether or not the input of the obstacle detection signal is accepted by the input unit 121, and the obstacle is detected. When the signal input is accepted, it is determined that an obstacle exists, and when the obstacle detection signal input is not accepted, it is determined that there is no obstacle. Then, the open / close movement control unit 124b of the control device 120 shifts to SB7 when it is determined that an obstacle exists (SB6, Yes), and when it is determined that there is no obstacle (SB6, No). Moves to SB8.

In SB7, the opening / closing movement control unit 124b of the control device 120 stops the opening / closing movement of the shutter curtain 30 executed in SB4. The method of stopping the opening / closing movement of the shutter curtain 30 is arbitrary, but in the first embodiment, the opening / closing movement of the shutter curtain 30 is simply stopped (so-called "touch stop operation" is performed). As a result, when an obstacle is detected in the pre-detection control process, after stopping the closing movement of the shutter curtain 30, the shutter curtain 30 is opened and moved by a predetermined amount (so-called "touch-up operation"). ), When the position of the closed end reaches the floor surface, the fully closed state can be maintained and crime prevention can be ensured.

In SB8, the detection unit 124a of the control device 120 determines whether or not the closed end has passed the reference position PP based on the detection result of the passage detection unit 90. The method for determining whether or not the closed end has passed the reference position PP is arbitrary, but for example, it is determined based on whether or not the input of the passing signal is accepted by the input unit 121, and the passing signal is determined. When the input is accepted, it is determined that the closed side end has passed the reference position PP, and when the input of the passing signal is not accepted, it is determined that the closed side end has not passed the reference position PP. (Note that the same applies to SD6 of the second embodiment described later). Then, when it is determined that the closed side end portion does not pass through the reference position PP (SB8, No), the open / close movement control unit 124b of the control device 120 shifts to SB1, and the closed side end portion is at the reference position. If it is determined that the PP has passed (SB8, Yes), the process proceeds to SB9.

In SB9, the open / close movement control unit 124b of the control device 120 restores the control position information, and then returns to the open / close process of FIG. 3 to activate the post-detection control process (SA3).

The method for restoring the control position information is arbitrary, but in the first embodiment, it is as shown below. That is, among the control position information, the information indicating the position before fully closed is stored in the storage unit 125 of the control device 120 from the reference position PP at the position indicated by the position signal received by the input unit 121 during the processing of SB9. The distance of the distance information on the closing direction side is subtracted, and the information indicating the subtracted value is stored in the storage unit 125 as information indicating the position before the fully closed position (note that in the second embodiment described later, the fully closed position is indicated. Information shall be stored in the storage unit 125). Further, among the control position information, the information indicating the fully open position is open stored in the storage unit 125 of the control device 120 from the reference position PP at the position indicated by the position signal received by the input unit 121 during the processing of SB9. The distance of the direction side distance information is added, and the information indicating the added value is stored in the storage unit 125 as the information indicating the fully open position. Here, as shown in FIG. 1, the "closed direction side distance information" is information indicating the distance D1 from the reference position PP to the position before full closure (note that in the second embodiment described later, the distance information). It will be described as information indicating the distance D1 from the reference position PP to the fully closed position). Further, the "opening direction side distance information" is information indicating the distance D2 from the reference position PP to the fully opened position, as shown in FIG.

By such pre-detection control processing, the opening / closing movement of the shutter curtain 30 can be controlled based on the detection result of the seat plate switch 100, and the shutter device 1 (for example, the shutter curtain 30 or the like) or an obstacle is harmed. You can avoid that. In particular, the first pre-detection control and the second pre-detection control can be different. Therefore, for example, in the first pre-detection control, the shutter curtain 30 can be easily opened and closed, and in the second pre-detection control, the shutter device 1 or an obstacle is harmed. Since control that can be avoided can be performed, it is possible to further improve the convenience of the user in using the closed control system as compared with the case where the first pre-detection control and the second pre-detection control are the same. ..

(Open / close processing-control processing after detection)
Next, the post-detection control process of SA3 in FIG. 3 will be described. The post-detection control process is a process for performing post-detection control. In the first embodiment, when the shutter curtain 30 is opened and closed by the first pre-detection control of the SB 4 of FIG. 4 during the processing of the SB 9 of FIG. 4, the shutter curtain 30 is opened and closed in the post-detection control processing. It is assumed that the opening and closing movement of the shutter curtain 30 is continued.

When the post-detection control process is activated, as shown in FIG. 5, the open / close movement control unit 124b of the control device 120 in SC1 identifies the position of the closed side end portion based on the detection result of the position detection unit 70. .. The method of specifying the position of the closed side end portion is arbitrary, but for example, the position indicated by the position signal received by the input unit 121 during the processing of SC1 is specified as the position of the closed side end portion (note that the position of the closed side end portion is specified). The same applies to the processing of SC7 described later).

In SC2, the open / close movement control unit 124b of the control device 120 determines whether or not an obstacle exists. The method for determining whether or not the obstacle exists is arbitrary, but in the first embodiment, the determination is made based on whether or not the input of the obstacle detection signal is accepted by the input unit 121, and the obstacle is detected. When the signal input is accepted, it is determined that an obstacle exists, and when the obstacle detection signal input is not accepted, it is determined that there is no obstacle (note that the processing of SC8 described later is also performed). The same applies). Then, the open / close movement control unit 124b of the control device 120 shifts to SC3 when it is determined that there is no obstacle (SC2, No), and when it is determined that there is an obstacle (SC2, Yes). Moves to SC4.

In SC3, the open / close movement control unit 124b of the control device 120 determines whether or not the state of the shutter curtain 30 is in the fully closed state or the fully open state. Here, the method of determining whether or not it is in the fully open state is arbitrary, but for example, it is determined based on whether or not the position of the closed side end specified by SC1 is the fully open position, and the fully open position is determined. If it is, it is determined that it is in the fully open state, and if it is not in the fully open position, it is determined that it is not in the fully open state (the same applies to the processing of SC9 described later). The method for determining whether or not the vehicle is in the fully closed state is arbitrary. For example, the position of the closed side end specified by SC1 is located below the position before the fully closed state, and obstacle detection is performed. Judgment is made based on whether or not the signal input is accepted. Here, if the position of the closed side end is lower than the position before fully closed and the input of the obstacle detection signal is accepted, it is determined that the closed side end is in the fully closed state, and the closed side end is If the position is not lower than the position before fully closed, or if the input of the obstacle detection signal is not accepted, it is determined that the position is not fully closed (the same applies to the processing of SC9 described later). Then, when the open / close movement control unit 124b of the control device 120 is determined to be in the fully closed state or the fully open state (SC3, Yes), it shifts to the SC4, and when it is determined that the open / close movement control unit 124b is not in the fully closed state or the fully open state. (SC3, No) shifts to SC5.

In SC4, the opening / closing movement control unit 124b of the control device 120 stops the opening / closing movement of the shutter curtain 30 executed in the pre-detection control process, and then shifts to SC5.

The method of stopping the opening / closing movement of the shutter curtain 30 is arbitrary, but in the first embodiment, it is as follows.

That is, when it is determined by SC2 that an obstacle exists, the shutter curtain 30 is positioned so that the position of the closed end is closer to the opening direction (upper position) of the shutter curtain 30 than the current position. Is opened and moved, and then the open movement is stopped (a so-called "touch-up operation" is performed. The same applies to the processing of SC10 described later). That is, in the first embodiment, the pre-detection control based on the detection result of the seat plate switch 100 and the post-detection control based on the detection result of the seat plate switch 100 are different. As a result, when an obstacle is detected in the post-detection control process, the shutter device 1 (for example, the shutter curtain) is compared with the case where the closing movement of the shutter curtain 30 is simply stopped (so-called "touch stop operation" is performed). 30 etc.) or damage to obstacles can be suppressed.

Further, when the SC3 determines that the shutter curtain 30 is in the fully closed state or the fully open state, the opening / closing movement of the shutter curtain 30 is simply stopped (the same applies to the processing of the SC10 described later). In particular, when the SC3 determines that the shutter curtain is in the fully closed state, the shutter curtain 30 is stopped from opening and closing after the closed end is in contact with the floor surface, so that a so-called "touch stop operation" is performed. Will be done. As a result, when the shutter curtain 30 is in the fully closed state or the fully open state in the post-detection control process, the fully closed state or the fully open state can be maintained when the position of the closed side end reaches the floor surface. Security and usability can be ensured.

In the SC5, the open / close movement control unit 124b of the control device 120 determines whether or not the input of the operation signal (for example, the closure signal) is received by the input unit 121. Then, when it is determined that the input of the operation signal is not accepted (SC5, No), the open / close movement control unit 124b of the control device 120 shifts to SC1 and determines that the input of the operation signal is accepted. In the case (SC5, Yes), it shifts to SC6.

In the SC6, the open / close movement control unit 124b of the control device 120 causes the shutter curtain 30 to move open / close or stops the open / close movement of the shutter curtain 30 based on the operation signal received by the SC5. The control method for opening and closing the shutter curtain 30 is arbitrary, but in the first embodiment, when the input of the operation signal is received by the SC4, the reception of the input of the operation signal continues thereafter. The shutter curtain 30 is opened and closed even if it is not present (so-called "control of the opening and closing movement of the shutter curtain 30 by self-holding operation" is performed).

In SC7, the open / close movement control unit 124b of the control device 120 identifies the position of the closed side end portion based on the detection result of the position detection unit 70.

In SC8, the open / close movement control unit 124b of the control device 120 determines whether or not an obstacle exists. Then, the open / close movement control unit 124b of the control device 120 shifts to SC9 when it is determined that there is no obstacle (SC8, No), and when it is determined that there is an obstacle (SC8, Yes). Moves to SC10.

In SC9, the open / close movement control unit 124b of the control device 120 determines whether or not the state of the shutter curtain 30 is in the fully closed state or the fully open state. Then, when it is determined that the open / close movement control unit 124b of the control device 120 is in the fully closed state or the fully open state (SC9, Yes), the control device 120 shifts to the SC10. On the other hand, when it is determined that the state is not fully closed or not fully open (SC9, No), the control process after detection is terminated, and after returning to the open / close process of FIG. 3, the process shifts to SA1 of FIG. The processes of SA1 to SA3 in FIG. 3 are repeated.

In SC10, the opening / closing movement control unit 124b of the control device 120 stops the opening / closing movement of the shutter curtain 30 executed in SC5. After that, when the control process after detection is completed, the process returns to the open / close process of FIG. 3, and then the process shifts to SA1 of FIG. 3, the processes of SA1 to SA3 of FIG. 3 are repeated in the same manner thereafter.

By such a post-detection control process, the opening / closing movement of the shutter curtain 30 can be controlled based on the detection result of the seat plate switch 100, and the shutter device 1 (for example, the shutter curtain 30 or the like) or an obstacle is harmed. You can avoid that. In particular, the opening / closing movement of the shutter curtain 30 by the first pre-detection control can be continued until the opening / closing movement of the shutter curtain 30 is stopped at SC4, SC6, or SC10. For example, the post-detection control process is activated. Compared with the case where the opening / closing movement of the shutter curtain 30 by the first pre-detection control is stopped immediately after the shutter curtain 30, it is possible to perform control that can avoid giving a sense of discomfort to the user.

Further, when the control position information registered in the opening / closing control system 50 is lost due to the opening / closing process as described above, the pre-detection control based on the detection result of the seat plate switch 100 and the detection result of the seat plate switch 100 are used. It can be different from the post-detection control based on it. Therefore, it is possible to perform control that can ensure crime prevention as compared with the case where the pre-detection control based on the detection result of the seat plate switch 100 and the post-detection control based on the detection result of the seat plate switch 100 are the same. , It becomes possible to improve the convenience of the user in using the open / close control system 50.

(Opening / closing process-specific processing content)
Subsequently, a specific situation in which the opening / closing process according to the first embodiment is executed and the processing content in that case will be described below.

(Opening / closing process-Specific processing content-First specific example)
First, the first specific example will be described. When the control position information registered in the open / close control system 50 is lost and the shutter curtain 30 is in the fully open state, the switch 40 and the open / close device 40 are opened / closed in order to close and move the shutter curtain 30. When the power of the operation device 60, the position detection unit 70, the passage detection unit 90, the seat plate switch 100, the passage detection unit 90, the reception unit 111, and the control device 120 of the control system 50 is turned on, the opening / closing shown below is performed. Processing is done.

That is, first, in the opening / closing process, when it is determined in SA1 of FIG. 3 that the control position information is lost, the pre-detection control process (SA2) is activated.

Next, in the pre-detection control process, first, in SB1 of FIG. 4, the position of the closed side end portion = the position of the shutter curtain 30 on the opening direction side of the reference position PP is specified, and in SB2 of FIG. 4, the operation signal = When the input of the first operation signal is received by the input of the closing signal, the first pre-detection control (control of the closing movement of the shutter curtain 30) is executed in SB4 of FIG. Next, in SB8 of FIG. 4, it is determined that an obstacle exists based on the detection result of the seat plate switch 100 in SB6 of FIG. 4 by the time it is determined that the closed side end has passed the reference position PP. , The closing movement of the shutter curtain 30 is stopped in SB7 of FIG. 4 (specifically, a "touch stop operation" is performed). Next, after the obstacle is removed, the operation signal = closure signal is re-input in SB2 of FIG. 4, and when the input of the first operation signal is accepted, the first pre-detection control is performed in SB4 of FIG. Will be re-executed. Then, when it is determined in SB8 of FIG. 4 that the end portion on the closing side has passed the reference position PP, the SB9 of FIG. 4 continues the closing movement of the shutter curtain 30 by the first pre-detection control of SB4 of FIG. The control position information is restored in, and the post-detection control process (SA3) is started.

Next, in the post-detection control process, first, when it is determined in SC2 of FIG. 5 that an obstacle exists based on the detection result of the seat plate switch 100, the closing movement of the shutter curtain 30 is stopped in SC4 of FIG. (Specifically, a "touch-up operation" is performed). Next, when the input of the operation signal = closing signal is accepted in SC5 of FIG. 5 after the obstacle is removed, the closing movement of the shutter curtain 30 is restarted in SC6 of FIG. After that, when it is determined in SC9 of FIG. 5 that the shutter curtain is in the fully closed state, the closing movement of the shutter curtain 30 is stopped in SC10 of FIG. 5 (specifically, a "touch stop operation" is performed).

When the control position information registered in the open / close control system 50 is lost by the process corresponding to the first specific example, the pre-detection control based on the detection result of the seat plate switch 100 is performed. The post-detection control based on the detection result of the seat plate switch 100 can be different from the pre-detection control based on the detection result of the seat plate switch 100 and the post-detection control based on the detection result of the seat plate switch 100. Compared to the case where they are the same, it is possible to perform control that can ensure crime prevention.

(Opening / closing process-Specific processing content-Second specific example)
Next, a second specific example will be described. When the control position information registered in the open / close control system 50 is not lost and the shutter curtain 30 is in the fully open state, the switch 40 and the open / close are opened / closed in order to close and move the shutter curtain 30. When the power of the operation device 60, the position detection unit 70, the passage detection unit 90, the seat plate switch 100, the passage detection unit 90, the reception unit 111, and the control device 120 of the control system 50 is turned on, the opening / closing shown below is performed. Processing is done.

That is, first, in the opening / closing process, if it is determined in SA1 of FIG. 3 that the control position information is not lost, the post-detection control process (SA3) is activated.

Next, in the post-detection control process, first, when the input of the operation signal = closing signal is received in SC5 of FIG. 5, the closing movement of the shutter curtain 30 is executed in SC6 of FIG. Next, when it is determined in SC8 of FIG. 5 that an obstacle exists based on the detection result of the seat plate switch 100, the closing movement of the shutter curtain 30 is stopped in SC10 of FIG. 5 (specifically, "touch". The "up operation" is performed), and after the detection, the control process ends and the process returns to the open / close process.

Next, in the opening / closing process, if it is determined in SA1 of FIG. 3 that the control position information is not lost, the post-detection control process (SA3) is restarted.

Next, when the input of the operation signal = closing signal is accepted in SC5 of FIG. 5 after the obstacle is removed, the closing movement of the shutter curtain 30 is restarted in SC6 of FIG. Then, when it is determined in SC9 of FIG. 5 that the shutter curtain is in the fully closed state, the closing movement of the shutter curtain 30 is stopped in SC10 of FIG. 5 (specifically, a "touch stop operation" is performed).

When the control position information registered in the open / close control system 50 is not lost by the process corresponding to the second specific example, based on the closure signal input in SC5 of FIG. Since the shutter curtain 30 can be closed and moved, the closing movement of the shutter curtain 30 can be stopped when an obstacle is detected, and then the closing movement of the shutter curtain 30 can be restarted, the same control as that of the normal shutter device 1 can be performed. It becomes possible to do.

(Effect of Embodiment 1)
As described above, according to the first embodiment, when the control position information registered in the open / close control system 50 is lost, the shutter curtain is used until it is detected that the closed end portion has passed the reference position PP. An open / close movement control unit that performs pre-detection control for controlling the open / close movement of the shutter curtain 30 and post-detection control for controlling the open / close movement of the shutter curtain 30 after it is detected that the closed end has passed the reference position PP. The seat plate switch is provided with 124b, and the open / close movement control unit 124b makes the pre-detection control based on the detection result of the seat plate switch 100 different from the post-detection control based on the detection result of the seat plate switch 100. Compared with the case where the pre-detection control based on the detection result of 100 and the post-detection control based on the detection result of the seat plate switch 100 are the same, it is possible to perform control that can ensure crime prevention, and the open / close control system 50. It becomes possible to improve the convenience of the user in using.

Further, the opening / closing movement control unit 124b controls the opening / closing movement of the shutter curtain 30 when the operation instruction received via the operation device 60 is the first operation instruction when the pre-detection control is performed. The first pre-detection control, which is, and the second pre-detection control, which is the control of the opening / closing movement of the shutter curtain 30 performed when the operation instruction received via the operation device 60 is the second operation instruction, are different. Therefore, for example, in the first pre-detection control, the shutter curtain 30 can be easily opened and closed, and in the second pre-detection control, the shutter device 1 or an obstacle is harmed. It is possible to perform control that can avoid the above, and it is possible to further improve the convenience of the user in using the closed control system as compared with the case where the first pre-detection control and the second pre-detection control are the same. ..

Further, when the opening / closing movement control unit 124b receives the first operation instruction in the first pre-detection control, the opening / closing movement of the shutter curtain 30 is performed even if the reception of the first operation instruction is not continued thereafter. In the second pre-detection control, when the second operation instruction is received, the shutter curtain 30 is opened / closed or moved only while the second operation instruction is received, or the shutter curtain 30 is opened / closed. In the first pre-detection control, when the first operation instruction is received, the shutter curtain 30 is opened and closed only while the first operation instruction is received (so-called "push-off"). The opening / closing movement of the shutter curtain 30 can be performed more easily than the operation of controlling the opening / closing movement of the shutter curtain 30). Further, in the second pre-detection control, when the second operation instruction is received, the shutter device is opened and closed even if the reception of the second operation instruction is not continued thereafter, as compared with the case where the shutter curtain 30 is opened and closed. It is possible to avoid harm to 1 (for example, shutter curtain 30 or the like) or an obstacle.

Further, when the opening / closing movement control unit 124b is moving the shutter curtain 30 to open / close in the first pre-detection control, if it is detected that the closed side end portion has passed the reference position PP, after the detection. Since the opening / closing movement of the shutter curtain 30 is continued in the control, for example, the user feels uncomfortable as compared with the case where the opening / closing movement of the shutter curtain 30 by the first pre-detection control is stopped immediately after the post-detection control is executed. It is possible to perform control that can avoid this.

Further, when an obstacle is detected when the shutter curtain 30 is closed and moved by the opening / closing movement control unit 124b in the pre-detection control, the closing movement of the shutter curtain 30 is stopped and the shutter curtain 30 is controlled after the detection. When an obstacle is detected when the shutter curtain 30 is closed and moved, the shutter curtain 30 is opened and moved by a predetermined amount after the closed movement of the shutter curtain 30 is stopped. Compared to the case where the shutter curtain 30 is opened and moved by a predetermined amount after the closing movement of the shutter curtain 30 is stopped when an obstacle is detected in the pre-control (so-called "touch-up operation" is performed). When the position of the closed end reaches the floor surface, the fully closed state can be maintained and crime prevention can be ensured. Further, as compared with the case where the closing movement of the shutter curtain 30 is simply stopped (so-called "touch stop operation") when an obstacle is detected in the post-detection control, the shutter device 1 (for example, the shutter curtain 30 or the like) is used. ) Or the damage to the obstacle can be suppressed.

[Embodiment 2]
Next, the opening / closing control system according to the second embodiment will be described. The second embodiment is a mode in which the obstacle detecting means is a rotation speed detecting unit. However, the configuration of the second embodiment is substantially the same as the configuration of the first embodiment unless otherwise specified, and the configuration substantially the same as the configuration of the first embodiment is used in the first embodiment. The same code and / or name as the one used was added as necessary, and the description thereof will be omitted.

(composition)
First, the configuration of the shutter device to which the open / close control system according to the second embodiment is applied will be described. The shutter device 200 according to the second embodiment has substantially the same configuration as the shutter device 1 according to the first embodiment. However, the details of the configuration of the open / close control system 50 are devised as shown below.

(Configuration-Details of configuration of open / close control system)
Next, the details of the configuration of the open / close control system 50 will be described. In the second embodiment, as shown in FIG. 6, the open / close control system 50 includes an operation device 60, a position detection unit 70, a passage detection unit 90, a control device 120, and a rotation speed detection unit 80.

(Configuration-Details of configuration of open / close control system-Rotation speed detector)
The rotation speed detecting unit 80 is an obstacle detecting means for detecting an obstacle that hinders the closing movement of the shutter curtain 30, and is a rotation speed per unit time in the driving unit of the switch 40 (hereinafter, “driving unit”. It is a rotation speed detection means for detecting (referred to as "rotation speed") and outputting a signal indicating the detected rotation speed (hereinafter referred to as "rotation speed signal") at a predetermined cycle, as shown in FIG. Is provided near the switch 40. Further, the rotation speed of the drive unit specifies the load amount of the drive unit. The higher the rotation speed, the lower the load amount of the drive unit, and the lower the rotation speed, the higher the load amount of the drive unit. Show that.

The specific configuration of the position detection unit 70 and the rotation speed detection unit 80 is arbitrary, but in the embodiment, a Hall IC or the like having the functions of both the position detection unit 70 and the rotation speed detection unit 80 is used. It is composed of. However, the present invention is not limited to this, and for example, the position detection unit 70 may be configured by using a potentiometer or the like, and the rotation speed detection unit 80 may be configured by using a tacho generator or the like.

(Configuration-Details of open / close control system configuration-Control device)
The control device 120 is electrically connected to the switch 40, the operation device 60, the position detection unit 70, and the passage detection unit 90 via the wiring 3, and the input unit 121, the output unit 122, the power supply unit 123, and the control device 120. A unit 124 and a storage unit 125 are provided.

Of these, the control unit 124 includes a detection unit 124a, an opening / closing movement control unit 124b, and an acquisition unit (not shown). The acquisition unit is an acquisition means for acquiring the rotation speed of the drive unit (load amount of the drive unit). The method of acquiring the rotation speed of the drive unit by this acquisition unit is arbitrary, but in the embodiment, the rotation speed of the drive unit corresponding to a plurality of rotation speed signals is acquired from the rotation speed detection unit 80 at a predetermined cycle. Of the acquired rotation speeds of the drive units, a predetermined number of continuous drive unit rotation speeds are grouped as the rotation speeds of the drive units corresponding to the moving sections, and the rotation speeds of a plurality of drive units corresponding to the grouped movement sections are grouped. Smooth the numbers. Here, the "moving section" means a section in which the shutter curtain 30 is opened and closed, and in the embodiment, the distance from the fully open position to the fully closed position is set to a predetermined interval (for example, 1 mm or the like) or a predetermined time (for example, 1 mm). For example, a section divided by 0.1 sec, etc.) is applicable. Further, "smoothing the rotation speeds of the plurality of drive units corresponding to the moving section" means, for example, extracting the first acquired rotation speed from the rotation speeds of the plurality of driving units corresponding to the moving section. It corresponds to setting the extracted rotation speed as the rotation speed of the smoothed drive unit.

(Opening and closing process)
Next, the opening / closing process executed by the shutter device 200 configured in this way will be described. Since the opening / closing process according to the second embodiment is the same as SA1 to SA3 in FIG. 3, SC1 in FIG. 5, and SC5 to SC7 in FIG. 5, illustration and description will be omitted. Further, SD1 to SD5 and SD7 in FIG. 7 are the same as SB1 to SB5 and SD9 in FIG. 4, so description thereof will be omitted.

(Open / close processing-pre-detection control processing)
First, the pre-detection control process will be described. As shown in FIG. 7, after the processing of SD4 or SD5, the detection unit 124a of the control device 120 in the SD6 is the passage detection unit in the SD6 without determining whether or not an obstacle exists as in the first embodiment. Based on the detection result of 90, it is determined whether or not the closed side end portion has passed the reference position PP. Then, when it is determined that the closed side end portion does not pass through the reference position PP (SD6, No), the open / close movement control unit 124b of the control device 120 shifts to SD1, and the closed side end portion is at the reference position. If it is determined that the PP has passed (SD6, Yes), the process proceeds to SD7.

Here, in the second embodiment, as described above, although the acquisition unit can acquire the rotation speed of the drive unit (load amount of the drive unit), an obstacle exists based on the acquisition result of the acquisition unit. It is not determined whether or not (that is, whether or not an obstacle exists is determined by ignoring the detection result of the rotation speed detection unit 80). The reason is as shown below. That is, as described above, in the pre-detection control process, the position of the closed side end cannot be accurately specified based on the detection result of the position detection unit 70, so that the rotation speed acquired by the acquisition unit ( The load amount of the drive unit) corresponds to the position (current position) of the closed end portion of the overload reference value information stored in the memory of the control device 120 when the above rotation speed is acquired. Since it is very difficult to make a judgment based on whether or not the information exceeds the reference value, it is assumed that it is not judged whether or not an obstacle exists based on the detection result of the acquisition unit. On the other hand, in the post-detection control process, the position of the closed side end can be accurately specified based on the detection result of the position detection unit 70, so that an obstacle exists based on the detection result of the acquisition unit. Whether or not it is determined. That is, in the second embodiment, the pre-detection control based on the detection result of the rotation speed detection unit 80 and the post-detection control based on the detection result of the rotation speed detection unit 80 are different. Here, the "overload reference value information" is information indicating a reference value (hereinafter, referred to as "overload reference value") for determining whether or not the drive unit is in an overload state, for example. , It is set by correcting the past rotation speed information with a predetermined correction value. Further, the "past rotation speed information" is information stored in the storage unit 125 of the control device 120 before the pre-detection control process is executed, and is in the movement section acquired by the acquisition unit in the past. This is information indicating the rotation speed of the corresponding drive unit.

By such pre-detection control processing, it is possible to control the opening / closing movement of the shutter curtain 30 based on the detection result of the rotation speed detection unit 80 (specifically, ignoring the detection result of the rotation speed detection unit 80). It is possible to avoid harm to the shutter device 200 (for example, the shutter curtain 30 or the like) or an obstacle.

(Open / close processing-control processing after detection)
Returning to FIG. 5, next, the post-detection control process will be described. As shown in FIG. 5, in SC2, the open / close movement control unit 124b of the control device 120 determines whether or not an obstacle exists. The method for determining whether or not this obstacle exists is arbitrary, but in the second embodiment, the rotation speed (load amount of the drive unit) acquired by the acquisition unit during the processing of the SC2 is the control device 120. Judgment is based on whether or not the overload reference value information stored in the memory exceeds the reference value of the overload reference value information corresponding to the position (current position) of the closed side end acquired by SC1. do. Here, if it exceeds the reference value of the overload reference value information, it is determined that an obstacle exists, and if it does not exceed the reference value of the overload reference value information, it is determined that no obstacle exists (note that it is determined that there is no obstacle). , The same applies to the processing of SC8). Then, the open / close movement control unit 124b of the control device 120 shifts to SC3 when it is determined that there is no obstacle (SC2, No), and when it is determined that there is an obstacle (SC2, Yes). Moves to SC4.

Further, in the SC3, the open / close movement control unit 124b of the control device 120 determines whether or not the state of the shutter curtain 30 is a fully closed state or a fully open state. Here, the method of determining whether or not it is in the fully closed state or the fully open state is arbitrary. For example, whether or not the position of the closed side end specified by SC1 is the fully closed position or the fully open position. If it is in the fully closed position or the fully open position, it is determined that it is in the fully closed state or the fully open state, and if it is not in the fully closed position or the fully open position, it is determined that it is not in the fully closed state or the fully open state ( The same applies to the processing of SC9). Then, when the open / close movement control unit 124b of the control device 120 is determined to be in the fully closed state or the fully open state (SC3, Yes), it shifts to the SC4, and when it is determined that the open / close movement control unit 124b is not in the fully closed state or the fully open state. (SC3, No) shifts to SC5.

Further, in SC4, the opening / closing movement control unit 124b of the control device 120 stops the opening / closing movement of the shutter curtain 30 executed in the pre-detection control process, and then shifts to SC5. The method of stopping the opening / closing movement of the shutter curtain 30 is arbitrary, but in the second embodiment, it is as follows. That is, when it is determined by SC2 that an obstacle exists, the shutter curtain 30 is positioned so that the position of the closed end is closer to the opening direction (upper position) of the shutter curtain 30 than the current position. Is opened and moved, and then the open movement is stopped (so-called "touch-up operation" is performed. The same applies to the processing of SC10). Further, when the SC3 determines that the shutter curtain 30 is in the fully closed state or the fully open state, the opening / closing movement of the shutter curtain 30 is simply stopped (the same applies to the processing of the SC10).

Further, in the SC8, the open / close movement control unit 124b of the control device 120 determines whether or not an obstacle exists. Then, the open / close movement control unit 124b of the control device 120 shifts to SC9 when it is determined that there is no obstacle (SC8, No), and when it is determined that there is an obstacle (SC8, Yes). Moves to SC10.

Further, in the SC9, the open / close movement control unit 124b of the control device 120 determines whether or not the state of the shutter curtain 30 is a fully closed state or a fully open state. Then, when it is determined that the open / close movement control unit 124b of the control device 120 is in the fully closed state or the fully open state (SC9, Yes), the control device 120 shifts to the SC10. On the other hand, when it is determined that the state is not fully closed or not fully open (SC9, No), the control process after detection is terminated, and after returning to the open / close process of FIG. 3, the process shifts to SA1 of FIG. The processes of SA1 to SA3 in FIG. 3 are repeated.

In SC10, the opening / closing movement control unit 124b of the control device 120 stops the opening / closing movement of the shutter curtain 30 executed in SC5. After that, when the control process after detection is completed, the process returns to the open / close process of FIG. 3, and then the process shifts to SA1 of FIG. 3, the processes of SA1 to SA3 of FIG. 3 are repeated in the same manner thereafter.

By such post-detection control processing, it is possible to control the opening / closing movement of the shutter curtain 30 based on the detection result of the rotation speed detection unit 80 (specifically, in consideration of the detection result of the rotation speed detection unit 80). It is possible to avoid harm to the shutter device 200 (for example, the shutter curtain 30 or the like) or an obstacle.

Further, when the control position information registered in the open / close control system 50 is lost due to the open / close process as described above, the pre-detection control and the detection of the rotation speed detection unit 80 based on the detection result of the rotation speed detection unit 80 are performed. It is possible to make it different from the post-detection control based on the result. Therefore, as compared with the case where the pre-detection control based on the detection result of the rotation speed detection unit 80 and the post-detection control based on the detection result of the rotation speed detection unit 80 are the same, an obstacle by the rotation speed detection unit 80 Since it is possible to avoid hindering the opening / closing movement of the shutter curtain 30 due to erroneous detection, it is possible to perform control that can ensure usability. In particular, since the reference position PP cannot be confirmed in the pre-detection control, the rotation speed detection unit 80 may not be able to accurately detect an obstacle in the pre-detection control. It can be said that it is effective to make the pre-detection control based on the above and the post-detection control based on the detection result of the rotation speed detection unit 80 different. Therefore, it is possible to improve the convenience of the user in using the open / close control system 50.

(Effect of Embodiment 2)
As described above, according to the second embodiment, the open / close movement control unit 124b performs pre-detection control based on the detection result of the rotation speed detection unit 80 and post-detection control based on the detection result of the rotation speed detection unit 80. Since they are different, the control that can ensure usability can be performed as compared with the case where the pre-detection control based on the detection result of the rotation speed detection unit 80 and the post-detection control based on the detection result of the rotation speed detection unit 80 are the same. This can be done, and it becomes possible to improve the convenience of the user in using the open / close control system 50.

[III] Modifications to Embodiments Although the embodiments of the present invention have been described above, the specific configurations and means of the present invention are within the scope of the technical idea of each invention described in the claims. , Can be arbitrarily modified and improved. Hereinafter, such a modification will be described.

(About the problem to be solved and the effect of the invention)
First, the problem to be solved by the invention and the effect of the invention are not limited to the above-mentioned contents, and the present invention solves a problem not described above or an effect not described above. It can also be played, and may solve only some of the tasks described or play only some of the effects described.

(About distribution and integration)
Further, each of the above-mentioned electrical components is a functional concept, and does not necessarily have to be physically configured as shown in the figure. That is, the specific form of dispersion or integration of each part is not limited to the one shown in the figure, and all or part of them are functionally or physically dispersed or integrated in arbitrary units according to various loads and usage conditions. Can be configured. Further, the "device" in the present application is not limited to a device composed of a single device, but includes a device composed of a plurality of devices. For example, the control device 120 is dispersedly configured in a plurality of devices configured to be able to communicate with each other, a control unit 124 is provided in a part of the plurality of devices, and the other part of the plurality of devices is provided. A storage unit 125 may be provided.

(About shape, numerical value, structure, time series)
With respect to the components illustrated in the embodiments and drawings, the shapes, numerical values, or the interrelationships of the structures or time series of the plurality of components shall be arbitrarily modified and improved within the scope of the technical idea of the present invention. Can be done.

(About the reference position)
In the first embodiment, it has been described that one reference position PP is set at a position between the fully closed position and the fully open position, but the present invention is not limited to this. For example, a plurality of positions may be set between the fully closed position and the fully open position. As an example, as shown in FIG. 8, the first reference position PP1 and the first reference position PP1 and the fully closed position A second reference position PP2 located between them may be set. In this case, in the opening / closing process, the pre-detection control process (detection) is performed until it is detected in SB8 of FIG. 4 that the closed end has passed either the first reference position PP1 or the second reference position PP2. Pre-control) is performed, and after it is detected in SB8 of FIG. 4 that the closed side end has passed either the first reference position PP1 or the second reference position PP2, the post-detection control process (after detection) is performed. Control) is performed. By such processing, it is possible to shorten the time for which the pre-detection control is performed as compared with the case where there is only one reference position PP (in particular, in FIG. 8, the first reference position PP1 and the second reference position). When the closed side end is located between the PP2 and the PP2, the time for which the pre-detection control is performed can be effectively shortened), and the control that can ensure safety can be performed.

(About open / close control system)
In the first embodiment, the open / close control system 50 includes the seat plate switch 100, and in the second embodiment, the open / close control system 50 includes the rotation speed detection unit 80, but the present invention is limited to this. I can't. For example, the open / close control system 50 may include a rotation speed detection unit 80 and a seat plate switch 100.

Further, in the second embodiment, it has been explained that the open / close control system 50 includes the rotation speed detection unit 80, but the present invention is not limited to this. For example, any detection means that can detect the load amount of the drive unit of the switch 40 may be used, and as an example, a detection device that can detect the voltage value or the current value of the drive unit of the switch 40 may be used. Here, regarding the voltage value or current value of the drive unit, the higher the voltage value or current value, the higher the load amount of the drive unit, and the lower the voltage value or current value, the lower the load amount of the drive unit. Is shown.

(About opening and closing process)
In the second embodiment, the shutter curtain 30 is opened and closed by ignoring the detection result of the rotation speed detection unit 80 in the pre-detection control of the opening / closing process, and the rotation speed detection unit 80 is used in the post-detection control of the opening / closing process. It has been explained that the pre-detection control and the post-detection control are made different by opening and closing the shutter curtain 30 based on the detection result, but the present invention is not limited to this. In the pre-detection control of the opening / closing process, the shutter curtain 30 is opened / closed by controlling the acquisition unit so as not to acquire the rotation speed of the drive unit. By opening and closing the shutter curtain 30 based on the above, the pre-detection control and the post-detection control may be different. Alternatively, in the pre-detection control of the opening / closing process, information indicating a reference value other than the overload reference value information (for example, information indicating a constant reference value regardless of the position of the closed end) and the rotation speed detection unit. Based on the comparison result with the detection result of 80, the shutter curtain 30 is opened and closed, and in the post-detection control of the opening / closing process, the shutter is based on the comparison result between the overload reference value information and the detection result of the rotation speed detection unit 80. By opening and closing the curtain 30, the pre-detection control and the post-detection control may be different. The shutter curtain 30 is opened and closed by ignoring the detection result of the rotation speed detection unit 80, and the shutter curtain 30 is controlled so that the acquisition unit does not acquire the rotation speed of the drive unit. "Move the shutter open / close" and "Move the shutter curtain 30 open / close based on the detection result of the rotation speed detection unit 80 while referring to information indicating a reference value other than the overload reference value information" are claimed. Corresponds to "pre-detection control based on the detection result of obstacle detection means" in the range.

(Regarding pre-detection control processing)
In the first and second embodiments, it has been described that the first pre-detection control and the second pre-detection control are different in the pre-detection control process, but the present invention is not limited to this, and for example, the first pre-detection control and the second pre-detection control are different. It may be the same as the pre-detection control.

Further, in the first embodiment, when the input of the second operation signal is received by SB3 in SB5 of the pre-detection control process, the shutter curtain 30 is placed only while the second operation signal is received. It was explained that the opening and closing movement is performed, but the present invention is not limited to this. For example, when the input of the second operation signal is received by SB3, the opening / closing movement of the shutter curtain 30 may be restricted (the same applies to the pre-detection control process of the second embodiment).

(About control processing after detection)
In the first embodiment, when the shutter curtain 30 is opened and closed in SB4 of the pre-detection control process and it is detected in SB8 that the closed side end has passed the reference position PP, it is detected. Although it has been described that the opening / closing movement of the shutter curtain 30 is continued in the post-control processing, the opening / closing movement of the shutter curtain 30 may be stopped in the post-detection control processing, for example. The same applies to the pre-detection control process of 2).

(Additional note)
The opening / closing control system of Appendix 1 is an opening / closing control system for controlling the opening / closing movement of a shutter curtain that opens / closes an opening of a building, and is a fully closed position corresponding to a state in which the opening is fully closed by the shutter curtain. And the reference position located between the fully opened position corresponding to the state in which the opening is fully opened by the shutter curtain, and the reference position serving as a reference for controlling the opening / closing movement of the shutter curtain. A detection means for detecting whether or not the end of the shutter curtain on the closing direction side has passed, an obstacle detection means for detecting an obstacle that hinders the closing movement of the shutter curtain, and an opening / closing control system are registered. When the control position information indicating the position necessary for controlling the opening / closing movement of the shutter curtain is lost, the detection means causes the end of the shutter curtain on the closing direction side. Pre-detection control that controls the opening / closing movement of the shutter curtain until it is detected that the shutter curtain has passed the reference position, and that the end portion of the shutter curtain on the closing direction side has passed the reference position by the detection means. The opening / closing movement control means includes post-detection control for controlling the opening / closing movement of the shutter curtain after being detected, and the opening / closing movement control means is the detection based on the detection result of the obstacle detecting means. The pre-control and the post-detection control based on the detection result of the obstacle detecting means are different from each other.

The opening / closing control system of the appendix 2 includes an operating means for receiving an operation instruction regarding the opening / closing movement of the shutter curtain in the opening / closing control system of the appendix 1, and the detecting means is an end of the shutter curtain on the closing direction side. It is detected whether the position of the unit is a position on the closing direction side of the reference position or a position on the opening direction side of the reference position, and the opening / closing movement control means performs the pre-detection control. In this case, the first operation instruction received via the operation means opens and closes the shutter curtain so that the position of the end portion of the shutter curtain on the closing direction side approaches the reference position. The first pre-detection control, which is the control of the opening / closing movement of the shutter curtain when it is an operation instruction, and the operation instruction received via the operation means are the end portion of the shutter curtain on the closing direction side. The second pre-detection control, which is the control of the opening / closing movement of the shutter curtain, which is performed when the second operation instruction for opening / closing the shutter curtain is made so that the position is moved away from the reference position, is different from that of the second operation instruction.

The opening / closing control system of Appendix 3 is the opening / closing control system described in Appendix 2, when the opening / closing movement control means receives the first operation instruction via the operation means in the first pre-detection control. After that, the shutter curtain was opened and closed even if the reception of the first operation instruction was not continued, and the second operation instruction was received via the operation means in the second pre-detection control. In this case, the opening / closing movement of the shutter curtain is performed only while the second operation instruction is received, or the opening / closing movement of the shutter curtain is restricted.

The opening / closing control system of the appendix 4 is the opening / closing control system according to the appendix 3. When it is detected that the end portion of the shutter curtain on the closing direction side has passed the reference position, the opening / closing movement of the shutter curtain is continued in the post-detection control.

In the opening / closing control system according to any one of the items 1 to 4, the opening / closing control system according to the appendix 5 has a plurality of reference positions located between the fully closed position and the fully open position, and the opening / closing movement control. The means performs post-detection control until the detection means detects that the end of the shutter curtain on the closing direction side has passed any one of the plurality of reference positions, and the detection means performs the control. After it is detected that the end of the shutter curtain on the closing direction side has passed any one of the plurality of reference positions, the post-detection control is performed.

The opening / closing control system according to the appendix 6 is the opening / closing control system according to any one of the items 1 to 5, wherein the opening / closing movement control means is used when the shutter curtain is closed and moved in the pre-detection control. When the obstacle is detected by the obstacle detecting means, the closing movement of the shutter curtain is stopped, and when the closing movement of the shutter curtain is performed in the post-detection control, the obstacle When the obstacle is detected by the detecting means, the shutter curtain is moved open by a predetermined amount after the closing movement of the shutter curtain is stopped.

(Effect of appendix)
According to the open / close control system described in Appendix 1, when the control position information registered in the open / close control system is lost, it is detected that the end of the shutter curtain on the closing direction side has passed the reference position. Pre-detection control that controls the opening / closing movement of the shutter curtain, and post-detection control that controls the opening / closing movement of the shutter curtain after it is detected that the end of the shutter curtain on the closing direction side has passed the reference position. Since the opening / closing movement control means is provided with the opening / closing movement control means for performing the operation, the pre-detection control based on the detection result of the obstacle detecting means and the post-detection control based on the detection result of the obstacle detecting means are different. Compared with the case where the pre-detection control based on the detection result of the obstacle detection means and the post-detection control based on the detection result of the obstacle detection means are the same, control that can ensure security or usability is performed. This makes it possible to improve the convenience of the user in using the open / close control system.

According to the open / close control system described in Appendix 2, the open / close movement control means is performed when the pre-detection control is performed and the operation instruction received via the operation means is the first operation instruction. Before the first detection, which is the control of the opening / closing movement of the shutter curtain, and before the second detection, which is the control of the opening / closing movement of the shutter curtain, which is performed when the operation instruction received via the operating means is the second operation instruction. Since the control is different from that of the control, for example, in the first pre-detection control, the shutter curtain can be easily opened and closed, and in the second pre-detection control, the shutter device or an obstacle is harmed. It is possible to perform control that can avoid being added, and it is possible to further improve the convenience of the user in using the closed control system as compared with the case where the first pre-detection control and the second pre-detection control are the same. It will be possible.

According to the opening / closing control system described in Appendix 3, when the opening / closing movement control means receives the first operation instruction in the first pre-detection control, the acceptance of the first operation instruction is not continued thereafter. Also, when the second operation instruction is received in the second pre-detection control, the shutter curtain is opened / closed and moved only while the second operation instruction is received. Alternatively, since the opening / closing movement of the shutter curtain is restricted, when the first operation instruction is received in the first pre-detection control, the opening / closing movement of the shutter curtain is performed only while the first operation instruction is received. Compared with (so-called "control of the opening / closing movement of the shutter curtain by the push-off operation"), the opening / closing movement of the shutter curtain can be performed more easily. Further, in the second pre-detection control, when the second operation instruction is received, the shutter device (as compared with the case where the shutter curtain is opened and closed even if the reception of the second operation instruction is not continued thereafter is performed. For example, shutter curtains) or obstacles can be prevented from being harmed.

According to the opening / closing control system described in Appendix 4, when the opening / closing movement control means opens / closes the shutter curtain in the first pre-detection control, the end portion of the shutter curtain on the closing direction side passes through the reference position. When it is detected, the shutter curtain opening / closing movement is continued in the post-detection control. Therefore, for example, the opening / closing movement of the shutter curtain by the first pre-detection control is stopped immediately after the post-detection control is executed. Compared to the case, it is possible to perform control that can avoid giving a feeling of strangeness to the user.

According to the opening / closing control system described in Appendix 5, the opening / closing movement control means controls after detection until it is detected that the end of the shutter curtain on the closing direction side has passed any one of a plurality of reference positions. After it is detected that the end of the shutter curtain on the closing direction side has passed any one of a plurality of reference positions, post-detection control is performed. Therefore, the time for pre-detection control can be shortened, and control that can ensure safety can be performed.

According to the opening / closing control system described in Appendix 6, when the opening / closing movement control means closes and moves the shutter curtain in the pre-detection control, and an obstacle is detected, the shutter curtain closes and moves. If an obstacle is detected when the shutter curtain is closed and moved in the control after detection, the shutter curtain is opened and moved by a predetermined amount after stopping the closing movement of the shutter curtain. Therefore, when an obstacle is detected in the pre-detection control, after stopping the closing movement of the shutter curtain, the shutter curtain is opened and moved by a predetermined amount (so-called "touch-up operation" is performed). Therefore, when the position of the end portion of the shutter curtain on the closing direction side reaches the floor surface, the fully closed state can be maintained, and crime prevention can be ensured. Further, when an obstacle is detected in the post-detection control, the shutter device (for example, a shutter curtain, etc.) or an obstacle is compared with the case where the closing movement of the shutter curtain is simply stopped (so-called "touch stop operation" is performed). It is possible to prevent harm to things.

1 Shutter device 2 Opening 3 Wiring 10 Shutter storage 20 Guide rail 30 Shutter curtain 31 Slat 32 Seat plate 40 Switch 50 Open / close control system 60 Operation device 70 Position detection unit 80 Rotation speed detection unit 90 Passage detection unit 100 Seat plate switch 110 Transmitter 111 Receiver 120 Control device 121 Input unit 122 Output unit 123 Power supply unit 124 Control unit 124a Detection unit 124b Open / close movement control unit 125 Storage unit 200 Shutter device D1 Distance D2 Distance PP Reference position PP1 First reference position PP2 Second Reference position P1 Fully closed position P2 Fully open position

Claims (6)

An opening / closing control system for controlling the opening / closing movement of shutter curtains that open / close the opening of a building.
A reference position located between a fully closed position corresponding to a state in which the opening is fully closed by the shutter curtain and a fully open position corresponding to a state in which the opening is fully opened by the shutter curtain. A detection means for detecting whether or not the end portion of the shutter curtain on the closing direction side has passed a reference position that serves as a reference for controlling the opening / closing movement of the shutter curtain.
An obstacle detecting means for detecting an obstacle that hinders the closing movement of the shutter curtain, and
When the control position information registered in the opening / closing control system and the control position information indicating the position necessary for controlling the opening / closing movement of the shutter curtain is lost.
Pre-detection control that controls the opening / closing movement of the shutter curtain until it is detected by the detection means that the end portion of the shutter curtain on the closing direction side has passed the reference position.
After the detection means detects that the end portion of the shutter curtain on the closing direction side has passed the reference position, the opening / closing movement control means for performing post-detection control for controlling the opening / closing movement of the shutter curtain. With
The opening / closing movement control means makes the pre-detection control based on the detection result of the obstacle detecting means different from the post-detection control based on the detection result of the obstacle detecting means.
Open / close control system. An operation means for receiving an operation instruction regarding opening / closing movement of the shutter curtain is provided.
The detection means detects whether the position of the end portion of the shutter curtain on the closing direction side is a position on the closing direction side of the reference position or a position on the opening direction side of the reference position. ,
The open / close movement control means
When the pre-detection control is performed,
When the operation instruction received via the operation means is the first operation instruction for opening and closing the shutter curtain so that the position of the end portion of the shutter curtain on the closing direction side approaches the reference position. The first pre-detection control, which is the control of the opening / closing movement of the shutter curtain, and
When the operation instruction received via the operation means is a second operation instruction for opening and closing the shutter curtain so that the position of the end portion of the shutter curtain on the closing direction side moves away from the reference position. It is different from the second pre-detection control, which is the control of the opening / closing movement of the shutter curtain.
The opening / closing control system according to claim 1. The open / close movement control means
In the first pre-detection control, when the first operation instruction is received via the operation means, the shutter curtain is opened and closed even if the reception of the first operation instruction is not continued thereafter. Let me
In the second pre-detection control, when the second operation instruction is received via the operation means, the shutter curtain is opened / closed and moved only while the second operation instruction is received. Alternatively, the opening / closing movement of the shutter curtain is restricted.
The opening / closing control system according to claim 2. In the first pre-detection control, when the shutter curtain is opened and closed, the opening / closing movement control means means that the end portion of the shutter curtain on the closing direction side has passed the reference position by the detection means. When it is detected, the shutter curtain is continuously opened and closed in the post-detection control.
The opening / closing control system according to claim 3. A plurality of the reference positions are located between the fully closed position and the fully open position.
The open / close movement control means
The pre-detection control is performed until it is detected by the detection means that the end of the shutter curtain on the closing direction side has passed any one of the plurality of reference positions.
After the detection means detects that the end of the shutter curtain on the closing direction side has passed any one of the plurality of reference positions, the post-detection control is performed.
The opening / closing control system according to any one of claims 1 to 4. The open / close movement control means
When the closing movement of the shutter curtain is performed in the pre-detection control and the obstacle is detected by the obstacle detecting means, the closing movement of the shutter curtain is stopped.
When the closing movement of the shutter curtain is performed in the post-detection control and the obstacle is detected by the obstacle detecting means, the shutter is stopped after the closing movement of the shutter curtain is stopped. Move the shutter open by a predetermined amount,
The opening / closing control system according to any one of claims 1 to 5.

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