JP3974499B2 - Sensor system and sensor unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sensor system including a plurality of sensor units configured to be adjacently arranged and a sensor unit constituting the system.
[0002]
[Prior art]
Conventionally, for example, a photoelectric switch disclosed in Patent Document 1 is disclosed as a configuration for detecting the intrusion of an object into a detection area such as a dangerous area. In FIG. 4, which schematically illustrates this configuration, a plurality of sets of detections are performed in order to perform predetermined calculations on the outputs detected by the plurality of sensor units 1... Even if the output is obtained, there is an advantage that the final output becomes one.
[0003]
[Patent Document 1]
JP-A-5-276006 [0004]
[Problems to be solved by the invention]
However, since the controller 2 calculates the detection result of the sensor unit 1, the number of sensor units 1 that can be connected to the controller 2 has an upper limit depending on the processing capability of the controller 2, and the sensor units 1 that can be arranged adjacent to each other. There has been a problem that the number of pieces is limited. In addition, the controller 2 is separately required for control, and there is a problem that the overall cost increases.
[0005]
The present invention has been made in view of the above circumstances, and an object of the present invention is to calculate a detection result in each sensor unit without requiring a separate controller and without limiting the number of adjacent sensor units that can be arranged. It is an object of the present invention to provide a sensor system and a sensor unit constituting the sensor system.
[0006]
[Means for Solving the Problems]
The invention according to claim 1 includes a plurality of sensor units configured to be arranged adjacent to each other, and among the plurality of sensor units, a sensor unit arranged in the first stage is transmitted to at least a sensor unit arranged adjacent to the subsequent stage. A transmission means capable of transmitting a signal, a detection means for detecting whether or not an object to be detected is present in its own detection area, and the transmission using the logical value detected by the detection means as a transmission signal Logical value transmission control means for causing the means to transmit,
Among the plurality of sensor units, the sensor unit arranged at a position other than the first stage and other than the last stage receives the transmission signal from the transmission means, the detection means, and the transmission means of the sensor unit arranged adjacent to the previous stage. Means, logical operation means for logically operating the logical value of the transmission signal received by the reception means and the logical value detected by the detection means of its own sensor unit, and the logical value logically operated by the logical operation means And a calculation result transmission control means for transmitting to the transmission means as a transmission signal,
The sensor unit arranged in the last stage among the plurality of sensor units outputs at least the detection means, the reception means, the logical operation means, and a logical value logically operated by the logical operation means to the outside. External output means for
The plurality of sensor units are characterized in that transmission signals are sequentially transmitted from the initial stage toward the final stage sensor unit by the transmission unit and the reception unit.
[0007]
According to such means, when a plurality of sensor units are arranged adjacent to each other, the following effects are obtained. In the first-stage sensor unit, the detection means detects whether or not the object to be detected is present in the detection area as a logical value, and the logical value transmission control means transmits it as a transmission signal to the next-stage sensor unit arranged adjacently. Send to means. Then, the sensor unit of the next stage detects, as a logical value, whether or not the detection target exists in its own detection area by the detection means of its own sensor unit, and the logical operation means detects this logical value and The logical value of the transmission signal transmitted by the transmission means of the first-stage sensor unit is logically calculated, and the calculation result transmission control means further transmits the calculated logical value as a transmission signal to the next-stage sensor unit. These actions are repeated in the sensor unit of the next stage, and in the sensor unit arranged in the final stage, the external output means outputs a logical value obtained by logical operation to the outside. Therefore, since it can be configured only with a plurality of sensor units, it is not necessary to provide a separate controller, the detection result in each sensor unit can be calculated and output to the outside, and the number of sensor units is limited. Can be arranged adjacent to each other.
[0008]
In this case, it is desirable that all logical operation means of the plurality of sensor units can be set so as to execute a logical sum operation as the logical operation. According to such means, for example, when the logic operation means of a plurality of sensor units are all set as means for executing a logical sum operation as a logical operation, any one or more of the respective detection areas are detected. When the object exists, a result indicating that the object to be detected is present in the detection region can be output to the outside.
[0009]
In the above invention, it is desirable that all logical operation means of the plurality of sensor units can be set so as to execute a logical product operation as the logical operation.
[0010]
According to such a means, for example, when the logical operation means of a plurality of sensor units are all set as means for performing a logical product operation, the detected object is present only when the detected object exists in all the detection areas. A result indicating that the detection target exists in the detection region can be output to the outside.
[0011]
The sensor unit according to claim 4 is capable of transmitting a transmission signal to detection means for detecting whether or not a detection target exists in its own detection area as a logical value, and to a sensor unit arranged adjacent to the subsequent stage. Transmission means, reception means for receiving a transmission signal transmitted from the transmission means of the sensor unit arranged adjacent to the previous stage, and a logical value included in the transmission signal received by the reception means and detection means for its own sensor unit A logical operation means for performing a logical operation on the logical value detected by the operation means, and an operation result transmission control means for transmitting the logical value logically operated by the logical operation means to the transmission means as a transmission signal. Have.
[0012]
The sensor unit according to claim 5 is transmitted from the detection means for detecting whether or not the detection target exists in its own detection area as a logical value and the transmission means of the sensor unit arranged adjacent to the preceding stage. Receiving means for receiving a transmission signal, logical operation means for logically operating a logical value contained in the transmission signal received by the receiving means and a logical value detected by the detecting means of its own sensor unit, and this logical operation And an external output means for outputting a logical value logically calculated by the means to the outside.
[0013]
The sensor unit according to claim 6 is provided with a setting means for setting one of the first state, the second state, and the third state, and whether or not the detection target object exists in its own detection area. Detection means for detecting as a value, transmission means capable of transmitting a transmission signal to a sensor unit arranged adjacent to the subsequent stage, reception means for receiving a transmission signal from the sensor unit arranged adjacent to the previous stage, and reception by the reception means A logical operation means for performing a logical operation on the logical value contained in the transmitted signal and the logical value detected by the detection means of its own sensor unit, and corresponding to the fact that the setting means has set the first state. A logical value transmission control unit that causes the transmission unit to transmit the logical value detected by the detection unit as a transmission signal; and the logical operation corresponding to the second state set by the setting unit An operation result transmission control means for transmitting the logical value logically operated by the stage to the transmission means as a transmission signal, and a logical operation by the logical operation means corresponding to the setting to the third state by the setting means An external output means for outputting a logical value to the outside is provided.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a sensor system in which the present invention is applied to a fiber sensor system will be described with reference to FIGS. 1 to 3.
FIG. 1 schematically shows a functional block diagram of a fiber sensor system. The fiber sensor system 11 includes a plurality of fiber sensor units (sensor units: hereinafter simply referred to as units) 12a. The units 12a to 12z are configured so that other units can be adjacently arranged on both sides thereof, and each of them is a CPU (detection means, logical value transmission control means, logical calculation means, calculation result transmission control means, external output means) 13a. ˜13z as a main component, the light projecting means 14, the light receiving means 15, the transmitting means 16, the receiving means 17, the setting means 18, and the external connection terminal 19 connected to the CPUs 13a to 13z, respectively, are not shown. It consists of memory and so on.
[0015]
CPU13a-13z controls each unit 12a-12z with the program memorize | stored in memory. The light projecting means 14 includes a light projecting drive circuit 14a, a light projecting element 14b composed of an LED or the like connected to the light projecting drive circuit 14a, and a fiber 14c disposed in the light projecting direction of the light projecting element 14b. The light is projected toward the detection region D from the tip of the fiber 14c based on the light projection command from the CPUs 13a to 13z.
[0016]
The light receiving means 15 includes a light receiving circuit 15a, a light receiving element 15b such as a photodiode connected to the light receiving circuit 15a, and a fiber 15c. The light receiving means 15 receives the light projected toward the detection region D by the light projecting means 14 at the light receiving element 15b via the fiber 15c, photoelectrically converts it, amplifies it at the light receiving circuit 15a, A / D conversion, etc. These processes are performed and this signal is output to the CPUs 13a to 13z.
[0017]
The CPUs 13a to 13z compare the signal output from the light receiving circuit 15a with a predetermined threshold at a predetermined detection timing, and if the signal exceeds the threshold, the detection target object exists in the detection region D. If it falls below the threshold value, it is determined that an object to be detected is present, and a high level “H” is detected. The logic value of the logic signal is detected.
[0018]
The transmission means 16 is composed of a general optical modulation circuit, and optically modulates a data signal output from the CPUs 13a to 13z by a predetermined modulation method and is optically modulated based on the control of the CPUs 13a to 13z. An optical signal (air propagation signal) can be transmitted as a transmission signal to the units 12b to 12z arranged adjacent to the next stage.
[0019]
The receiving means 17 is composed of a general optical demodulation circuit having a light receiving element (not shown) such as a photodiode. For example, if the unit is adjacently connected in the previous stage, the adjacently arranged unit (see FIG. The transmission signal of the optical signal transmitted from the transmission means 16 of the left side unit 1 is received (received), optically demodulated, and the demodulated signal is transmitted to the CPUs 13b to 13z.
[0020]
Each unit 12a... 12z is provided with a connector (not shown), and each unit is mechanically connected by this connector, so that the transmitting means 16 and the receiving unit 16 of the adjacent units 12a to 12z are received. An optical communication with the means 17 is possible. The CPUs 13b to 13z perform a logical operation on the logical value of the demodulated signal transmitted from the receiving unit 17 and the detected logical value, and details thereof will be described later.
[0021]
The setting means 18 includes an operation switch. When the operation switch is operated by the user, various modes (for example, a setting mode, a detection operation mode, a threshold setting mode, a threshold fine adjustment mode). Etc.) and various setting values are set during these modes. The external connection terminal 19 is provided to output a logical value output from the CPUs 13a to 13z to the outside.
[0022]
The above operation will be described with reference to FIGS.
The presence / absence of the object to be detected arranged in the detection region D is detected as described above, and various settings are performed by the setting means 18 prior to this detection operation. The gist of the setting operation related to the present invention will be described.
First, the user switches the unit 12 to the setting mode by operating the operation switch of the setting means 18. This setting mode is provided for the user to set in advance whether to be arranged at the first stage, arranged at the last stage, or arranged at a position other than the first stage and other than the last stage. The setting mode is provided for the user to set in advance whether or not the CPUs 13a to 13z perform logical operations. The setting mode is a mode provided for setting an expression for performing a logical operation when performing a logical operation. In this case, specifically, “logical sum operation”, “logical product operation”, or “non-operation” can be set.
[0023]
In this setting mode, when the user operates the operation switch, the setting unit 18 outputs this setting command to the CPUs 13a to 13z when the logical operation formula is set, which is arranged, whether or not to perform the logical operation. As a result, this result is set in the CPUs 13a to 13z. This setting is performed for each unit 12a ... 12z. Hereinafter, as an example of the logical operation, the first stage unit 12a (the leftmost unit in FIG. 1) arranged at the end is set as “non-operation”. For example, the other units 12b to 12z have “logical operation”. An embodiment set as (OR) will be described. In addition, in the present invention, the unit 12a of the first stage is set to the first state, and the unit 12a to 12z is set to the first state in the present invention. This corresponds to the unit 12z being set to the third state and the other units being set to the second state.
[0024]
When this setting process is completed, each of the units 12a to 12z is set to the detection mode by the setting means 18 and performs the detection operation individually. 2 and 3 are flowcharts showing the operation in this detection mode.
<About the first-stage fiber sensor unit>
When the first unit 12a is set as “non-calculation” by the setting means 18 in the setting mode, the first unit 12a performs processing as shown in FIG. That is, the CPU 13a serving as the logical value transmission control means outputs a light projection pulse to the light projection drive circuit 14a to cause the light projection means 14 to project light (S1). The light receiving means 15 receives this light through the detection region D (S2), performs the above-described various processes, and outputs it to the CPU 13a. The CPU 13a compares the output signal with a threshold value, determines whether or not the detection target object exists in the detection area D, and detects it as a logical value (S3). In this case, if the object to be detected exists in the detection region D, the CPU 13a detects the logical value of the high level “H”. If not, the CPU 13a detects the logical value of the low level “L”. To detect.
[0025]
The CPU 13a causes the transmission means 16 to transmit this logical value data as a transmission signal (S4). In this case, the transmission means 16 optically modulates the logical value data together with the synchronization signal, continuously transmits this optical signal as a transmission signal to the adjacent second stage unit 12, and returns to S1 to repeat the processing. .
[0026]
<Fiber sensor unit from the second stage to the last stage>
On the other hand, the units 12b to 12z in the second and subsequent stages other than the first stage perform the process shown in FIG. 3 when set by the setting means 18 as “OR operation” (OR) in the setting mode. That is, similarly to S1 to S3 of the first stage unit 12a, the other units 12b to 12z perform the light projecting operation, the light receiving operation, and the detecting operation by the CPUs 13b to 13z (T1 to T3). Then, the CPUs (logic operation means, operation result transmission control means) 13b to 13z store the data signal of the logical value detected by the detection operation in the memory (T4), and wait for the synchronization signal from the previous stage unit (T4). T5: NO).
[0027]
At this time, the receiving means 17 of the units 12b to 12z receives the transmission signal transmitted from the transmitting means 16 of the preceding unit (T5: YES), and after optical demodulation, the CPUs 13b to 13z receive the synchronization signal included in the transmission signal. Upon reception, the CPUs 13b to 13z read a logical value data signal included in the transmission signal (T6). Then, the CPUs 13b to 13z perform a logical operation on the read logical value and the logical value detected in T3 (T7). In other words, the CPUs 13b to 13z have a logic value of high level “H” if the detection target object exists in the detection area D of any one of the units 12b to 12z from the first stage unit 12a. The logical operation result of is obtained.
[0028]
And CPU13b-13z outputs the calculated logical value to the external connection terminal 19 as a detection result (T8). Further, the CPU 13 causes the transmission means 16 to transmit this logical value as a transmission signal. Then, the process is repeated from T1. In this way, the units 12a to 12z transmit transmission signals in order from the initial stage to the final units 12a to 12z by the transmission unit 16 and the reception unit 17.
[0029]
Such processing is similarly performed even when all the units 12 in the second and subsequent stages are set to “logical product operation” in the setting mode. In this case, in all the units 12a to 12z, if all the objects to be detected are present in the detection area D of the units 12b to 12z from the first stage unit 12a, the CPU 13 determines the logical value of the high level “H”. Get.
[0030]
According to such an embodiment, the CPUs 13a to 13z of the units 12a to 12z determine whether or not an object to be detected exists in the detection region D, detect it as a logical value, and perform the second and subsequent units 12b to 12b. At 12z, the CPUs 13b to 13z perform a logical operation on the detected logical value and the logical value output from the transmission means 16 of the unit arranged adjacent to the previous stage, and output the calculated logical value to the external connection terminal 19. In order for the CPU 12b to 12z to calculate the logical value calculated by the transmission unit 16 to the unit arranged adjacent to the subsequent stage, it can be configured with only a plurality of units 12a to 12z, and there is no need to provide a separate controller. The detection results in the units 12a to 12z are logically calculated and output as results from the external connection terminal 19 of the final unit 12z. Rukoto it is, it is possible to configure the fiber sensor system 11 only in units 12a~12z substantially the same configuration, can be disposed adjacent without the number of units is limited.
[0031]
When the setting means 13 sets the units 12b to 12z to perform the logical sum operation, the CPUs 12b to 12z all perform the logical sum operation as the logical operation, so that any one of the detection areas D is selected. When there are two or more objects to be detected, a result indicating that the object to be detected exists in the detection region D can be output from the external connection terminal 19 at the final stage.
On the other hand, when the units 12b to 12z are set to perform the logical product operation by the setting means 13, the CPUs 12b to 12z execute the logical product operation, so that the detection target objects are included in all the detection areas D. Only when there is, a result indicating that the object to be detected exists in the detection region D can be output from the external connection terminal 19 at the final stage.
Since the external connection terminals 19 are provided in all the units 12 arranged adjacent to each other, a result can be obtained using the logical operation result from any external connection terminal 19 of any unit 12 to its own unit as a logical value.
[0032]
(Other embodiments)
The present invention is not limited to the embodiments described above and shown in the drawings, and the following modifications or expansions are possible.
Although an embodiment in which a logical sum operation process (OR process) or a logical product operation process (AND process) is performed has been described, other logical operations such as an exclusive OR operation process (XOR process), a NOR operation are performed as necessary. In addition, logical operations such as processing, NAND arithmetic processing, and the like may be configured to perform arithmetic operations by combining these logical operations in the individual units 12a to 12z.
Although the embodiment in which the external connection terminal 19 is provided in the units 12a to 12z from the first stage to the last stage is shown, it may be provided in units other than the last stage as needed.
[0033]
Although the embodiment in which the function of the external output means is provided in the CPUs 13b to 13z of the units 12b to 12z from the second stage to the final stage has been shown, the CPUs of the units other than the final stage may be provided as necessary. good.
Although the embodiment in which the function of the calculation result transmission control means is provided in the CPUs 13b to 13z of the units 12b to 12z from the second stage to the final stage has been shown, the CPU 13z of the final stage unit 12z is provided as necessary. Just do it.
In each of the units 12a to 12z, the embodiment has been described in which the user manually sets each of the units 12a to 12z with the setting of “logical sum operation” or “logical product operation”. However, the unit 12a disposed in the first stage is shown. Based on the change command from the CPU 13a, the CPUs 13a to 13z functioning as processing operation changing means may change the processing operation in all the units 12a to 12z. That is, for example, when it is desired to change all to “OR operation”, the user sets “OR operation” by the setting means 18 of the unit 12a arranged in the first stage, and the CPU 13a of this unit 12a sets its own processing operation to “ The change command as the “OR operation” is sequentially transmitted to the adjacent units 12b to 12z by the transmission means 16 and the reception means 17, and the individual units are received in response to the change command. The CPUs 13b to 13z of 12b to 12z may be configured to set themselves to “logical sum operation”. In this case, compared with the above-described embodiment, the user does not need to perform complicated settings.
Although the embodiment in which the transmission signal is transmitted to the adjacent units 12b to 12z by the optical signal has been described, the transmission signal may be transmitted by the cable.
[0034]
【The invention's effect】
In the present invention, as is clear from the above description, the detection means of each sensor unit detects whether or not the detection target is present in the detection region as a logical value, and the detected logical value and the preceding stage are detected. The logical value transmitted from the adjacently arranged sensor unit is logically operated, and the logical value calculated by the external output means is output to the outside, and the calculation result transmission control means is calculated for the sensor unit adjacently arranged in the subsequent stage. In order to transmit the measured logical value to the transmission means, it can be configured only by a plurality of sensor units, and it is possible to calculate and output the detection result in each sensor unit without the need for a separate controller. Has an effect.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing an embodiment of the present invention. FIG. 2 is a flowchart showing the operation of the first-stage sensor unit. FIG. 3 is a flowchart showing the operation of the second-stage and subsequent sensor units. Figure equivalent to Fig. 1 [Explanation of symbols]
11 is a fiber sensor system (sensor system), 12 is a sensor unit, 13a to 13z are CPUs (detection means, logical value transmission control means, logical calculation means, calculation result transmission control means, external output means), and 14 is light projection means. , 15 is a light receiving means, 16 is a transmitting means, 17 is a receiving means, 18 is a setting means, and 19 is an external connection terminal.

Claims (6)

It consists of a plurality of sensor units configured to be adjacently arranged, and the sensor unit arranged in the first stage among the plurality of sensor units is at least,
A transmission means capable of transmitting a transmission signal to a sensor unit disposed adjacent to the subsequent stage;
Detecting means for detecting as a logical value whether or not a detection target exists in its own detection area;
Logical value transmission control means for causing the transmission means to transmit the logical value detected by the detection means as a transmission signal,
Among the plurality of sensor units, sensor units arranged other than the first stage and other than the last stage are:
The transmitting means;
The detection means;
Receiving means for receiving a transmission signal from the transmitting means of the sensor unit arranged adjacent to the previous stage;
Logical operation means for logically operating the logical value of the transmission signal received by the reception means and the logical value detected by the detection means of the own sensor unit;
Computation result transmission control means for causing the transmission means to transmit a logical value logically operated by the logical operation means as a transmission signal,
Among the plurality of sensor units, the sensor unit arranged at the last stage is at least:
The detection means;
The receiving means;
The logical operation means;
An external output means for outputting the logical value logically operated by the logical operation means to the outside,
The sensor system, wherein the plurality of sensor units sequentially transmit transmission signals from the initial stage to the final stage sensor unit by the transmitting unit and the receiving unit. 2. The sensor system according to claim 1, wherein all of the logical operation means of the plurality of sensor units are configured so as to execute a logical sum operation as a logical operation. 3. The sensor system according to claim 1, wherein all of the logical operation means of the plurality of sensor units are configured to be set so as to execute a logical product operation as a logical operation. 4. Detecting means for detecting as a logical value whether or not a detection target exists in its own detection area;
A transmission means capable of transmitting a transmission signal to a sensor unit disposed adjacent to the subsequent stage;
Receiving means for receiving a transmission signal transmitted from the transmitting means of the sensor unit arranged adjacent to the previous stage;
Logical operation means for performing a logical operation on the logical value included in the transmission signal received by the reception means and the logical value detected by the detection means of the own sensor unit;
A sensor unit comprising: a calculation result transmission control unit that causes the transmission unit to transmit a logical value logically calculated by the logical calculation unit as a transmission signal. Detecting means for detecting as a logical value whether or not a detection target exists in its own detection area;
Receiving means for receiving a transmission signal transmitted from the transmitting means of the sensor unit arranged adjacent to the previous stage;
Logical operation means for performing a logical operation on the logical value included in the transmission signal received by the reception means and the logical value detected by the detection means of the own sensor unit;
A sensor unit comprising: external output means for outputting a logical value logically operated by the logical operation means to the outside. A setting means for setting one of the first state, the second state, and the third state;
Detecting means for detecting as a logical value whether or not a detection target exists in its own detection area;
A transmission means capable of transmitting a transmission signal to a sensor unit disposed adjacent to the subsequent stage;
Receiving means for receiving a transmission signal from a sensor unit disposed adjacent to the previous stage;
Logical operation means for performing a logical operation on the logical value included in the transmission signal received by the reception means and the logical value detected by the detection means of the own sensor unit;
Logical value transmission control means for causing the transmission means to transmit the logical value detected by the detection means as a transmission signal in response to being set to the first state by the setting means;
A calculation result transmission control unit that causes the transmission unit to transmit a logical value logically calculated by the logical calculation unit in response to being set to the second state by the setting unit;
A sensor unit comprising: external output means for outputting a logical value logically operated by the logical operation means in response to being set to the third state by the setting means.

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