JP3876582B2 - Housing information board - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a housing information board or the like having a function of alarming a disaster when a disaster such as a fire is detected, an intercom function capable of making a call with an outside person such as a visitor.
[0002]
[Prior art]
Conventionally, in an apartment house or the like, there is a device called a housing information board that performs comprehensive security by adding functions such as an intercom function capable of making a call with a management room, fire alarm, and crime prevention. In such a device, a video signal transmitted from a camera installed in the collective entrance machine or doorphone at the same time as a call signal from the collective entrance machine or doorphone provided at the collective entrance is input to the housing information board. In many cases, a display device (hereinafter referred to as a monitor) is provided so that a visitor or the like can be displayed based on the signal.
[0003]
FIG. 8 is a block diagram showing the configuration of a conventional housing information board. In the figure, reference numeral 101 denotes a control unit. The control unit 101 performs control processing of each unit in the house information panel based on an input signal input from the operation unit 108, a call control signal, an alarm signal transmitted from each sensor, and the like. Based on a call control signal or the like, the opening / closing operation control of the call switch 112 and the video switch 113 is performed. For example, control for transmitting and receiving audio and receiving video with a door phone or a collective entrance of a housing complex is performed. Further, a lighting signal based on the alarm signal is transmitted. Reference numeral 102 denotes a lighting circuit unit. The lighting circuit unit 102 performs lighting control of each LED based on the lighting signal transmitted from the control unit 101. The LEDs whose lighting is controlled are a fire LED 102A, a gas leak LED 102B, a ventilation LED 102C, a security LED 102D, a call LED 102E, an emergency LED 102F, and a power LED 102G.
[0004]
Reference numeral 103 denotes a fire sensor unit. The fire sensor unit 103 includes a smoke sensor, a heat sensor, and the like. Reference numeral 104 denotes a gas sensor unit. Reference numeral 105 denotes a security sensor unit. Reference numeral 106 denotes a CO sensor unit. Reference numeral 107 denotes a call part.
[0005]
Reference numeral 108 denotes an operation unit. The operation unit 108 includes at least an outing button 108 </ b> A and an emergency button 108 </ b> B, and transmits an input signal based on a button pressed by a resident (operator) to the control unit 101. Reference numeral 109 denotes a call unit. The call unit 109 includes a handset having a transmitter and a receiver, an amplifier, an external speaker, and the like. In order for a resident (operator) to make a call, the call signal is converted into a sound and converted into sound, or the sound is converted into a call signal and transmitted. Reference numeral 110 denotes a camera video processing unit. The camera image processing unit 110 processes an image signal of an image captured by a camera installed at a collective entrance or the like. Reference numeral 111 denotes a monitor unit. The monitor unit 111 performs display based on the video signal processed by the camera video processing unit 110. Reference numeral 112 denotes a call switch. Reference numeral 113 denotes a video switch.
[0006]
Reference numeral 114 denotes a power supply unit. Reference numeral 115 denotes an auxiliary power supply unit. The power supply unit 114 supplies power to each part of the house information board. If the power supply unit 114 cannot supply power due to a power failure or the like, the auxiliary power supply unit 115 supplies power to each unit instead. 116 is a power failure detection unit. The power failure detection unit 116 monitors the power supply unit 114 and transmits a power failure signal to the control unit 101 when it is determined that a power failure has occurred. The control unit 101 switches the power changeover switch unit 118 so that the auxiliary power supply unit 115 supplies power. Reference numeral 117 denotes a video power supply unit. The video power supply unit 117 supplies power to the camera video processing unit 110 and the monitor unit 111.
[0007]
Next, a warning in a conventional house information panel will be described. Here, it is assumed that an alarm signal indicating that a fire has occurred is input from the fire sensor unit 103. When an alarm signal indicating that a fire has occurred is input from the fire sensor unit 103, the control unit 101 determines that a fire has occurred and transmits a lighting signal indicating that the lighting circuit unit 102 displays the fire LED 102A. To do. The lighting circuit unit 102 that has received the lighting signal determines an LED to be lit based on the transmitted lighting signal. Here, since the alarm signal is a fire occurrence, the lighting circuit unit 102 lights the fire LED 102A. Although not shown here, the voice synthesis means of the call unit 109 alerts the occurrence of a fire by voice, alarm sound, or the like. Residents are also warned in this way for other alarms such as gas leaks. Here, the monitor unit 111 is not used for alarm. The monitor in such a home information board was used only for the intercom function.
[0008]
[Problems to be solved by the invention]
Here, in the conventional house information panel, since the monitor unit is used for the intercom function, only the display based on the video signal transmitted from the camera provided in the collective entrance machine or the like was performed. However, using a monitor just for that is inefficient.
[0009]
Therefore, the present invention has been made to solve such problems, and an object thereof is to obtain a housing information board or the like that can provide information that can be easily recognized by residents by effectively using a monitor. To do.
[0010]
[Means for Solving the Problems]
  In the housing information board according to the present application, a device having a camera and a disaster prevention device are connected, and display is performed based on a video signal by camera imaging in response to a call from the device having the camera.Monitor partControl means for judging and warning the contents of signals input from disaster prevention equipment in a housing information panel having an intercom functionAnd a light-emitting display means that emits light based on a lighting signal transmitted from the control means when it is determined that the signal content is an alarm about a fire or a gas leak, and an auxiliary power supply that supplies power in the event of a power failure instead of a power supply unit And the monitor unitCreated based on signal content judged by control meansPictogram image of alarm signalDisplay based onIn the event of a power outage, an alarm is given by causing only the light emitting display means to emit light without supplying power to the monitor.
[0011]
  In addition, the housing information board related to this application isIt is equipped with a counter that counts up the signal input from the disaster prevention equipment, and the signal from the disaster prevention equipment is based on the counter value.If it is determined that there are m (m is a natural number), the control means is 2^n-1 <M ≦ 2ⁿ Calculate the value of the integer n such thatOf the monitorDisplay screen 2ⁿ In order to display the signal contents on each of the divided screens, m signal contents are displayed.Pictogram imageThe display position and display size are set.
[0012]
  In addition, when the control means of the housing information panel according to the present application determines that a fire or gas leak alarm is included in the plurality of signal contents, the signal content of the fire or gas leak alarm is displayed.Pictogram imageDisplay size of other signal contentsPictogram imageThe size is set different from the display size.
[0013]
  In addition, the housing information board according to this application has different pictograms related to the same alarm content.the imageMultiple character generatorsProvidedWhen an abnormality occurs, the plurality of pictogramsimageSwitch sequentially,Animated video displaymonitorTo the departmentIt is characterized byThe housing information board according to any one of claims 1 to 3.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1. FIG.
FIG. 1 is a block diagram of a house information board according to the first embodiment of the present invention. In the figure, reference numeral 1 denotes a control unit as control means. The control unit 1 performs control processing of each unit in the house information panel based on the operation signal input from the operation unit 8, the control signal, and the alarm signal transmitted from each sensor unit. For example, the opening / closing operation control of the call switch 12 and the video switch 13 is performed based on the control signal and the like, and control for transmitting and receiving audio and receiving video with the door phone, the collective entrance of the apartment house, and the like is performed. Further, a lighting signal based on the alarm signal is transmitted. Further, in order to cause the monitor unit 11 to display an alarm based on an alarm signal or the like, a setting signal that is data in which a display position and a size are set based on the number of alarms or the like is transmitted. Furthermore, the changeover switch units 18 and 19 are switched based on the power failure signal transmitted from the power failure detection unit 16. Reference numeral 2 denotes a lighting circuit section. The lighting circuit unit 2 performs lighting control of each LED based on the lighting signal transmitted from the control unit 1. The LEDs whose lighting is controlled by the lighting circuit unit 2 are the fire LED 2A, the gas leak LED 2B, and the power LED 2C, which are the most important as the light emission display means. Here, the display color of the fire LED 2A is red and the display color of the gas leak LED 2B is yellow.
[0024]
3-7 are various sensor parts as disaster prevention equipment. Each sensor unit transmits an alarm signal when an abnormality is determined based on a corresponding physical quantity or when a button is pressed. 3 is a fire sensor part. The fire sensor unit 3 includes smoke detectors, heat detectors, and the like provided in each room. Reference numeral 4 denotes a gas sensor unit provided in a kitchen or the like. A security sensor unit 5 transmits an alarm signal when a window or door is opened or closed. Reference numeral 6 denotes a CO sensor unit that determines an abnormality based on the amount of carbon monoxide. A call unit 7 is provided in a bathroom or the like for calling. These sensor units are actually connected to the control unit 1 via external terminals provided on the house information board.
[0025]
Reference numeral 8 denotes an operation unit. The operation unit 8 includes at least an at-home / outing crime prevention button 8A and an emergency button 8B, and transmits an operation signal based on a button, a key, or the like pressed by a resident (operator) to the control unit 1. By pressing the home / outing crime prevention button 8A, it is possible to select whether the crime prevention is at home set at bedtime or the like, or whether the crime is set out when going out. Reference numeral 9 denotes a call section. The call unit 9 includes a handset including a transmitter and a receiver, a hook for determining picking up of the handset, an amplifier, an external speaker, and the like. In order for a resident (operator) to make a call, the call signal is converted into a sound and converted into sound, or the sound is converted into a call signal and transmitted. In addition, it has voice synthesis means, etc., and generates sound when alarming due to fire or the like is given by an instruction from the control unit 1. Reference numeral 10 denotes a camera image processing unit. The camera image processing unit 10 processes an image captured by a camera installed in a collective entrance machine, a door phone or the like into an image signal transmitted as data. Reference numeral 11 denotes a monitor unit as display means, which is provided in the main body of the housing information board as shown in FIG. The monitor unit 11 is mainly configured by, for example, a CRT, an LCD, or the like. The control unit 1 synthesizes the video signal processed by the camera video processing unit 10 and the image signal processed by the character generator unit 17 and displays them to the resident through the monitor unit 11. 12 is a call switch, and 13 is a video switch. The call switch 12 and the video switch 13 are controlled to be opened and closed by the control unit 1.
[0026]
Reference numeral 14 denotes a power supply unit. Reference numeral 15 denotes an auxiliary power supply unit made of a rechargeable battery or the like. The power supply unit 14 supplies power to each part of the house information panel. If the power supply unit 14 cannot supply power due to a power failure or the like, the auxiliary power supply unit 15 supplies power instead. Reference numeral 16 denotes a power failure detection unit. When the power failure detection unit 16 monitors the power supply unit 14 and determines that the power supply unit 14 cannot supply power, it transmits a power failure signal to the control unit 1. The control unit 1 controls the changeover switch unit 18 so that the auxiliary power supply unit 15 supplies power based on the power failure signal. Further, the changeover switch unit 19 is controlled so that power is not supplied to the monitor unit 11 with high power consumption, the camera video processing unit 10 that transmits a video signal to the monitor unit 11, and the character generator unit 17 that transmits the image signal.
[0027]
Reference numeral 17 denotes a character generator unit. The character generator unit 17 has a memory for storing an image, and displays a pictogram (pictogram) image or character of an alarm signal on the monitor unit 11 based on a setting signal from the control unit 1.
This pictograph (character) is displayed on the monitor unit 11 when the various sensor units 3 to 7 are operated, or when the home / outing crime prevention button 8A or the emergency button 8B is pressed. 4 shows. The pictograms 3a, 4a, 5a, 6a and 7a are displayed when the fire sensor unit 3, the gas sensor unit 4, the security sensor unit 5, the CO sensor unit 6 and the call unit 7 are operated. The pictograms 8a and 8b are respectively displayed. This is displayed when the home / outing security button 8A or the emergency button 8B is pressed. In the memory, image data that can be displayed in different sizes even in the same pictogram and the display position thereof are stored so that display according to the number of alarms can be performed (see FIGS. 4A to 4E). . A changeover switch unit 18 is controlled by the control unit 1 to supply power to the auxiliary power supply unit 15. At that time, the changeover switch unit 19 switches so that power is not supplied to a part related to display such as the monitor unit 11.
[0028]
FIG. 2 is a diagram showing an outline of a system including a housing information board. In the figure, the fire sensor unit 3 is connected to a door phone incorporating a camera. This is because the door phone is provided with a relay function for a remote test so that a fire-related sensor installed indoors can be tested outside the door. The call control device and the video control device are provided between the collective entrance machine and the housing information panel provided in each dwelling unit, control the call between them, and output the video taken by the collective entrance unit to the dwelling unit side Is.
[0029]
In the present embodiment, the monitoring status of the housing information panel and the alarm are displayed on the monitor unit 11 which normally only performs a display based on the video signal transmitted from the collective entrance machine or the like during a call with a visitor or the like. The display is performed. At that time, display using a pictogram is performed to make the display contents easy to understand. Since the display that has been conventionally performed by the LEDs is displayed on the monitor unit 11, the display can be performed only by the monitor unit 11, and the lighting circuit unit 2 and each LED need not be provided. However, in the present embodiment, considering a power outage or the like, the fire LED 2A and the gas leak LED 2B are also displayed together for a highly important fire or gas leak alarm. At this time, the color of the pictogram displayed as an alarm on the monitor unit 11 is displayed according to the emission color of the LED as red in the case of fire and yellow in the case of gas leakage.
[0030]
Further, in the event of a power failure or the like, power is not supplied to the monitor unit 11 that consumes power and the camera image processing unit 10 that performs the display, and when there is a fire or gas leak alarm, only the LEDs 2A and 2B emit light. To do.
[0031]
Here, the processing performed in the present embodiment is normally executed based on a predetermined program by a CPU of the computer or the like. Therefore, in the actual house information panel, for example, the control unit 1 may perform the process described here as the process of the calling unit 9.
[0032]
FIG. 3 is a flowchart showing the signal processing operation of the control unit 1. Based on FIG.1 and FIG.3, the signal processing operation | movement of the control part 1 in this Embodiment is demonstrated. Here, operation | movement of the control part of the housing information board provided in apartment houses, such as an apartment, is demonstrated. This signal processing operation may be performed at regular intervals, or may be performed by interrupting when any signal is input. Further, the control signal, the alarm signal, and the operation signal are processed to be determined. However, if the terminals to which the respective signals are input are different, the determination can be made based on the differences.
[0033]
In the case of an apartment house or the like, a control signal to be processed by a control unit of another house information panel is also input. When such a control signal is input, the control unit 1 does not perform processing. When a control signal to be processed by itself is input (S1), the control unit 1 determines whether the control signal is a control signal related to a call from a collective entrance machine or the like (S2). If it is determined that the control signal is a call control signal, call processing is started by exchanging with the call unit 9 (S3). In the call processing, for example, the calling unit 9 is caused to pronounce a call. When it is determined that the hook is turned on by a resident or the like, the call switch 12 and the video switch 13 are closed, and a call signal and a video signal can be input to start a call. When it is determined that the handset is returned to the original state and the hook is turned off, the call switch 12 and the video switch 13 are opened to cut off the call signal and the video signal, thereby terminating the call. Such call processing is performed in a routine different from signal processing. This call processing will be described later. If it is determined in S3 that the control signal is not a call control signal, the control unit 1 performs processing based on the control signal.
[0034]
On the other hand, if it is determined in S1 that no control signal is input, it is determined whether an alarm signal is input (S21). If it is determined that the alarm signal is input, it is determined whether the alarm signal is an alarm signal due to the operation of the fire sensor unit 3 (S22). If it is determined that the alarm signal is a fire alarm signal, the counter m is incremented by 1 (S23). Then, the fact that a fire alarm is to be performed is stored as data (S24). If it is determined that the fire alarm signal has not been input, the processing of S23 and S24 is not performed.
[0035]
Further, it is determined whether or not the input alarm signal is an alarm signal for gas leakage due to the operation of the gas sensor unit 4 (S25). If it is determined that the alarm signal is a gas leak, the counter m is incremented by 1 (S26). Then, the fact that a gas leak alarm is performed is stored as data (S27). If it is determined that the gas leak alarm signal has not been input, the processes of S26 and S27 are not performed.
[0036]
Further, it is determined whether or not the input alarm signal is an alarm request signal for ventilation due to the operation of the CO sensor unit 6 (S28). If it is determined that the alarm signal is a ventilation request alarm, the counter m is incremented by 1 (S29). Then, the fact that the ventilation request alarm is issued is stored as data (S30). If it is determined that the ventilation request alarm signal has not been input, the processing of S29 and S30 is not performed.
[0037]
Further, it is determined whether or not the inputted alarm signal is a call signal due to the operation of the call unit 7 (S31). If it is determined that the signal is a call signal, the counter m is incremented by one (S32). Then, the fact that the call has been made is stored as data (S33). If it is determined that the call signal has not been input, the processes of S32 and S33 are not performed.
[0038]
Further, it is determined whether the inputted alarm signal is a crime prevention alarm signal due to the operation of the crime prevention sensor unit 5 (S34). If it is determined that the alarm signal is a crime prevention, the counter m is incremented by 1 (S35). Then, the fact that a security alarm is to be performed is stored as data (S36). If it is determined that a security alarm signal has not been input, the processes of S35 and S36 are not performed.
[0039]
If there is any alarm signal of fire, gas leak, CO, ventilation or crime prevention, in S37, the video switch 13 is used to cut off the input of the video signal transmitted from a device equipped with a camera such as a collective entrance machine. Is opened (S37). As a result, when a call is being made with the collective entrance machine or door phone, the video is not displayed. After this, even if there is a call from the collective entrance machine, the video signal is not inputted unless the alarm signal is restored.
[0040]
On the other hand, at this stage, the control unit 1 sets the position and size for performing pictogram display based on the value of the counter m, and transmits the stored data such as each alarm to the character generator unit 17 as a setting signal. Accordingly, the character generator unit 17 outputs an image signal corresponding to the alarm to the monitor unit 11. The monitor unit 11 performs display using a pictogram as shown in FIG. At this time, when the value of the counter m is 2 or more, the screen of the monitor unit 11 is divided as shown in FIGS. 4A to 4E to display an alarm. This dividing method will be described later. .
As described above, according to the present embodiment, when the monitor unit 11 is viewed, it can be confirmed at a glance what kind of alarm is given by the screen size and the pattern display. In addition, since it is also used as a monitor for displaying a photographed image of the camera, a housing information board can be provided at low cost.
When the alarm by the various sensor units is a fire or a gas leak, the control unit 1 sends a lighting signal to the lighting circuit unit 2 to light the fire LED 2A or the gas leak LED 2B.
[0041]
If it is determined in S37 that the video switch has been opened or an alarm signal has not been input in S21, it is determined whether an operation signal has been input (S41). If it is determined that the operation signal is not input, the process returns to waiting for the signal input again. If it is determined that the operation signal has been input, it is determined whether or not the input operation signal is an operation signal due to pressing of the outing / home crime prevention button 8A (S42). If it is determined that the operation signal is due to the outing / home crime prevention button 8A being pressed, the counter m is incremented by one (S43). And it is memorize | stored as data which was selected among going out and home crime prevention (S44). If it is determined that the outing / home crime prevention button 8A has not been pressed, the processing of S43 and S44 is not performed.
[0042]
Further, it is determined whether or not the input operation signal is an operation signal generated by pressing the emergency button 8B (S45). If it is determined that the operation signal is due to pressing of the emergency button 8B, the counter m is incremented by 1 (S46). Then, the fact that the emergency button 8B has been pressed is stored as data (S47). If the emergency button 8B is pressed, the video switch is opened to block the input of the video signal transmitted from the camera (S48). In this case as well, as in S37, when a call is being made with the collective entrance machine or door phone, the video is not displayed. If it is determined that the emergency button 8B has not been pressed, the processing of S46, S47 and S48 is not performed.
[0043]
FIG. 4 is a diagram illustrating a display example with respect to the number of pictograms. 4A shows a display example when the number of alarms to be displayed, that is, the value of the counter m is 5 to 8, and FIGS. 4B and 4C show the number of alarms to be displayed of 3 to 4. FIG. 4 (d) is a display example showing the case where the number is two, and FIG. 4 (e) is a display example showing the case where the number is one. When the number of displays to be alarmed is 2 or more, the display positions are sequentially displayed from the upper left to the lower right according to the order of operation. This division of the screen is determined in S49. Based on the value of the counter m, the control unit 1^n-1 <M ≦ 2ⁿ The value of the integer n is calculated (S49). Then, the position and size for performing pictogram display determined based on the value of n in advance are set (S50), and the stored data such as each alarm is transmitted as a setting signal to the character generator unit 17 (S51). If it is determined that the alarm or the like has been canceled (S52), the value of the counter m is set to m = 0 (S53), and the process again waits for signal input. In S52 and S53, when the alarm is canceled, the value of the counter m is set to 0. This is a case where all alarms are restored (all restored), for example, a plurality of alarms are generated. When only the alarm by the fire sensor is restored individually, the value of the counter m is only subtracted by one.
[0044]
By the way, the size for displaying the pictogram is set based on the value of the counter m, that is, the number of displays to be alarmed, and the position for displaying the pictogram is based on the value of the counter m and the order in which the alarm occurred. Is set. For example, the number of displays to be alarmed is 2, and the first alarm among them is set by the control unit 1 so that the pictogram is displayed in the part where the gas leak pictogram is displayed in FIG. The
[0045]
FIG. 5 is a flowchart showing a call processing operation performed in a routine different from the signal processing operation. The call processing operation and the signal processing operation are performed in a pseudo parallel manner by time division or the like. The control unit 1 determines whether or not the hook is turned on (S61). If it is determined that the hook has been turned on, it is determined whether or not home security is set by pressing the home / outing security button 8A (S62).
[0046]
FIG. 6 is a diagram illustrating an example of superimposition of the monitor unit 11. When home security settings are made, the monitor unit 11 is displayed as shown in FIG. In such a state, when trying to make a call with a visitor via a door phone or the like, the pictogram indicating the home security setting is stopped so that the image of the visitor can be seen well, and in the corner of the monitor unit 11, The at-home crime prevention setting and characters representing the visitor are reduced (superimposed) (see FIG. 6B). Therefore, the optimum display position and size determined in advance are determined (S63) and transmitted as a setting signal to the character generator unit 17 (S64). Here, in this embodiment, the only display that does not need to be given priority over the visitor is only a display indicating the crime prevention setting, so only the home crime prevention setting is determined. When a display indicating that an object is contained is performed, it is determined whether or not they are displayed, and the display position and size are determined based on the number to be displayed. Then, the call switch 12 and the video switch 13 are closed (S65), and the call unit 9 starts a call. If the home / crime prevention setting is not made, only the video of the visitor is normally displayed on the monitor unit 11 without being superimposed.
[0047]
The control unit 1 determines whether or not the hook is turned off due to the end of the call (S66). If it is determined that the hook is turned off, the call switch 12 and the video switch 13 are opened to block the input of the call signal and the video signal (S67). Then, it is determined whether the home security setting has been made (S68). If it is determined that the home security setting has been made, an optimal one is set based on the value of the counter m from among predetermined display positions and sizes in order to display a pictogram representing the home security setting (S69). ) And transmitted as a setting signal to the character generator 17 (S70). Also in this case, as described above, when a plurality of display settings are made, the number of these is counted, and the display position and size are determined based on the number.
[0048]
As described above, according to the first embodiment, based on the transmitted control signal, alarm signal, or operation signal, the control unit 1 determines the signal content and determines its display position and display size. Since the information is displayed on the monitor unit 11, the monitor unit 11 can be used for both alarm display and image display. In addition, a display that is easy to recognize can be performed instead of a light emitting display using LEDs. Moreover, the character generator unit 17 having image data of various display sizes and pictograms creates image signals based on the setting signals that determine the signal content, display position, and display size, and the monitor unit 11 based on the image signals. Since the pictogram is displayed on the screen, it is possible to display more easily. In addition, regarding fire and gas leak alarms, which are highly important in terms of disasters, the display by the fire LED 2A and the gas leak LED 2B is also performed in parallel as in the conventional case, so that alarms that are easier to understand can be performed. Moreover, the display color of the pictogram displayed on the monitor unit 11 at this time is red corresponding to the fire LED 2A in the case of a fire, and yellow corresponding to the gas leak LED 2B in the case of a gas leak. Therefore, it is possible to display more easily. Also, when each alarm signal is input or when the emergency button is pressed, the image signal for warning by pictogram is given priority over the video signal of the captured image of a visitor etc. transmitted from the central entrance or door phone. As a result, the occurrence of an abnormality can be recognized more quickly and easily. In addition, when a pictogram image with particularly low importance, such as crime prevention settings, is displayed, if a video signal is input, the control unit 1 reduces characters toward, for example, the corner of the monitor unit 11. Since the display position and size are set again and the setting signal is transmitted, such as a small number of displays, the display is not overlapped with the face of a visitor or the like, making it easy to see. If you want to display multiple pictograms,ⁿ Since the screen is divided into equal parts and the respective display positions and sizes are set and displayed on the monitor unit 11, a plurality of pictograms can be displayed together. When the control unit 1 controls the changeover switch unit 19 and the auxiliary power supply unit 15 supplies power, the camera video processing unit 10 and the character generator unit 17 centering on the monitor unit 11 that consumes a large amount of power. Since power is not supplied to such video-related parts, power consumption can be reduced in an emergency such as a power outage. In the meantime, the pictogram cannot be displayed by the monitor unit 11, but there is no problem as long as the fire LED 2 </ b> A and the gas leak LED 2 </ b> B perform light emission display regarding the fire and gas leak alarm with high importance.
[0049]
Embodiment 2. FIG.
In addition, although the above-mentioned embodiment demonstrated the object as a house information board, it is not limited to this, About the display of an alarm etc. by the monitor part 11, especially a fire receiver etc. which are not providing the intercom function It can also be applied to disaster prevention panels.
[0050]
Embodiment 3. FIG.
Further, in the above-described embodiment, when displaying a plurality of pictograms, all the pictograms are displayed in the same size. However, regarding fire and gas leak alarms, a larger size than other displays is displayed. You may do it.
[0051]
Embodiment 4 FIG.
FIG. 7 is a diagram showing an animation display of a pictogram image. The character generator unit 17 can also change the displayed image. Therefore, if a plurality of different pictograms related to the same alarm content are stored in the character generator unit 17 and the plurality of pictograms are sequentially changed at regular intervals and animation is displayed as shown in FIG. Can be made easier to recognize.
[0052]
In this embodiment, the control unit sets the display position and display size of the pictogram based on the value of the counter m in preparation for the case where there are a plurality of display numbers to be alarmed. However, if only one pictogram is displayed on the monitor unit 11, it is not necessary to set the display position and the display size. In this case, if there are a plurality of alarms to be displayed (for example, fire and gas leaks), as described above, the fire pictogram and the gas leak pictogram can be sequentially switched and displayed as shown in the animation. Good. Alternatively, a switch display button may be provided on the house information board, and each alarm pictogram may be switched and displayed each time the button is pressed.
[0053]
【The invention's effect】
  As aboveThe housing information board of the present invention isThe control means determines the content of the signal input from the disaster prevention device, and the display means displays based on the image signal created on the basis of the signal content determined by the control means as well as the video signal obtained by capturing the visitor etc. In the past, only the display of captured images of visitors, etc. was used.The monitor unit can be used efficiently and shared. At that time, since power is not supplied from the auxiliary power supply unit to the monitor unit in the event of a power failure, it is possible to cope with an alarm by the light emitting display means while suppressing power consumption.
[0054]
  Also,The housing information board according to the present invention isThe control means displays two display screens based on the contents of a plurality of signals.ⁿ To be displayed on each screen divided into pieces,Pictogram imageSince the display position and the display size are set, a plurality of signal contents can be displayed together.
[0055]
  Also,The housing information board according to the present invention isWhen the control means determines that a fire or gas leak alarm is included in multiple signal contents, the signal content of the fire or gas leak alarm is displayed.Pictogram imageSince the display size is set to a size different from the display size for displaying other signal contents, even when displaying multiple signal contents, it is easy to recognize the alarm of fire or gas leak with high importance. can do.
[0056]
  Also,The housing information board according to the present invention isCharacter generator having predetermined pictographic image dataPartHowever, since the image signal is generated based on the signal content determined by the control means, it is possible to perform a display that is easier to understand rather than the light emission display by the LED. In addition, you can change the design at regular intervals,Such a moving image can be displayed, and the occurrence of an abnormality can be easily recognized.
[0057]
  Also, when the control means is a fire or gas leak, a different lighting signal is transmitted, and the light emitting display means emits and displays different colors based on the lighting signal, and the image data of the pictograph of fire or gas leak is displayed as a light emitting display. Since each means is displayed so as to be displayed in the same color as the light emitting display, it is possible to display more easily recognized.
[0058]
  In addition, since the control means displays the display based on the image signal based on the signal content in preference to the display based on the video signal, it is possible to display an important abnormality occurrence more quickly and easily. it can.
[0059]
  Also,On the monitorWhen a call is generated when an unimportant alarm is displayed based on the image signal, the alarm display is reduced and displayed on the image based on the video signal. For example, an unimportant pictogram is displayed. When an image signal is input when an image is displayed, the face of the visitor or the like and the alarm display are not overlapped, such as displaying characters at the corners, and it is easy to see.
[Brief description of the drawings]
FIG. 1 is a block diagram of a housing information board according to a first embodiment of the present invention.
FIG. 2 is a diagram showing an outline of a system including a housing information board.
FIG. 3 is a flowchart showing a signal processing operation of the control unit 1;
FIG. 4 is a diagram illustrating a display example for the number of pictograms.
FIG. 5 is a flowchart showing a call processing operation performed in a routine different from the signal processing operation.
FIG. 6 is a diagram illustrating an example of superimposition of the monitor unit 11;
FIG. 7 is a diagram showing an animation display of a pictogram image.
FIG. 8 is a block diagram showing a configuration of a conventional house information board.
[Explanation of symbols]
1 Control unit
2 lighting circuit
2A Fire LED
2B LED for gas leakage
2C LED for power supply
3 Fire sensor
4 Gas sensor section
5 Security sensor part
6 CO sensor
7 Call part
8 Operation part
8A Home / Outing crime prevention button
8B Emergency button
9 Calling part
10 Camera image processing section
11 Monitor section
12 Call switch
13 Video switch
14 Power supply
15 Auxiliary power supply
16 Power failure detection unit
17 Character generator
18, 19 selector switch

Claims (4)

In a housing information board having an intercom function, which is connected to a device having a camera and a disaster prevention device, and has a monitor unit that performs display based on a video signal by camera imaging in response to a call from the device having the camera,
Control means for judging and warning the signal content input from the disaster prevention device ;
A light-emitting display means for performing light-emitting display based on a lighting signal transmitted from the control means by judging that the signal content is an alarm regarding fire or gas leakage;
Instead of the power supply unit, it has an auxiliary power supply unit that supplies power in the event of a power failure,
The monitor unit also performs display based on a pictogram image of an alarm signal created based on the signal content determined by the control means ,
In the event of a power failure , the housing information panel is characterized in that only the light emitting display means is caused to emit light and display an alarm without supplying power to the monitor unit . A counter that counts up a signal inputted from the disaster prevention device, based on the value of the counter, the signal from the disaster prevention device (the m is a natural number) m pieces determines that, the control means, 2 ^{n -1} <calculates the value of the integer n as the m ≦ 2 ^n, the display screen of the monitor so as to display the signal content in each screen was divided into ^the 2 ^n, said m signals contents 2. The housing information board according to claim 1, wherein a display position and a display size of the pictogram image are set. If the control means determines that a fire or gas leak alarm is included in the plurality of signal contents, the control means may change the display size of the pictogram image for displaying the fire or gas leak alarm signal contents. 3. The housing information board according to claim 2, wherein the display information is set to a size different from a display size of a pictogram image for displaying the signal content of. A character generator unit having a plurality of different pictogram images related to the same alarm content is provided .
The housing information board according to any one of claims 1 to 3, wherein when an abnormality occurs, the plurality of pictogram images are sequentially switched to display a moving image by animation on the monitor unit .

Images