JP4033260B2 - Apartment house warning composite panel, apartment house warning system and apartment house warning panel test program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a test program for an apartment house warning composite panel, an apartment house alarm system, and an apartment house alarm composite board, and more specifically, an apartment house alarm composite board having a test function for confirming whether or not it is operating normally, The present invention relates to a test program for an apartment house alarm composite panel for confirming whether or not the apartment house alarm system including the apartment house alarm composite board and the apartment house alarm composite board are operating normally.
[0002]
[Prior art]
Many buildings constructed in recent years have automatic fire alarms. In this automatic fire alarm system, when the fire detector detects the occurrence of a fire and outputs a fire detection signal, the fire receiver that is the control panel receives the fire detection signal and displays that a fire has occurred, It is a facility that alerts people in the building by ringing an acoustic device such as a bell. Some fire receivers have a fire test function. Here, the fire test function refers to whether or not the device is operating normally, assuming that a fire detection signal is artificially supplied from the selected fire detector or line in the fire receiver, for example, This is a function for confirming whether or not functions relating to data setting such as display contents are operating normally.
[0003]
The applicant shall indicate the following as a fire receiver that can easily and quickly set the address of the fire detector or line that is the subject of the fire test when the operator performs the fire test manually. Has been proposed first. As shown in FIG. 18A, the fire receiver of this example includes a display 71 including a liquid crystal display (LCD) and an operation switch 72. As shown in FIG. 18 (2), the display 71 includes an operation display unit 71a for displaying the operation of the automatic fire alarm facility, a menu display unit 71b for displaying a menu, and a menu displayed on the menu display unit 71b. And an operation explanation display unit 71c for displaying an explanation of a key operation related to the content selected from the above.
[0004]
On the other hand, the operation switch 72 has an ascending scroll key 72a, a descending scroll key 72b, a menu selection key 72c, a first function key 72d, and a second function key 72e.
When the menu is selected, the ascending scroll key 72a is a cursor displayed on the left side of the “menu” displayed on the menu display portion 71b of the display 71 (a cursor marked with *) (FIG. 18 (2)). It functions as a key for instructing upward movement of (see). That is, each time the ascending scroll key 72a is pressed once, the cursor is moved upward and displayed in the menu display portion 71b. The ascending scroll key 72a functions as a key for instructing to increase the address value one by one when selecting an address.
[0005]
On the other hand, the descending scroll key 72b is a key for instructing a downward movement of the cursor displayed on the left side of the “menu” displayed on the menu display portion 71b when selecting a menu. That is, each time the descending scroll key 72b is pressed once, the cursor is moved downward and displayed on the menu display portion 71b. The descending scroll key 72b functions as a key for instructing to decrease the address value one by one when selecting an address.
The menu selection key 72c is a key for instructing execution of an operation corresponding to the display of “menu” and “menu end” displayed on the operation explanation display portion 71c. The first function key 72d and the second function key 72e are keys for instructing execution of an operation corresponding to the display corresponding to the operation explanation display unit 71c above them.
[0006]
First, in the normal monitoring state of the fire receiver, as shown in FIG. 18A, the display 71 indicates that normal monitoring is being performed. Next, when the menu selection key 72c is pressed, as shown in FIG. 18B, it is displayed on the operation display unit 71a that normal monitoring is being performed, and the “menu” screen is displayed on the menu display unit 71b. The operation explanation display portion 71c displays an explanation prompting the user to select desired contents from the “menu” screen by pressing the up scroll key 72a and the down scroll key 72b. Here, when the down scroll key 72b is pressed, as shown in FIG. 18 (3), it is displayed on the operation display unit 71a that normal monitoring is being performed, and a cursor (cursor indicated by *) in the menu display unit 71b. Goes down one step, the cursor is displayed to the left of “Fire Test”, which is the first item in the menu display section 71b, and the operation explanation display section 71c displays the “Fire test setting screen when the selection key is pressed. "Selection" is displayed on the first function key 72d, and when the user wants to see the fire test setting screen, the first function key 72d functioning as the selection key is displayed. An explanation prompting pressing is displayed.
[0007]
Next, when the first function key 72d is pressed, as shown in FIG. 18 (4), “Select an address with the △ and ▽ keys and press the execution key” on the operation explanation display portion 71c. The explanation is displayed, and “address = 001” is displayed on the operation explanation display portion 71c above the ascending scroll key 72a (Δ key) and the descending scroll key 72b (▽ key). This address is the address of the fire detector. By changing this address, the operator can select the address of the fire detector for which a fire test is desired. That is, when the display on the display 71 is switched to the fire test setting screen, as shown in FIG. 18 (4), the address of the fire detector is “001”, but the up scroll key 72a is pressed. Then, the address is continuously increased from “001” and displayed, and when the down scroll key 72b is pressed, the address is continuously decreased and displayed (see, for example, Patent Document 1).
[0008]
[Patent Document 1]
JP-A-6-282770 (page 2-3, FIG. 2)
[0009]
[Problems to be solved by the invention]
In the conventional automatic fire alarm system described above, an address (serial number) is given to the sensor or the line without distinction between them.
In this regard, in the case of public buildings such as general buildings and schools or hospitals used by multiple tenants, the areas used by each tenant, school classrooms, or general hospital rooms are not required to be very isolated. Therefore, since these areas are not distinguished from the common parts, there is no particular problem even if addresses are given to the sensors or lines without distinction as in the conventional automatic fire alarm system. Here, the common part is a part used in common by building users such as an entrance hall, a hall, a meeting room, a corridor, a staircase, an elevator, an electric room, and a machine room.
[0010]
On the other hand, in the case of a apartment house consisting of a dwelling unit composed of a plurality of dwelling units and the above-mentioned common unit, since high isolation is required for each dwelling unit, in the fire receiver constituting the automatic fire alarm facility When conducting a fire test, it is necessary to clearly distinguish between the dwelling unit and the common unit. However, as described above, in the conventional automatic fire alarm system, since the address is given to the sensor or the line without distinction, it is assumed that the address can be selected using the up scroll key 72a or the down scroll key 72b. However, it takes a long time for the operator to select a desired dwelling unit or line, and a long time is required for the fire test. Such inconveniences are particularly noticeable when automatic fire alarms are installed in large apartments with high floors and a large number of units on each floor. In addition, when installing an automatic fire alarm facility in a condominium, not only a fire alarm but also a fire prevention and smoke control function is added, so the fire receiver is a combined fire receiver (alarm composite panel). be called. In the following, in order to clearly indicate that it will be installed in an apartment house, the composite fire receiver (alarm composite panel) will be referred to as an apartment house alarm composite panel.
The inconveniences described above apply not only in the case of a fire test but also in the case of testing a gas leak detector, a security switch or an emergency call switch installed in a dwelling unit and a common unit.
[0011]
The present invention has been made in view of the above circumstances, and even when installed in a large apartment with a high floor and a large number of units on each floor, the test can be performed with good operability and in a short time. The purpose is to provide a test program for a complex housing warning composite panel, a complex housing warning system and a complex housing warning composite panel.
[0012]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention described in claim 1 is based on detection signals from a plurality of detectors that are installed in each part of a dwelling unit and a common unit composed of a plurality of dwelling units constituting a apartment house and detect abnormalities. Based on the apartment house warning composite panel that warns according to the abnormality, when the test function to select the detector and perform the test is selected, the dwelling unit to which the detector to be tested belongs or A selecting means for selecting one of the shared units; and a dwelling unit specifying unit for specifying the corresponding detector by a dwelling unit number assigned to each dwelling unit when the dwelling unit is selected by the selecting unit; Line selecting means for designating the corresponding detector by a line corresponding to the installation location of the detector when the common unit is selected by the selecting means; In the test function, at least a first process for displaying on the display unit for selecting either the test for the shared unit or the test for the dwelling unit, and an operation of the operation unit When the test related to the shared unit is selected, a second process for displaying on the display unit for selecting the detector corresponding to the line, and an operation of the operation unit relates to the dwelling unit. When the test is selected, a third process for performing a display for selecting the detector corresponding to the dwelling unit number on the display unit is executed. It is characterized by that.
[0017]
Claims 2 The described invention is claimed. 1 According to the apartment housing warning composite board described above, in the second process or the third process, the line or the dwelling unit number to be selected according to the scroll operation by the operation unit is scroll-displayed. Yes.
[0018]
Claims 3 The described invention is claimed. 1 Or 2 In the above-described apartment house warning composite panel, the third process is characterized in that the dwelling unit number to be selected according to the scroll operation by the operation unit is updated and displayed on the upper and lower floors.
[0019]
Claims 4 The invention described in claims 1 to 3 According to any one of the complex housing alarm composite board, the detector includes a fire detector that detects a fire, a gas leak detector that detects a gas leak, a security switch that detects the opening of a window, an emergency It is one of emergency call switches operated at times.
[0020]
Claims 5 The apartment house warning system according to the invention described in claims 1 to 4 It is characterized by having the apartment housing alarm composite board described in any one of the above.
[0021]
Claims 6 The test program for the apartment house alarm composite panel according to the invention described in claim 1 is provided in a computer. 5 The function described in any one of the above is realized.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. The description will be made specifically using examples.
FIG. 3 is a schematic diagram showing a configuration of a apartment house alarm system to which an apartment house alarm composite panel according to an embodiment of the present invention is applied.
The apartment housing alarm system of this example includes a collective entrance machine 1, an apartment housing alert composite panel 2, a housing information panel 3, fire detectors 4 and 5, a gas leak detector 6, a security switch 7, Call switch 8, door phone 9, video adapter 10, control device 11, transmission lines 12-14, call lines 15-17 and 21, video lines 18-20, control line 22, and signal line 23 To 28 and a control signal line 29.
The collective entrance machine 1 is installed at the collective entrance of a condominium, etc., and is operated by a person (visitor) who visits a resident of each dwelling unit constituting the apartment, and is resident in a resident or control room of a desired dwelling unit It is for calling the manager who does. Although not shown in detail, the collective entrance machine 1 includes a telephone set including a microphone and a speaker, a camera for photographing a visitor's face and appearance, a numeric keypad for inputting a dwelling unit number assigned to each dwelling unit, and the like. have. The collective entrance machine 1 is connected to the apartment house warning composite panel 2 through transmission lines 12 and 13, a telephone line 15, and a video line 18.
[0023]
The apartment house warning composite panel 2 is installed, for example, in a management room of an apartment house, and has an entrance door unlocking function, an intercom control function, a monitor control function, a security monitoring function, and various test functions. is doing. The apartment house alarm composite board 2 is connected to each house information board 3 via transmission lines 13 and 14, telephone lines 16 and 17, a video line 19, a video adapter 10, and a video line 20.
The collective entrance door unlocking function is a function for unlocking an auto-lock type collective entrance door installed at the collective entrance. The intercom control function includes a doorphone 9 installed between the collective entrance machine 1 and the apartment house warning composite panel 2 or the housing information panel 3 installed inside each dwelling unit, and a door of the dwelling unit. This is a function for controlling communication and communication with the corresponding housing information board 3. The monitor control function is a television monitor that constitutes a housing information board 3 installed in a dwelling unit designated by the visitor, such as a visitor's face and figure taken by a camera provided in the collective entrance 1 46 (see FIG. 4) and a function for performing control for display on the television monitor 35 (see FIG. 1) that constitutes the apartment house warning composite panel 2. The security monitoring function is such that each detection signal of the fire detector 4, the gas leak detector 6, the security switch 7, and the emergency call switch 8 installed in each dwelling unit is supplied via each house information panel 3, and the common part This is a function for alarming according to the abnormality that has occurred by supplying a fire detection signal from the fire detector 5 installed in each of the above. Here, the common part is a part used jointly by residents of the apartment house, such as an entrance hall, a hall, a meeting room, a corridor, a staircase, an elevator, an electric room, and a machine room.
[0024]
Various test functions include, for example, a remote test function and a fire test function. The remote test function means that the tester can bring a heat source close to the fire detectors 4 and 5 or spray a smoke substitute, spray a liquefied natural gas or the like on the gas leak detector 6, and a security switch. Instead of opening the window to which 7 is attached or operating the emergency call switch 8, these detectors activate their functions, and they normally output various detection signals such as fire detection signals. This is a function for confirming whether or not each output detection signal is normally transmitted to the apartment house warning composite panel 2 via the transmission lines 13 and 14 and the signal lines 23 to 28. On the other hand, the fire test function refers to whether or not the fire detection signal is operating normally, assuming that a fire detection signal is pseudo-supplied from the selected dwelling unit or line in the apartment house warning composite panel 2, for example, This is a function for confirming whether or not a function for displaying that a fire has occurred in a selected dwelling unit or line and a function relating to data setting such as display contents are operating normally. Here, the line refers to a place where the fire detector 5 is installed in the common part. For example, a plurality of fire detectors 5 connected to the signal line 27 belong to one line and a plurality of fire detectors 5 connected to the signal line 28 are connected. Each fire detector 5 belongs to two lines. As a fire test function, it may be the housing information panel 3 that the fire detection signal is assumed to be supplied in a pseudo manner. In this case, the housing information panel 2 and the housing information panel 3 Whether or not transmission is possible can also be confirmed.
[0025]
The housing information board 3 is installed inside each dwelling unit. Each house information panel 3 is connected to the fire detector 4, the gas leak detector 6, the crime prevention switch 7, and the emergency call switch 8 installed in the corresponding dwelling unit via signal lines 23 to 26, respectively. The housing information panel 3 is configured to receive a fire detection signal from the fire detector 4, a gas leak detection signal from the gas leak detector 6, a window opening detection signal from the crime prevention switch 7, and an emergency call signal from the emergency call switch 8. A number is added and supplied to the apartment house warning composite panel 2 via the transmission lines 13 and 14. The housing information board 3 is connected to the door phone 9 installed at the entrance door of the dwelling unit and the call line 21 and the control line 22 to control the call between the resident inside the dwelling unit and the visitor outside the door. To do. Furthermore, the housing information board 3 is connected to the apartment house warning composite board 2 via the telephone lines 16 and 17, and is controlled by the apartment house warning composite board 2 executing the intercom control function, so that the housing inside the residence unit is controlled. Make a call with the visitor at the entrance. The housing information board 3 is connected to the apartment house warning composite board 2 via the video line 19 and the video adapter 10, and is controlled by the apartment house warning composite board 2 executing a monitor control function. A video signal corresponding to the image of the visitor's face and figure taken by a camera (not shown) provided in the machine 1 is supplied, and the visitor's face and figure and the like are displayed on the TV monitor 46 (see FIG. 4). Display video.
[0026]
Fire detectors 4 and 5 detect that a fire has occurred in a thermal manner, such as an infrared sensor or a temperature sensor, or that a fire has occurred in a smoke manner, such as an optical sensor or an ionization sensor. Is detected and a fire detection signal is output. A plurality of fire detectors 4 are installed for each room of each dwelling unit and the like, and are connected to the corresponding housing information panel 3 via a signal line 23. On the other hand, a plurality of fire detectors 5 are installed in the common section, and are connected to the apartment house alarm composite panel 2 via signal lines 27 or 28. The gas leak detector 6 includes, for example, a contact combustion type gas sensor or a semiconductor type gas sensor, detects a leak of liquefied natural gas or propane gas in the corresponding dwelling unit, and outputs a gas leak detection signal. The gas leak detector 6 is installed, for example, in the vicinity of the gas range in each dwelling unit, and is connected to the corresponding house information panel 3 via the signal line 24.
[0027]
The security switch 7 is composed of, for example, a reed switch, is installed in the window of the corresponding dwelling unit, detects that the window is open, and outputs a window open detection signal. The security switch 7 is connected to the house information board 3 through a signal line 25. The emergency call switch 8 is installed at a predetermined location in each dwelling unit, and outputs an emergency call signal when operated by a resident or the like in an emergency. The emergency call switch 8 is connected to the house information board 3 via the signal line 26. The door phone 9 includes a microphone, a speaker, and the like, is installed at the entrance of each dwelling unit, and is used to make a call with a resident in the dwelling unit corresponding to the visitor. The video adapter 10 is installed in the vicinity of the entrance outside each dwelling unit, and controls connection and disconnection between the video line 20 and the video line 19 connected to the corresponding house information panel 3. When the video line 20 connected to the housing information board 3 to which the video adapter 10 corresponds is connected to the video line 19, the video signal from the collective entrance machine 1 is sent to the corresponding housing information board 3 through the video line 20. Supplied. For example, the control device 11 is a district bell device that informs the residents of the occurrence of a fire, a smoke prevention device that exhausts smoke smoke that fills the common area, etc., and water is discharged from the ceiling of the common area to extinguish the fire. It is composed of a fire extinguisher and the like, and is controlled by the apartment house warning composite panel 2 when a fire occurs. The control device 11 is installed at each predetermined place of the common part, and is connected to the apartment house warning composite panel 2 via the control signal line 29.
[0028]
Next, the configuration of the apartment house warning composite panel 2 will be described with reference to FIG.
As shown in FIG. 1, the apartment house warning composite panel 2 includes a monitoring control unit 31, a display unit 32, an operation unit 33, a video control unit 34, a television monitor 35, a call circuit 36, and input / output control. The circuit 37, the handset 38, and the speaker 39 are included. The monitoring control unit 31 is a CPU (central processing unit) 31. _a And storage unit 31 _b CPU31 _a Is the storage unit 31 _b By executing the various programs stored in the above, the collective entrance door unlocking function, intercom control function, monitor control function, security monitoring function, various test functions are executed, Control the entire apartment house warning system. That is, for example, taking the fire test function that is a feature of the embodiment of the present invention as an example, the fire test program is stored in the storage unit 31. _b Read out from the CPU 31 _a CPU 31 _a To control the operation. CPU31 _a When the fire test program is activated, the fire test process described later is executed under the control of the fire test program. Storage unit 31 _b Is a semiconductor memory such as ROM, RAM, or flash memory.
[0029]
The display unit 32 includes a plurality of display lamps (not shown) made up of light emitting diodes (LEDs) and light bulbs, an LCD, an electroluminescence (EL) display, or a plasma display panel (PDP). Display 32 comprising Display Panel) _a (See FIG. 2). Multiple indicators and display 32 _a Under the control of the monitoring control unit 31, various displays relating to the intercom control function and the security monitoring function are made. The operation unit 33 includes a display 32. _a A numeric keypad (not shown) provided in the vicinity, as shown in FIG. _a Execute / menu switch 33 provided at the bottom of _a , End / select switch 33 _b Down switch 33 _c , Lift switch 33 _d Alarm switch 33 _e , Fire alarm switch 33 _f Etc., and is used when executing the intercom control function and the security monitoring function. The function of each switch will be described later. Further, each switch in the operation unit 33 is displayed on the display 32. _a A touch panel provided above may be used, and examples of the touch panel include an optical touch panel and a contact touch panel. The optical touch panel includes the display 32. _a A plurality of light-emitting elements and a plurality of light-receiving elements are provided opposite to each side of the frame attached to the upper outer periphery of the display surface to block light emitted from the light-emitting elements and incident on the opposite light-receiving elements. By detecting the state, the input position on the display surface is recognized. On the other hand, the contact-type touch panel has the display 32. _a A first transparent electrode with dots is provided on a glass substrate or a polyester film substrate provided on the top of the substrate, and a film with a hard coat layer provided with a second transparent electrode on the lower surface is provided on the upper surface thereof. The touch switch is constituted by the second transparent electrode.
[0030]
The video control unit 34 is controlled by the monitor control unit 31 executing the monitor control function, and performs connection control processing and video display processing. In the connection control process, a video signal corresponding to an image of a visitor's face or figure taken by a camera (not shown) provided in the collective entrance 1 is received via the video line 18 to each house. This is a process of transmitting to the information board 3 via the video line 19 and the video adapter 10. On the other hand, the video display process is a process for displaying a video based on the video signal on the television monitor 35 provided on the panel surface of the apartment house warning composite panel 2. The television monitor 35 is composed of a CRT display, LCD, EL display, PDP, and the like, and displays images such as a visitor's face and appearance.
[0031]
The call circuit 36 is controlled by the supervisory control unit 31 executing the interphone control function, and processes the voice signal transmitted on the call lines 15 and 16 and the voice signal supplied from the handset 38 to perform this joint processing. A manager who is stationed in a management room or the like in which the housing alarm composite panel 2 is installed and operates the handset 38 is allowed to talk with a visitor at a collective entrance or a resident at each dwelling unit. The input / output control circuit 37 controls reception of a fire detection signal supplied from the fire detector 5 installed in each part of the shared part via the signal line 27 or 28, and controls installed in each part of the shared part. Control of transmission of a control signal supplied to the apparatus 11 via the control signal line 29 is controlled. The speaker 39 notifies an abnormality such as the occurrence of a fire, the intrusion of a thief, or the occurrence of a gas leak with an alarm or sound based on an acoustic signal supplied when the monitoring control unit 31 executes the security monitoring function.
[0032]
Next, the structure of the house information board 3 and the door phone 9 will be described with reference to FIG.
As shown in FIG. 4, the house information board 3 includes a control unit 41, a display unit 42, an operation unit 43, a video switching control circuit 44, a video circuit 45, a television monitor 46, and an alarm sound circuit 47. , A call switching circuit 48, a call circuit 49, a handset 50, an alarm receiving circuit 51, and a speaker 52. The control unit 41 is a CPU 41. _a And storage unit 41 _b CPU41 _a Is the storage unit 41 _b Various transmission control functions and monitoring functions are executed by executing the various programs stored in. With various transmission control functions, the house information board 3 transmits various detection signals and the dwelling unit number given to the dwelling unit where the self is installed to the apartment house warning composite board 2 via the transmission lines 13 and 14, This is a function of receiving various control signals transmitted from the apartment house warning composite panel 2 via the transmission lines 13 and 14. On the other hand, the monitoring function is a function for monitoring the operation of the entire house information board 3. In the control unit 41, for example, a certain transmission control program is stored in the storage unit 41 as in the case of the monitoring control unit 31 described above. _b Read out from the CPU 41 _a CPU41 _a To control the operation. CPU41 _a When the transmission control program is activated, the transmission control function described above is executed under the control of the transmission control program. Storage unit 41 _b Is a semiconductor memory such as ROM, RAM, or flash memory.
[0033]
The display unit 42 includes a plurality of display lamps made of LEDs, light bulbs, and the like, and a display made of LCD, EL display, PDP, or the like. Various displays related to the transmission control function and the monitoring function are displayed on the plurality of indicator lamps and displays under the control of the control unit 41. The operation unit 43 includes a call switch, a collective entrance door unlocking switch, and the like. The call switch is operated when calling a manager stationed in the management room where the apartment house warning composite panel 2 is installed. The collective entrance door unlocking switch is operated when instructing the unlocking of the auto-lock type door installed at the collective entrance. The video switching control circuit 44 supplies a switching signal for switching connection / disconnection between the video line 19 and the video line 20 to the video adapter 10 under the control of the control unit 41. When the video adapter 10 connects the video line 19 and the video line 20 based on the switching signal from the video switching control circuit 44, the video circuit 45 gathers based on the video signal from the apartment house warning composite panel 2. An image of a visitor's face, figure, etc., captured by the camera of the entrance machine 1 is displayed on the television monitor 46. The television monitor 46 is composed of a CRT display, LCD, EL display, PDP, and the like, and displays images such as a visitor's face and appearance.
[0034]
The alarm sound circuit 47 has a storage unit, a voice synthesis circuit, a digital / analog converter, an amplifier, etc. (not shown), and an acoustic signal of a type corresponding to the contents to be issued various alarms such as fire and gas leaks. The voice signal and the voice synthesis signal are generated and supplied to the control unit 41 and the call switching circuit 48. The storage unit is composed of, for example, a semiconductor memory such as a ROM, a RAM, or a flash memory, and stores acoustic data and audio data of a type corresponding to the contents to which various alarms such as fire and gas leakage should be issued. The speech synthesis circuit performs speech synthesis based on the speech data read from the storage unit and outputs speech synthesis data. The digital / analog converter converts acoustic data or voice data read from the storage unit or voice synthesis data supplied from a voice synthesis circuit into an analog acoustic signal, voice signal, or voice synthesis signal. The amplifier amplifies the acoustic signal, the voice signal, and the voice synthesis signal.
[0035]
The call switching circuit 48 switches connection / disconnection between the call line 17 or the call line 21 and the call circuit 49 under the control of the control unit 41, and the acoustic signal, voice signal, and voice synthesis supplied from the alarm sound circuit 47. A signal and a voice signal supplied from the call circuit 49 are supplied to the intercom 9 via the call line 21. When the call switching circuit 48 connects the call line 17 and the call circuit 19, the call circuit 49 processes the audio signal transmitted on the call lines 16 and 17 and the audio signal supplied from the handset 50. Then, the resident who is at home in the dwelling unit where the housing information board 3 is installed and operates the handset 50 is allowed to talk to the visitor at the collective entrance. On the other hand, when the call switching circuit 48 connects the call line 21 and the call circuit 49, the call circuit 49 processes the voice signal transmitted on the call line 21 and the voice signal supplied from the handset 50. The resident to talk to a visitor outside the dwelling door. The alarm receiving circuit 51 includes a fire detection signal, a gas leakage detector 6, a security switch 7, and an emergency call switch 8 installed in each part of the dwelling unit, respectively, through fire signal signals 23 to 26, The reception of the gas leak detection signal, the window opening detection signal, or the emergency call signal is monitored, and when it is received, the control unit 41 is notified of the reception. Based on the acoustic signal, voice signal, and voice synthesis signal supplied from the control unit 41, the speaker 52 notifies of an abnormality such as the occurrence of a fire, the intrusion of a thief, the occurrence of a gas leak, or the like with an alarm or voice.
[0036]
As shown in FIG. 4, the door phone 9 includes a call switch 61, a microphone 62, a speaker 63, and an energization indicator lamp 64. The call switch 61 outputs a call signal when operated by a visitor or the like. The microphone 62 converts voice generated by a visitor or the like into a voice signal. The speaker 63 emits the occupant's voice based on the acoustic signal, voice signal, and voice synthesis signal supplied from the house information panel 3, and alarms or voices the occurrence of a fire, the intrusion of a thief, the occurrence of a gas leak, etc. To inform. The energization indicator lamp 64 is made of, for example, an LED or a light bulb, and displays that the door phone 9 is powered on.
[0037]
Next, an outline of various functions executed by the apartment house warning composite panel 2 in the apartment house alarm system having the above-described configuration will be described.
(1) Intercom control function
For example, in order for a visitor to call a resident in room 801 of a condominium, for example, a call switch (not shown) is operated by sequentially operating numeric keys “8”, “0”, “1” of the collective entrance 1 Is operated, the collective entrance machine 1 transmits a calling signal for calling the room 801 to the apartment house warning composite panel 2. When the apartment house warning composite board 2 that has received the call signal transmits the call signal to the house information board 3 installed in the dwelling unit of room 801 via the transmission line 13, the house information board 3 sends the call signal to the house information board 3. A response signal indicating that it has been received is transmitted to the apartment house warning composite panel 2 via the transmission line 13. Upon receiving the response signal, the apartment house warning composite panel 2 transmits a connection signal for connecting them via the telephone lines 15, 16 and 17 to the collective entrance machine 1 and the house information panel 3 in the 801 room. To do. As a result, the collective entrance machine 1 that has received the connection signal is connected to the house information board 3 in the 801 room via the call lines 15, 16 and 17, and a call path is formed. Thereby, the visitor can talk with the resident of the 801 room.
[0038]
(2) Monitor control function
When the intercom control function is executed, the house information board 3 in room 801 that has received the connection signal is connected to the video line 19 via the video line 20 and the video adapter 10. As a result, the collective entrance machine 1 and the house information board 3 in the room 801 are connected through the video line 18, the apartment housing warning composite board 2, the video line 19, the video adapter 10, and the video line 20, thereby forming a video signal path. Is done. As a result, the video signal corresponding to the image of the visitor's face, figure, etc. is transmitted from the collective entrance machine 1 to the housing information panel 3 of the 801 room via the video signal route. You can see the video of the visitor's face and appearance.
[0039]
(3) Security monitoring function
▲ 1 ▼ Fire alarm control function
It is assumed that the fire detector 4 installed in a certain dwelling unit (for example, room 503) is activated and transmits a fire detection signal to the corresponding house information panel 3. As a result, the house information panel 3 that has received the fire detection signal transmits a fire signal obtained by adding a dwelling unit number (in this case, “503”) to the fire detection signal via the transmission lines 13 and 14. Send to the composite board 2. Upon receiving the fire signal, the apartment house warning composite panel 2 displays the dwelling unit number (in this case, “503”) included in the fire signal and the fact that a fire has occurred on the display unit 32, An alarm is issued by the speaker 39 or the like, and an alarm signal to which the dwelling unit number (in this case, “503”) is added is transmitted via the transmission line 13. Thereby, the housing information board 3 installed in each dwelling unit constituting the apartment house that has received the warning signal reads the dwelling unit number (in this case, “503”) added to the warning signal. And all the dwelling units on the floor where the fire is occurring (in this case, the 5th floor) and the housing information respectively installed on all the dwelling units on the floor directly above (in this case, the 6th floor) The board 3 issues a fire alarm from the speaker 52 based on the dwelling unit number (in this case, “503”).
[0040]
(2) Various alarm control functions
A gas leak detector 6, a security switch 7, or an emergency call switch 8 installed in a certain dwelling unit (for example, room 302) is activated to respond to a gas leak detection signal, a window opening detection signal, or an emergency call signal. Suppose that it transmitted to the housing information board 3. As a result, the house information panel 3 that has received the gas leak detection signal, the window opening detection signal, or the emergency call signal receives the dwell unit number in the gas leak detection signal, the window open detection signal, or the emergency call signal. The security signal to which (302 in this case) is added is transmitted to the apartment house warning composite panel 2 via the transmission lines 13 and 14. Upon receiving the security signal, the apartment house warning composite panel 2 displays the dwelling unit number ("302" in this case) and the type of the security signal included in the security signal on the display unit 32, or a speaker. An alarm is issued by 39 etc.
[0041]
Next, the details of the fire test function executed by the apartment house warning composite panel 2 are shown in the flowcharts shown in FIGS. 5 to 7 and 13 and the screen display examples shown in FIGS. 2, 8 to 12 and 14 to 17. Will be described with reference to FIG.
First, in step SP1 shown in FIG. 5, the monitoring control unit 31 configuring the apartment house warning composite panel 2 displays the display 32 of the display unit 32 configuring the apartment house alarm composite panel 2. _a After the menu screen shown in FIG. 2 is displayed, the process proceeds to step SP2. In the example of FIG. 2, the menu selection items “Test”, “Maintenance SW”, “Maintenance Function”, “Interlocking Off”, “Transfer Off” are displayed in the area of about one third from the right end of the display screen. , “Manual control”, “Ring volume”, and “Test result” are displayed. Among these selection items, the selection items other than the selection item “test” are not directly related to the present invention, and the description thereof will be omitted. Further, in the vicinity of the lower side of the display screen example shown in FIG. 2, a white upward triangle mark Δ and a downward triangle mark ▽ are displayed side by side, and characters “execute” and “end” are displayed in white. ing. This is the display 32 shown in FIG. _a Of the various switches provided at the bottom of the menu, the execute / menu switch 33 _a , End / select switch 33 _b Down switch 33 _c , Lift switch 33 _d Only the function is effective and the function / function switch 33 is also used. _a Functions as an execution switch, and the end / select switch 33 also has a function. _b Indicates that it functions as an end switch. The meaning of the display near the lower side of the display screen example shown in FIG. 2 is the same as in FIGS.
[0042]
In step SP2, the monitoring control unit 31 determines whether or not the selection item “test” described above has been selected. This determination is made as shown below. That is, the lowering switch 33 _c Or ascending switch 33 _d Each time is operated, any one of the rhombus marks “◇” displayed on the left side of each selection item described above is sequentially highlighted to indicate that the corresponding selection item is selectable. Therefore, the operator moves down switch 33. _c Or ascending switch 33 _d To highlight the diamond mark “◇” displayed on the left side of the selection item “TEST”, and then execute / menu switch 33 _a Is operated, the monitoring control unit 31 determines that the selection item “test” described above has been selected. If the determination result in step SP2 is “YES”, the monitoring controller 31 proceeds to step SP3.
On the other hand, if the determination result in step SP2 is “NO”, that is, if the above-described selection item “test” is not selected, the monitoring control unit 31 ends the series of processes. In actual processing, the monitoring control unit 31 executes various functions according to the selection of the selection item by the operator, but functions other than the fire test function are not directly related to the present invention. In the following description, the processing is simply terminated. The same applies to a case where the determination result in step SP4 described later is “NO”.
[0043]
In step SP3, the monitoring control unit 31 displays the display 32. _a After the test menu screen shown in FIG. 8 is displayed, the process proceeds to step SP4. In the example of FIG. 8, “fire test”, “maintenance SW”, “remote test”, “standby power”, “transfer” are selected as test menu selection items in an area about one third from the right end of the display screen. “Block” and “Display test” are displayed. Among these selection items, the selection items that are not related to the test function other than the selection item “fire test” are not directly related to the present invention, and the description thereof will be omitted. For example, the selection item “remote test” is one of the test functions as described above, and is operated in the same manner as the “fire test”.
In step SP4, the monitoring control unit 31 determines whether or not the above-described selection item “fire test” is selected. This determination is made as shown below. That is, the lowering switch 33 _c Or ascending switch 33 _d Each time is operated, any one of the rhombus marks “◇” displayed on the left side of each selection item described above is sequentially highlighted to indicate that the corresponding selection item is selectable. Therefore, the operator moves down switch 33. _c Or ascending switch 33 _d To highlight the diamond mark “◇” displayed on the left side of the selection item “fire test”, and then execute / menu switch 33 _a Is operated, the monitoring control unit 31 determines that the selection item “fire test” is selected. If the determination result in step SP4 is “YES”, the monitoring control unit 31 proceeds to step SP5.
On the other hand, when the determination result of step SP4 is “NO”, that is, when the above-mentioned selection item “fire test” is not selected, the other selection item is selected. After performing necessary processing for the selected item, a series of processing is terminated.
[0044]
In step SP5, the monitoring control unit 31 displays the display 32. _a After the fire test menu screen shown in FIG. 9 is displayed, the process proceeds to step SP6. In the example of FIG. 9, “shared part” and “dwelling unit” are displayed as selection items of the fire test menu in an area of about one third from the right end of the display screen.
In step SP6, the monitoring control unit 31 determines whether or not the selection item “shared unit” described above has been selected. This determination is made as shown below. That is, the lowering switch 33 _c Or ascending switch 33 _d Each time is operated, any one of the rhombus marks “◇” displayed on the left side of each selection item described above is sequentially highlighted to indicate that the corresponding selection item is selectable. Therefore, the operator moves down switch 33. _c Or ascending switch 33 _d To highlight the diamond mark “◇” displayed on the left side of the selection item “shared part” and then execute / menu switch 33 _a Is operated, the monitoring control unit 31 determines that the selection item “shared unit” described above has been selected. If the determination result in step SP6 is “YES”, the monitoring controller 31 proceeds to step SP7.
On the other hand, if the determination result in step SP6 is “NO”, that is, if the selection item “shared part” is not selected, the monitoring control unit 31 proceeds to step SP13 shown in FIG.
[0045]
In step SP7, the supervisory control unit 31 performs a line display selection process for allowing the operator to select any line installed in the shared unit, and then proceeds to step SP8. This line display selection process will be described with reference to the flowchart shown in FIG. 7 and the screen display examples shown in FIGS. First, in step SP21 shown in FIG. _a After the line selection screen shown in FIG. 10 is displayed, the process proceeds to step SP22. In the example of FIG. 10, “* fire test *” and “* common part *” are displayed on the upper part of the area about one third from the right end of the display screen, and the fire test of the common part is displayed. It is shown that. In addition, “■■ Line” is displayed in the approximate center of the region about one third from the right end of the display screen, indicating that the line is not selected. Furthermore, “◇ front line” and “◇ back line” are displayed in two steps slightly below the center of the area of about one third from the right end of the display screen. _c Or ascending switch 33 _d To highlight the diamond mark “◇” of “◇ Previous line” or “◇ After line” and then press the end / select switch 33 _b Indicates that it is possible to select a line that is assigned one smaller number than the number assigned to the currently selected line or a line that is assigned one higher number. Yes. In addition, “◇ end” is displayed at the bottom of an area of about one third from the right end of the display screen. _c Or ascending switch 33 _d To select and exit / select switch 33 _b It is shown that the fire test process of this common part can be ended by operating.
[0046]
In step SP22, the supervisory control unit 31 uses the down switch 33 as a switch operation for moving the line. _c Or ascending switch 33 _d In addition to the end / select switch 33 _b It is determined whether or not is operated. If the determination result is “YES”, the monitoring controller 31 proceeds to step SP23. In step SP23, the monitoring control unit 31 moves down the switch 33 by the operator. _c Or ascending switch 33 _d After displaying a new line selection screen (see FIG. 11) according to the operation, the process proceeds to step SP24. In the example of FIG. 11, “* fire test *” and “* common part *” are displayed on the upper part of the area of about one third from the right end of the display screen, and the fire test of the common part is displayed. It is shown that. In addition, “1 line” is displayed in the approximate center of the area about one third from the right end of the display screen, indicating that one line is selectable. Further, the display items themselves from the lower part to the lower end of the area about one third from the right end of the display screen are the same as those in FIG. 10, but are displayed on the left side of the selection item “rear line”. The diamond mark “◇” is highlighted, and the operator presses the lowering switch 33. _c Or ascending switch 33 _d To select the selection item “rear line” and select the end / select switch 33. _b It is shown that the operation of is detected in the process of step SP22. Further, in the vicinity of the lower side of the display screen example shown in FIG. 11, a white upward triangle mark Δ and a downward triangle mark ▽ are displayed side by side, and the characters “select” and “execute” are displayed in white. ing. This is the display 32 shown in FIG. _a Of the various switches provided at the bottom of the menu, the execute / menu switch 33 _a , End / select switch 33 _b Down switch 33 _c , Lift switch 33 _d Only the function is effective and the function / function switch 33 is also used. _a Functions as an execution switch, and the end / select switch 33 also has a function. _b It functions as a selection switch. The meaning of the display near the lower side of the display screen example shown in FIG. 11 is the same in FIGS. 12 and 15 to 17.
[0047]
In step SP24, the monitoring control unit 31 executes / executes the menu switch 33. _a It is determined whether or not is operated. If this determination is “NO”, the monitoring control unit 31 returns to step SP22 and repeats the processing of steps SP22 and SP23 described above. On the other hand, if the determination result in step SP24 is “YES”, that is, the execute / menu switch 33 _a When is operated, the monitoring control unit 31 proceeds to step SP8 shown in FIG. If the determination result in step SP22 is “NO”, that is, if the selection item “front line” or “rear line” has not been selected, the monitoring control unit 31 proceeds to step SP25. In step SP25, the monitoring control unit 31 determines whether or not an operation related to termination has been performed. In other words, the monitoring control unit 31 includes the lowering switch 33. _c Or ascending switch 33 _d As a result of the above operation, the rhombus mark “◇” displayed on the left side of the selection item “end” is highlighted to make the selection item “end” selectable, and then the end / select switch 33 is displayed. _b It is determined whether or not is operated. If the determination result is “YES”, the monitoring control unit 31 ends the series of processes. On the other hand, if the determination result in step SP25 is “NO”, that is, if no operation related to termination is performed, the monitoring control unit 31 proceeds to step SP24.
In this case, the display 32 _a In the state in which the line selection screen shown in FIG. _c Or ascending switch 33 _d To display 32 _a 11 is set to the state of the line selection screen shown in FIG. 11, and after the selection item “front line” or “rear line” is made selectable in the state of this line selection screen, the end / select switch 33 is set. _b By arbitrarily moving from the selected state of “1 line” shown in FIG. 11 to another shared line, the execute / menu switch 33 is operated. _a Is operated, the determination result in step SP24 is “YES”. In this line display selection process, one line is selected, and the monitoring control unit 31 proceeds to step SP8 in FIG.
[0048]
In step SP8 shown in FIG. 5, the supervisory control unit 31 performs a fire test on the selected line, and then proceeds to step SP9. In this fire test, as in the case of an actual fire (hereinafter referred to as an actual fire), a fire light (not shown) constituting the display unit 32 is turned on, and the display 32 _a For example, as shown in FIG. 12, the fact that the fire test is being executed is displayed, and an alarm is issued from the speaker 39. In the example of FIG. 12, the area of about one third from the right end of the display screen and the vicinity of the lower side are the same as in the example of FIG. On the other hand, in FIG. 12, “● detector” and “report” are displayed in the upper first stage of the area about two thirds from the left end of the display screen, and the fire test of the fire detector 5 is performed. It is shown that an alarm has been issued. In the upper second row of the area about two-thirds from the left end of the display screen, “First floor” and “Meeting room” are displayed, and the meeting room is one of the common areas on the first floor. It is shown that it is a fire test of the fire detector 5 installed in the.
[0049]
In step SP9, the monitoring controller 31 determines whether or not an abnormality has occurred as a result of executing the fire test in step SP8. If this determination is “NO”, the monitoring controller 31 proceeds to step SP10. In step SP10, the monitoring control unit 31 displays the display 32 constituting the display unit 32. _a After the display similar to the case of the actual fire is displayed on the indicator lamp, the process proceeds to step SP12. On the other hand, if the determination result in step SP9 is “YES”, that is, if an abnormality has occurred as a result of executing the fire test in step SP8, the monitoring control unit 31 proceeds to step SP11. In step SP11, the monitoring control unit 31 displays the display 32 that constitutes the display unit 32. _a After indicating that an abnormality has occurred on the indicator lamp, the process proceeds to step SP12. In step SP12, the monitoring control unit 31 displays the display 32. _a It is determined whether or not an operation for selecting the selection item “END” (for example, see FIG. 12) displayed on the screen has been performed. This determination is made as shown below. That is, the lowering switch 33 _c Or ascending switch 33 _d Each time is operated, any one of the rhombus marks “◇” displayed on the left side of each selection item described above is sequentially highlighted to indicate that the corresponding selection item is selectable. Therefore, the operator moves down switch 33. _c Or ascending switch 33 _d To highlight the diamond mark “◇” displayed on the left side of the selection item “End”, and then execute / menu switch 33 _a Is operated, the monitoring control unit 31 determines that the above-mentioned selection item “end” has been selected. If the determination result in step SP12 is “YES”, the monitoring control unit 31 ends the series of processes.
On the other hand, if the determination result in step SP12 is “NO”, that is, if the operation for selecting the selection item “end” has not been performed, the monitoring control unit 31 returns to step SP7 and described above. Steps SP7 and SP8 are repeated. That is, when the operator conducts a fire test on another line, the processes of steps SP7 and SP8 are repeated.
[0050]
In step SP13 shown in FIG. 6, the monitoring control unit 31 displays the display 32. _a It is determined whether or not the selection item “Dwelling Unit” (see FIG. 9) displayed on the screen is selected. This determination is made as shown below. That is, the operator operates the lowering switch 33. _c Or ascending switch 33 _d To highlight the diamond mark “◇” displayed on the left side of the selection item “Dwelling Unit”, and then execute / menu switch 33 _a Is operated, the monitoring control unit 31 determines that the above-described selection item “dwelling unit” has been selected. If the determination result in step SP13 is “YES”, the monitoring controller 31 proceeds to step SP14.
On the other hand, if the determination result in step SP13 is “NO”, that is, if the selection item “dwelling unit” is not selected, the monitoring control unit 31 proceeds to step SP20.
[0051]
In step SP14, the supervisory control unit 31 performs a dwelling unit display selection process for causing the operator to select any of the dwelling units, and then proceeds to step SP15. This dwelling unit display selection process will be described with reference to the flowchart shown in FIG. 13 and the screen display examples shown in FIGS. First, in step SP31 shown in FIG. _a After the dwelling unit selection screen shown in FIG. 14 is displayed, the process proceeds to step SP32. In the example of FIG. 14, “* fire test *” and “* dwelling unit part *” are displayed on the upper part of an area of about one third from the right end of the display screen. It is shown that. In addition, “■■■■ Room No.” is displayed in the approximate center of the one-third area from the right edge of the display screen, and the unit number assigned to each unit is unselected. It is shown. Furthermore, “◇ upper floor”, “◇ lower floor”, “◇ previous room”, “◇ backward room” “◇ End” is displayed. Among these displays, for the selection items “◇ upper floor” and “◇ lower floor”, the down switch 33 _c Or ascending switch 33 _d To highlight “◇ upper floor” or “◇ lower floor” rhombus mark “◇”, and then press the end / select switch 33 _b When is operated, it is shown that the floor number one smaller than the floor number of the floor to which the currently selected fire test unit belongs can be selected or the floor number one larger. Similarly, for the selection items “◇ previous room” and “◇ subsequent room”, the down switch 33 _c Or ascending switch 33 _d To highlight the diamond mark “◇” for “◇ Previous issue room” or “◇ After issue room” and then press the end / select switch 33 _b When is operated, it is shown that a dwelling unit to which a dwelling unit number smaller than the currently selected dwelling unit number is assigned or a dwelling unit to which a dwelling unit number one by one is assigned can be selected. Further, for the selection item “◇ end”, the down switch 33 _c Or ascending switch 33 _d After making the selectable state by operating, the end / select switch 33 functioning as an end key _b It is shown that the fire test process of this dwelling unit can be ended by operating.
[0052]
In step SP32, the supervisory control unit 31 uses the lowering switch 33 as a switch operation to move the dwelling unit number. _c Or ascending switch 33 _d In addition to the end / select switch 33 _b It is determined whether or not is operated. If the determination result is “YES”, the monitoring controller 31 proceeds to step SP33. In step SP33, the monitoring control unit 31 moves down the switch 33 by the operator. _c Or ascending switch 33 _d After a new dwelling unit selection screen (see FIG. 15) corresponding to the operation is displayed, the process proceeds to step SP34. In the example of FIG. 15, “* fire test *” and “* dwelling unit part *” are displayed on the upper part of the area of about one third from the right end of the display screen, and the fire test of the dwelling unit part is displayed. It is shown that. In addition, “Room 101” is displayed in a substantially central portion of an area about one third from the right end of the display screen, indicating that Room 101 on the first floor is in a selectable state. Further, the display items themselves from the lower part to the lower end of the area about one third from the right end of the display screen are the same as those in FIG. 14, but are displayed on the left side of the selection item “subsequent room”. The diamond mark “◇” is highlighted, and the operator presses the lowering switch 33. _c Or ascending switch 33 _d To select the selection item “succeeding room” to be in a selectable state, and to end / select switch 33 _b It is shown that the operation of is detected in the process of step SP32.
[0053]
In step SP34, the monitoring control unit 31 executes / executes the menu switch 33. _a It is determined whether or not is operated. If the determination result is “NO”, the monitoring control unit 31 returns to step SP32 and repeats the processing of steps SP32 and SP33 described above. On the other hand, if the determination result in step SP34 is “YES”, that is, the execute / menu switch 33 _a When is operated, the monitoring control unit 31 proceeds to step SP15 shown in FIG. If the determination result in step SP32 is “NO”, that is, if the selection item “upper floor”, “lower floor”, “previous room” or “rear room” is not selected, the monitoring control unit In step 31, the process proceeds to step SP35. In step SP35, the monitoring controller 31 determines whether or not an operation related to termination has been performed. In other words, the monitoring control unit 31 includes the lowering switch 33. _c Or ascending switch 33 _d As a result of the above operation, the rhombus mark “◇” displayed on the left side of the selection item “end” is highlighted to make the selection item “end” selectable, and then the end / select switch 33 is displayed. _b It is determined whether or not is operated. If the determination result is “YES”, the monitoring control unit 31 ends the series of processes. On the other hand, if the determination result in step SP35 is “NO”, that is, if no operation related to termination has been performed, the monitoring control unit 31 proceeds to step SP34.
In this case, the display 32 _a In the state in which the dwelling unit selection screen shown in FIG. _c Or ascending switch 33 _d To display 32 _a Is set to the state of the dwelling unit selection screen shown in FIG. 15, and in this dwelling unit selection screen state, any of the selection items “upper floor”, “lower floor”, “previous room” or “rear room” is made selectable. Then, the end / select switch 33 _b Is moved to "Room 101" shown in FIG. _a Is operated, the result of determination in step SP34 is “YES”. In this dwelling unit display selection process, room 101 is selected, and the monitoring control unit 31 proceeds to step SP15 in FIG.
[0054]
In step SP15 shown in FIG. 6, the supervisory control unit 31 proceeds to step SP16 after executing the fire test of the selected dwelling unit. In this fire test, as in the case of an actual fire, a fire light (not shown) constituting the display unit 32 is turned on and the display 32 is displayed. _a For example, as shown in FIG. 16, the fact that the fire test is being executed is displayed, and an alarm is issued from the speaker 39. In the example of FIG. 16, the area of about one third from the right end of the display screen and the vicinity of the lower side are the same as in the example of FIG. On the other hand, in FIG. 16, “● fire” and “report” are displayed in the upper first stage of the area about two thirds from the left end of the display screen. It is shown that an alarm has been issued. In the upper second row of the area about two-thirds from the left end of the display screen, “Room 101” is displayed, and fire detection is installed in Room 101, one of the dwelling units on the first floor. It is shown to be a fire test of vessel 4.
[0055]
In step SP16, the monitoring controller 31 determines whether or not an abnormality has occurred as a result of executing the fire test in step SP15. If this determination is “NO”, the monitoring controller 31 proceeds to step SP17. In step SP17, the monitoring control unit 31 displays the display 32 that constitutes the display unit 32. _a After the display similar to that in the case of an actual fire is displayed on the indicator lamp, the process proceeds to step SP19. On the other hand, if the determination result in step SP16 is “YES”, that is, if an abnormality has occurred as a result of executing the fire test in step SP15, the monitoring controller 31 proceeds to step SP18. In step SP18, the monitoring control unit 31 displays the display 32 constituting the display unit 32. _a For example, as shown in FIG. 17, an indication that an abnormality has occurred is displayed on the indicator lamp, and then the process proceeds to step SP19. In the example of FIG. 17, the word “abnormality occurrence” blinks or is highlighted in the first row of the area about one third from the right edge of the display screen, and some abnormality has occurred in the fire test. It is shown. In the example of FIG. 17, the second stage to the lower end and the vicinity of the lower side of the region of about one third from the right end of the display screen are the same as the example of FIG. On the other hand, in FIG. 17, “● fire” and “test abnormality” are displayed in the upper first stage of the area of about two thirds from the left end of the display screen. In the fire test of the fire detector 4, It is shown that some abnormality has occurred. In the upper second row of the area about two-thirds from the left end of the display screen, “Room 101” is displayed, and fire detection is installed in Room 101, one of the dwelling units on the first floor. It is shown to be a fire test of vessel 4.
[0056]
In step SP19, the monitoring control unit 31 displays the display 32. _a It is determined whether or not an operation for selecting the selection item “END” (for example, see FIG. 17) displayed in FIG. This determination is made as shown below. That is, the lowering switch 33 _c Or ascending switch 33 _d Each time is operated, any one of the rhombus marks “◇” displayed on the left side of each selection item described above is sequentially highlighted to indicate that the corresponding selection item is selectable. Therefore, the operator moves down switch 33. _c Or ascending switch 33 _d To highlight the diamond mark “◇” displayed on the left side of the selection item “End”, and then execute / menu switch 33 _a Is operated, the monitoring control unit 31 determines that the above-mentioned selection item “end” has been selected. If the determination result in step SP19 is “YES”, the monitoring control unit 31 ends the series of processes.
On the other hand, if the determination result in step SP19 is “NO”, that is, if the operation for selecting the selection item “end” has not been performed, the monitoring control unit 31 returns to step SP14 and described above. Steps SP14 and SP15 are repeated. That is, when the operator conducts a fire test of another dwelling unit, the processes of steps SP14 and SP15 are repeated.
In step SP20, the monitoring control unit 31 determines whether an operation related to termination has been performed. In other words, the monitoring control unit 31 includes the lowering switch 33. _c Or ascending switch 33 _d As a result of the above operation, the rhombus mark “◇” displayed on the left side of the selection item “end” is highlighted to make the selection item “end” selectable, and then the end / select switch 33 is displayed. _b It is determined whether or not is operated. If the determination result is “YES”, the monitoring control unit 31 ends the series of processes.
On the other hand, if the determination result in step SP20 is “NO”, that is, if an operation related to termination has not been performed, the monitoring control unit 31 returns to step SP6 shown in FIG. repeat.
[0057]
Thus, according to the configuration of this example, in the fire test, as shown in FIG. 9, the common part and the dwelling part can be selected separately, and the lowering switch 33c and the rising switch 33d are terminated / selected. In combination with the switch 33b, each dwelling unit or each line can be selected. In addition, in the fire test on the dwelling unit, the upper floor or the lower floor is also a combination of the down switch 33c, the up switch 33d, and the end / select switch 33b. Can be selected in the same manner.
Therefore, even when the apartment housing alarm system of this example is installed in a large-scale condominium or the like having a large number of units on each floor, a fire test can be performed with good operability and in a short time.
In addition, according to the configuration of this example, as shown in FIGS. 12 and 17, the result of the fire test is displayed together with the installation location of the fire detector and the dwelling unit number. Can be accurately recognized, and the location of the abnormality occurring in the fire test can be accurately recognized.
[0058]
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and there are design changes and the like without departing from the gist of the present invention. Are also included in the present invention.
For example, in the above-described embodiment, an example in which a line fire test is performed has been described. However, the present invention is not limited to this, and the present invention can also be applied to a case in which a storage line fire test is performed. In this case, the operator executes / menu switch 33 constituting the operation unit 33 of the apartment house warning composite panel 2. _a Is operated to instruct the execution of the fire test of the storage line, a storage lamp (not shown) indicating that the storage is being performed, which is a part of the display unit 32, is once lit in green, for example. Then, when the accumulation light is switched to red, for example, the operator executes / menu switch 33. _a It is only necessary to configure so that the fire test is started by operating again.
In the above-described embodiment, the line and the dwelling unit are provided with the lowering switch 33. _c Or ascending switch 33 _d Although the example which selects by operating is shown, it is not limited to this. For example, in FIG. 10, “◇ front line” and “◇ rear line” are arranged side by side on the display 32. _a And a lowering switch 33 _c And lift switch 33 _d Instead of this, a left switch and a right switch may be provided to scroll the display to the left and right.
Further, in the above-described embodiment, the example in which the present invention is applied to the fire test for testing the fire detectors 4 and 5 has been shown. However, the present invention is not limited to this, and the present invention is not limited to this. 7 or emergency call switch 8 can also be applied.
[0059]
【The invention's effect】
As described above, according to the configuration of the first aspect of the present invention, from the plurality of detectors that are installed in each part of the dwelling unit composed of the plurality of dwelling units constituting the apartment house and the common unit and detect the abnormality. Based on the detection signal, the complex housing alarm composite panel that warns in accordance with the abnormality is the dwelling unit or common unit to which the detector to be tested belongs when the test function for selecting the detector and performing the test is selected When the dwelling unit is selected by the selecting unit, the dwelling unit designating unit for designating the corresponding detector by the dwelling unit number assigned to each dwelling unit, and the common unit by the selecting unit If selected, a line designation means for designating a corresponding detector by a line corresponding to the installation location of the detector; In the test function, at least a first process for displaying on the display unit for selecting either the test for the shared unit or the test for the dwelling unit, and an operation of the operation unit When the test related to the shared unit is selected, a second process for displaying on the display unit for selecting the detector corresponding to the line, and an operation of the operation unit relates to the dwelling unit. When the test is selected, a third process for performing a display for selecting the detector corresponding to the dwelling unit number on the display unit is executed. . Therefore, even when the apartment house alarm composite panel is installed in the apartment house, the fire test can be performed with good operability and in a short time.
[Brief description of the drawings]
FIG. 1 is a schematic view showing a configuration of a complex housing warning composite panel according to an embodiment of the present invention.
FIG. 2 is a front view showing a configuration example of a part of a display unit and an operation unit constituting the composite panel.
FIG. 3 is a schematic diagram showing a configuration of a apartment house warning system to which the composite panel is applied.
FIG. 4 is a schematic diagram showing a configuration of a house information panel and a doorphone constituting the system.
FIG. 5 is a flowchart for explaining a fire test process of the composite panel.
FIG. 6 is a flowchart for explaining a fire test process of the composite panel.
FIG. 7 is a flowchart for explaining a fire test process of the composite board.
FIG. 8 is a diagram illustrating a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 9 is a diagram showing a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 10 is a diagram showing a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 11 is a diagram illustrating a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 12 is a diagram showing a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 13 is a flowchart for explaining fire test processing of the composite panel.
FIG. 14 is a diagram showing a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 15 is a diagram illustrating a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 16 is a diagram showing a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 17 is a diagram showing a screen display example and a partial configuration example of an operation unit for explaining a fire test process of the composite panel.
FIG. 18 is a diagram illustrating a screen display example and a configuration example of operation switches for explaining the operation of a conventional fire receiver.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Collective entrance machine, 2 Housing complex composite board, 3 Housing information board, 4, 5 Fire detector, 6 Gas leak detector, 7 Security switch, 8 Emergency call switch, 9 Door phone, 10 Video adapter, 11 Control device, 12 to 14 Transmission line, 15 to 17, 21 Call line, 18 to 20 Video line, 22 Control line, 23 to 28 Signal line, 29 Control signal line, 31 Monitoring control unit, 31 _a , 41 _a CPU, 31 _b , 41 _b Storage unit, 32, 42 Display unit, 32 _a Display, 33, 43 Operation unit, 33 _a Execute / menu switch, 33 _b End / select switch, 33 _c Down switch, 33 _d Lift switch, 33 _e Various alarm switches, 33 _f Fire alarm switch, 34 Video control unit, 35, 46 TV monitor, 36, 49 Call circuit, 37 Input / output control circuit, 38, 50 Handset, 39, 52, 63 Speaker, 41 Control unit, 44 Video switching control circuit, 45 Video circuit, 47 Alarm sound circuit, 48 Call switching circuit, 51 Alarm reception circuit, 61 Call switch, 62 Microphone, 64 Power indicator.

Claims (6)

In a complex housing alarm composite panel that warns according to the abnormality based on detection signals from multiple detectors installed in each part of the common unit and the dwelling unit composed of a plurality of dwelling units constituting the apartment There,
When a test function for selecting the detector and performing a test is selected, a selection means for selecting either the dwelling unit or the shared unit to which the detector to be tested belongs,
When the dwelling unit is selected by the selection unit, a dwelling unit designating unit that designates the detector corresponding to the dwelling unit number assigned to each dwelling unit;
When the common unit is selected by the selection means , line designation means for designating the corresponding detector by a line corresponding to the installation location of the detector ;
Have
In the test function, at least a first process for performing display for selecting either the test related to the shared unit or the test related to the dwelling unit on a display unit, and the operation related to the shared unit by operating the operation unit. When a test is selected, a second process for displaying on the display unit to select the detector corresponding to the line is selected, and the test for the dwelling unit is selected by operating the operation unit. And a third process for performing a display for selecting the detector corresponding to the dwelling unit number on the display unit . Wherein in the second processing or the third processing, flats alarm composite of claim 1, wherein the line or the dwelling number to be selected according to the scroll operation by the operation unit, characterized in that it is scrolled Board. Wherein the three processes, according to claim 1 or 2 flats alarm composite panel according to characterized in that the dwelling number to be selected according to the scroll operation by the operation section is being updated scrolled up or down floors . The detector is any one of a fire detector that detects the occurrence of a fire, a gas leak detector that detects a gas leak, a security switch that detects opening of a window, and an emergency call switch that is operated in an emergency. The apartment house alarm composite board according to any one of claims 1 to 3 . An apartment house alarm system comprising the apartment house alarm composite panel according to any one of claims 1 to 4 . A test program for a complex housing alarm composite board for causing a computer to realize the function according to any one of claims 1 to 5 .

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