JP3957600B2 - Fire receiver - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present inventionInstalled in a dwelling unitRegarding fire receivers.
[0002]
[Prior art]
Conventionally, multiple detectors that detect fire-related abnormalities, fire receivers such as dwelling unit receivers and indoor receivers installed in buildings, and buildings connected to the detectors via this fire receiver A fire alarm facility comprising a housing ridge receiver for detecting and notifying a fire is proposed and put into practical use. In such a fire alarm facility, it is necessary to perform an operation test (hereinafter referred to as “sensor operation test”) as to whether or not the sensor operates normally at regular intervals.
[0003]
In the above-described fire alarm facility, conventionally, a sensor operation test has been performed by the following method.
[0004]
(1) The fire receiver is provided with means for selecting and executing a specific test according to the number of times the automatic test switch is operated, and the sensor operation test is performed by operating the automatic test switch a predetermined number of times (for example, patents) Reference 1).
(2) A method for performing a sensor operation test by providing a fire test switch in a dwelling unit receiver, which is a fire receiver, and forcing the sensor to be activated by operating the fire test switch (for example, patent literature) 2).
(3) A repeater is installed between the dwelling unit receiver and the indoor receiver, which is a fire receiver, and the detector operation test is automatically performed with the repeater in response to a test start command from the dwelling unit receiver. Method (for example, refer to Patent Document 3).
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 7-249188 (page 4, FIG. 1)
[Patent Document 2]
JP-A-9-91579 (2nd page, FIG. 1)
[Patent Document 3]
Japanese Patent Laid-Open No. 11-86159 (page 10, FIG. 1)
[0006]
[Problems to be solved by the invention]
By the way, in the above-mentioned conventional fire alarm equipment, in addition to the sensor operation test, a test for confirming whether the fire receiver operates normally when a fire occurs (hereinafter referred to as “fire display test”). Conducting various functional tests, such as a fire confirmation test (hereinafter referred to as “fire confirmation test”), which confirms that a fire has occurred by the sensor after the fire display test, and notifies the dwelling receiver There is a need to.
[0007]
Moreover, the outdoor receiver installed in the outdoors may be connected to the fire receiver with which the above-mentioned conventional fire alarm equipment is provided via a predetermined wiring. In such a case, conduct a continuity test of the wiring connecting the outdoor display and the fire receiver, and a test to confirm whether the fire receiver is normal (hereinafter referred to as a “status check test”). There is a need.
[0008]
However, in order to carry out various functional tests such as the fire display test, fire confirmation test, continuity test, and state confirmation test together with the sensor operation test, it is necessary to provide a fire receiver with a large number of operation units and display units. Therefore, there are problems that it takes time to manufacture the fire receiver and the operability is lowered.
[0009]
  The problem of the present invention is that various function tests can be performed, and there are few operation parts and display parts, and operability is excellent.Dwelling unitIs to provide a receiver.
[0010]
[Means for Solving the Problems]
  In order to solve the above problems, the invention described in claim 1
  Multiple detectors that detect fire are connected via a predetermined signal line.Installed in dwelling unitsIn the fire receiver,
  First test execution means for detecting whether or not the sensor is abnormal and performing a sensor operation test for displaying the sensor in which the abnormality is detected;
  Second test execution means for performing a fire display test for performing a pseudo display related to the operating state of the sensor;
  A test switch that is operated in a predetermined manner to send a signal for performing the sensor operation test and the fire display test to the first test execution means and the second test execution means;
  Test switching means for deciding which of the first test execution means and the second test execution means is activated according to the operation mode of the test switch;
With,
The test switching means includes
It is determined which of the first test execution means and the second test execution means is activated according to the operation time of the test switch.It is characterized by that.
[0011]
According to the first aspect of the present invention, both the sensor operation test and the fire display test can be performed by operating one test switch. Therefore, since there is no need to separately provide an operation unit for performing the sensor operation test and an operation unit for performing the fire display test, the operability is extremely excellent.
[0013]
  Claim2The described invention is claimed.1In the fire receiver described in
  The test switching means includes
  Activating the first test execution means when the operation time of the test switch is less than a predetermined time, and activating the second test execution means when the operation time of the test switch is longer than the predetermined time. Features.
[0014]
  Claim3The invention described is claimed1In the fire receiver described in
  The test switching means includes
  When the operation time of the test switch is less than a predetermined time, the second test execution means is activated, and when the operation time of the test switch is longer than the predetermined time, the first test execution means is activated. Features.
[0015]
  Claim4The invention described in
  Connected to a plurality of detectors for detecting a fire and a dwelling receiver for monitoring and reporting a fire in a building through a predetermined signal line and installed in a dwelling unit, the operation of the detector In a fire receiver that displays an alarm by
  First test execution means for detecting whether or not the sensor is abnormal and performing a sensor operation test for displaying the sensor in which the abnormality is detected;
  Second test execution means for performing a fire display test for performing a pseudo display related to the operating state of the sensor;
  A test switch that is operated in a predetermined manner to send a signal for performing the sensor operation test and the fire display test to the first test execution means and the second test execution means;
  Test switching means for deciding which of the first test execution means and the second test execution means is activated according to the operation mode of the test switch;
  Fire confirmation means for displaying a fire confirmation and sending a fire confirmation signal to the dwelling receiver;
  A timer that is energized when the sensor is activated and that activates the fire determination means when the sensor is activated after a predetermined set time has elapsed;
  A third test execution means for performing a fire confirmation test for pseudo-shifting the display relating to the operation state of the sensor to the indication relating to the fire confirmation state;
With
  The test switching means includes
  When the operation time of the test switch is less than a predetermined time, the first test execution means is started, while when the operation time of the test switch is longer than the predetermined time, the second test execution means is started,
  The third test execution means includes:
  After the fire display test is performed, the timer is operated by continuously operating the test switch for the set time of the timer, and the fire confirmation test is performed after a predetermined set time has elapsed. .
[0016]
  Claim5The invention described in
  Connected to a plurality of detectors for detecting a fire and a dwelling receiver for monitoring and reporting a fire in a building through a predetermined signal line and installed in a dwelling unit, the operation of the detector In a fire receiver that displays an alarm by
  First test execution means for detecting whether or not the sensor is abnormal and performing a sensor operation test for displaying the sensor in which the abnormality is detected;
  Second test execution means for performing a fire display test for performing a pseudo display related to the operating state of the sensor;
  A test switch that is operated in a predetermined manner to send a signal for performing the sensor operation test and the fire display test to the first test execution means and the second test execution means;
  Test switching means for deciding which of the first test execution means and the second test execution means is activated according to the operation mode of the test switch;
  Fire confirmation means for displaying a fire confirmation and sending a fire confirmation signal to the dwelling receiver;
  A timer that is energized when the sensor is activated and that activates the fire determination means when the sensor is activated after a predetermined set time has elapsed;
  A third test execution means for performing a fire confirmation test for pseudo-shifting the display relating to the operation state of the sensor to the indication relating to the fire confirmation state;
With
  The test switching means includes
  When the operation time of the test switch is less than a predetermined time, the second test execution means is started, while when the operation time of the test switch is a predetermined time or more, the first test execution means is started,
  The third test execution means includes:
  After the fire display test is performed, the timer is operated by continuously operating the test switch for the set time of the timer, and the fire confirmation test is performed after a predetermined set time has elapsed. .
[0017]
  Claim4Or claim5According to the invention described in (1), the fire determination test can be performed during the fire display test by operating one test switch. In addition, since the sensor operation test, the fire display test, and the fire confirmation test can be performed by operating one test switch, it is not necessary to provide a large number of operation units, and the operability is extremely excellent. Furthermore, it can be confirmed whether or not the timer functions during the fire display test.
[0018]
  Claim6The invention described is from claim 15In the fire receiver according to any one of
  The first test execution means includes:
  A predetermined indicator lamp blinks a number of times corresponding to the connection position of the sensor in which an abnormality is detected.
[0019]
  Claim6According to the invention described in (1), the first test execution means can blink the predetermined indicator lamp a number of times corresponding to the connection position of the sensor where the abnormality is detected. Therefore, for example, by diverting a display lamp for another use, it is possible to display the sensor in which the abnormality is detected without providing a dedicated display lamp for displaying the sensor in which the abnormality is detected.
[0035]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0036]
First, the structure of the fire alarm equipment 1 provided with the dwelling unit receiver 30 which is the fire receiver which concerns on this Embodiment is demonstrated using FIG. FIG. 1 is a partial configuration diagram for explaining the configuration of the fire alarm facility 1 and extracting and showing the equipment for one dwelling unit from the facilities installed over a plurality of dwelling units.
[0037]
The fire alarm facility 1 according to the present embodiment is installed in a building such as an apartment house, and as shown in FIG. 1, a residential building receiver 10 for monitoring and notifying the fire of the entire building, A fire detector 20 that performs detection, and a dwelling unit receiver 30 such as a GP-type third-class receiver (also referred to as a housing information board) installed in a plurality of dwelling units in the apartment house are configured.
[0038]
Each dwelling unit receiver 30 provided in each dwelling unit is given an address, and is connected to the dwelling unit receiver 10 via a signal line SG, and can communicate individually. The dwelling unit receiver 30 is supplied with power from the emergency power supply device 11 through the power line V. The dwelling unit receiver 30 is connected to the sensor 20 via lines L and C. Note that power may be supplied from the dwelling receiver 10 to the dwelling unit receiver 30.
[0039]
The dwelling unit receiver 10 includes communication means for performing address polling communication with the dwelling unit receiver 30, has a function of receiving a fire confirmation signal from the dwelling unit receiver 30 and performing a fire notification, and a fire detector 20. It is equipped with the function to perform the automatic test.
[0040]
The fire sensor 20 is a sensor according to the present invention, and for example, an on / off type heat sensor or smoke sensor that does not have an address can be employed. The fire detector 20 has a test function for automatically performing an operation test by remote control from the dwelling unit receiver 30.
[0041]
Such a test function includes, for example, a circuit that causes each fire detector 20 to generate a pseudo fire detection state based on a pulse signal, a low-pass circuit that absorbs the pulse signal and does not transmit the pulse signal to the subsequent fire detector 20, It can be realized by a circuit configuration such as a switch circuit for turning on / off the low-pass circuit. Then, the low pass circuits of all the fire detectors 20 are turned on at the start of the test, and the low pass circuits are turned off after the test of each fire detector 20 (after the end of the pseudo fire detection state). A plurality of successive fire detectors 20 can be individually tested.
[0042]
The dwelling unit receiver 30 is a fire receiver according to the present invention, in which a fire detector 20 provided in each dwelling unit notifies a fire in each dwelling unit, and a fire is determined to be operated when a resident confirms a fire. A switch 51, an acoustic stop switch 52 for stopping the fire alarm, and the like are provided. Then, when the fire detector 20 is turned on, the fire confirmation switch 51 is turned on, or when a predetermined set time (for example, 2 to 5 minutes) has elapsed from the operation of a timer described later, the fire is confirmed. A fire confirmation signal indicating is output to the dwelling receiver 10.
[0043]
In addition, as shown in FIG. 1, an outdoor display 70 installed outside is connected to the dwelling unit receiver 30 through predetermined wirings D, T, and S. The outdoor indicator 70 is provided with an indicator lamp 71, a test switch 72, a speaker 73, and the like.
[0044]
Next, the configuration of the dwelling unit receiver 30 which is a fire receiver according to the present embodiment will be described with reference to FIG. FIG. 2 is a block diagram for explaining the configuration of the dwelling unit receiver 30.
[0045]
The dwelling unit receiver 30 includes a control unit 31 that performs overall control, a power supply unit 32 that is connected to the power supply line VG and supplies power from the emergency power supply device 11 to each component unit, and the dwelling unit receiver 10 transmits signals. A transmission unit 33 that performs transmission and reception, a district circuit unit 34 that is connected to the fire detector 20 via lines L and C, and an acoustic / sound generation unit 35 that is connected to an acoustic / sound amplification unit 63 described later. Yes.
[0046]
Moreover, the dwelling unit receiver 30 includes a fire light 41, an alarm sound stop light 42, and a power light 43, which are display units. The fire lamp 41, the alarm sound stop lamp 42, and the power lamp 43 are each connected to the control unit 31, and each operation is controlled by the control unit 31.
[0047]
The dwelling unit receiver 30 includes a fire confirmation switch 51, an acoustic stop switch 52, and a fire test switch 53, which are operation units. The fire confirmation switch 51, the acoustic stop switch 52, and the fire test switch 53 are connected to the control unit 31 via the switch input unit 54, and an input signal by each ON operation is controlled via the switch input unit 54. Is transmitted to the unit 31. The fire test switch 53 is a test switch in the present invention.
[0048]
Further, the dwelling unit receiver 30 includes an outdoor indicator lamp lighting unit 61, a continuity test input unit 62, and a sound / sound amplification unit 63 for connection to the outdoor display 70. A test signal input to the continuity test input unit 62 by operating the test switch 72 of the outdoor display is transmitted to the control unit 31 via the switch input unit 54. Upon receiving this test signal, the control unit 31 transmits a command signal for outputting sound and the like, and outputs sound and the like via the sound / sound generation unit 35 and the sound / sound amplification unit 63. At this time, the command signal is also transmitted to the acoustic device 36 provided in the dwelling unit receiver 30 itself to output voice or the like.
[0049]
Next, the operation | movement at the time of the fire outbreak of the fire alarm equipment 1 which concerns on this Embodiment is demonstrated.
[0050]
When the fire detector 20 detects a fire and operates, the lines L and C are short-circuited. Such a short circuit between the lines L and C is detected by the district circuit unit 34 of the dwelling unit receiver 30, and the detection signal is transmitted to the control unit 31. Upon receiving this detection signal, the control unit 31 blinks the fire light 41 in a predetermined manner, and from the sound device 36, a sensor operation alarm sound and / or “The fire sensor has been activated. Please confirm.” The sensor operation message such as is output and fire is displayed. Moreover, the control part 31 operates the timer which is not shown in figure with this fire display.
[0051]
At this time, when the fire confirmation switch 51 of the dwelling unit receiver 30 is turned on, or when the set time of the timer (for example, 2 minutes) has elapsed, the control unit 31 changes the fire light 41 to another mode. And a fire confirmation alarm sound and / or a fire confirmation message such as “A fire has occurred. Please evacuate.” Is displayed from the sound device 36 to display the fire confirmation. In addition, the control unit 31 sends a fire confirmation signal to the dwelling receiver 10 via the signal line SG. Further, the control unit 31 lights up the indicator lamp 71 of the outdoor indicator 70 via the outdoor indicator lamp lighting unit 61 together with the fire confirmation display, and the alarm sound from the speaker 73 via the sound / sound amplifier 63. And / or output an alarm message. That is, the control unit 31 is a fire determining means in the present invention.
[0052]
Thereafter, when the sound stop switch 52 is turned on with the fire detector 20 restored, the control unit 31 shifts to a normal fire monitoring process. Further, even when a fire occurs, by turning on the acoustic stop switch 52, the output alarm sound and / or alarm message can be stopped.
[0053]
Next, with reference to FIG. 3, operations of various functional tests by operating the fire test switch 53 of the dwelling unit receiver 30 according to the present embodiment will be described. FIG. 3 is a flowchart for explaining operations of various functional tests of the dwelling unit receiver 30 according to the present embodiment.
[0054]
The control unit 31 of the dwelling unit receiver 30 determines whether or not the fire test switch 53 is turned on during the fire monitoring process A (on operation determination step: S1). When the fire test switch 53 is not turned on, the control unit 31 continues the fire monitoring process A. When the fire test switch 53 is turned on, the control unit 31 turns off the power lamp 43 (power lamp turn-off process: S2).
[0055]
Next, the control unit 31 of the dwelling unit receiver 30 determines whether or not the fire test switch 53 is continuously turned on for 2 seconds (on operation elapsed time determination step: S3).
[0056]
In the on-operation elapsed time determination step S3, when it is determined that the fire test switch 53 is not turned on continuously for 2 seconds (that is, turned off before 2 seconds elapses), the control unit 31 activates the sensor. The test is performed (sensor test execution process: S4). The sensor operation test is a test for detecting whether or not the fire detector 20 is abnormal and displaying the fire sensor 20 in which the abnormality is detected. The control unit 31 is a first test execution unit and a sensor test execution unit in the present invention. The control unit 31 also functions as a test switching unit in the present invention.
[0057]
If there is no abnormality in the fire detector 20 as a result of the sensor operation test, the control unit 31 of the dwelling unit receiver 30 turns on the power lamp 43 (sensor normal display step: S5), and sensor operation test processing. Is reset and the process proceeds to the fire monitoring process A.
[0058]
On the other hand, if an abnormality is detected in the fire detector 20 as a result of the sensor operation test, the control unit 31 blinks the alarm sound stop lamp 42 (sensor abnormality display step: S6). At this time, the control unit 31 blinks the warning sound stop lamp 42 as many times as the number corresponding to the connection position of the fire detector 20 in which an abnormality has been detected. The alarm sound stop lamp 42 is an indicator lamp in the present invention.
[0059]
For example, when an abnormality is detected from the second connected fire detector 20, the alarm sound stop lamp 42 blinks twice, blinks again at a short interval, and this blinking display is repeated thereafter. Thus, the connection position of the fire detector 20 where the abnormality is detected can be clearly displayed. And the repair inspection of the fire detector 20 displayed by the alarm sound stop lamp 42 can be urged.
[0060]
In the on-operation elapsed time determination step S3, when it is determined that the fire test switch 53 is continuously turned on for 2 seconds, the control unit 31 proceeds to a fire display test. Note that the fire display test means that the fire lights 41 of the dwelling unit receiver 30 blink, or that the sound device 36 outputs a warning sound and / or a warning message, so that the dwelling unit receiver 30 is properly operated when a fire occurs. This is a test to confirm whether or not it works. The control unit 31 is a second test execution unit and a fire display test execution unit in the present invention.
[0061]
Prior to the execution of the fire display test, the control unit 31 turns on the power lamp 43 (power lamp lighting process: S7) and activates the timer (timer setting process: S8). This timer is the same as the timer that is activated when the fire detector 20 is activated. Thereafter, the control unit 31 blinks the fire light 41 and outputs an alarm sound and / or an alarm message from the acoustic device to perform a fire display test (fire display test process: S9).
[0062]
During the fire display test, the control unit 31 determines whether or not the fire confirmation switch 51 is turned on (confirmation switch determination step: S10). When the fire confirmation switch 51 is not turned on, the control unit 31 determines whether or not the specified time (2 minutes) of the timer has elapsed (timer timing determination step: S11). If the specified time of the timer has not elapsed, it is determined whether or not the fire test switch 53 has been turned off (off operation determination step: S12). If it is determined that the fire test switch 53 has been turned off, the fire display test process is reset and the process proceeds to the fire monitoring process A.
[0063]
On the other hand, when the fire confirmation switch 51 is turned on, or when the specified time of the timer has elapsed, the control unit 31 performs a fire confirmation test (fire confirmation test step: S13). The fire confirmation test means that the fire light 41 of the dwelling unit receiver 30 is blinked in another manner, or a fire confirmation alarm sound and / or a fire confirmation message is output from the sound device 36 to confirm the fire. It is a test for confirming whether the dwelling unit receiver 30 operates normally sometimes. However, signal transfer to the dwelling receiver 10 and the outdoor display 70 is not performed during this test. The control unit 31 is third test execution means and fire confirmation test execution means in the present invention.
[0064]
The control unit 31 determines whether or not the fire test switch 53 has been turned off after the fire determination test is finished (off operation determination step: S12), and if it is determined that the fire test switch 53 has been turned off. Then, reset the fire display test process and proceed to the fire monitoring process A.
[0065]
Next, the test operation by the operation of the test switch 72 of the outdoor display 70 connected to the dwelling unit receiver 30 according to the present embodiment will be described with reference to FIG. This test is a test (continuity test) for confirming whether or not there is an abnormality in the wiring connecting the dwelling unit receiver 30 and the outdoor display 70. FIG. 4 is a flowchart for explaining a continuity test of dwelling unit receiver 30 according to the present embodiment.
[0066]
First, the control unit 31 of the dwelling unit receiver 30 confirms whether or not the test switch 72 of the outdoor display 70 is turned on and a test signal is transmitted through the continuity test input unit 62 (on operation confirmation process: S21). When it is confirmed that the test switch 72 is turned on, the control unit 31 confirms the state of the dwelling unit receiver 30 itself (state confirmation step: S22). On the other hand, if it is not confirmed that the test switch 72 is turned on, the control unit 31 continues to wait for transmission of the test signal.
[0067]
In the state confirmation step S22, when the control unit 31 determines that the state of the dwelling unit receiver 30 itself is normal, a sound / audio is generated as a signal for outputting a fire confirmation alarm sound and / or a fire confirmation message. The signal is transmitted to the outdoor display 70 via the unit 35 and the sound / sound amplifier 63, and is output from the speaker 73 (normal display step: S23).
[0068]
On the other hand, in the state confirmation step S22, when the control unit 31 determines that there is some abnormality in the dwelling unit receiver 30 itself, a signal for outputting an abnormal alarm sound and / or an abnormal message is transmitted to the sound / sound generation unit. 35 and the sound / sound amplifying unit 63 are transmitted to the outdoor display 70 and output from the speaker 73 (abnormal display step: S24). That is, the control unit 31 is a state confirmation test execution means in the present invention.
[0069]
After passing through the normal display step S23 or the abnormal display step S24, the control unit 31 checks whether or not the test switch 72 of the outdoor display 70 has been turned off (off operation confirmation step: S25). When it is confirmed that the test switch 72 is turned off, the control unit 31 outputs a fire confirmation alarm sound (and / or a fire confirmation message) or an abnormality alarm sound (and / or an abnormality message). Stop and end the test. While the test switch 72 is being turned on, the control unit 31 continues the state confirmation process S22 and the normal display process S23 or the abnormal display process S24.
[0070]
When there is an abnormality in the wiring connecting the dwelling unit receiver 30 and the outdoor indicator 70, the above-mentioned fire confirmation alarm sound (and / or fire confirmation message) and abnormality alarm sound (and / or abnormality message) are generated. There is no output from the speaker 73 of the outdoor display 70. For this reason, it can be confirmed whether there is an abnormality in the wiring. Moreover, in the continuity test demonstrated above, the state of dwelling unit receiver 30 itself can also be confirmed by normal display display process S23 and abnormality display process S24. In addition, you may make it blink the outdoor indicator lamp 71 at the time of a continuity test.
[0071]
In the dwelling unit receiver 30 according to the present embodiment, as a first test execution means (sensor test execution means) and a second test execution means (fire display test execution means) for performing a sensor operation test and a fire display test. The control unit 31, the fire test switch 53 for sending a signal for performing the sensor operation test and the fire display test by a predetermined operation to the control unit 31, and the fire test switch 53 for a predetermined time (2 seconds). And a control unit 31 as test switching means for determining whether to perform the sensor operation test or the fire display test depending on whether the sensor is turned on or not. Both operational tests and fire indication tests can be conducted. Therefore, since there is no need to separately provide an operation unit for performing the sensor operation test and an operation unit for performing the fire display test, the operability is extremely excellent.
[0072]
Moreover, in the dwelling unit receiver 30 according to the present embodiment, the control unit 31 as the fire determination test execution means operates the fire test switch 53 for a set time (2 minutes) of a timer for a set time (2 minutes). Conduct a fire confirmation test after the passage. For this reason, the fire determination test can be performed at the time of the fire display test only by operating the fire test switch 53. In addition, since the sensor operation test, the fire display test, and the fire confirmation test can be performed only by operating the fire test switch 53, it is not necessary to provide a large number of operation units, and the operability is extremely excellent. Further, since it is not necessary to provide a large number of operation units, the aesthetic appearance is not impaired. Furthermore, it can be confirmed whether or not the timer functions during the fire display test.
[0073]
Further, in the dwelling unit receiver 30 according to the present embodiment, the number of times corresponding to the connection position of the fire detector 20 where the abnormality is detected by the control unit 31 as the first test execution means (sensor test execution means). Since the alarm sound stop lamp 42 can be blinked only, the fire sensor 20 in which the abnormality is detected is displayed without providing a dedicated indicator light for displaying the fire sensor 20 in which the abnormality is detected. be able to.
[0074]
Moreover, in the dwelling unit receiver 30 according to the present embodiment, the control unit 31 that is a fire confirmation test execution unit performs a fire confirmation test by operating the fire confirmation switch 51. For this reason, the fire confirmation switch 51 can function as a switch for the fire confirmation test (specific switch in the present invention), so that it is possible to save the trouble of separately providing an operation unit for the fire confirmation test.
[0075]
Further, in the dwelling unit receiver 30 according to the present embodiment, the control unit 31 which is a fire confirmation test execution means performs a fire confirmation test by operating the fire confirmation switch 51 during the operation of the fire test switch 53. A fire confirmation test can be conducted following the fire indication test. In addition, it is possible to confirm whether or not the fire confirmation switch 51 functions during the fire display test.
[0076]
Moreover, when the dwelling unit receiver 30 according to the present embodiment receives a test signal from the outdoor indicator 70, the dwelling unit receiver 30 sends a signal corresponding to its own state to the outdoor indicator 70 and fire confirmation alarm sound (and (Or a fire confirmation message) or an abnormal alarm sound (and / or abnormal message) is provided with a control unit 31 as a state confirmation test execution means for outputting from the speaker 73 of the outdoor display 70. For this reason, both the test (conductivity test) which confirms the presence or absence of the abnormality of the wiring which connects the outdoor display 70 and the dwelling unit receiver 30, and the state confirmation test of dwelling unit receiver 30 itself can be implemented. . In addition, there is no need to provide an operation unit for carrying out the continuity test and the state confirmation test.
[0077]
In the above embodiment, the fire test switch 53 is continuously operated for a predetermined time (2 seconds) under the control of the control unit 31 of the dwelling unit receiver 30, and then the timer is further operated for a set time (2 minutes). We carry out fire confirmation test by continuing. On the other hand, when the fire confirmation test is not performed, after the fire test switch 53 is turned off, it is determined whether or not the operation time has passed for a predetermined time (2 seconds), thereby detecting the sensor operation test. It is also possible to decide whether to conduct a fire indication test.
[0078]
In the above embodiment, the fire display test is performed when the fire test switch 53 is continuously operated under the control of the control unit 31 of the dwelling unit receiver 30. It is also possible to turn off the fire test switch 53 after shifting to, and terminate the fire display test by operating another switch (for example, the acoustic stop switch 52).
[0079]
Moreover, in the above embodiment, when the fire test switch 53 is continuously turned on for 2 seconds by the control of the control unit 31 of the dwelling unit receiver 30, the fire display test is performed, and the fire test switch 53 is The sensor operation test is performed when the sensor is turned off before 2 seconds elapses, but the sensor test is performed when the fire test switch 53 is turned on continuously for 2 seconds. The control operation by the control unit 31 can be changed so that the fire display test is performed when the operation is turned off before 2 seconds elapses.
[0080]
When the control operation by the control unit 31 is changed as described above, the fire test switch 53 is turned off 2 seconds before the fire display test is performed, and then the fire test switch 53 is turned on again to activate the timer. The fire determination test can be performed by continuing the on operation for a set time of the timer (2 minutes).
[0081]
【The invention's effect】
According to the first aspect of the present invention, both the sensor operation test and the fire display test can be performed by operating one test switch. Therefore, since there is no need to separately provide an operation unit for performing the sensor operation test and an operation unit for performing the fire display test, the operability is extremely excellent.
[0082]
  Claim4Or claim5According to the invention described in (1), the fire determination test can be performed during the fire display test by operating one test switch. In addition, since the sensor operation test, the fire display test, and the fire confirmation test can be performed by operating one test switch, it is not necessary to provide a large number of operation units, and the operability is extremely excellent. Furthermore, it can be confirmed whether or not the timer functions during the fire display test.
[0083]
  Claim6According to the invention described in (1), the first test execution means can cause the predetermined indicator lamp to blink and display the number of times corresponding to the connection position of the sensor where the abnormality is detected. Therefore, for example, by diverting a display lamp for another use, it is possible to display the sensor in which the abnormality is detected without providing a dedicated display lamp for displaying the sensor in which the abnormality is detected. .
[Brief description of the drawings]
FIG. 1 is a partial configuration diagram for explaining a configuration of a fire alarm facility equipped with a dwelling unit receiver that is a fire receiver according to the present embodiment.
FIG. 2 is a block diagram showing a configuration of a dwelling unit receiver that is a fire receiver according to the present embodiment.
FIG. 3 is a flowchart for explaining various functional test operations of a dwelling unit receiver that is a fire receiver according to the present embodiment;
FIG. 4 is a flowchart for explaining a continuity test of a dwelling unit receiver that is a fire receiver according to the present embodiment;
[Explanation of symbols]
1 Fire alarm system
10 Housing receiver
11 Emergency power supply
20 Fire detector
30 Dwelling unit receiver
31 Control unit
32 Power supply
33 Transmitter
34 District Circuit Department
35 Sound and sound generator
36 sound equipment
41 Fire Light
42 Warning sound stop light
43 Power light
51 Fire confirmation switch
52 Acoustic stop switch
53 Fire test switch
54 Switch input section
61 Outdoor indicator lighting section
62 Continuity test input section
63 Sound / sound amplifier
70 Outdoor display
71 Indicator light
72 Test switch
73 Speaker

Claims (6)

In a fire receiver installed in a dwelling unit, multiple detectors that detect fire are connected via a predetermined signal line.
First test execution means for detecting whether or not the sensor is abnormal and performing a sensor operation test for displaying the sensor in which the abnormality is detected;
Second test execution means for performing a fire display test for performing a pseudo display related to the operating state of the sensor;
A test switch that is operated in a predetermined manner to send a signal for performing the sensor operation test and the fire display test to the first test execution means and the second test execution means;
Test switching means for deciding which of the first test execution means and the second test execution means is activated according to the operation mode of the test switch;
With
The test switching means includes
A fire receiver that determines which of the first test execution means and the second test execution means is activated according to an operation time of the test switch. The test switching means includes
Activating the first test execution means when the operation time of the test switch is less than a predetermined time, and activating the second test execution means when the operation time of the test switch is longer than the predetermined time. The fire receiver according to claim 1, wherein The test switching means includes
When the operation time of the test switch is less than a predetermined time, the second test execution means is activated, and when the operation time of the test switch is longer than the predetermined time, the first test execution means is activated. The fire receiver according to claim 1, wherein Connected to a plurality of detectors for detecting a fire and a dwelling receiver for monitoring and reporting a fire in a building through a predetermined signal line and installed in a dwelling unit, the operation of the detector In a fire receiver that displays an alarm by
First test execution means for detecting whether or not the sensor is abnormal and performing a sensor operation test for displaying the sensor in which the abnormality is detected;
Second test execution means for performing a fire display test for performing a pseudo display related to the operating state of the sensor;
A test switch that is operated in a predetermined manner to send a signal for performing the sensor operation test and the fire display test to the first test execution means and the second test execution means;
Test switching means for deciding which of the first test execution means and the second test execution means is activated according to the operation mode of the test switch;
Fire confirmation means for displaying a fire confirmation and sending a fire confirmation signal to the dwelling receiver;
A timer that is energized when the sensor is activated and that activates the fire determination means when the sensor is activated after a predetermined set time has elapsed;
A third test execution means for performing a fire confirmation test for pseudo-shifting the display relating to the operation state of the sensor to the indication relating to the fire confirmation state;
With
The test switching means includes
When the operation time of the test switch is less than a predetermined time, the first test execution means is started, while when the operation time of the test switch is longer than the predetermined time, the second test execution means is started,
The third test execution means includes:
After the fire display test is performed, the timer is operated by continuously operating the test switch for the set time of the timer, and the fire confirmation test is performed after a predetermined set time has elapsed. Fire receiver. Connected to a plurality of detectors for detecting a fire and a dwelling receiver for monitoring and reporting a fire in a building through a predetermined signal line and installed in a dwelling unit, the operation of the detector In a fire receiver that displays an alarm by
First test execution means for detecting whether or not the sensor is abnormal and performing a sensor operation test for displaying the sensor in which the abnormality is detected;
Second test execution means for performing a fire display test for performing a pseudo display related to the operating state of the sensor;
A test switch that is operated in a predetermined manner to send a signal for performing the sensor operation test and the fire display test to the first test execution means and the second test execution means;
Test switching means for deciding which of the first test execution means and the second test execution means is activated according to the operation mode of the test switch;
Fire confirmation means for displaying a fire confirmation and sending a fire confirmation signal to the dwelling receiver;
A timer that is energized when the sensor is activated and that activates the fire determination means when the sensor is activated after a predetermined set time has elapsed;
A third test execution means for performing a fire confirmation test for pseudo-shifting the display relating to the operation state of the sensor to the indication relating to the fire confirmation state;
With
The test switching means includes
When the operation time of the test switch is less than a predetermined time, the second test execution means is started, while when the operation time of the test switch is a predetermined time or more, the first test execution means is started,
The third test execution means includes:
After the fire display test is performed, the timer is operated by continuously operating the test switch for the set time of the timer, and the fire confirmation test is performed after a predetermined set time has elapsed. Fire receiver. The first test execution means includes:
The fire receiver according to any one of claims 1 to 5, wherein a predetermined indicator lamp blinks a number of times corresponding to the connection position of the sensor in which an abnormality is detected.

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