JP4727872B2 - Disaster prevention receiver - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a disaster prevention receiver for receiving a signal from a fire detector, a gas leak detector or the like to perform an alarm or a report.
[0002]
[Prior art]
In office buildings, factories, etc., disaster prevention systems that detect the occurrence of a fire or gas leak and issue an alarm are widely used. Such a disaster prevention system includes a disaster prevention terminal such as a fire detector or a gas leak detector, and a disaster prevention receiver that receives a signal from the disaster prevention terminal and outputs a warning alarm or a transfer output of a fire occurrence. It is configured.
[0003]
In such a disaster prevention system, it is necessary to start up the disaster prevention receiver after the disaster prevention receiver is installed. For example, in a disaster prevention receiver (R-type disaster prevention receiver) that performs response control of a disaster prevention terminal by a polling / selecting method, the address and type of each disaster prevention terminal are performed by polling / selecting each disaster prevention terminal. To check the normality of each disaster prevention terminal by checking the address and type against the information stored in the data ROM and RAM in the disaster prevention receiver to determine whether there is an address overlap. In addition, many branching processes are performed, such as initializing each disaster prevention terminal. This startup process usually takes several minutes depending on the system configuration.
[0004]
In addition, after receiving a report from the disaster prevention terminal and outputting an alarm or the like at the disaster prevention receiver, it is necessary to perform a recovery process for canceling the alarm state and returning to a normal monitoring state. For example, in an R-type disaster prevention receiver, it is necessary to send a command for instructing each disaster prevention terminal to start the restoration process and confirm that the restoration process has been performed at each disaster prevention terminal. This recovery process usually requires several seconds to several tens of seconds.
[0005]
[Problems to be solved by the invention]
Here, in such a conventional disaster prevention receiver, when performing the start-up process and the recovery process as described above, the display indicating that the start-up process is being performed continues for the start-up process. This is a state in which the operation of each operation unit is completely invalidated. In the recovery process, there are some disaster prevention receivers that do not display on the display unit because the time is shorter than the startup process. Therefore, the operator cannot grasp whether each process is normally performed or how much time is left until all processes are completed, and simply waits in front of the disaster prevention receiver. Because I had to do it, I sometimes felt mental stress.
[0006]
The present invention has been made in view of the above problems, and the operator can grasp the state of the disaster prevention receiver at the time of start-up and recovery of the disaster prevention receiver itself, thereby reducing the stress on the operator. The purpose is to provide a disaster prevention receiver.
[0007]
[Means for Solving the Problems]
  In order to solve the above-mentioned problems and achieve the purpose,The disaster prevention receiver according to claim 1 is a disaster prevention receiver that detects a notification of a disaster prevention terminal and performs predetermined disaster prevention processing, and performs setting processing for setting the disaster prevention receiver to a normal monitoring state. Means,SaidBy setting processing meansSaidProgress information output means for outputting information on the progress status of the setting process via a predetermined output means when the setting process is being performed.The progress information output means calculates the processing time of the setting process, outputs information about the calculated processing time, and recalculates the processing time when a failure occurs in the setting process. At the same time, information regarding the processing time calculated again is output.
[0008]
  Further, the disaster prevention receiver according to claim 2 is the disaster prevention receiver according to claim 1, wherein the setting processing means is a startup processing means for performing a predetermined startup process of the disaster prevention receiver, The progress information output means outputs information relating to the progress status of the start-up process when the start-up process is being performed by the start-up processing means.
[0009]
  Claims3The disaster prevention receiver according to claim 1, wherein the disaster prevention receiver according to claim 1,The setting processing means is a recovery processing means for performing a recovery process of the disaster prevention receiver after the disaster prevention terminal is issued, and the progress information output means is when the recovery process is being performed by the recovery processing means. , Information related to the progress of the recovery process is output.
[0010]
  Moreover, the disaster prevention receiver according to claim 4 is the disaster prevention receiver according to any one of claims 1 to 3, wherein the progress information output means outputs information relating to processing items of the setting process.
[0011]
  Claims5The disaster prevention receiver described in claimAny one of 1 to 4In the disaster prevention receiver described inThe progress information output means displays information related to the progress status of the setting process via a segment display.
[0012]
  According to the disaster prevention receiver according to claim 1, the progress status of the setting process for setting the disaster prevention receiver to the normal monitoring state is output by the process of the progress information output means. Therefore, the operator can easily and accurately grasp the progress of the setting process based on this output. Therefore, it is possible to reduce the stress of the operator who is waiting for the end of the setting process.
  Information about the processing time of the setting process is output. Therefore, the operator can grasp time information such as the elapsed time and the remaining time of the progress of the setting process based on this output, and can easily and accurately grasp the progress of the setting process.
If a failure occurs in the setting process, the processing time is recalculated and output. Therefore, even when a failure occurs in the middle of the setting process, information on the accurate processing time taking into account the situation is output, and the operator can always grasp the accurate progress status.
[0013]
  Moreover, according to the disaster prevention receiver according to claim 2, the progress status of the start-up process of the disaster prevention receiver is output by the process of the progress information output means. Therefore, the operator can easily and accurately grasp the progress of the start-up process based on this output. Therefore, it is possible to reduce the stress of the operator who is waiting for the end of the start-up process.
[0014]
  Moreover, according to the disaster prevention receiver according to claim 3, the progress status of the recovery process of the disaster prevention receiver is output by the process of the progress information output means. Therefore, the operator can easily and accurately grasp the progress of the recovery process based on this output. Therefore, it is possible to reduce the stress of the operator who is waiting for the end of the recovery process.
[0015]
  Moreover, according to the disaster prevention receiver according to claim 4, information related to the processing items of the setting process is output. Therefore, based on this output, the operator can grasp the processing item information such as the executed processing item and the unexecuted processing item of the setting processing progress status, and the setting processing progress status can be easily and accurately determined. Can grasp.
[0016]
  Moreover, according to the disaster prevention receiver according to claim 5, information related to the progress of the setting process is displayed via the segment display. Therefore, even in a disaster prevention receiver that does not have a liquid crystal screen or the like, it is possible to grasp information related to progress.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of a disaster prevention receiver according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments. In particular, in the following embodiments, an example in which the present invention is applied to an R-type disaster prevention receiver will be described, but a signal line is drawn for each line, and based on opening and closing of a contact point of a disaster prevention terminal connected to this line. The present invention can be similarly applied to a P-type disaster prevention receiver that receives a notification.
[0022]
[Embodiment 1]
First, Embodiment 1 of the present invention will be described.
First, the features of the disaster prevention receiver according to the present embodiment will be outlined, and then the configuration and processing of the disaster prevention receiver will be described. FIG. 1 is a block diagram showing a main configuration of a disaster prevention receiver according to the present embodiment.
In FIG. 1, a disaster prevention receiver 100 is arranged in each warning area and receives a signal from a disaster prevention terminal 200 that detects a fire, a gas leak or the like, and outputs a fire alarm signal or transfers to a predetermined external monitoring panel. It is a disaster prevention reception means that outputs information.
[0023]
The main features of the disaster prevention receiver 100 are as follows.
That is, when the setting process for setting the disaster prevention receiver 100 to the normal monitoring state is being performed, the progress of the setting process is displayed. Here, the content of the setting process is arbitrary, but in the present embodiment, the startup process and the recovery process are applicable. The start-up process is a process performed after the disaster prevention receiver 100 is turned on, for example, after the disaster prevention receiver 100 is installed. The recovery process is a process for canceling the alarm state and returning to the normal monitoring state after receiving a report from the disaster prevention terminal 200 and outputting an alarm with the disaster prevention receiver. The detailed contents of the recovery process can be performed in the same manner as the conventional startup process and recovery process described above.
[0024]
Specifically, in the present embodiment, during the start-up process, the progress status of each process such as type acquisition and initialization of the disaster prevention terminal 200 included in the start-up process is displayed. Further, at the time of recovery processing after the disaster prevention terminal 200 is issued, the remaining time until the recovery processing is completed is displayed.
Accordingly, the operator of the disaster prevention receiver 100 can easily and accurately grasp the progress of the start-up and recovery, and can reduce the stress when waiting for the completion and the like.
In particular, in the present embodiment, the progress status of the startup process and the recovery process is displayed by lighting the segment display.
In addition, although this disaster prevention receiver 100 has various characteristics, the content will be clarified in the following description.
[0025]
[Configuration of disaster prevention receiver 100]
Next, the configuration of the disaster prevention receiver 100 will be described.
FIG. 1 is a block diagram showing a main configuration of a disaster prevention receiver 100 according to the present embodiment, and FIG. 2 is a front view of the disaster prevention receiver 100 of FIG.
As shown in FIG. 1, the disaster prevention receiver 100 includes a transmission control unit 110, an operation unit 120, a display unit 130, a storage unit 140, a main acoustic unit 150, a district acoustic control unit 160, a smoke prevention control unit 170, and a power supply unit. 180 and a control unit 190.
[0026]
Among these, the transmission control unit 110 is a transmission control unit that performs transmission control with the disaster prevention terminal 200. As shown in the figure, the transmission control unit 110 includes a disaster prevention terminal 200 such as a fire detector or a gas leak detector, or a repeater 210 that performs relay transmission to the disaster prevention terminal 200 via a transmission line 111. It is connected. And based on the various commands transmitted via the transmission control part 110, the polling / selecting etc. with respect to the disaster prevention terminal 200 are performed.
[0027]
The operation unit 120 is an operation unit for performing various operations on the disaster prevention receiver 100. Specifically, as illustrated in FIG. 2, the operation unit 120 includes a recovery button 122 for instructing the start of the recovery process, and the like.
[0028]
In FIG. 1, a display unit 130 is a display unit for displaying various types of information to the operator. Specifically, as shown in FIG. 2, the display unit 130 includes an area indicator lamp 131 indicating an abnormal state in each alert area, two segment indicators 132 and 133 indicating various numerical values, and the like. Yes. The segment indicators 132 and 133 are multi-digit segment indicators, and in this embodiment, the progress of processing is displayed using the multi-digit segment indicators 132 and 133.
[0029]
In FIG. 1, the storage unit 140 is storage means for storing various programs and data for controlling the disaster prevention receiver 100 and various data acquired from each disaster prevention terminal 200.
[0030]
The main acoustic unit 150 is a main acoustic unit for outputting various alarm sounds in the disaster prevention receiver 100. Specifically, the main acoustic unit 150 is configured by a speaker, and is disposed in the vicinity of the acoustic hole 151 shown in FIG.
[0031]
In FIG. 1, the district acoustic control unit 160 is a district acoustic control unit for controlling an acoustic device outside the disaster prevention receiver 100. For example, the district sound control unit 160 is connected to the emergency bells 300 arranged in the respective alert areas via the transmission line 161, and the ringing of these emergency bells 300 is controlled by the district sound control unit 160.
[0032]
Moreover, the smoke prevention control part 170 is a smoke prevention control means for controlling a smoke prevention installation. For example, a release 400 for automatically opening and closing a fire door in each warning area is connected to the smoke prevention control unit 170 via a transmission line 171, and this release 400 is connected to the smoke prevention control unit 170. Controlled.
The power supply unit 180 is power supply means for supplying power to each unit of the disaster prevention receiver 100.
[0033]
And the control part 190 is a control means for controlling each part of these disaster prevention receivers 100, for example, is comprised as CPU (Central Processing Unit) which interprets and executes the control program memorize | stored in the memory | storage part 140. FIG. .
[0034]
The control unit 190 includes a startup processing unit 191, a recovery processing unit 192, and a progress information output unit 193 in terms of functional concept.
Among these, the startup processing unit 191 is startup processing means for performing startup processing of the disaster prevention receiver 100.
The recovery processing unit 192 is a recovery processing unit that performs a recovery process after the disaster prevention terminal 200 is issued.
The progress information output unit 193 outputs information on the progress status of the start-up process via the display unit 130 when the start-up process is performed by the start-up processing unit 191, and the recovery processing unit 192 This is progress information output means for outputting information on the progress status of the recovery process via the display unit 130 when the recovery process is being performed.
Specific contents of processing performed in each of these units will be described later.
[0035]
[Processing in disaster prevention receiver 100]
Next, the content of the process in the disaster prevention receiver 100 will be described. Here, the process at the time of starting up the disaster prevention receiver 100 and the process at the time of recovery after the disaster prevention terminal 200 is issued will be described.
[0036]
[Processing at Disaster Prevention Receiver 100-Processing at Startup]
First, processing at the time of start-up will be described. FIG. 3 is a flowchart of processing at the time of start-up.
First, when the operator turns on a power switch (not shown) provided inside the disaster prevention receiver 100, the start-up process is started. When the power is turned on in this way, the startup processing unit 191 of the control unit 190 starts a predetermined startup process. This start-up process is generally performed by sequentially executing each process from “terminal transmission start-up” to “terminal-transmission start-up end” illustrated in FIG. 4 according to the processing order shown in FIG. .
[0037]
That is, first, the progress information output unit 193 sets the parameters N and n to the initial value 1 (step SA-1).
Next, the start-up processing unit 191 executes processing in the processing order N (= 1) among the start-up processing (step SA-2). Here, as illustrated in FIG. 4, the start-up process is configured to sequentially perform each branch process from the process order 1 to 11, so first, in the branch process of the process order N (= 1). A certain “terminal transmission activation” is executed. Specifically, power is applied to each terminal via a transmission line.
[0038]
Thereafter, the progress information output unit 193 turns on the indicator with the allocation number n (= 1) among the segment indicators 132 and 133 in FIG. 2 (step SA-3). Here, as shown in FIG. 5 to be described later, each of the segment displays 132 and 133 is configured to include six display units 132a to 132f and 133a to 133f, respectively, and each of the twelve display units 130 in total. A numerical value from 0 to 9 can be displayed. Then, the leftmost display unit 132a of the left segment display 132 shown in the figure leads to the rightmost display unit 133f of the right segment display 133 shown in the figure, and assigned numbers 1 to 12 are assigned.
[0039]
In this case, since the display unit with the allocation number n (= 1) is turned on as described above, the leftmost display unit 132a of the left segment display unit 132 is turned on. Although the numerical value to light here is arbitrary, for example, "8" shall be lighted. This state is shown in FIG. Note that the table shown in FIG. 4 can be stored in, for example, the storage unit 140 and referred to as necessary.
[0040]
Thereafter, the start-up processing unit 191 determines whether or not all branch processes have been completed (step SA-4). If not completed yet, N and n are incremented by 1 (step SA). -5) The next branch process is performed (step SA-2). That is, “terminal initialization” which is a branch process in the processing order N (= 2) is executed. Specifically, each terminal is initialized by transmitting an initialization command to each terminal.
[0041]
Thereafter, the progress information output unit 193 turns on the display unit of the allocation number n (= 2) among the segment displays 132 and 133 of FIG. 2 (step SA-3). Here, based on the assigned number in FIG. 4, the second display portion 132b from the left of the left segment display 132 shown in the figure is turned on. This state is shown in FIG.
[0042]
Thereafter, steps SA-2 to SA-5 are repeatedly performed until all branch processes are completed. Then, after the branch process of the processing order 11 is completed, the display parts 133e and 133f with the assignment numbers 11 and 12 are turned on in step SA-3, and the state shown in FIG.
Then, when it is determined in step SA-4 that all branch processes have been completed, this process ends.
[0043]
[Processing at disaster prevention receiver 100-Processing at the time of restoration]
Next, the process at the time of recovery after the disaster prevention terminal 200 is issued will be described. FIG. 8 is a flowchart of processing at the time of recovery.
When the operator instructs the start of the recovery process by pressing the recovery button 122 in FIG. 2 after the disaster prevention terminal 200 is notified and the fire is extinguished, the progress information output unit 193 of the control unit 190 sets the parameter t to the initial value. While setting to 0, the parameter n is set to the initial value 1 (step SB-1).
[0044]
Next, the recovery processing unit 192 performs a recovery process. Specifically, a recovery command is transmitted to each disaster prevention terminal 200 via a transmission line (step SB-2). When each disaster prevention terminal 200 that has received this recovery command is held in a notification state, the disaster prevention terminal 200 releases the hold and recovers to the initial state.
Next, the progress information output unit 193 turns on the indicator 132a with the allocation number n (= 1) (step SB-3). As a result, as shown in FIG. 5, the leftmost display section 132a of the left segment display 132 shown in the figure is turned on.
[0045]
  The progress information output unit 193Start counting elapsed time(Step SB-4). The parameter t reaches the quotient when the predetermined recovery time is divided by the number of display devices (for example, the quotient = 1 when the recovery time is 12 seconds and the number of display devices is 12). (Step SB-5), and when it reaches, the recovery process has not been completed (the predetermined recovery time has not elapsed) (step SB-6), and t is initialized And n is incremented by 1 (step SB-7), and the next display 132b is turned on (step SB-3). If the recovery time can vary depending on the situation, the recovery time may be calculated in the previous stage of step SB-4.
[0046]
Thereafter, steps SB-3 to SB-7 are repeatedly performed until all branch processes are completed. Then, all the displays 132a to 132f and 133a to 133f are turned on, and this processing is terminated when the restoration processing is completed.
[0047]
According to the first embodiment described so far, the progress status of the start-up process and the recovery process is displayed by the lighting of the segment indicators 132 and 133, so that the operator can view the start-up process by viewing this display. And the progress of recovery processing can be easily and accurately grasped.
[0048]
[Embodiment 2]
Next, a second embodiment of the present invention will be described. However, unless otherwise specified, the configuration and processing are the same as those of the first embodiment, and components having substantially the same functions as those of the first embodiment are denoted by the same reference numerals.
This embodiment generally relates to the disaster prevention receiver 100 in which the progress status of the startup process and the recovery process is displayed by counting down the remaining time until the process is completed.
[0049]
[Configuration of disaster prevention receiver 100]
First, the configuration of the disaster prevention receiver 100 will be described. In the present embodiment, the progress information output unit 193 of the control unit 190 is a progress information output unit. In particular, in this embodiment, the progress information output unit 193 outputs the remaining time of the startup process or the recovery process in a countdown format.
[0050]
[Processing at Disaster Prevention Receiver 100-Processing at Startup]
Next, the content of the process in the disaster prevention receiver 100 will be described.
First, processing at the time of start-up will be described. FIG. 9 is a flowchart of processing during startup.
First, when the operator instructs the start of the start-up process by turning on a power switch (not shown) inside the disaster prevention receiver 100, the progress information output unit 193 of the control unit 190 includes parameters n, N, and X Is set to an initial value 0 (step SC-1).
[0051]
Next, the start-up processing unit 191 executes branch processing for starting terminal transmission, initializing the terminal, and acquiring the terminal type in the start-up process (steps SC-2 to SC-4).
[0052]
  Next, the progress information output unit 193 calculates a time (start-up time) n required for the start-up process, and sets the start-up time n to the remaining time N (step SC-5). For example,Step SC-4The number of terminals of all disaster prevention terminals 200 is calculated based on the type of disaster prevention terminals 200 acquired in step 3, and the result obtained by multiplying the number of terminals by a predetermined startup time per unit is set as the startup time n. . Then, the progress information output unit 193 displays the remaining time N via a predetermined display (for example, two displays 133e and 133f at the right end of the right segment display 133 in FIG. 5) (step SC-6). ). FIG. 10 shows a display example when the remaining time is 18 seconds.
[0053]
  After that, the above steps in the startup processSC-2~SC-4The remaining branch processing other than the above is executed (step SC-7). Here, if any failure occurs in the execution of the branch process (step SC-8), the remaining time N is recalculated (step SC-9) because the start-up time may change. That is, the remaining time m after the occurrence of the failure is calculated, and this is set as a new remaining time N.
[0054]
  Further, during execution of the branch process in Step SC-7, it is determined whether or not the remaining time N has become 0 at a predetermined timing (for example, every predetermined interval) (Step SC-10). If the remaining time is not 0, the elapsed time x (step from the remaining time N)SC-5The remaining time N is updated by subtracting the elapsed time after calculation of the start-up time or the elapsed time since the previous execution of step SC-11 (step SC-11), and the remaining time in the display unit The display of N is updated (step SC-12).
[0055]
Thereafter, steps SC-7 to SC-12 are repeated in the same manner. As a result, the display of the remaining time N on the indicators 133e and 133f is gradually counted down toward zero. Then, when the remaining time N becomes 0, the present process is terminated.
If the start-up time is not affected by the number of disaster prevention terminals 200 and the start-up time is almost constant, the count-down display can be performed immediately without calculating the start-up time in step SC-5. Good. Further, when the start-up time depends on other factors, the start-up time may be calculated and displayed according to the factors.
[0056]
[Processing at disaster prevention receiver 100-Processing at the time of restoration]
Next, the process at the time of recovery after the disaster prevention terminal 200 is issued will be described. FIG. 11 is a flowchart of processing at the time of recovery.
When the operator issues an instruction to start the recovery process by pressing the recovery button 122 in FIG. 2 after the disaster prevention terminal 200 is notified and the fire is extinguished, the progress information output unit 193 of the control unit 190 sets the parameters t and N. The initial value is set to 0 (step SD-1).
[0057]
Next, the recovery processing unit 192 performs a recovery process. Specifically, a recovery command is transmitted to each disaster prevention terminal 200 via a transmission line (step SD-2).
Next, the progress information output unit 193 sets a predetermined recovery time as the remaining time N (step SD-3).
Then, the progress information output unit 193 displays the remaining time N via a predetermined display (for example, the displays 133e and 133f) (Step SD-4).
[0058]
  The progress information output unit 193Start counting elapsed time(Step SD-5). Then, this parameter t is monitored (step SD-6), and every time the parameter t reaches 1 second, the remaining time is subtracted by 1 second (step SD-7), and until this remaining time N becomes 0 (step SD-7). SD-8), the display of the remaining time N is updated (step SD-9). At this time, the parameter t is initialized to 0 (step SD-10). Then, when the remaining time N becomes 0, the present process is terminated.
[0059]
According to the second embodiment described so far, the remaining time of the start-up process and the recovery process is displayed by the numerical values displayed on the segment display units 132 and 133, so that the operator can view this display. It is possible to easily and accurately grasp the progress of start-up processing and recovery processing.
[0060]
[Other Embodiments]
Although the embodiments of the present invention have been described so far, the present invention can be applied to various different embodiments in addition to the above-described embodiments within the scope of the technical idea described in the claims. May be implemented.
[0061]
For example, the information to be output as the progress status of the start-up process and the recovery process may be any information as long as it is information related to the processing item and information related to the processing time.
As information on the processing items, in addition to information indicating the degree and number of executed (or non-executed) branch processes as described in the first embodiment, the names of these branch processes may be output. .
[0062]
  In addition, as information about processing time,Embodiment 2In addition to the remaining time as described above, the time required up to that point may be output. Further, as an information acquisition method, in addition to a method of calculating as necessary, a past processing time may be stored and this processing time may be used.
[0063]
Further, as the information output form, when the display by the segment displays 132 and 133 is performed as described above, each display is turned on or off to count down or count up, or each branch process is performed in advance. It may be displayed that each branch process has been executed (or not executed) by displaying the number assigned to each of the indicators.
[0064]
Alternatively, any output device other than the segment displays 132 and 133 can be used. For example, in the disaster prevention receiver 100 having a liquid crystal screen, the remaining time is displayed numerically on the liquid crystal screen, The name of the branch process may be displayed.
[0065]
In addition, the disaster prevention reception which adopts the district window system like P type (the method of providing the LED corresponding to each warning area and displaying the presence or absence of abnormality in each warning area by lighting the corresponding LED) Since the machine 100 often does not have a liquid crystal screen or a segment display, even if the progress status is displayed by turning on or blinking the LEDs provided in these district windows and other display units 130, etc. Good.
[0066]
In addition, among the processes described in the embodiment, all or a part of the processes described as being automatically performed can be manually performed, or all of the processes described as being manually performed can be performed. Alternatively, a part can be automatically performed by a known method.
In addition, the processing procedure, control procedure, specific name, and information including various data and parameters shown in the above-described document and drawings can be arbitrarily changed unless otherwise specified.
[0067]
Further, each component of each illustrated apparatus is functionally conceptual, and does not necessarily need to be physically configured as illustrated.
For example, the specific form of distribution / integration of the disaster prevention receiver 100 is not limited to that shown in the figure, and all or a part thereof is functionally or physically distributed / integrated in arbitrary units according to various loads. Can be configured.
In addition, the processing functions in the disaster prevention receiver 100, in particular, each processing function performed in the control unit 190 is realized by a CPU and a program that is analyzed and executed by the CPU. Realized as wired logic hardware.
[0068]
  The computer program may be recorded in an application program server connected to the disaster prevention receiver 100 via an arbitrary network, and may be downloaded in whole or in part as necessary. .OrAll or any part of each control unit 190 can be realized as hardware such as wired logic.
[0069]
The “program” is a data processing method described in an arbitrary language or description method, and may be in any format such as source code or binary code. Note that the “program” is not necessarily limited to a single configuration, but is configured to be distributed as a plurality of modules or libraries, or in cooperation with a separate program represented by an OS (Operating System). Including those that achieve the function. Note that a well-known configuration and procedure can be used for a specific configuration for reading a recording medium, a reading procedure, an installation procedure after reading, and the like in each device described in the embodiment.
[0070]
【The invention's effect】
As described above, according to the present invention, the operator can easily and accurately grasp the progress status of various setting processes such as the startup process and the recovery process. Therefore, it is possible to reduce the stress of the operator who is waiting for the end of the setting process.
[0071]
Further, according to the present invention, the operator can grasp time information such as the elapsed time and remaining time of the progress of the setting process, and can easily and accurately grasp the progress of the setting process.
[0072]
In addition, according to the present invention, even when a failure occurs during the setting process, information regarding the accurate processing time is output in consideration of the situation, and the operator can always grasp the accurate progress status. Can do.
[0073]
Further, according to the present invention, the operator can grasp the processing item information such as the executed processing item and the unexecuted processing item of the progress status of the setting process, and the progress status of the setting process can be easily and accurately determined. Can grasp.
[0074]
Further, according to the present invention, it is possible to grasp information relating to the progress status even in a disaster prevention receiver without a liquid crystal screen or the like.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a main configuration of a disaster prevention receiver according to Embodiment 1 of the present invention.
FIG. 2 is a front view of the disaster prevention receiver of FIG.
FIG. 3 is a flowchart of processing at startup according to the first embodiment.
FIG. 4 is a diagram showing an example of branch processing of a startup processing unit according to the first embodiment.
FIG. 5 is a diagram showing a display example by a segment display device according to the first embodiment.
6 is a diagram showing a display example by a segment display device according to Embodiment 1. FIG.
7 is a diagram showing a display example by a segment display device according to Embodiment 1. FIG.
FIG. 8 is a flowchart of processing at the time of recovery according to the first embodiment.
FIG. 9 is a flowchart of processing upon start-up of a disaster prevention receiver according to Embodiment 2 of the present invention.
FIG. 10 is a diagram showing a display example by a segment display device according to the second embodiment.
FIG. 11 is a flowchart of a recovery process according to the second embodiment.
[Explanation of symbols]
100 Disaster prevention receiver
110 Transmission control unit
120 Operation unit
130 Display
140 Storage unit
150 Main acoustic part
160 District Acoustic Control Department
170 Smoke prevention control
180 Power supply
190 Control unit
191 Startup processing section
192 Recovery processing department
193 Progress information output part
200 Disaster prevention terminal
300 emergency bell
400 release

Claims (5)

In the disaster prevention receiver that detects the notification of the disaster prevention terminal and performs the prescribed disaster prevention processing,
A setting processing means for performing a setting process for setting the disaster prevention receiver to a normal monitoring state;
When the setting process is performed by the setting means, the information about the progress of the setting process, and a progress information output means for outputting via the predetermined output means,
The progress information output means calculates the processing time of the setting process and outputs information related to the calculated processing time. When a failure occurs in the setting process, the progress information output unit calculates the processing time again and re- Output information about the calculated processing time,
Disaster prevention receiver. The setting processing means is a startup processing means for performing a predetermined startup process of the disaster prevention receiver,
The progress information output means when said power-up process is performed by the start-up processing unit, outputs information about the progress of the start-up process,
The disaster prevention receiver according to claim 1. It said setting means is a recovery processing means for performing recovery processing of the disaster prevention receiver after the alarm of the disaster prevention terminal,
The progress information output means when the recovery process is being performed by the recovery processing unit, outputs information about the progress of the recovery process,
The disaster prevention receiver according to claim 1. The progress information output means outputs information on the processing items of the setting process.
The disaster prevention receiver according to any one of claims 1 to 3 . The progress information output means displays information on the progress status of the setting process via a segment display.
The disaster prevention receiver according to any one of claims 1 to 4 .

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