WO1988001521A1

WO1988001521A1 - Facility for preventing disasters

Info

Publication number: WO1988001521A1
Application number: PCT/JP1987/000654
Authority: WO
Inventors: Akira Igarashi
Original assignee: Nohmi Bosai Kogyo Kabushiki Kaisha
Priority date: 1986-09-05
Filing date: 1987-09-02
Publication date: 1988-03-10
Also published as: EP0279864A4; EP0279864B1; EP0279864A1; DE3780294D1; JPH0783775B2; DE3780294T2; JPS6365879A

Abstract

A facility for preventing disasters which controls terminal equipment or devices to be controlled connected to said terminal equipment according to a predetermined control instruction via a control circuit provided in said terminal equipment. The terminal equipment is provided with a clocking means which performs a predetermined clocking operation upon receipt of said control instruction. The terminal equipment or the devices to be controlled are controlled for a period of time specified by the clocking operation.

Description

Details

Disaster prevention equipment

Technical field

The present invention relates to a disaster prevention facility, and in particular, in a disaster prevention facility of this type employing a Polylink system, reduces the load on a receiver when controlling a terminal device. The present invention also relates to disaster prevention equipment that facilitates work and the like that accompany changes in the control target, as well as reducing the number of objects to be controlled. Background technique

Some conventional disaster prevention equipment uses a polling method. In this polling method, the receiver sequentially and cyclically calls a terminal device, and status information (existence or absence of an error signal of an error detector, controlled device, etc.) is transmitted from the called terminal device. This is a method for reading the status information (ON / OFF, etc.) of the control circuit, or controlling the terminal device.

In addition, the above terminal equipment includes abnormality detectors (fire detectors, gas detectors, etc.) and Z or controlled equipment (fire doors, smoke prevention equipment, smoke exhaust equipment, fire extinguishing equipment) There are repeaters that connect devices, etc.), abnormality detectors, and controlled devices.

In the above disaster prevention equipment, the terminal equipment to be controlled and the time required for control are stored in advance in a storage means such as a ROM in the receiver. Required terminal equipment based on data The machine is in the jar by the control record, Ru _c

At this point, there are various types of terminals to be controlled, and the time required for control is also different. For example, fire doors, emergency doors, smoke dampers, smoke dampers, etc., which are locked with electric locks, operate the control circuit for electric power provided in the repeater for about 10 seconds. The lock is released by this operation, and thereafter, the door can be moved to a predetermined position by the door locker or its own weight.

Fire protection driven by motor ^ Smoke protection, smoke damper, smoke protection provided in air conditioning duct, fire protection dam, etc., during opening / closing operation and recovery operation Sometimes, it is necessary to operate a control circuit for forward and reverse rotation of the motor provided in the relay from about 10 seconds for short motors to several minutes for long motors.

Then, the receiver (or control panel) sends a control start command to the terminal device to be controlled in the event of a fire, causing the control circuit in the terminal device to operate, and thereafter, After the time required for control elapses, the receiver sends a control end command to the terminal device to stop the operation of the control circuit. In addition, for the terminal equipment that require a restoration control in fire fighting after, etc., are out feeding the control start command to your good beauty recovery at the end of the time of recovery start and the control end command _c

Since there are various times to be controlled in this way, the load on the receiver (or control panel) in the conventional device is large. There is problem power; In addition, it is necessary to newly create the storage contents of the storage means in the receiver for each installation location of disaster prevention equipment, and if there is a change in the control target, etc. There is a problem in that the stored contents must be changed each time, and the creation and change of the stored contents are complicated.

Disclosure of the invention

SUMMARY OF THE INVENTION The present invention has been made in view of the problems of the above-described conventional devices, and is intended for controlling terminal devices in disaster prevention equipment such as fire alarm equipment employing a polling method. The aim is to reduce the burden on the receiver and to provide disaster prevention equipment that makes it easy to 'change' the control target. '

The present invention has been made to achieve the above-mentioned object. That is, according to the present invention, the terminal device itself or an object connected to the terminal device in response to a predetermined control command via a control circuit provided in the terminal device. A disaster prevention facility for controlling a control device, wherein the terminal device is provided with a time-measuring means, and the time-measuring means performs a predetermined time-measuring operation in response to receiving the control command. In this case, the terminal device itself or the controlled device is controlled for a time specified by the timing operation. .

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 shows a receiver according to an embodiment of the present invention. FIG. 2 is a block diagram showing the repeater in the above embodiment, FIG. 5 is a flowchart showing the operation of the receiver in the above embodiment, FIG. FIG. 4 is a flowchart showing the operation of the repeater in the above embodiment, FIG. 5 is a circuit diagram showing an example of a timer in the above embodiment, and FIG. FIG. 3 is a timing chart showing the operation of the timer in the figure.

BEST MODE FOR CARRYING OUT THE INVENTION

FIG. 1 is a block diagram showing one embodiment of the present invention _c '. In FIG. 1, the receiver 10 and the repeaters G1, C2-. And are connected. As the terminal ||, other than the repeaters C1 to Cn are connected, but FIG. 1 exemplifies the repeater.

The receiver 10 converts the serial data into parallel data from the GPU 11 that performs overall control, the operation unit 12, the interface 1 S, and the serial data. A serial-parallel conversion circuit 14 for performing transmission or reception, a transmission / reception circuit 15 for performing transmission or reception, a display section ¹⁶ for displaying predetermined data, and an interface. _{C with}

The receiver 10 includes a ROM 1 for storing a ^ stem program, a ROM 2 for storing an address' type map, and a program for analyzing state information. ROM 5 for storing, ROM 4 for storing control programs, program ROM 5 for analyzing control results, and polling address RAM ¹ for storing _c codes, RAM 2 for storing instruction codes, RAM 3 for storing the terminal numbers and types of terminal devices requiring control start, and RAM 3 for storing terminal devices requiring recovery. A RAM 4 for storing a terminal number and a type, a RAM 5 for storing a terminal number and a type of a terminal device requiring a control result, and a working RAM 6.

FIG. 2 is a block diagram showing a specific example of the repeater C1.

The repeaters C2 to Cn also have the same configuration as the repeater C1. C The repeater C1 is a fire detector: a fire signal detection circuit 61 that is output by the DE, and the electric power of the fire door. The control circuit 62 for controlling the lock C, the fire door control circuit 62.The control timer TM1 and the motor M of the fire protection / catcher perform forward-reverse control. Control circuit 62 and forward control timer TM 2 for controlling the forward rotation time of motor M, and reverse control timer for controlling the reverse rotation time of motor M A control circuit 64 for controlling the forward and reverse rotations of the motor S and the smoke exhaust damper DM, and a forward control timer TM for controlling the forward rotation of the motor DM. 4 and the reversing control timer TM 5 and the power to control the reversing are provided.

The operating times of timers TM1 to TM5 are, for example, 5 seconds for TM1, 60 seconds for TM2, 90 seconds for TM5, and 20 seconds for TM4 and TM5, respectively. Seconds.

The fire door control circuit 62, the fire protection control circuit 63, and the smoke exhaust damper control circuit 64 are used for the terminal equipment itself or the terminal. This is an example of a control circuit that controls a controlled device connected to the device. Fire doors, fire shields, and smoke exhaust dampers are examples of the controlled equipment.

Further, the timers TM1 to TM5 are examples of timing means which start operation in response to a control command signal from the receiver and generate an output for a predetermined time. The output time of the clocking means is adjustable.

Next, the operation of the above embodiment will be described.

FIG. 5 shows the operation of the receiver 10. Σ — chart — !! <1 "ch ¾ c

In the receiver 10, first, the initial direct setting is performed (S i), and the terminal number n (terminal device number ', that is, the polling address) is incremented by one. (S2), and refers to the terminal number and its type of control start required, stored in RAM3 to 5., the terminal number and its type of recovery required, and the terminal number and its type of the control required result. If there is an n-th terminal number in any of RAM to 5, an instruction code corresponding to the n-th terminal number is created, and if there is no terminal number in any of them, an instruction code for requesting status information is created. Create (S5). Then, the address code and the instruction code created by SS are transmitted to the terminal device (S4) c.

Thereafter, positive over Li in g the terminal equipment or we received signal there Ri (S 5), if the received signal is the control result (one S ^6, the control result information in the analysis profile g of ROM 5 that displays on the display unit 6 the results of the analysis ₅ perilla I'm (S 7) _c terminal equipment force If these received signals are not control results, the status information is analyzed by the ROM δ analysis program and displayed on the display unit ¹⁶ (S8).

As a result of analyzing the state information from the fire detector DE, etc., if it is necessary to control and start the fire door (S11), the type (the type of device to be controlled) and the terminal device The numbers η and are stored in the RAM S (S 12). If it is necessary to restore the device to be controlled (S15), the type of the device to be controlled and the terminal number n are stored in the RAM 4 (S14). Also, if et such that require control results (S 1 5), to store the type and the terminal number n of the device you require control result of that the RAM 5 (S 1 ό j _c

Then, the operation of S 〜 to S 1 ό is repeated until all the received information is processed (S 21), and if all the received information is processed, the terminal number n becomes The above operation is repeated until the terminal number n reaches the set value N which is the final terminal number of the terminal. When the terminal number n matches the set value N (S22), the terminal number n is set to 0. (S25) and return to _S2c

(',: The operation of the repeater C 1 will be described.

FIG. 4 is a flowchart showing the operation of the repeater C1.

First, an initial value is set (sS1), and the received signal power from the signal and wire; Yes (SS2), and also the polling terminal number (Ad) in the received signal Les scan) with the case of terminal number and gar致stored in the ROM 2 of the repeater C ¹ (S 55), read the status information (S S4) _c

This state information includes the presence or absence of a fire signal output by the fire signal detection circuit 61, the fire door, fire protection, and the control circuit 62, 65, and 6 of each of the control circuits 62, 65, and 6. There is state information of Z off _c

In the following, decodes the instruction code one de receiver ¹ 0 to the received reception signal, Ri instruction code control instructions der (S 55), the teeth force even if the start instruction der Ru Do et al (S 41), the timers TM1, TM2, and TM4 are turned on (S42), and the state information of the detection circuit 61 and the control circuits 62 to 64 read in advance by SS4 is transmitted. Is transmitted to the receiver 10 (S4S) _{C. Then, the} control circuits 62 to 6'4 are operated by the respective powers of the timers TM1, TM2 and TM4 for a predetermined time, respectively. Close the fire door and fire prevention shutter, and open the smoke exhaust damper.

On the other hand, if the control command is a recovery command (S51), the timers TM5 and TM5 are turned on (S52), and the status information that is read by SS4 is received by the receiver 1 is sent to Q (S 45) - and _c its, Thailand Ma TM S, respectively by operating a predetermined time each output by the force Ri control circuit 6 ⁵ 6 4 of TM 5, the fire shirts data open Shut off the smoke exhaust fan.

If the received instruction code is not a control instruction (S55) and a control result is requested from the received β1Q (S61), the control result of the controlled device (S61) is received from each control circuit. The control unit reads the fire door, fire protection hatch, and the smoke exhaust damper (S62) and receives the control result information and the state information read in S54. Transmit to transceiver 10 (S65) _{c In} other words, for a control device for which a control result is requested, the control result of the device is transmitted and the control result is requested. For a control device that is not used, the status information of the control circuit of the device is transmitted. Then return to SS 2.

In the above embodiment, the control timer which starts operation in response to a command from the receiver and generates an output to the control circuit in the terminal device for a predetermined time (the time required for control) is used. It is provided for each control circuit. As a result, when control is required due to a fire or the like, the above control circuit can be used only by the receiver sending a control command to the corresponding terminal equipment. Since the control is terminated, the receiver does not need to manage the control time for each control circuit. Therefore, the burden of controlling the terminal device in the receiver is greatly reduced.

In addition, by providing a control timer that controls the operation time of the control circuit, control devices can be controlled in a finely detailed manner, and each terminal device can be controlled in an optimal time. Since this can be done, the power consumption for control can be reduced as a result.

FIG. 5 is a diagram showing an example of the timers TM1 to TM5. In this example, the timer time can be arbitrarily changed by a dip switch. It is a thing. Since the timer time can be arbitrarily changed in this way, the control time (timer output time) of the same type of device is different. We can deal with things. '

FIG. ⁶ is a timing chart showing the operation of the timer shown in FIG.

Thailand ignorance turbocharger over door view of this is, Ru der were also shows the case of using the Prin Se Tsu door priority function with 8-bit bus Lee Na Li Ka c te _c.

The time T of the timer output (the output of the OR circuit) is

^{T = 1 χ {2 8 -} (2 7 -S7 + 2 ά -S6 + 2 5 'S5

^{^{2 -S4 +2 3 -S5 +2 2 -}} S2 +2 1 -S1 -2 ° -SQ) given by} et is Ru _c

Therefore, it is a variable timer of 1 second to 255 seconds. When the power is turned on, the value of the power counter is undefined.However, due to the power-on reset signal, the value of the counter becomes zero just after the power is turned on. The output power of the R circuit becomes “L”. A 力 Clear power to the counter itself via the D circuit; power, self-locking power in the clear state. Power.

When the start noise is given, the clear state is released because the preset is given priority, and the state of the dip switches S0 to S7; Is set. After that, the counter returns to the clear state again after the count-up (continues to count-up) (after 0 to Q and 7 are all “H”). So, the self-help is working again. During this time, 0 output of R circuits is Ri Do the "H" above Symbol T seconds, _c still have data I Ma function as a result, the scan Turn-door Pulse, the terminal equipment is received When a start command or a compound command is received from the --

CPU 50 output; output via IZF c

According to the present invention, an operation is started by an instruction from a receiver, and a control timer that generates an output to a control circuit in a terminal device for a predetermined time (time required for control) is controlled. Provision of each circuit can reduce the burden on the receiver when controlling terminal equipment in disaster prevention equipment that employs all types of polling. At the same time, there is an effect that the work of changing the control target is easy.

Claims

The scope of the claims

(1) The terminal device has a control circuit for controlling the terminal device itself or a controlled device connected to the terminal device, and the control circuit responds to a control command signal from a receiver. In the disaster prevention equipment that controls the terminal device itself or the controlled device via

The terminal device is provided with timing means for starting operation according to the control command signal and generating a predetermined time output, and in response to the output of the timing means, through the control circuit, Disaster prevention equipment characterized by controlling the equipment itself or the controlled equipment.

(2) The disaster prevention system according to claim 1, wherein the clocking means is capable of adjusting its output time.