CN209947086U - Fire control system - Google Patents

Abstract

The utility model provides a fire control system, include: the remote control system comprises a direct control panel, a direct control panel optical transmission sending device, a remote direct control panel optical transmission receiving device and at least one fire fighting device; the direct control panel is connected with the direct control panel optical transmission sending equipment; the direct control panel optical transmission sending equipment is connected with the direct control panel optical transmission receiving equipment through an optical fiber; the direct control panel optical transmission receiving equipment is connected with at least one fire fighting equipment; the direct control panel sends out a control signal, the control signal is processed by the direct control panel optical transmission sending equipment and the direct control panel optical transmission receiving equipment and then reaches the corresponding fire fighting equipment, and the control signal is used for controlling and starting the corresponding fire fighting equipment to work; the mode that the optical transmission sending equipment of the direct control panel and the optical transmission receiving equipment of the direct control panel transmit the control signals through the optical fiber transmission direct control panel is adopted, a plurality of cables do not need to be laid, the cost is saved, the transmission distance is long, the loss is small, the influence of external electromagnetic interference is avoided, and the stable operation of a fire control system is guaranteed.

Description

Fire control system

Technical Field

The utility model relates to a fire control field, specifically speaking relates to a fire control system.

Background

In the existing fire control system, each building is provided with a fire control room, a plurality of fire control rooms are arranged in a plurality of buildings in a large community and a campus, and in order to realize centralized control and management, a plurality of fire control sub-control rooms are integrated into one fire control room; at present, the control of a direct control panel on a water pump, a fan and the like at the front end is controlled through one-to-one cables of the direct control panel, a plurality of cables need to be laid to realize the direct control of a central fire control system on the water pump, the fan and the like of each fire control branch control system, and the hidden danger is brought to the normal operation of the system due to the remote cable transmission loss and crosstalk.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fire control system, aim at solving prior art, the control of direct accuse dish to the water pump of front end, fan etc. is controlled through the cable of direct accuse dish one to one, will realize that central fire control system controls just need lay a lot of cables to the straight control of the water pump of every fire control branch accuse system, fan etc. remote cable transmission loss and crosstalk can bring the problem of hidden danger to system's normal operating.

In order to solve the technical problem, the utility model provides a fire control system, include:

the remote control system comprises a direct control panel, a direct control panel optical transmission sending device, a remote direct control panel optical transmission receiving device and at least one fire fighting device;

the direct control panel is connected with the direct control panel optical transmission sending equipment; the direct control panel optical transmission sending equipment is connected with the direct control panel optical transmission receiving equipment through an optical fiber; the direct control panel optical transmission receiving equipment is connected with the at least one fire fighting equipment;

the direct control panel sends out a control signal, the control signal reaches the corresponding fire fighting equipment after being processed by the direct control panel optical transmission sending equipment and the direct control panel optical transmission receiving equipment, and the control signal is used for controlling and starting the corresponding fire fighting equipment to work.

Optionally, the fire-fighting equipment further comprises a signal conversion device, the direct control panel optical transmission receiving equipment is connected with the at least one fire-fighting equipment through the signal conversion device, and the signal conversion device is used for converting a control signal sent by the direct control panel optical transmission receiving equipment and then sending the control signal to the at least one fire-fighting equipment.

Optionally, the fire fighting equipment further comprises a starting module corresponding to each fire fighting equipment, each starting module is respectively connected with the signal conversion device and the corresponding fire fighting equipment, and the starting module is used for controlling and starting the corresponding fire fighting equipment.

Optionally, the optical transmission transmitting device of the direct control panel includes an information receiving interface, a transmitting main control core processor and an optical transmission transmitting module, and after the information receiving interface receives the control signal sent by the direct control panel, the transmitting main control core processor performs compression coding and then transmits the control signal to the optical transmission receiving device of the direct control panel through the optical transmission transmitting module.

Optionally, the optical transmission receiving device of the direct control panel includes an optical transmission receiving module, a receiving main control core processor, and an output signal interface circuit, and after the optical transmission receiving module receives the control signal sent by the optical transmission sending device of the direct control panel, the optical transmission receiving module is analyzed by the receiving main control core processor, and then the control signal is sent to the corresponding fire fighting device through the output signal interface circuit.

Optionally, the fire fighting equipment further comprises a fire fighting host connected with the direct control panel, and the fire fighting equipment displays the feedback information corresponding to the control signal on the fire fighting host after the feedback information passes through the direct control panel optical transmission receiving equipment, the direct control panel optical transmission sending equipment and the direct control panel in sequence.

Optionally, the direct control panel optical transmission transmitting device and the direct control panel optical transmission receiving device have LEDs to indicate corresponding warning information in a no-light mode.

Optionally, the direct control panel optical transmission transmitting device and the direct control panel optical transmission receiving device both have corresponding device normal operation indication LEDs.

Optionally, the direct control panel optical transmission transmitting device and the direct control panel optical transmission receiving device both have corresponding data transceiving indication LEDs.

Optionally, the fire fighting equipment comprises at least one of a fan, a fresh air motor and a water pump motor.

Advantageous effects

The utility model provides a fire control system, this fire control system includes: the remote control system comprises a direct control panel, a direct control panel optical transmission sending device, a remote direct control panel optical transmission receiving device and at least one fire fighting device; the direct control panel is connected with the direct control panel optical transmission sending equipment; the direct control panel optical transmission sending equipment is connected with the direct control panel optical transmission receiving equipment through an optical fiber; the direct control panel optical transmission receiving equipment is connected with at least one fire fighting equipment; the direct control panel sends out a control signal, the control signal is processed by the direct control panel optical transmission sending equipment and the direct control panel optical transmission receiving equipment and then reaches the corresponding fire fighting equipment, and the control signal is used for controlling and starting the corresponding fire fighting equipment to work; through the scheme, the mode that the optical transmission sending equipment of the direct control panel and the optical transmission receiving equipment of the direct control panel transmit the control signals through the optical fiber transmission direct control panel is adopted, a plurality of cables do not need to be laid, the cost is saved, the transmission distance is long, the loss is small, the influence of external electromagnetic interference is avoided, the stable operation of a fire control system is guaranteed, and the mode that the optical fiber transmission direct control panel is adopted to transmit the control signals is feasible.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic diagram of a fire fighting control system according to the present embodiment;

FIG. 2 is a schematic diagram of another fire protection control system provided in this embodiment;

fig. 3 is a schematic diagram of a direct control disk optical transmission transmitting device (2) provided in this embodiment;

fig. 4 is a schematic diagram of a direct control disk optical transmission receiving device (3) provided in this embodiment;

the reference numerals and components referred to in the drawings are as follows:

the system comprises a direct control panel (1), a direct control panel optical transmission sending device (2), a direct control panel optical transmission receiving device (3), a fire fighting device (4), a signal conversion device (5), a starting module (6), an information receiving interface (21), a sending main control core processor (22), an optical transmission sending module (23), an optical transmission receiving module (31), a receiving main control core processor (32) and an output signal interface circuit (33).

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The present embodiment will provide a fire fighting control system, referring to fig. 1 to 2, fig. 1 is a schematic diagram of a fire fighting control system provided in the present embodiment; FIG. 2 is a schematic diagram of another fire protection control system provided in this embodiment;

this fire control system includes:

the fire-fighting equipment comprises a direct control panel (1), a direct control panel optical transmission sending device (2), a remote direct control panel optical transmission receiving device (3) and at least one fire-fighting device (4);

the direct control panel (1) is connected with the direct control panel optical transmission sending equipment (2); the direct control panel optical transmission sending equipment (2) is connected with the direct control panel optical transmission receiving equipment (3) through an optical fiber; the direct control panel optical transmission receiving equipment (3) is connected with at least one fire fighting equipment (4);

the direct control panel (1) sends out a control signal, the control signal reaches the corresponding fire fighting equipment (4) after being processed by the direct control panel optical transmission sending equipment (2) and the direct control panel optical transmission receiving equipment (3), and the control signal is used for controlling and starting the corresponding fire fighting equipment (4) to work.

Through the implementation of this embodiment, adopt the mode that directly controls the control signal that dish optical transmission transmitting equipment (2) and directly control dish optical transmission receiving equipment (3) sent through optic fibre transmission directly controlled dish (1), need not to lay a lot of cables, save the cost, and transmission distance is far away, the loss is little, and do not receive outside electromagnetic interference's influence, guarantee fire control system steady operation, the mode that adopts the control signal of optic fibre transmission directly controlled dish (1) is feasible.

Optionally, the fire-fighting equipment further comprises a signal conversion device (5), the direct control panel optical transmission receiving equipment (3) is connected with the at least one fire-fighting equipment (4) through the signal conversion device (5), and the signal conversion device (5) is used for converting a control signal sent out by the direct control panel optical transmission receiving equipment (3) and sending the converted control signal to the at least one fire-fighting equipment (4).

Optionally, the fire fighting equipment protection device further comprises a starting module (6) corresponding to each fire fighting equipment (4), each starting module (6) is respectively connected with the signal conversion device (5) and the corresponding fire fighting equipment (4), and the starting module (6) is used for controlling and starting the corresponding fire fighting equipment (4). For example, a certain fire fighting device (4) needs high pressure to start, and after the action of the starting module (6), the high pressure is output to control the corresponding fire fighting device (4) to start.

Optionally, referring to fig. 3, the optical transmission transmitting device (2) of the direct control panel includes an information receiving interface (21), a transmitting main control core processor (22) and an optical transmission transmitting module (23), and after the information receiving interface (21) receives the control signal sent by the direct control panel (1), the transmitting main control core processor (22) performs compression coding and then sends the control signal to the optical transmission receiving device (3) of the direct control panel through the optical transmission transmitting module (23).

Optionally, referring to fig. 4, the optical transmission receiving device (3) of the direct control panel includes an optical transmission receiving module (31), a receiving main control core processor (32) and an output signal interface circuit (33), after the optical transmission receiving module (31) receives the control signal sent by the optical transmission sending device (2) of the direct control panel, the receiving main control core processor (32) performs analysis processing, and then the control signal is sent to the corresponding fire fighting device (4) through the output signal interface circuit (33).

Through foretell direct control dish optical transmission transmitting equipment (2), direct control dish optical transmission receiving equipment (3), adopt optic fibre just can realize the control of center to distal end fire equipment (4), need not to lay a lot of cables, save the cost, and transmission distance is far away, the loss is little, and not influenced by outside electromagnetic interference, guarantee fire control system steady operation, the mode of the control signal who adopts optic fibre transmission direct control dish (1) is feasible, the special multi-thread/direct control dish of fire control (1) optical transmission directly plays the gateway.

Optionally, the fire-fighting equipment further comprises a fire-fighting host connected with the direct control panel (1), and the fire-fighting equipment (4) displays feedback information corresponding to the control signal on the fire-fighting host after the feedback information sequentially passes through the direct control panel optical transmission receiving equipment (3), the direct control panel optical transmission sending equipment (2) and the direct control panel (1).

Optionally, the direct control panel optical transmission sending device (2) and the direct control panel optical transmission receiving device (3) have LEDs to indicate corresponding alarm information in a no-light mode.

Optionally, the direct control panel optical transmission sending device (2) and the direct control panel optical transmission receiving device (3) both have corresponding device normal operation indication LEDs.

Optionally, the direct control panel optical transmission sending device (2) and the direct control panel optical transmission receiving device (3) both have corresponding data transceiving indication LEDs.

Optionally, the direct control panel (1) is a multi-wire direct control panel.

Optionally, referring to fig. 2, the fire fighting equipment (4) comprises at least one of a fan, a fresh air motor, and a water pump motor.

The scheme of this embodiment, can be applied to the scene of a plurality of buildings such as large-scale community and campus, but the fire control mode remote wiring, the start-up of a plurality of fire-fighting equipment (4) that adopt a control center control distal end, control center realizes the function such as water pump, new trend/smoke exhaust fan that can directly start the front end building through multi-thread/straight accuse dish (1), realized fire control centralized control and management, the management is convenient, the human cost has been reduced.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and additions can be made without departing from the principle of the present invention, and these improvements and additions should also be regarded as the protection scope of the present invention.

Claims (10)

1. A fire control system, comprising:

the remote control system comprises a direct control panel, a direct control panel optical transmission sending device, a remote direct control panel optical transmission receiving device and at least one fire fighting device;

the direct control panel is connected with the direct control panel optical transmission sending equipment; the direct control panel optical transmission sending equipment is connected with the direct control panel optical transmission receiving equipment through an optical fiber; the direct control panel optical transmission receiving equipment is connected with the at least one fire fighting equipment;

the direct control panel sends out a control signal, the control signal reaches the corresponding fire fighting equipment after being processed by the direct control panel optical transmission sending equipment and the direct control panel optical transmission receiving equipment, and the control signal is used for controlling and starting the corresponding fire fighting equipment to work.

2. A fire control system as recited in claim 1 further comprising a signal conversion device, wherein the direct control panel optical transceiver is connected to the at least one fire fighting device through the signal conversion device, and the signal conversion device is configured to convert the control signal sent from the direct control panel optical transceiver and send the converted control signal to the at least one fire fighting device.

3. A fire fighting control system according to claim 2, further comprising an activation module corresponding to each of the fire fighting devices, each of the activation modules being respectively connected to the signal conversion apparatus and the corresponding fire fighting device, the activation module being configured to control activation of the corresponding fire fighting device.

4. A fire control system as claimed in any one of claims 1 to 3, wherein the optical transmission transmitter of the direct control panel includes an information receiving interface, a transmission master control core processor and an optical transmission transmitting module, and after the information receiving interface receives the control signal sent by the direct control panel, the information is compressed and encoded by the transmission master control core processor and then sent to the optical transmission receiver of the direct control panel via the optical transmission transmitting module.

5. A fire control system as recited in any one of claims 1 to 3 wherein the direct control panel optical transmission receiving device includes an optical transmission receiving module, a receiving master control core processor, and an output signal interface circuit, and after the optical transmission receiving module receives the control signal sent from the direct control panel optical transmission sending device, the optical transmission receiving module is analyzed by the receiving master control core processor and then sent to the corresponding fire fighting device via the output signal interface circuit.

6. A fire fighting control system according to any one of claims 1 to 3, further comprising a fire fighting host connected to the direct control panel, wherein the fire fighting equipment displays feedback information corresponding to the control signal on the fire fighting host after passing through the direct control panel optical transmission receiving equipment, the direct control panel optical transmission transmitting equipment, and the direct control panel in sequence.

7. A fire fighting control system according to any one of claims 1 to 3, wherein the direct control panel light transmission transmitting device and the direct control panel light transmission receiving device have LEDs to indicate corresponding warning information in a non-light mode.

8. A fire fighting control system according to any one of claims 1 to 3, wherein the direct control panel light transmission transmitting device and the direct control panel light transmission receiving device each have a corresponding device normal operation indication LED.

9. A fire fighting control system according to any one of claims 1 to 3, wherein the direct control panel light transmission transmitting device and the direct control panel light transmission receiving device each have a corresponding data transceiving indicating LED.

10. A fire control system as claimed in any one of claims 1 to 3, wherein the fire apparatus includes at least one of a fan, a fresh air motor, and a water pump motor.

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