CN208097178U - A kind of fire fighting device monitoring system - Google Patents

Abstract

The utility model relates to a monitoring system for fire-fighting facilities. Water-level monitoring sensors are respectively arranged in fire-fighting pools and sumps, temperature sensors, humidity sensors are arranged in fire-fighting pump rooms, automatic sprinkler systems, fire-fighting water cannon systems and fire-hydrant systems A pressure sensor is connected; a water level monitoring sensor, a temperature sensor, a humidity sensor and a pressure sensor are respectively connected to the fire alarm host through the fire monitoring module. The utility model can display the following signals on the fire alarm host: fire pool water level signal, sump full water signal, fire pump room temperature, humidity overrun signal, fire hydrant system water pressure too low signal, too high signal, automatic spray Water fire extinguishing system water pressure is too low signal, too high signal, fire water monitor system water system pressure is too low signal, too high signal. Through the alarm and monitoring of these signals, the on-duty personnel are prompted to deal with the corresponding problems, or the corresponding equipment is automatically started, and the operating status of the equipment is fed back to the fire control room.

Description

A monitoring system for fire protection facilities

technical field

The utility model relates to the field of fire-fighting equipment, in particular to a fire-fighting facility monitoring system.

Background technique

The existing technology cannot comprehensively monitor the operation of the equipment in the fire pump room, and more equipment needs to be added for comprehensive monitoring. For example, when the existing fire pool is automatically filled with water, there is no signal displayed on the fire alarm host; the water level of the fire pool can be displayed in the fire control room through special equipment, but a special fire pool liquid level indicator needs to be added; the fire pool is full of water When the water is flowing, there is no signal displayed on the main unit of the fire alarm host; when the sump of the fire pump room is full of water, no signal is displayed on the main unit of the fire alarm host; There is no signal displayed on the main unit of the alarm host; when the humidity in the fire pump room is too high and there is a risk of corrosion in the fire electrical facilities, no signal is displayed on the main unit of the fire alarm host; the water pressure of the fire hydrant system, automatic sprinkler system, and fire water cannon system is too low When the fire extinguishing water cannot be guaranteed, no signal is displayed on the fire alarm host; when the pressure of the fire hydrant system, automatic sprinkler system, and fire water cannon system is too high, no signal is displayed on the fire alarm host. After the ventilation device, heating device, and drainage device of the pump room are started, there is no feedback signal displayed on the fire alarm host.

Utility model content

The purpose of the utility model is to provide a monitoring system for fire-fighting facilities, which is used to solve the problem that the existing fire-fighting systems cannot monitor accurately.

In order to achieve the above purpose, specifically, the fire control facility monitoring system includes a fire pool, a fire pump room and a fire control room. The water pit and the fire pump room are connected with automatic sprinkler system, fire water cannon system and fire hydrant system. There is a fire alarm host in the fire control room, and a fire monitoring module is installed in the fire pump room. The fire monitoring module passes communication lines and power lines Connected to the fire alarm host in the fire control room;

A first water level monitoring sensor is provided in the fire pool, a second water level monitoring sensor is provided in the sump, a temperature sensor is provided in the fire pump room, and the automatic sprinkler system, fire water cannon system and fire hydrant system are respectively connected with pressure sensor;

The first water level monitoring sensor, the second water level monitoring sensor, the temperature sensor and the pressure sensor are respectively connected to the fire alarm host through the fire monitoring module.

An overflow sensor is connected to the upper side of the fire pool, and the overflow sensor is connected to the fire alarm host through the fire monitoring module.

A ventilation device is provided in the fire pump room, and the ventilation device is connected with the output end of the fire monitoring module.

A heating device is also provided in the fire pump room, and the heating device is connected to the output end of the fire monitoring module.

The fire pump room is provided with a humidity sensor, and the humidity sensor is connected to the fire alarm host through the fire monitoring module.

The fire pump room is provided with a drainage device connected to the sump, and the drainage device is connected to the output end of the fire monitoring module.

The drainage device is a drainage pump.

The utility model has the following advantages: the fire-fighting facilities monitoring system of the utility model can display the following signals on the fire-fighting alarm host: pool replenishment signal, fire-fighting pool low water level signal, fire-fighting pool overflow signal, sump full-water signal, fire-fighting pump room Low temperature antifreeze signal, high humidity in the fire pump room, corrosion signal of electrical equipment, low water pressure signal of fire hydrant system, high signal, low water pressure signal of automatic sprinkler system, high water pressure signal, high water pressure signal of fire water monitor system Low signal, high signal. Through the alarm and monitoring of these signals, the on-duty personnel are prompted to deal with the corresponding problems, or the corresponding equipment is automatically started, and the operating status of the equipment is fed back to the fire control room.

Description of drawings

Figure 1 is a schematic plan view of Embodiment 1 of the present utility model.

Figure 2 is a sectional view of the fire pump room and the fire pool.

Fig. 3 is a schematic diagram of the fire monitoring module. .

In the figure: 1-Fire pump room 2-Sump 3-Drainage pump 4-Fire pool 5-Fire control room 6-Fire monitoring module 7-Fire alarm host 8-Sprinkler system 9-Fire water cannon system 10 - Fire hydrant system 11 - Overflow sensor 12 - Breather pipe 13 - Soil cover.

Detailed ways

The following examples are used to illustrate the utility model, but not to limit the scope of the utility model.

Example 1

Referring to Figures 1 to 3, the fire-fighting facilities monitoring system includes a fire-fighting pool 4, a fire-fighting pump room 1 and a fire-fighting control room 5. The fire-fighting pool 4 is connected with an automatic water injection mechanism, and the fire-fighting pool 4 is connected to the fire-fighting pump room 1 and the fire-fighting pump room. 1 is equipped with sump 2, fire pump room 1 is connected with sprinkler system 8, fire water cannon system 9 and fire hydrant system 10, fire control room 5 is equipped with fire alarm host 7, and fire pump room is equipped with fire Monitoring module6.

A first water level monitoring sensor is provided in the fire pool 4, a second water level monitoring sensor (not shown in the figure) is provided in the sump 2, a temperature sensor and a humidity sensor are provided in the fire pump room 1, and an automatic sprinkler system 8. The fire water monitor system 9 and the fire hydrant system 10 are respectively connected with pressure sensors; the first water level monitoring sensor, the second water level monitoring sensor, the temperature sensor, the humidity sensor and the pressure sensor are connected to the input end of the fire monitoring module 6 respectively.

The bottom of the fire-fighting pool 4 is provided with a pumping pit, and the fire-fighting pump room 1 is connected to the pumping pit through pipelines. The upper side of the fire-fighting pool 4 is closed with the fire-fighting pump room 1, and the upper side of the fire-fighting pool 4 is connected with a vent pipe 12, and the upper end of the vent pipe 12 is bent downwards to prevent sewage from entering the fire-fighting pool 4. The upper sides of the fire pool 4 and the fire pump room 1 are covered with earth 13 . The fire-fighting pool 4 is provided with an overflow on the upper side of the fire-fighting water pump 1, and the overflow is located on the upper side of the sump 2. Further, the fire-fighting facility monitoring system is provided with an overflow sensor 11 at the overflow. The sensor 11 is connected to the input terminal of the fire monitoring module 6 . The fire-fighting pool 4 maintains the water level within a set range through an automatic water injection mechanism, and the automatic water injection mechanism can adopt structures such as a float valve. Once the automatic water injection mechanism fails, if the water in the fire-fighting pool 4 reaches the upper water level if the water injection is not stopped, the water in the fire-fighting pool 4 will flow into the sump 2 through the overflow port. Overflow water indicates that the automatic water injection mechanism fails, and the overflow signal is transmitted to the fire monitoring module 6, which communicates with the fire alarm host 7, and the fire alarm host 7 alarms to notify the maintenance personnel to carry out on-site maintenance to prevent water leakage in the pool from being discovered. Of course, another situation where the automatic water injection mechanism fails is that the water level in the fire pool 4 still does not automatically inject water after reaching the minimum water level. At this time, it can be detected by the first water level monitoring sensor, and then the signal is sent to the fire protection monitoring module 6. Fire alarm host 7, fire alarm host 7 sends an alarm.

The fire pump room 1 is provided with a ventilation device, and the ventilation device is connected to the output end of the fire monitoring module 6 . After the temperature sensor detects that the temperature in the fire pump room 1 exceeds the set value, the fire monitoring module 6 communicates with the fire alarm host 7, and the fire alarm host 7 sends an alarm signal. 7. Automatically start the ventilation device for ventilation and cooling to ensure the safe operation of the equipment. After the humidity sensor detects that the humidity in the fire pump room 1 exceeds the set value, the fire monitoring module 6 communicates with the fire alarm host 7, and the fire alarm host 7 sends an alarm signal. 7. Automatically start the ventilation device to prevent corrosion of electrical equipment due to high humidity in the pump room.

A heating device is also provided in the fire pump room 1 , and the heating device is connected to the output end of the fire monitoring module 6 . After the temperature sensor detects that the temperature in the fire pump room 1 is lower than the set value, the fire monitoring module transmits the signal to the fire alarm host 7, and the fire alarm host sends out an alarm signal, which can manually or automatically start the heating device to prevent the fire pump room 1 from Components such as fire pumps and pipeline valves were damaged due to low temperature freezing.

The fire pump room 1 is equipped with a drainage pump 3 connected to the sump 2, and the drainage pump 3 is connected to the output end of the fire monitoring module 6. When the second water level monitoring sensor detects that the water level in the sump 2 exceeds the set value , the fire monitoring module 6 communicates the signal to the fire alarm host 7, and the fire alarm host sends an alarm signal, which can automatically or manually start the drain pump 3 to discharge the water, preventing the fire pump room 1 from leaking and soaking to damage the fire fighting equipment.

The first water level monitoring sensor is provided with a pool water level lower limit alarm contact; the temperature sensor is provided with an electronic thermometer low temperature alarm contact and an electronic thermometer high temperature alarm contact; Alarm contact and sprinkler system high-voltage alarm contact, fire water cannon system low-pressure alarm contact and fire water cannon system high-voltage alarm contact set on fire water cannon system 9, fire hydrant system low-voltage alarm contact and fire hydrant set on fire hydrant system 10 System high pressure alarm contact.

In the utility model, the ten interfaces on the upper side of the fire monitoring module 6 are as follows:

Water replenishment signal input for the fire pool 4, externally connected to the water flow indicator of the water inlet pipe of the pool;

Pool low water level alarm signal input, externally connected to pool water level lower limit alarm contact;

Pool overflow signal input, external overflow sensor 11;

Pump room sump 2 full water signal input, externally connected to the second water level monitoring sensor;

Pump room temperature alarm signal input, external temperature sensor;

High humidity signal input in the pump room, external humidity sensor;

The low water pressure signal input of the fire hydrant system is externally connected to the low pressure alarm contact of the fire hydrant system;

The fire hydrant system water pressure is too high signal input, externally connected to the high pressure alarm contact of the fire hydrant system;

Automatic sprinkler system water pressure too low signal input, externally connected to automatic sprinkler system low pressure alarm contact;

Automatic sprinkler system water pressure too high signal input, externally connected to automatic sprinkler system high pressure alarm contact.

The interface on the lower side of the fire monitoring module 6 includes:

The low water pressure signal input of the fire water monitor system is externally connected to the low pressure alarm contact of the fire water monitor system;

The fire water monitor system water pressure is too high signal input, externally connected to the high pressure alarm contact of the fire water monitor system;

Exhaust system start signal output, external exhaust fan control box;

Exhaust system startup signal feedback input, external exhaust fan operation feedback signal;

Heating device start signal output, external heating device control box;

Heating device startup signal feedback input, external heating device operation feedback signal;

The start signal output of the drainage pump is connected to the control box of the drainage pump;

Drainage pump start signal feedback input, external drainage pump operation feedback signal;

The left end interface of the fire monitoring module 6 is the input of the automatic fire alarm signal bus; the right end interface is the 24 volt DC power input.

The utility model uses the fire monitoring module 6 to transmit the signals of each sensor to the fire alarm host 7, and the fire alarm host 7 displays the above-mentioned alarm signal, and through its own linkage program, it can automatically or manually start the corresponding execution device, and receive and display The feedback signal of the operation of the actuator is used to monitor the fire pump room 1.

Although the utility model has been described in detail with general description and specific examples above, some modifications or improvements can be made on the basis of the utility model, which will be obvious to those skilled in the art. Therefore, the modifications or improvements made on the basis of not departing from the spirit of the utility model all belong to the protection scope of the utility model.

Claims (7)

1. A fire-fighting facility monitoring system, characterized in that: the fire-fighting facility monitoring system includes a fire-fighting pool, a fire-fighting pump room and a fire-fighting control room; There is a sump in the pump room, the fire pump room is connected with automatic sprinkler system, fire water cannon system and fire hydrant system, the fire control room is equipped with a fire alarm host, and the fire pump room is equipped with a fire monitoring module; A first water level monitoring sensor is provided in the fire pool, a second water level monitoring sensor is provided in the sump, a temperature sensor is provided in the fire pump room, and the automatic sprinkler system, fire water cannon system and fire hydrant system are respectively connected with pressure sensor; The first water level monitoring sensor, the second water level monitoring sensor, the temperature sensor and the pressure sensor are respectively connected to the fire alarm host through the fire monitoring module. 2. The fire-fighting facility monitoring system according to claim 1, characterized in that: an overflow sensor is connected to the upper side of the fire-fighting pool, and the overflow sensor is connected to the fire-fighting alarm host through the fire-fighting monitoring module. 3. The fire-fighting facility monitoring system according to claim 1, wherein a ventilation device is provided in the fire-fighting pump room, and the ventilation device is connected to the output end of the fire-fighting monitoring module. 4. The fire-fighting facility monitoring system according to claim 3, characterized in that: a heating device is also provided in the fire-fighting pump room, and the heating device is connected to the output end of the fire-fighting monitoring module. 5. The fire-fighting facility monitoring system according to claim 1 or 3, characterized in that: the fire-fighting pump room is provided with a humidity sensor, and the humidity sensor is connected to the fire-fighting alarm host through the fire-fighting monitoring module. 6. The fire-fighting facility monitoring system according to claim 1, wherein a drainage device connected to a sump is provided in the fire-fighting pump room, and the drainage device is connected to the output end of the fire-fighting monitoring module. 7. The fire control facility monitoring system according to claim 6, wherein the drainage device is a drainage pump.