CN111803850A - Integrated circuit control system for fire engineering - Google Patents

Abstract

The application aims at providing a fire engineering integrated circuit control system, which comprises a detection module, wherein the output end of the detection module is in communication connection with a control module, the output end of the control module is electrically connected with a fire extinguishing module, and the output end of the control module is also electrically connected with an induction device; the sensing device is used for acquiring the position information of the trapped person and transmitting the position information to the control module; the detection module and the fire extinguishing module are uniformly distributed in the fire control area and have a positioning function; when the induction device inputs a trigger signal to the control module, the control module acquires the current position information of the trapped person, and generates a guide assembly used for containing route information for guiding the trapped person to escape to an exit by combining the position information of the detection module and the position information of the fire extinguishing module; the guiding component is stored into the sensing device through the control module, and the route information is played in a voice mode through the sensing device. The application has the effects of reducing the influence of dense smoke on escape and better guiding trapped people to go out of the predicament.

Description

Integrated circuit control system for fire engineering

Technical Field

The application relates to the field of fire control, in particular to a fire engineering integrated circuit control system.

Background

When a fire disaster occurs, a large amount of dense smoke is generated due to incomplete combustion of electric appliances, electric wires and the like, the dense smoke influences the sight of trapped people after being diffused in the air, the trapped people need to squat down in the opposite direction of the smoke according to the memory of the trapped people and the familiar environment, and bend down to a nearest outlet in a posture with low exhaustion.

At present, after a fire signal is detected, a fire engineering integrated circuit control system only has the simple indication function of turning on an accident lighting and evacuation marker lamp, and has little help to trapped people in a dense smoke diffused fire area and with limited sight line range.

Aiming at the related technologies, the inventor thinks that the existing integrated circuit control system for fire fighting has the defect of poor indication function on trapped people in a dense and diffuse fire area and with limited sight line range, and the existing integrated circuit control system for fire fighting is difficult to well guide the trapped people to go out of the predicament.

Disclosure of Invention

In order to improve the instruction function of the existing integrated circuit control system of the fire engineering, the application provides the integrated circuit control system of the fire engineering.

The application provides a fire engineering integrated circuit control system adopts following technical scheme:

the integrated circuit control system for the fire fighting project comprises a detection module for detecting fire signals, wherein the output end of the detection module is in communication connection with a control module, the output end of the control module is electrically connected with a fire extinguishing module for delaying the development of fire, and the output end of the control module is also electrically connected with a sensing device;

the induction device is used for acquiring the position information of the trapped person and transmitting the position information to the control module;

the detection module and the fire extinguishing module are uniformly distributed in a fire control area and have a positioning function;

when the induction device inputs a trigger signal to the control module, the control module acquires the current position information of the trapped person, and generates a guide assembly used for containing route information for guiding the trapped person to escape to an exit by combining the position information of the detection module and the position information of the fire extinguishing module;

the guide assembly is stored in the induction device through the control module, and route information is played in a voice mode through the induction device.

By adopting the technical scheme, the detection module inputs a feedback signal to the control module after detecting a fire signal, and the control module outputs a control signal to the fire extinguishing module to control fire extinguishing so as to delay the development of fire; meanwhile, the trapped person sends an electric signal to the control module through the sensing device, after a trigger signal input by the sensing device is sensed, the control module acquires the current position information of the trapped person, combines the position information of the detection module and the position information of the fire extinguishing module to generate route information for guiding the trapped person to escape to an exit, the route information is stored into the sensing device through the control module in a guiding assembly mode, the route information is played in a voice mode through the sensing device, and at the moment, the trapped person with the sensing device escapes by means of the guidance of the voice information; therefore, the escape influence of the dense smoke on the trapped people is greatly reduced, the indicating function of the integrated circuit control system of the fire engineering is improved, and the trapped people can be better guided to go out of the predicament.

Preferably, a display component is arranged on the sensing device, and the guiding component is stored in the sensing device and displays the route information in a picture and text mode through the display component.

By adopting the technical scheme, the route information for guiding the trapped person to escape to the exit is displayed on the display component in the form of pictures and texts, so that the trapped person can visually and vividly obtain the route information, the trapped person is assisted to know the route information more clearly, and the trapped person can escape conveniently.

Preferably, the detection module includes that the temperature sensor that evenly spreads all over in the fire control area, temperature sensor all with control module communication is connected, control module generates before the direction subassembly, acquire the actual temperature condition in the fire control area and sign extremely in the direction subassembly, play out with the speech form when the direction subassembly carries out the pronunciation broadcast simultaneously.

By adopting the technical scheme, the temperature sensors uniformly distributed in the fire control area enable the control module to acquire actual temperature information of a fire scene in time and inform trapped people, and protection measures for wrapping heads, bodies and the like of the trapped people by wet towels, wet quilts, wet blankets and the like in time according to the temperature condition are facilitated.

Preferably, when the actual temperature condition in the fire control area exceeds a preset value in the route from the position of the trapped person to the exit, the control module automatically rejects the route.

By adopting the technical scheme, the control module automatically rejects the escape route with the actual temperature condition in the fire control area exceeding the preset value, when the temperature exceeds the preset value, the fire in the escape route area is serious, the escape route is influenced and has high risk when the trapped person freely passes through, the route is automatically rejected to ensure the safety of the trapped person, and the accident condition when the trapped person approaches the escape route is reduced.

Preferably, when the route generated by the control module for guiding the trapped person to escape to the exit is zero, the control module acquires position information preset as a safety place, generates a route for guiding the trapped person to escape to the safety place according to the position information of the trapped person, and plays the route in a voice mode.

By adopting the technical scheme, when the actual temperature conditions in the fire control area exceed the preset value in the escape routes, namely the routes at the exit of the way all have serious fire, the control module generates the route for guiding the trapped people to escape to the safe place and broadcasts the route in a voice mode so as to guide the trapped people to escape safely, wait for rescue and increase the rescue probability.

Preferably, the control module acquires the position information of the trapped person in real time, stores and records the position information as a track route and transmits the terminal position information on the track route of the trapped person to the terminal.

By adopting the technical scheme, the track route is beneficial for managers to master and know the actual position condition of the trapped person, and the terminal position information on the track route is transmitted to the terminal to be used as the basis for searching the trapped person, so that rescuers can better rescue the trapped person.

Preferably, the distances of the routes for guiding the trapped person to avoid to the safe places are sorted according to the length sequence, and the safe place closest to the trapped person is selected to generate route information.

By adopting the technical scheme, the safe place nearest to the trapped person is selected to generate the route information, the time consumed in the route is shortened, the trapped person can arrive at the safe place to avoid as soon as possible, and the rescue probability is increased.

Preferably, the control module sequentially selects the safe places closest to the trapped people, meanwhile, judges whether the situation that the actual temperature situation in the fire control area exceeds the preset value exists in the route, and selects the safe places which are close to the trapped people and the actual temperature situation in the fire control area does not exceed the preset value to generate route information for guiding the trapped people to avoid the safe places.

By adopting the technical scheme, the safe place which is closer to the trapped person and has the actual temperature condition in the fire control area not exceeding the preset value is selected to generate the route information, the consumed time of the escape route of the trapped person is shortened on the premise of ensuring the safety of the trapped person, and the escape of the trapped person is facilitated.

Preferably, when there are at least two exits, the routes for guiding the trapped people to escape to the exits are sorted according to the distance sequence between the positions of the trapped people and the exits, and the exits closest to the trapped people are selected to generate route information.

By adopting the technical scheme, the exit closest to the trapped person is selected to generate the route information, the time consumed by the route is shortened, and the trapped person can arrive at the exit as soon as possible to escape smoothly.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the trapped person can escape under the guidance of the voice information of the induction device, so that the escape influence of dense smoke on the trapped person is greatly reduced, the indication function of the integrated circuit control system of the fire engineering is improved, and the trapped person can be better guided to go out of the predicament;

2. the route information for guiding the trapped person to escape to the exit is displayed on the display component in an image-text mode, so that the trapped person can visually and vividly obtain the route information and know the route information;

3. the control module can acquire actual temperature information of a fire scene in time and inform trapped people, so that the trapped people can take protective measures in time;

4. the control module automatically eliminates escape routes with actual temperature conditions in the fire control area exceeding preset values so as to ensure the safety of trapped people and reduce the occurrence of accidents when the trapped people approach the escape routes;

5. when the routes of the exit of the way have serious fire, the control module generates a route for guiding the trapped person to avoid to a safe place and broadcasts the route in a voice mode so as to guide the trapped person to safely avoid and wait for rescue;

6. the track route is beneficial for managers to master the position condition of the trapped person, and the terminal position information on the track route is transmitted to the terminal to be used as the basis for searching the trapped person, so that the rescue is facilitated;

7. the method has the advantages that the safe place which is close to the trapped person and the actual temperature condition in the fire control area does not exceed the preset value is selected to generate the route information, the consumed time of the escape route of the trapped person is shortened on the premise that the safety of the trapped person is guaranteed, and the trapped person can escape more conveniently.

Drawings

Fig. 1 is a block diagram of a fire protection engineering integrated circuit control system according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses fire engineering integrated circuit control system. Referring to fig. 1, the integrated circuit control system for fire fighting engineering comprises a plurality of detection modules, a control module and a plurality of fire extinguishing modules, wherein the detection modules and the fire extinguishing modules are uniformly distributed in a fire fighting control area and have a positioning function, the output ends of the detection modules are in communication connection with the input ends of the control module, and the output ends of the control module are electrically connected with the input ends of the fire extinguishing modules.

The detection module is used for detecting a fire signal and triggering the control module, and in the embodiment, the detection module comprises a fire detector and a smoke sensor which are both in communication connection with the input end of the control module.

The fire extinguishing module is used for putting out a fire, postponing the condition of a fire development, and in this embodiment, the fire extinguishing module is including automatic water spray fire extinguishing mechanism, gaseous fire extinguishing mechanism, foam fire extinguishing mechanism and dry powder fire extinguishing mechanism.

The automatic water spraying fire extinguishing mechanism controls the self spraying pump to act and spray water to the periphery, and the temperature of combustible materials is continuously reduced to extinguish fire.

The gas fire extinguishing mechanism controls the action of a valve of the gas fire extinguishing mechanism and sprays flame retardant gas to the periphery to isolate the contact of combustible materials and oxygen for fire extinguishing.

The foam fire extinguishing mechanism controls a foam liquid pump of the foam fire extinguishing mechanism to act and spray flame-retardant foam to the periphery, and the contact between combustible materials and oxygen is isolated to extinguish fire.

The dry powder extinguishing mechanism controls the self dry powder extinguishing agent to be loosened to form a gas-powder mixture convenient to flow, and the gas-powder mixture is sprayed to the surface of an object on fire to cover the object on fire for extinguishing the fire.

Specifically, after the fire detector or the smoke sensor detects a fire signal, the control module sends a power-off signal to electrical appliances in the fire area, and automatically cuts off power supplies (not shown in the figure) of an air conditioner, a ventilator, non-fire electrical appliances and all elevators except the fire elevator which are related in the fire area; the control module sends an action signal to the fire-fighting equipment, closes a fire valve on the pipeline, opens a smoke exhaust valve of the related pipeline, automatically closes an electric fire door and a fire-proof rolling door of the related part and switches on an accident lighting and evacuation marker lamp (not shown in the figure); the control module also inputs an electric signal to the fire extinguishing module, and the fire extinguishing module is started to spray water or spray flame-retardant gas or spray flame-retardant foam or dry powder to automatically extinguish fire.

The output end of the control module is also in communication connection with a sensing device, and the sensing device is used for acquiring the position information of the trapped person and transmitting the position information to the control module. In this embodiment, the sensing device may be a bracelet.

When the trapped person starts the sensing device to communicate with the control module, the sensing device inputs a trigger signal to the control module, the control module acquires the current position information of the trapped person after receiving the trigger signal, and meanwhile, the guiding assembly used for containing route information for guiding the trapped person to escape to an exit is generated by combining the position information of each detection module and each fire extinguishing module, and the guiding assembly is stored into the sensing device through the control module. In this embodiment, the guiding component may be an MP3 file containing information of a route for guiding trapped people to escape to the exit.

The induction device plays the route information in the guide assembly in a voice mode so as to guide the trapped person to escape.

When the number of the exits is at least two, the routes for guiding the trapped people to escape to the exits are sorted according to the distance sequence of the positions of the trapped people from the exits, and the exits closest to the trapped people are selected to generate route information.

The detection module further comprises temperature sensors uniformly distributed in the fire control area, each temperature sensor is in communication connection with the control module, and before the control module generates the guide assembly, the actual temperature condition in the fire control area is obtained from each temperature sensor and is marked in the route information of the guide assembly, so that trapped people can take protective measures for wrapping the head, the body and the like according to the temperature condition in time.

When the actual temperature condition in the fire control area exceeds the preset value in the route from the position of the trapped person to the exit, the control module automatically rejects the route, so that the trapped person is guided in the guide assembly to escape to the exit without serious fire, and the life safety of the escape person is prevented from being influenced by the serious fire in the route from the escape person to the exit. In this embodiment, the preset temperature value is 50 ℃.

When the route generated by the control module and used for guiding the trapped person to escape to the exit is zero, the control module acquires each position information preset as a safety place, and generates route information for guiding the trapped person to escape to each safety place according to the position information of the trapped person to form a guide assembly so as to guide the trapped person to escape safely, wait for rescue and increase the rescue probability.

Before route information for guiding trapped people to escape to safety places forms a guide assembly, route distances for guiding the trapped people to escape to each safety place are sequenced according to the length sequence, the safety places closest to the trapped people are sequentially selected, meanwhile, whether the situation that the actual temperature situation in a fire control area exceeds a preset value exists in the route is judged, and the safety places which are close to the trapped people and the actual temperature situation in the fire control area does not exceed the preset value are selected to generate the route information.

After the trapped person starts the sensing device and communicates with the control module, the control module acquires the position information of the trapped person in real time, the position information is stored and recorded as a track route, and the terminal position information on the track route of the trapped person is transmitted to the terminal, so that a manager can know the actual position condition of the trapped person in time, and meanwhile, the terminal position information on the track route is used as the basis for searching the trapped person, and the rescue of the trapped person can be better implemented by a rescuer.

The induction system is further provided with a display assembly, in the embodiment, the display assembly can be a display screen, the guide assembly is stored in the induction system and displays the route information in a picture and text mode through the display assembly, so that the trapped person can visually and vividly acquire the escape route information, and the trapped person is assisted to know the route information more clearly.

The implementation principle of the integrated circuit control system of the fire engineering of the embodiment of the application is as follows: after the fire detector or the smoke sensor detects a fire signal, the control module cuts off the power supply of the electric appliance in the fire area, controls the fire-fighting facilities to perform actions such as fire prevention, smoke exhaust, ventilation, indication and the like, and simultaneously controls the fire-extinguishing module to be started to spray water or spray flame-retardant gas or spray flame-retardant foam or dry powder to automatically extinguish fire.

At the moment, the trapped person perceiving the fire information uses the sensing device to communicate with the control module, the control module generates a guide assembly used for protecting and guiding the trapped person to escape to an exit or a safe place according to the current position information of the trapped person, the guide assembly is stored in the sensing device, and the sensing device plays the route information in the guide assembly in a voice mode so as to guide the trapped person to escape.

The trapped person can intuitively and vividly acquire the escape route information by means of the display component of the induction device, and can more clearly know the route information.

After the trapped person starts the sensing device to communicate with the control module, the control module acquires the position information of the trapped person in real time, stores and records the position information as a track route and transmits the end position information on the track route of the trapped person to the terminal.

And then the fire engineering integrated circuit control system makes stranded personnel can flee with the help of induction system's voice message guide, reduces dense smoke and to stranded personnel's the influence of fleing, and fire engineering integrated circuit control system's instruction function improves, can guide stranded personnel to walk out of the predicament better.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. Fire engineering integrated circuit control system, including the detection module who is used for surveying fire signal, detection module's output communication is connected with control module, control module's output electric connection has the fire extinguishing module who is used for delaying the condition of a fire development, its characterized in that: the output end of the control module is also electrically connected with an induction device;

the induction device is used for acquiring the position information of the trapped person and transmitting the position information to the control module;

the detection module and the fire extinguishing module are uniformly distributed in a fire control area and have a positioning function;

when the induction device inputs a trigger signal to the control module, the control module acquires the current position information of the trapped person, and generates a guide assembly used for containing route information for guiding the trapped person to escape to an exit by combining the position information of the detection module and the position information of the fire extinguishing module;

the guide assembly is stored in the induction device through the control module, and route information is played in a voice mode through the induction device.

2. A fire engineering integrated circuit control system as recited in claim 1, wherein: the induction device is provided with a display component, and the guide component is stored in the induction device and displays the route information in a picture and text mode through the display component.

3. A fire engineering integrated circuit control system as recited in claim 1, wherein: the detection module includes that the temperature sensor that evenly spreads all over in the fire control area territory, temperature sensor all with control module communication is connected, control module generates before the direction subassembly, acquire the actual temperature condition in the fire control area territory and sign extremely in the direction subassembly, simultaneously in the direction subassembly plays with the pronunciation form when carrying out the pronunciation broadcast.

4. A fire engineering integrated circuit control system as claimed in claim 3, wherein: when the situation that the actual temperature situation in the fire control area exceeds the preset value exists in the route from the position of the trapped person to the exit, the control module automatically rejects the route.

5. A fire engineering integrated circuit control system as claimed in claim 4, wherein: when the route generated by the control module and used for guiding the trapped person to escape to the exit is zero, the control module acquires position information preset as a safe place, generates a route for guiding the trapped person to escape to the safe place according to the position information of the trapped person, and broadcasts the route in a voice mode.

6. A fire engineering integrated circuit control system as recited in claim 5, wherein: the control module acquires the position information of the trapped person in real time, stores and records the position information as a track route and transmits the terminal position information on the track route of the trapped person to the terminal.

7. A fire engineering integrated circuit control system as recited in claim 5, wherein: and (4) sequencing the distances of the routes for guiding the trapped people to avoid to the safe places according to the length sequence, and selecting the safe place closest to the trapped people to generate route information.

8. A fire engineering integrated circuit control system as recited in claim 7, wherein: the control module sequentially selects the safe place closest to the trapped person, meanwhile, judges whether the situation that the actual temperature situation in the fire control area exceeds the preset value exists in the route, and selects the safe place which is closer to the trapped person and the actual temperature situation in the fire control area does not exceed the preset value to generate route information for guiding the trapped person to avoid the safe place.

9. A fire engineering integrated circuit control system as recited in claim 1, wherein: when the number of the exits is at least two, the routes for guiding the trapped people to escape to the exits are sorted according to the distance sequence of the positions of the trapped people from the exits, and the exits closest to the trapped people are selected to generate route information.

Images