CN210145372U - Intelligent self-explosion type fire extinguishing system - Google Patents

Abstract

The utility model relates to a fire-fighting equipment technical field, specifically speaking relates to an intelligence auto-explosion type fire extinguishing systems. Comprises at least one fire extinguishing ball internally provided with an explosion device and a dry powder fire extinguishing agent and an intelligent controller for detonating the built-in explosion device of the fire extinguishing ball by sensing the temperature of the area where the fire extinguishing ball is positioned. The utility model discloses can automatic intellectual detection system alarm and deal with the condition of a fire, it is not power consumptive at during operation temperature sensor and ball of putting out a fire access line to ensure safety. Specifically, the intelligent controller monitors the environmental temperature in real time, when a fire occurs, the environmental temperature rapidly rises, the intelligent controller can automatically detonate an explosion device arranged in the fire extinguishing ball, the suspended fire extinguishing ball falls near a fire point, and the dry powder fire extinguishing agent is exploded out, so that the fire can be extinguished timely and rapidly, no people need to enter the site, and the personal safety can be protected. In addition, an audible and visual alarm is also arranged, when a fire occurs, the audible and visual alarm can give out an alarm of flashing and sound waves, and the fire alarm has a fire reminding function.

Description

Intelligent self-explosion type fire extinguishing system

Technical Field

The utility model relates to a fire-fighting equipment technical field, specifically speaking relates to an intelligence auto-explosion type fire extinguishing systems.

Background

Fire extinguishers are one of the most common fire prevention facilities, which contain chemicals to extinguish fires, and are generally stored in public places or places where fires may occur. The existing fire extinguisher does not have the function of fire disaster reminding, and meanwhile, the existing fire extinguisher can not automatically and quickly extinguish fire in time when a fire disaster is found. When a fire disaster occurs, people need to take out the fire extinguisher from the fire extinguisher placing area to spray chemical substances to the fire, so that the optimal time for fire extinguishment can be delayed, and the personal safety of fire extinguisher operators can be endangered.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligence is from exploding type fire extinguishing systems to solve foretell technical problem.

In order to solve the above problems, the utility model adopts the following technical scheme:

the utility model provides an intelligence is from exploding type fire extinguishing systems which characterized in that: comprises at least one fire extinguishing ball internally provided with an explosion device and a dry powder fire extinguishing agent and an intelligent controller for detonating the built-in explosion device of the fire extinguishing ball by sensing the temperature of the area where the fire extinguishing ball is positioned.

Further, the fire extinguishing ball comprises a suspension rope, a spherical shell, a dry powder extinguishing agent filled in the shell and an explosion device; the explosion device comprises a detonation bottle filled with gunpowder, a lead and an electric heating device, wherein one end of the lead is inserted into the gunpowder in the detonation bottle, and the other end of the lead extends out of the shell and is connected with the electric heating device; the electric heating device is connected with two quick-connecting plugs at the top of the fire extinguishing ball through wires.

The intelligent controller comprises a shell, a main control board and a relay module, wherein the main control board and the relay module are arranged in the shell, and the main control board is provided with a main control module, a power supply module, a temperature sensing module, a temperature adjusting knob and a temperature gear device; the input port of the power supply module is connected with an external power adapter through a wire, and one output port of the power supply module is electrically connected with the relay module through a wire; the access port of the relay module is connected with 220V mains supply, the output port of the relay module is electrically connected with one quick-connection plug on the fire extinguishing ball, and the other quick-connection plug on the fire extinguishing ball is connected with the 220V mains supply through a wire; the temperature sensing module is connected with the plurality of temperature sensors through signal transmission lines and transmits temperature signals to the main control module in real time.

Preferably, the shell of the fire extinguishing ball comprises a foam shell and a protective film; the lead extends out of the top end of the foam shell, and is connected with the electric heating device after winding a circle along the outer circumference; the protective film is coated outside the foam shell, the lead and the electric heating device.

Preferably, the lead comprises a plurality of chemical fire agent strips, heat-conducting copper wires clamped in the chemical fire agent strips and a moisture-proof sleeve coated outside the chemical fire agent strips and the heat-conducting copper wires; the heat conduction copper wire is connected with the electric heating device.

Preferably, the power supply module is electrically connected with an external audible and visual alarm through a lead.

Preferably, the main control board is further provided with an emergency trigger interface, and the emergency trigger interface is connected with the power supply module.

Has the advantages that: compared with the prior art, the utility model discloses can automatic intellectual detection system alarm and deal with the condition of a fire, need not personnel 24 hours and insist on, it is not power consumptive at during operation temperature sensor and ball of putting out a fire access line to ensure safety. Specifically, the intelligent controller monitors the environmental temperature in real time, when a fire occurs, the environmental temperature rapidly rises, the intelligent controller can automatically detonate an explosion device arranged in the fire extinguishing ball, the suspended fire extinguishing ball falls near a fire point, and the dry powder fire extinguishing agent is exploded out, so that the fire can be extinguished timely and rapidly, no people need to enter the site, and the personal safety can be protected. In addition, an audible and visual alarm is also arranged, when a fire occurs, the audible and visual alarm can give out an alarm of flashing and sound waves, and the fire alarm has a fire reminding function.

Drawings

Fig. 1 is a schematic connection diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view of the fire extinguishing ball of the present invention;

fig. 3 is a schematic structural diagram of the lead wire according to the present invention;

fig. 4 is a schematic diagram of an embodiment of the present invention.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Example (b):

referring to fig. 1, the intelligent self-explosion fire extinguishing system in the embodiment includes at least one fire extinguishing ball 1 with an explosion device and a dry powder extinguishing agent 108 built therein, and an intelligent controller for igniting the explosion device built in the fire extinguishing ball 1 by sensing the temperature of the area where the fire extinguishing ball 1 is located. Specifically, the method comprises the following steps:

as shown in fig. 2, the fire extinguishing ball 1 comprises a suspension rope 101, a spherical shell, a dry powder extinguishing agent 108 filled in the shell and an explosion device. The outer shell of the fire extinguishing ball 1 comprises a foam outer shell 103 and a protective film 104. The shell of the fire extinguishing ball 1 is made of foam, so that secondary damage is avoided, the fire extinguishing ball cannot be broken when being thrown out at a height of 3 m, and the protective film 104 is designed to be silvery and is suitable for any environment. The dry powder extinguishing agent 108 filled in the shell adopts national standard dry powder extinguishing agent. The explosive device comprises an explosive bottle 107 filled with gunpowder, a lead 105 and an electric heating device 106; the lead 105 comprises a plurality of chemical combustion agent strips 105B, a heat-conducting copper wire 105C clamped in the chemical combustion agent strips 105B and a moisture-proof sleeve 105A wrapping the chemical combustion agent strips 105B and the heat-conducting copper wire 105C; one end of the lead 105 is inserted into gunpowder in the detonation bottle 107, and the other end extends out of the shell and is connected with the electric heating device 106; the electric heating device 106 adopts a heating wire which can be instantly fused when high temperature is generated, and is connected with the two quick-connection plugs 102 at the top of the fire extinguishing ball 1 through conducting wires; the bottom end of the suspension cord 101 is also connected to the electric heating device 106. The protective film 104 covers the foam housing 103, the lead 105 and the electric heating device 106.

During manufacturing, a filling opening is reserved at the top of the foam shell 103, after the dry powder extinguishing agent 108 and the explosion device are filled, the filling opening is sealed by a foam top cover 103A, and then the exterior is coated with a protective film 104.

As shown in fig. 1, the intelligent controller includes a housing 2, a main control board 201 and a relay module 207, which are disposed in the housing 2, wherein the main control board 201 is provided with a main control module 202, a power supply module 208, a temperature sensing module 204, a temperature adjusting knob 203 and a temperature gear 205; an input port of the power supply module 208 is connected with an external power adapter 4 (a 9-30V wide voltage adapter can be adopted) through a lead, and an output port of the power supply module 208 is electrically connected with the relay module 207 through a lead; the access port of the relay module 207 is connected with 220V mains supply, the output port of the relay module is electrically connected with one quick-connection plug 102 on the fire extinguishing ball 1, and the other quick-connection plug 102 on the fire extinguishing ball 1 is connected with 220V mains supply through a lead; the temperature sensing module 204 is connected to the temperature sensors 5 corresponding to the fire extinguishing balls 1 one by one through signal transmission lines, and transmits temperature signals to the main control module 202 in real time.

Referring to fig. 4, the working principle brief description of the intelligent self-explosion fire extinguishing system is as follows:

the number of the fire extinguishing balls 1 and the temperature sensors 5 can be set according to the use environment, and each fire extinguishing ball 1 is suspended on the ceiling by a suspension rope 101. A temperature value (at or above which a fire is deemed to occur) is set by the temperature adjustment knob 203 and the temperature tap 205.

The power supply module 208 is connected through the power adapter 4, and the power supply module 208 supplies power to the main control module 202 and the temperature sensing module 204; the temperature sensing module 204 monitors the temperature sensor 5 to obtain a real-time temperature signal, amplifies the temperature signal and transmits the amplified temperature signal to the main control module 202; when the temperature signal obtained by the main control module 202 reaches or is greater than the set temperature value, an instruction is sent to the power supply module 208, the power supply module 208 supplies power to the relay module 207 according to the instruction, after the relay module 207 is triggered, the electric heating device 106 is electrified to generate heat, and instantly melts when generating high temperature, so that the fire extinguishing ball 1 is separated from the suspension rope 101 and falls to the vicinity of a fire point; meanwhile, the high temperature generated by the electric heating device 106 is transmitted to the heat-conducting copper wire 105C, the high-temperature heat-conducting copper wire 105C ignites the chemical fire-extinguishing agent strip 105B, the detonation bottle 107 detonates the fire-extinguishing ball 1, and the dry powder fire-extinguishing agent 108 is exploded to extinguish the fire.

As the utility model discloses an other embodiments, power module 208 accessible wire is connected with 3 electricity external audible-visual annunciators, and when the fire alarm appeared, the primary condition of a fire was given audible-visual annunciator 3 power supplies earlier, gives relay module 207 power supply again, and the condition of a fierce fire can directly be given audible-visual annunciator 3 and relay module 207 and supply power together. The audible and visual alarm 3 can give out flashing and sound wave alarm after being powered.

The main control board can be further provided with an emergency trigger interface 206(2.9-4.5V power supply), the emergency trigger interface 206 is connected with a power supply module 208, and in case of fire emergency, a person on site can directly supply power to the relay module 207 by triggering a button on the emergency trigger interface 206 through the power supply module 208 to detonate the fire extinguishing ball 1. As a preferred scheme, a smoke sensor can be further connected to the emergency trigger interface 206, when smoke occurs in a fire, the smoke sensor senses a smoke signal, that is, the power supply module 208 directly supplies power to the relay module 207 to ignite the fire extinguishing ball 1, so as to realize timely and rapid fire extinguishing.

The technical content which is not described in detail in the present invention is common general knowledge.

The present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only for illustrating the principle of the present invention, without departing from the spirit and scope of the present invention, the present invention can also have various changes and improvements, and these changes and improvements all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an intelligence is from exploding type fire extinguishing systems which characterized in that: comprises at least one fire extinguishing ball (1) internally provided with an explosion device and a dry powder fire extinguishing agent (108) and an intelligent controller for detonating the explosion device arranged in the fire extinguishing ball (1) by sensing the temperature of the area where the fire extinguishing ball (1) is located.

2. The intelligent self-explosion fire extinguishing system according to claim 1, wherein: the fire extinguishing ball (1) comprises a suspension rope (101), a spherical shell, a dry powder extinguishing agent (108) filled in the shell and an explosion device; the explosion device comprises an ignition bottle (107) filled with gunpowder, a lead (105) and an electric heating device (106), one end of the lead (105) is inserted into the gunpowder in the ignition bottle (107), and the other end of the lead extends out of the shell and is connected with the electric heating device (106); the electric heating device (106) is connected with two quick-connection plugs (102) at the top of the fire extinguishing ball (1) through leads.

3. The intelligent self-explosion type fire extinguishing system according to claim 2, wherein: the intelligent controller comprises a shell (2), a main control board (201) and a relay module (207), wherein the main control board (201) and the relay module (207) are arranged in the shell (2), and a main control module (202), a power supply module (208), a temperature sensing module (204), a temperature adjusting knob (203) and a temperature gear device (205) are arranged on the main control board (201); an input port of the power supply module (208) is connected with an external power adapter (4) through a lead, and an output port of the power supply module (208) is electrically connected with the relay module (207) through a lead; the access port of the relay module (207) is connected with 220V mains supply, the output port of the relay module is electrically connected with one quick-connection plug (102) on the fire extinguishing ball (1), and the other quick-connection plug (102) on the fire extinguishing ball (1) is connected with 220V mains supply through a lead; the temperature sensing module (204) is connected with the plurality of temperature sensors (5) through signal transmission lines and transmits temperature signals to the main control module (202) in real time.

4. The intelligent self-explosion type fire extinguishing system according to claim 2 or 3, wherein: the shell of the fire extinguishing ball (1) comprises a foam shell (103) and a protective film (104); the lead (105) extends out of the top end of the foam shell (103), and is connected with the electric heating device (106) after winding a circle along the outer circumference of the foam shell (103); the protective film (104) is coated outside the foam shell (103), the lead (105) and the electric heating device (106).

5. The intelligent self-explosion type fire extinguishing system according to claim 4, wherein: the lead (105) comprises a plurality of chemical fire agent strips (105B), a heat-conducting copper wire (105C) clamped in the chemical fire agent strips (105B) and a moisture-proof sleeve (105A) coated outside the chemical fire agent strips (105B) and the heat-conducting copper wire (105C); the heat conducting copper wire (105C) is connected with an electric heating device (106).

6. The intelligent self-explosion type fire extinguishing system according to claim 3, wherein: the power supply module (208) is electrically connected with an external audible and visual alarm (3) through a lead.

7. The intelligent self-explosion type fire extinguishing system according to claim 3 or 6, wherein: the main control board is also provided with an emergency trigger interface (206), and the emergency trigger interface (206) is connected with a power supply module (208).

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