CN209771175U - High-rise remote control temperature control fire extinguishing device - Google Patents

Abstract

The utility model discloses a high-rise remote control temperature control fire extinguishing device, which comprises a first remote control unmanned aerial vehicle, a hanging rod, an explosion-proof isolation plate, a loading frame, a remote control ignition device, a main lead, an auxiliary lead, a fire extinguishing ball, a camera and a heat source sensor; the first remote control unmanned aerial vehicle comprises a main control device and a communication module; the camera and the heat source sensor are connected with the main control device; the hanging rod is connected to the bottom of the first remote control unmanned aerial vehicle; the loading frame is connected to the bottom of the hanging rod; the explosion-proof isolation plate is arranged between the first remote control unmanned aerial vehicle and the loading frame and is connected with the hanging rod; the fire extinguishing ball is loaded in the loading frame and is connected with the main lead through the auxiliary lead. This device can realize the super long-range accurate high efficiency of high floor and put out a fire, and the ball casing of putting out a fire can use paper or other light materials, and the explosion is opened and can not cause secondary damage to the human body, and the security obtains the guarantee.

Description

High-rise remote control temperature control fire extinguishing device

Technical Field

the utility model relates to a fire suppression equipment especially relates to a fire suppression device is suppressed in high floor remote control temperature control.

Background

The fire disaster is one of the main disasters which most frequently and generally threaten public safety and social development, at present, the method for dealing with the fire disaster by human beings is continuously innovated and continuously improved, various fire extinguishing facilities play an important role in extinguishing the fire disaster, fire extinguishing equipment is continuously upgraded and updated, the loss of property and life safety brought to people by the fire disaster is greatly reduced, and the labor intensity and the sacrifice of fire fighters are reduced. At present in high floor method of putting out a fire method, often adopt aerial ladder high altitude squirt to put out a fire or will put out a fire the bullet through shell transmission mode and send the conflagration scene, the aerial ladder is when putting out a fire to high floor, water pressure requirement is too high, and water pressure is too big, the fire fighter is difficult to hold the squirt, probably lead to the squirt out of control, and to the fire fighter who is in high altitude construction, the squirt can cause very big safety risk to the fire fighter out of control, in addition because the restriction of aerial ladder height, use the aerial ladder to put out a fire to super high floor, a bit of whip is. And put out a fire to the fire extinguishing bomb mode, because the fire extinguishing bomb often adopts metal warhead structure in order to improve penetrability and range, when the fire extinguishing bomb explodes, the metal warhead can sputter the human body, is located the artificial secondary injury in the scene of a fire to one's body, and the practicality is not big, and is in comparatively complicated place when the scene of a fire, and when especially high floor, the fire extinguishing bomb can only enter into the scene of a fire periphery and put out a fire, hardly accurately strikes and enters into the scene of a fire central point territory and carry out accurate fire extinguishing.

SUMMERY OF THE UTILITY MODEL

In order to effectively solve the technical problem, the utility model provides a safe and high floor remote control by temperature change device of putting out a fire that can accurately put out a fire.

The utility model provides a technical scheme that its technical problem adopted is: a high-rise remote control temperature control fire suppression device comprises a first remote control unmanned aerial vehicle, a hanging rod, an explosion-proof isolation plate, a loading frame, a remote control ignition device, a main lead, an auxiliary lead, a fire suppression ball, a camera and a heat source sensor; the first remote control unmanned aerial vehicle comprises a main control device and a communication module; the camera and the heat source sensor are connected with the main control device; the hanging rod is connected to the bottom of the first remote control unmanned aerial vehicle; the loading frame is connected to the bottom of the hanging rod; the explosion-proof isolation plate is arranged between the first remote control unmanned aerial vehicle and the loading frame and is connected with the hanging rod; the fire extinguishing ball is loaded in the loading frame and is connected with the main lead through the auxiliary lead, the fire extinguishing ball comprises a shell, a fire extinguishing agent and a package opening agent, the fire extinguishing agent is filled in the shell, and the package opening agent is filled in the center of the fire extinguishing agent; one end of the auxiliary lead extends into the shell and penetrates through the fire extinguishing agent to be contacted with the unpacking agent, and the other end of the auxiliary lead extends out of the shell to be connected with an external main lead; the remote ignition device is connected with the main lead wire and is used for igniting the main lead wire.

Further, the main lead and the auxiliary lead are both fast leads.

Furthermore, a wear-resistant anti-corrosion isolation layer wraps the auxiliary lead.

Furthermore, the fire extinguishing balls are arranged along the main lead and are symmetrically distributed on two sides of the main lead.

Furthermore, one end of the main lead is connected with the remote control ignition device, and the other end of the main lead extends out of the loading frame.

Further, the side edge of the loading frame is provided with a wire guide hole so that the main lead can extend to the outside.

The utility model has the advantages that:

(1) Can be with the ball of putting out a fire to regional detonating in the scene of a fire center through camera and heat source sensor, realize high floor ultra-long-range accurate high efficiency and put out a fire.

(2) For aerial ladder high altitude squirt put out a fire, operating personnel as long as remote control unmanned aerial vehicle can, reduced fire fighter's danger, and put out a fire highly by unmanned aerial vehicle flying height decision, almost unrestricted.

(3) Because the fire extinguishing ball does not need to be launched, a metal warhead is not needed, the fire extinguishing ball shell can be made of paper or other light materials, secondary damage to a human body can not be caused when the fire extinguishing ball is exploded, and safety is guaranteed.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic view of the installation structure of the present invention;

Fig. 2 is a schematic view of the structure of the fire extinguishing ball.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1-2, the utility model discloses a high floor remote control temperature control fire suppression device, including first remote control unmanned aerial vehicle 1, peg 2, explosion-proof division board 3, load frame 4, remote control ignition 5, main lead 6, vice lead 7, fire ball 8, camera 9 and heat source sensor 10 of putting out.

the first remote control unmanned aerial vehicle 1 comprises a main control device and a communication module; the communication module is used for receiving flight command signals and transmitting signals, the camera 9 and the heat source sensor 10 are connected with a main control device, and the main control device, the communication module and the camera 9 are connected and function with reference to patent CN 201510843183.8. Camera 9 and heat source sensor 10 can install on first remote control unmanned aerial vehicle 1 or install on peg 2, as shown in fig. 1, camera 9 and heat source sensor 10 all install on peg 2 and are in between first remote control unmanned aerial vehicle 1 and the explosion-proof division board 3, can avoid the impact of the explosion of fire extinguishing ball 8.

The camera 9 and the heat source sensor 10 transmit detected information to the main control device, the main control device automatically controls the aircraft according to the information or transmits the information to an operator through the communication module, the operator obtains fire scene information according to the information and sends a flight command to the communication module, the communication module transmits the information to the main control device, the main control device controls the first remote control unmanned aerial vehicle to fly according to the information, and the communication module can specifically transmit radio frequency signals and receive the radio frequency signals. The heat source sensor 10 can detect the higher region of scene of a fire temperature or there is the place of naked light, and master control set can enter into the high temperature region according to this information control first remote control unmanned aerial vehicle 1 and carry out accurate putting out a fire.

The hanging rod 2 is connected to the bottom of the first remote control unmanned aerial vehicle 1; the loading frame 4 is connected to the bottom of the hanging rod 2; the explosion-proof division board 3 sets up between first remote control unmanned aerial vehicle 1 and loading frame 4 and is connected with peg 2, fire extinguishing ball 8 is loaded in loading frame 4. When putting out fireball 8 and being detonated, explosion-proof division board 3 can avoid this explosion air current to strike first remote control unmanned aerial vehicle 1 well, and at most first remote control unmanned aerial vehicle 1 is down pushed up by the reaction force of this air current, and can directly not receive the impact of explosion air current, has protected first remote control unmanned aerial vehicle well.

The fire extinguishing ball 8 is connected with the main lead 6 through the auxiliary lead 7, the fire extinguishing ball 8 comprises a shell 81, a fire extinguishing agent 82 and a package opening agent 83, the shell 81 is usually made of paper materials, and the explosion can not cause harm to human bodies. The shell 81 is filled with a fire extinguishing agent 82, the fire extinguishing agent 82 is a fire extinguishing agent, the center of the fire extinguishing agent 82 is filled with a package opening agent 83, and the package opening agent 83 is detonated to enable the fire extinguishing agent 82 to be exploded and dispersed to extinguish fire around; one end of the auxiliary lead 7 extends into the shell 81 and passes through the fire extinguishing agent 82 to be contacted with the unpacking agent 83, and the other end extends out of the shell 81 to be connected with the external main lead 6. In order to prevent the secondary lead 7 from being interfered or corroded by the fire extinguishing agent 82 to cause failure, the outside of the secondary lead 7 is wrapped with a wear-resistant anti-corrosion insulating layer, and the wear-resistant anti-corrosion insulating layer can be made of a plastic material. The fire extinguishing ball 8 is usually arranged in plurality, and in order to save space, the fire extinguishing balls 1 are arranged along the main lead and are symmetrically distributed on two sides of the main lead 6. In order to ensure that the fire extinguishing balls 8 are all detonated at almost the same time and prevent the fire extinguishing balls 8 from being detonated and interfering with the successful detonation of the surrounding fire extinguishing balls 8, the main lead 6 and the auxiliary lead 7 are both fast leads, and the fast leads are ignited at a fast speed and can all detonate all fire extinguishing balls 8 at almost the same time. In order to automatically detonate when the first remote control unmanned aerial vehicle 1 enters an open fire area or reaches a certain temperature around the open fire area, one end of the main lead 6 is connected with the remote control ignition device 5, the other end of the main lead extends out of the loading frame 4, and when the lead extending out of the loading frame 4 meets open fire or the ambient temperature exceeds the self-ignition temperature of the open fire, the fire extinguishing ball 8 is immediately detonated to extinguish fire. In order to facilitate the main lead 6 to extend to the outside of the loading frame 4, the side of the loading frame 4 is provided with a wire guide hole. The remote control ignition device 5 is connected with the main lead 6 and is used for igniting the main lead 6, and the remote control ignition device 5 is installed on the upper surface of the explosion-proof isolation plate 3 or the first remote control unmanned aerial vehicle 1, and specifically, the remote control ignition device 5 ignites the main lead 6 by receiving a remote control signal, and specifically, reference can be made to the remote control ignition device disclosed in patent CN201620894865.1 and patent CN 201520261143.8.

The utility model discloses mainly can be used to put out a fire, put out a fire step as follows:

A. The unmanned aerial vehicle 1 is remotely controlled to initially enter a fire scene area through a remote controller.

B. The video information transmitted back through the camera 9 controls the first unmanned aerial vehicle to enter the central area of the fire scene, or when the smoke of the fire scene influences the video capture of the camera 9, the main control device automatically controls the first remote control unmanned aerial vehicle 1 to fly to the area with higher temperature according to the heat source information captured by the heat source sensor 10 until the first remote control unmanned aerial vehicle flies to the central area of the fire scene with the highest temperature.

C. the main lead 6 is ignited to ignite the fire extinguishing ball 8, and the fire extinguishing agent 82 in the fire extinguishing ball 8 is exploded and dispersed, so that long-distance accurate positioning fire extinguishing is carried out.

In the step C, the main lead 6 is ignited in two ways, one way is to ignite the main lead 6 by remotely controlling the remote control ignition device 5, and the other way is to control the first remote control unmanned aerial vehicle 1 to enter the central area of the fire scene, and when the ambient temperature reaches the autoignition temperature of the main lead 6 or meets open fire, the main lead 6 is ignited. One is manual remote control detonation, and the other is that when meeting open fire or high temperature, the main lead 6 is ignited, which is equivalent to that when the equipment automatically meets a place with serious fire, the fire extinguishing ball 8 is detonated automatically and extinguishes fire.

In addition in some circumstances, the door and window of scene of a fire tightly closes, first remote control unmanned aerial vehicle 1 does not get into the entry in the scene of a fire, for this reason, can be before first remote control unmanned aerial vehicle 1 starts, the first second remote control unmanned aerial vehicle that carries the cutting device that controls earlier flies to the door and window department that can get into the scene of a fire, control cutting device later cuts out an opening that can let first remote control unmanned aerial vehicle get into in corresponding door and window department, first remote control unmanned aerial vehicle 1 then gets into the scene of a fire from this opening part, carry out the above-mentioned step of putting out a fire.

the utility model discloses an equipment can enter into the fire scene central zone through remote control or automatic control, carries out the accurate fire extinguishing to the place that the condition of a fire is the most serious, and the 8 materials of ball of putting out a fire are light, and the explosion can not lead to the fact secondary injury to the human body, has effectively protected the personnel that are enclosed poverty in the fire scene, and for the danger that aerial ladder high altitude squirt was put out a fire in addition, this device of putting out a fire and the method of putting out a fire are safer to the fire-fighting operation personnel.

The above embodiments are only used for illustrating the technical solutions of the present invention and are not limited thereto, and any modification or equivalent replacement that does not depart from the spirit and scope of the present invention should be covered by the scope of the technical solutions of the present invention.

Claims (6)

1. A high-rise remote control temperature control fire suppression device comprises a first remote control unmanned aerial vehicle (1) and a camera (9), wherein the first remote control unmanned aerial vehicle (1) comprises a main control device and a communication module; camera (9) are connected with master control unit, its characterized in that: the explosion-proof fire extinguishing device is characterized by further comprising a hanging rod (2), an explosion-proof isolating plate (3), a loading frame (4), a remote control ignition device (5), a main lead (6), an auxiliary lead (7), a fire extinguishing ball (8) and a heat source sensor (10) connected with the main control device;

the hanging rod (2) is connected to the bottom of the first remote control unmanned aerial vehicle (1);

The loading frame (4) is connected to the bottom of the hanging rod (2);

The explosion-proof isolation plate (3) is arranged between the first remote control unmanned aerial vehicle (1) and the loading frame (4) and is connected with the hanging rod (2);

The fire extinguishing ball (8) is loaded in the loading frame (4), the fire extinguishing ball (8) is connected with the main lead (6) through the auxiliary lead (7), the fire extinguishing ball (8) comprises a shell (81), a fire extinguishing agent (82) and a package opening agent (83), the shell (81) is filled with the fire extinguishing agent (82), and the center of the fire extinguishing agent (82) is filled with the package opening agent (83);

one end of the auxiliary lead (7) extends into the shell (81) and penetrates through the fire extinguishing agent (82) to be contacted with the unpacking agent (83), and the other end of the auxiliary lead extends out of the shell (81) to be connected with the external main lead (6); the remote control ignition device (5) is connected with the main lead (6) and is used for igniting the main lead (6).

2. the high-rise remote control temperature control fire suppression device as claimed in claim 1, wherein: the main lead (6) and the auxiliary lead (7) are both fast leads.

3. the high-rise remote control temperature control fire suppression device as claimed in claim 2, wherein: and a wear-resistant anticorrosion isolation layer is wrapped outside the auxiliary lead (7).

4. The high-rise remote control temperature control fire suppression device as claimed in claim 1, wherein: the fire extinguishing balls (8) are arranged along the main lead and are symmetrically distributed on two sides of the main lead (6).

5. The high-rise remote control temperature control fire suppression device as claimed in claim 1, wherein: one end of the main lead (6) is connected with the remote control ignition device (5), and the other end of the main lead extends out of the loading frame (4).

6. The high-rise remote control temperature control fire suppression device as claimed in claim 5, wherein: the side of the loading frame (4) is provided with a wire guide hole so that the main lead (6) can extend to the outside.