CN111544798A - Forest fire prevention rescue device that puts out a fire - Google Patents

Abstract

The invention discloses a forest fire prevention and extinguishment rescue device which comprises a main body, a stabilizing frame and an air jet, wherein the stabilizing frame is fixedly connected to one side of the middle part of the main body, which is close to one side, and the air jet is embedded into one side of the main body; the main part is including engine and handle, the air jet is including adsorbing the piece, rotatory groove mark, rotatory ring and the ring that resets, adsorb the piece including the collecting vat, the elevator block, the displacement groove and the groove that drops, rotatory ring is including displacement groove mark, the impact block, the gomphosis piece, the displacement ring, movable block and gomphosis groove, the device is provided with rotatory ring, can drive it when spouting with the air current through rotatory ring and rotate, the displacement of controlling is carried out through the rotation and is drawn the collecting vat and draw the ashes of outside and inhale, make it can not fly away everywhere.

Description

Forest fire prevention rescue device that puts out a fire

Technical Field

The invention relates to the technical field of fire fighting, in particular to a forest fire prevention and extinguishment rescue device.

Background

"fire control" is to eliminate hidden troubles and prevent disasters (i.e. the general term for preventing and solving human, natural and accidental disasters in life, work and learning process of people), and the meaning of the narrow sense is that: meaning (extinguishing) fire. The wind power fire extinguisher is an area which cannot be extinguished timely due to unclear sight when a gasoline engine drives a wind wheel to generate high-speed airflow and then the airflow is sprayed to irrigate bushes or grass to be higher than 1 m, but the existing wind power fire extinguisher blows a large amount of burning ash into the air when blowing out because of the airflow, so that the existing wind power fire extinguisher can be attached to rescue workers in a large amount and easily influences the rescue.

Disclosure of Invention

The invention aims to provide a forest fire prevention and fire extinguishing rescue device, which solves the problem that combustion ash of the forest fire prevention and fire extinguishing rescue device scatters everywhere due to the fact that air-entraining flows too much when the fire is blown out in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme that the forest fire prevention and fire extinguishing rescue device comprises a main body, a stabilizing frame and an air jet, wherein the stabilizing frame is fixedly connected to one side of the middle part of the main body, which is close to one side, and the air jet is embedded into one side of the main body;

the main body comprises an engine and a handle, the engine is fixedly connected to the middle part of the main body, and the handle is embedded into one side of the main body;

the air nozzle comprises an adsorption block, a rotating groove mark, a rotating ring and a reset ring, wherein the adsorption block is embedded in the peripheral surface of the middle part of the air nozzle, the rotating groove mark is fixedly connected to the inner wall of the inner part of the air nozzle, the rotating ring is embedded in the air nozzle, and the reset ring is fixedly connected to the inner part of the air nozzle;

the adsorption block comprises a collecting tank, a lifting block, a displacement tank and a dropping tank, wherein an opening of the collecting tank is arranged in the middle of the adsorption block, the lifting block is fixedly connected to the bottom end of the adsorption block, an opening of the displacement tank is arranged in the middle of the lifting block, and an opening of the dropping tank is arranged in the collecting tank and close to the bottom end of one side;

the rotating ring comprises a displacement groove mark, an impact block, an embedding block, a displacement ring, a movable block and an embedding groove, the displacement groove mark is fixedly connected to the peripheral surface of the rotating ring, the impact block is fixedly connected to the periphery of the middle of the rotating ring, the embedding block is fixedly connected to one side of the rotating ring, the displacement ring is embedded into one side of the rotating ring, the movable block is embedded into the peripheral surface of the displacement ring, and an opening of the embedding groove is formed in one side of the displacement ring.

Furthermore, the adsorption block is a rectangular square block which is embedded in a groove on the peripheral surface of the air jet in a surrounding manner.

Further, the collecting vat is the recess that adsorbs piece one side to inwards cave in into rectangular form and set up, and slotted middle part bottom and displacement tank's fluting looks UNICOM.

Furthermore, the lifting block is a triangular lug with an inclined bottom end, and an arc-shaped groove is formed at the position, close to one end, of the inclined surface of the lifting block.

Furthermore, the rotating groove mark is a groove mark which is arranged on the inner wall surface of the air injection port at the position where the adsorption block is arranged in a threaded manner, and the groove mark is embedded with the displacement groove mark.

Furthermore, the impact block is a rectangular convex block which is arranged around the middle part of the rotating ring in an arc-shaped bent shape.

Furthermore, the tabling block is a rectangular convex block in a rectangular groove at one side of the rotating ring, the convex block is tabled with the tabling groove, and a round shaft is embedded into one side of the tabling groove.

Further, the movable block passes through the square that spring interconnect gomphosis was passed through to the rectangular form square that two volumes differ for the displacement ring top, and the top of movable block opens the lug to the rectangle that both sides extended, and the movable block passes through the displacement groove embedding simultaneously and advances in the collecting vat.

The invention provides a forest fire prevention and extinguishment rescue device which has the following beneficial effects:

1. the adsorption block can obliquely protrude through the impact force of the airflow when the airflow is sprayed out, so that the collecting tank can be exposed to conveniently suck the external air.

2. The rotary ring can rotate by the impact force of airflow, and can move left and right when rotating, and then the convex blocks imitate the pistons to suck the ash after external combustion when moving, so that the ash is prevented from floating around and being attached to rescuers and instruments and is difficult to clean.

In conclusion, the whole device has stable structure, can accurately calculate the distance of the content appearing in the image, can freely adjust the size of the picture according to the observation condition, and has high popularization value.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the overall structure of the gas injection port of the present invention.

Fig. 3 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

Fig. 4 is a schematic view of the overall structure of the adsorption block of the present invention.

Fig. 5 is a schematic view of the overall side-looking anatomical structure of the absorbent block of the present invention.

FIG. 6 is a schematic view of the overall structure of the gas injection port of the present invention.

FIG. 7 is a partial overall structural view of the rotating ring of the present invention.

In the figure: the main body 1, the engine 101, the handle 102, the stabilizer 2, the air jet 3, the adsorption block 301, the collection groove 3011, the lifting block 3012, the displacement groove 3013, the drop groove 3014, the rotation groove mark 302, the rotation ring 303, the displacement groove mark 3031, the impact block 3032, the embedding block 3033, the displacement ring 3034, the movable block 3035, the embedding groove 3036 and the reset ring 304.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, in the embodiment of the invention, a forest fire prevention, fire extinguishing and rescue device comprises a main body 1, a stabilizing frame 2 and an air jet 3, wherein the stabilizing frame 2 is fixedly connected to one side of the middle part of the main body 1, and the air jet 3 is embedded into one side of the main body 1;

the main body 1 comprises an engine 101 and a handle 102, the engine 101 is fixedly connected to the middle part of the main body 1, and the handle 102 is embedded into one side of the main body 1;

the air nozzle 3 comprises an adsorption block 301, a rotary groove mark 302, a rotary ring 303 and a reset ring 304, wherein the adsorption block 301 is embedded in the peripheral surface of the middle part of the air nozzle 3, the rotary groove mark 302 is fixedly connected to the inner wall of the air nozzle 3, the rotary ring 303 is embedded in the air nozzle 3, and the reset ring 304 is fixedly connected to the inside of the air nozzle 3;

the adsorption block 301 comprises a collecting tank 3011, a lifting block 3012, a displacement tank 3013 and a dropping tank 3014, an opening of the collecting tank 3011 is arranged in the middle of the adsorption block 301, the lifting block 3012 is fixedly connected to the bottom end of the adsorption block 301, an opening of the displacement tank 3013 is arranged in the middle of the lifting block 3012, and an opening of the dropping tank 3014 is arranged in the collecting tank 3011 near the bottom end of one side;

the rotating ring 303 includes a displacement groove mark 3031, an impact block 3032, an embedding block 3033, a displacement ring 3034, a movable block 3035 and an embedding groove 3036, wherein the displacement groove mark 3031 is fixedly connected to the peripheral surface of the rotating ring 303, the impact block 3032 is fixedly connected to the periphery of the middle part of the rotating ring 303, the embedding block 3033 is fixedly connected to one side of the rotating ring 303, the displacement ring 3034 is embedded in one side of the rotating ring 303, the movable block 3035 is embedded in the peripheral surface of the displacement ring 3034, and the embedding groove 3036 is opened on one side of the displacement ring 3034.

Wherein: the adsorption block 301 is a rectangular block which is embedded in a groove on the peripheral surface of the air nozzle 3 in a surrounding manner.

Wherein: the collecting groove 3011 is a groove recessed inwards from one side of the adsorption block 301 to form a rectangular shape, and the bottom end of the middle of the groove is communicated with the groove of the displacement groove 3013.

Wherein: the lifting block 3012 is the lug of the triangle-shaped that the slope form set up for adsorbing piece 301 bottom, and the inclined plane of lifting block 3012 is close to one end department and is provided with circular-arc recess, can blow when the air current blows through jet 3 inside and adsorb on the lug of piece 301 bottom lifting block 3012 protrusion on jet 3 inner wall, the impact force of its air current of receipt that can be better through the circular-arc recess of lifting block 3012 one end, the impact force through its air current can drive its whole absorption piece 301 and connect the pivot through one side and upwards carry out the slope and go up and down, make its absorption piece 301 upwards slope and expose collecting vat 3011.

Wherein: the rotating groove mark 302 is a groove mark which is arranged in a thread shape on the inner wall surface of the air outlet 3 at the position where the adsorption block 301 is arranged, the groove mark is embedded with the displacement groove mark 3031, when the air flow passes through, the air flow can simultaneously impact the impact block 3032 around the middle part of the rotating ring 303, the air flow can be guided to perform certain rotating flow through the impact block 3032 with a curved arc, and then the rotating ring 303 is driven to rotate along the rotating groove mark 302 through the rotating air flow.

Wherein: the impact block 3032 is a rectangular projection provided around the middle portion of the rotating ring 303 in an arc-shaped curved shape, and the rotating ring 303 can be moved to one side when rotating by fitting the displacement groove mark 3031 on the outer wall of the rotating ring 303 with the rotating groove mark 302.

Wherein: the fitting block 3033 is a rectangular projection in a rectangular groove at one side of the rotating ring 303, the convex block is embedded with the embedding groove 3036, and a round shaft is embedded and arranged at one side inside the embedding groove 3036, and the displacement ring 3034 having one side connected to the fitting groove 3036 by the fitting block 3033 during the rotational movement is inserted into the displacement groove 3013 of the suction block 301 because the movable block 3035 at the tip of the displacement ring 3034 is fitted into the displacement groove 3013, so that a left-right displacement is possible but cannot be effected by the rotation of the rotating ring 303 so that it rotates together, meanwhile, when the rotating ring 303 and the displacement ring 3034 are mutually embedded, because the circular shaft is arranged on one side of the middle of the open slot of the embedding groove 3036, the rotating ring 303 can be driven to rotate when being embedded and rotated together, and the friction between the rotating ring 303 and the displacement ring 3034 is reduced, so that the rotating ring 303 cannot be blocked when rotating.

Wherein: the movable block 3035 is a square block in which the top end of the displacement ring 3034 is mutually connected and embedded through two rectangular square blocks with different volumes by a spring, and a rectangular opening convex block which extends towards two sides from the top end of the movable block 3035, meanwhile, the movable block 3035 is embedded into the collecting groove 3011 through the displacement groove 3013, the displacement ring 3034 will move along with its movable block 3035 in the collection slot 3011 when it moves due to the rotation of the rotating ring 303, when the movable block 3035 moves forward, it will exhaust the air inside its collecting tank 3011, then, when the rotating ring 303 moves to a moving distance, the rotating ring 303 is reset and pulled due to the connection of the spring on the reset ring 304 on one side, the rotating ring 303 is pulled back to move, and the displacement ring 3034 generates the suction principle to suck the external air when moving back, so that the ash can be prevented from flying in the air and being attached to rescue personnel and instruments to be difficult to clean when the fire is blown out.

The working principle is that the main body 1 is taken up by controlling the handle 102, then the stabilizing frame 2 is held to stabilize the main body to align the air jet 3 to the combustion area, the engine 101 is opened to generate air pressure to jet air flow out from the air jet 3, flame in a designated area is blown out, when the air flow blows through the air jet 3, the lifting block 3012 at the bottom end of the adsorption block 301 is blown to a convex block protruding on the inner wall of the air jet 3, the impact force of the air flow can be better received by the arc-shaped groove at one end of the lifting block 3012, the whole adsorption block 301 can be driven by the impact force of the air flow to be upwards inclined and lifted through the rotating shaft connection at one side, so that the adsorption block 301 can be upwards inclined to expose the collecting tank 3011, and then the air flow can simultaneously impact the impact block 3032 around the middle part of the rotating ring 303 when the air flow passes through, the impact block 3032 can guide the air flow to perform a certain rotary flow through the curved arc, then the rotating ring 303 is driven to rotate along the rotating groove mark 302 by the rotating air flow, the displacement groove mark 3031 on the outer wall of the rotating ring 303 is embedded with the rotating groove mark 302 so that the rotating ring 303 can move to one side when rotating, the displacement ring 3034 which is connected with the embedding groove 3036 through the embedding block 3033 at one side when rotating is enabled to move, because the movable block 3035 on the top end of the displacement ring 3034 is embedded into the displacement groove 3013 on the adsorption block 301, the displacement ring 303 can move to the left and the right but cannot be influenced by the rotation of the rotating ring 303 so that the displacement ring 303 can rotate together, and simultaneously, when the rotating ring 303 and the displacement ring 3034 are embedded with each other, because the round shaft is arranged on one side of the middle part of the embedding groove 3036 so that the rotating ring 303 can be driven to rotate together when being embedded with each other, the friction between the rotating ring 303 and the displacement ring 3034 during rotation is reduced, so that the rotating ring 303 cannot be blocked during rotation, finally, the movable block 3035 can be driven to move in the collecting groove 3011 during the rotation of the displacement ring 3034 due to the rotation of the rotating ring 303, when the movable block 3035 moves forwards, the air in the collecting groove 3011 is exhausted, then the rotating ring 303 can reset and pull due to the connection of the spring on the reset ring 304 at one side after moving to a moving distance, the rotating ring 303 is expected to pull and move backwards, and when the displacement ring 3034 moves backwards, the external air is sucked and adsorbed by the suction principle, so that ash can be prevented from scattering in the air, and a large amount of ash is attached to rescue personnel and instruments and is difficult to clean.

Claims (8)

1. The utility model provides a forest fire prevention rescue device that puts out a fire, includes main part (1), stabilizer (2) and jet orifice (3), its characterized in that: a stabilizing frame (2) is fixedly connected to one side of the middle part of the main body (1), which is close to one side, and an air nozzle (3) is embedded into one side of the main body (1);

the main body (1) comprises an engine (101) and a handle (102), the engine (101) is fixedly connected to the middle part of the main body (1), and the handle (102) is embedded into one side of the main body (1);

the air nozzle (3) comprises an adsorption block (301), a rotary groove mark (302), a rotary ring (303) and a reset ring (304), the adsorption block (301) is embedded in the peripheral surface of the middle of the air nozzle (3), the rotary groove mark (302) is fixedly connected to the inner wall of the inner part of the air nozzle (3), the rotary ring (303) is embedded in the air nozzle (3), and the reset ring (304) is fixedly connected to the inner part of the air nozzle (3);

the adsorption block (301) comprises a collecting tank (3011), a lifting block (3012), a displacement tank (3013) and a dropping tank (3014), wherein an opening of the collecting tank (3011) is arranged in the middle of the adsorption block (301), the lifting block (3012) is fixedly connected to the bottom end of the adsorption block (301), an opening of the displacement tank (3013) is arranged in the middle of the lifting block (3012), and an opening of the dropping tank (3014) is arranged in the collecting tank (3011) and close to the bottom end of one side;

the rotating ring (303) comprises a displacement groove mark (3031), an impact block (3032), an embedding block (3033), a displacement ring (3034), a movable block (3035) and an embedding groove (3036), wherein the displacement groove mark (3031) is fixedly connected to the peripheral surface of the rotating ring (303), the impact block (3032) is fixedly connected to the periphery of the middle part of the rotating ring (303), the embedding block (3033) is fixedly connected to one side of the rotating ring (303), the displacement ring (3034) is embedded into one side of the rotating ring (303), the movable block (3035) is embedded into the peripheral surface of the displacement ring (3034), and the opening of the embedding groove (3036) is arranged on one side of the displacement ring (3034).

2. A forest fire prevention and fire extinguishing rescue device as claimed in claim 1, characterized in that: the adsorption block (301) is a rectangular square block which is embedded in a groove on the peripheral surface of the air jet (3) in a surrounding mode.

3. A forest fire prevention and fire extinguishing rescue device as claimed in claim 1, characterized in that: the collecting groove (3011) is a groove which is formed by inwards recessing one side of the adsorption block (301) into a rectangular shape, and the bottom end of the middle part of the groove is communicated with the groove of the displacement groove (3013).

4. A forest fire prevention and fire extinguishing rescue device as claimed in claim 1, characterized in that: the lifting block (3012) is a triangular lug obliquely arranged at the bottom end of the adsorption block (301), and an arc-shaped groove is formed at the position, close to one end, of the inclined surface of the lifting block (3012).

5. A forest fire prevention and fire extinguishing rescue device as claimed in claim 1, characterized in that: the rotary groove mark (302) is a groove mark which is arranged in a screw thread shape on the inner wall surface of the air jet opening (3) at the position where the adsorption block (301) is arranged, and the groove mark is embedded with the displacement groove mark (3031).

6. A forest fire prevention and fire extinguishing rescue device as claimed in claim 1, characterized in that: the impact block (3032) is a rectangular convex block which is arranged around the middle part of the rotating ring (303) in an arc-shaped bent shape.

7. A forest fire prevention and fire extinguishing rescue device as claimed in claim 1, characterized in that: the tabling block (3033) is a rectangular convex block in a rectangular groove at one side of the rotating ring (303), the convex block is tabled with the tabling groove (3036), and a round shaft is tabled at one side inside the tabling groove (3036).

8. A forest fire prevention and fire extinguishing rescue device as claimed in claim 1, characterized in that: the movable block (3035) is a square block formed by mutually connecting and embedding the top end of the displacement ring (3034) through two rectangular square blocks with different volumes through a spring, the top end of the movable block (3035) extends to two sides to form a rectangular opening convex block, and the movable block (3035) is embedded into the collecting tank (3011) through the displacement groove (3013).

Images