CN210660178U - Heat preservation device for mine - Google Patents

Abstract

The utility model discloses a heat preservation device for mine, including braced frame, braced frame's upper end and first water pipe bolted connection, braced frame's inner wall is through first spring and first stopper fixed connection, the inner of first stopper contacts with the dust absorption board, the one end that first stopper was kept away from to the second spring and the inner wall fixed connection of second recess, first recess has been seted up to the inner wall of second recess, the lower extreme of first stopper is provided with the second stopper, the water tank has been placed to braced frame's left downside, the last absorption hole of having seted up of dust absorption board, the lower extreme and the first connecting pipe threaded connection of dust absorption board, and the right downside of dust absorption board has placed the collecting box, the upper right end and the contact of sealing plug of collecting box, the front end and the second water pipe fixed connection of first water pipe. This heat preservation device for mine is convenient for fix the dust absorption board, and is convenient for the dust absorption to be convenient for prevent raise dust and cooling.

Description

Heat preservation device for mine

Technical Field

The utility model relates to a relevant technical field of mine specifically is a heat preservation device for mine.

Background

The deeper the mine is mined, the higher the temperature of the rock is, the temperature needs to be reduced in the mine at the moment, the dust in the mine can be increased during mining, the dust can not only influence the physical health of workers, but also threaten the safety production of the mine.

When removing dust in the mine, be not convenient for fixed dust absorption board, and be not convenient for the dust absorption when handling the dust to along with the temperature rise in the mine, be not convenient for cool down, the utility model aims to provide an insulator for mine to solve the problem that insulator for mine on the existing market that above-mentioned background art provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heat preservation device for mine to solve the fixed dust absorption board of being not convenient for in the most of propositions among the above-mentioned background art, and the dust absorption of being not convenient for, and the problem of being not convenient for prevent raise dust and cooling.

In order to achieve the above object, the utility model provides a following technical scheme: a heat preservation device for a mine comprises a supporting frame, wherein the upper end of the supporting frame is connected with a first water pipe through a bolt, the front end of the first water pipe is fixedly connected with an atomizing spray head, the inner wall of the supporting frame is fixedly connected with a first limiting block through a first spring, a second groove is formed in the inner end of the supporting frame, the inner end of the first limiting block is contacted with a dust absorption plate, the first limiting block arranged at the right end of the dust absorption plate is fixedly connected with a second spring, one end, away from the first limiting block, of the second spring is fixedly connected with the inner wall of a second groove, a connecting block is fixedly connected with the first limiting block, the first groove is formed in the inner wall of the second groove, the second limiting block is arranged at the lower end of the first limiting block, a water tank is placed at the lower left side of the supporting frame, an adsorption hole is formed in the dust absorption plate and is fixedly connected, the lower extreme and the first connecting pipe threaded connection of dust absorption board, and the collecting box has been placed to the right downside of dust absorption board, the upper right end and the sealing plug of collecting box contact, the front end and the second water pipe fixed connection of first water pipe, and the front end and the atomizer fixed connection of second water pipe.

Preferably, the first limiting block and the second groove form a telescopic structure, the longitudinal section of the first limiting block is L-shaped, and the first limiting block and the second limiting block are symmetrically arranged around the longitudinal central axis of the dust collection plate.

Preferably, the longitudinal section shapes of the connecting block and the second limiting block are both T-shaped, and the connecting block and the first groove form a sliding structure.

Preferably, the connection mode of the collection box and the sealing plug is clamping connection, and the first connection pipe and the sealing plug form a communication structure.

Preferably, the second water pipe and the water tank form a communication structure through the first water pipe, the cross section of the second water pipe is arc-shaped, and the atomizing nozzles are arranged on the second water pipe at equal angles.

Preferably, the adsorption holes are arranged on the dust collection plate at equal intervals, the adsorption holes and the first connecting pipe form a communicating structure through a connecting channel, and the single bodies of the dust collection plate are communicated through the first connecting pipe.

Compared with the prior art, the beneficial effects of the utility model are that: the heat preservation device for the mine is convenient for fixing the dust absorption plate, absorbing dust and preventing dust raising and cooling;

1. the dust collection plate is provided with a first limiting block and a second limiting block, the first limiting block and the second groove are structurally designed, so that the first limiting block limits the dust collection plate, and the connecting block and the first groove are structurally designed, so that the connecting block drives the first limiting block to tightly abut against the dust collection plate;

2. the dust collection device is provided with an adsorption hole, a connecting channel, a first connecting pipe and a collection box, wherein the adsorption hole is communicated with the adsorption hole through the structural design of the connecting channel and the first connecting pipe, and the dust in the adsorption hole can enter the collection box through the structural design of the first connecting pipe and a sealing plug;

3. be equipped with water tank, first water pipe and atomizer, the second water pipe is through the structural design of first water pipe and water tank for in water can get into the second water pipe, the angle settings such as atomizer are on the second water pipe, make the even spraying of atomizer.

Drawings

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

FIG. 2 is a schematic view of the cross-sectional structure of the dust-collecting plate and the connecting channel;

FIG. 3 is a schematic view of the connection between the second water pipe and the first water pipe;

fig. 4 is an enlarged schematic structural view of a portion a in fig. 1 according to the present invention.

In the figure: 1. a support frame; 2. a first water pipe; 3. an atomizing spray head; 4. a first stopper; 5. a first spring; 6. a dust collection plate; 7. a second spring; 8. connecting blocks; 9. a first groove; 10. a second limiting block; 11. a water tank; 12. a first connecting pipe; 13. a collection box; 14. a sealing plug; 15. a second water pipe; 16. a second groove; 17. an adsorption hole; 18. a connecting channel.

Detailed Description

The technical solution 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 some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a heat preservation device for a mine comprises a supporting frame 1, a first water pipe 2, an atomizing spray head 3, a first limiting block 4, a first spring 5, a dust absorption plate 6, a second spring 7, a connecting block 8, a first groove 9, a second limiting block 10, a water tank 11, a first connecting pipe 12, a collecting box 13, a sealing plug 14, a second water pipe 15, a second groove 16, an adsorption hole 17 and a connecting channel 18, wherein the upper end of the supporting frame 1 is connected with the first water pipe 2 through a bolt, the front end of the first water pipe 2 is fixedly connected with the atomizing spray head 3, the inner wall of the supporting frame 1 is fixedly connected with the first limiting block 4 through the first spring 5, the inner end of the supporting frame 1 is provided with the second groove 16, the inner end of the first limiting block 4 is in contact with the dust absorption plate 6, the first limiting block 4 arranged at the right end of the dust absorption plate 6 is fixedly connected with the second spring 7, one end, far away from the first limiting block 4, of the second spring 7 is fixedly connected, and connecting block 8 and first stopper 4 fixed connection, first recess 9 has been seted up to the inner wall of second recess 16, the lower extreme of first stopper 4 is provided with second stopper 10, water tank 11 has been placed to braced frame 1's left downside, adsorption hole 17 has been seted up on dust absorption plate 6, and adsorption hole 17 and interface channel 18 fixed connection, the lower extreme and the 12 threaded connection of first connecting pipe of dust absorption plate 6, and collecting box 13 has been placed to dust absorption plate 6's right downside, the upper right end of collecting box 13 contacts with sealing plug 14, the front end and the 15 fixed connection of second water pipe 2, and the front end and the 3 fixed connection of atomizer of second water pipe 15.

As shown in fig. 1, the connection mode of the collection box 13 and the sealing plug 14 is a snap connection, and the first connection pipe 12 and the sealing plug 14 form a communication structure, so that dust in the collection box 13 can be conveniently treated, and dust adsorbed in the dust collection plate 6 is collected in the collection box 13 through the first connection pipe 12;

as shown in fig. 2, the adsorption holes 17 are arranged on the dust collection plate 6 at equal intervals, the adsorption holes 17 form a communication structure with the first connection pipe 12 through the connection channel 18, the single bodies of the dust collection plate 6 are communicated with each other through the first connection pipe 12, and dust collected in the single bodies of the adsorption holes 17 can enter the first connection pipe 12 through the connection channel 18;

as shown in fig. 1 and 3, the second water pipe 15 forms a communication structure with the water tank 11 through the first water pipe 2, the cross section of the second water pipe 15 is arc-shaped, the atomizing nozzles 3 are arranged on the second water pipe 15 at equal angles, water in the water tank 11 flows to the second water pipe 15 through the first water pipe 2, and the second water pipe 15 and the atomizing nozzles 3 are designed to enable the water to be uniformly sprayed;

as shown in fig. 1 and 4, the longitudinal cross-sectional shapes of the connecting block 8 and the second limiting block 10 are both "T" shaped, and the connecting block 8 and the first groove 9 form a sliding structure to limit the connecting block 8, so that the dust collection plate 6 can be conveniently placed on the second limiting block 10, and the connecting block 8 slides rightwards into the first groove 9, so that the dust collection plate 6 can be conveniently mounted and dismounted;

as in fig. 4, the first limiting block 4 and the second groove 16 form a telescopic structure, the longitudinal cross-sectional shape of the first limiting block 4 is "L" shaped, and the first limiting block 4 and the second limiting block 10 are symmetrically arranged about the longitudinal central axis of the dust collection plate 6, the dust collection plate 6 is placed on the first limiting block 4 and the second limiting block 10 at the left end, and the connecting block 8 drives the first limiting block 4 and the second limiting block 10 at the right side to extend outwards to abut against the right end of the dust collection plate 6.

The working principle is as follows: when the heat preservation device for the mine is used, with reference to fig. 1 and 4, the supporting frame 1 is fixed in the mine through bolts, the left end of the dust collection plate 6 is abutted to the left side of the first limiting block 4 and the left side of the second limiting block 10, the first limiting block 4 and the second limiting block 10 on the right side of the dust collection plate 6 are pulled, the connecting block 8 slides outwards in the first groove 9 and is contacted with the right end of the dust collection plate 6, the first limiting block 4 and the second limiting block 10 tightly abut against the left end and the right end of the dust collection plate 6 due to the elasticity of the first spring 5 and the second spring 7, and the first connecting pipe 12 is in threaded connection with the dust collection plate 6, so that the single bodies of the dust collection plate 6 are communicated with each other through;

when the mining machine is used for mining, and referring to fig. 1 and 2, the dust absorption plate 6 is provided with the absorption holes 17 which can absorb part of dust into the absorption holes 17, and when the left end of the collection box 13 is in threaded connection with the negative pressure pump to work, the absorption holes 17 are communicated with each other through the connecting channel 18, so that the dust in the absorption holes 17 can be absorbed into the first connecting pipe 12 and then enter the collection box 13, and when the collection box 13 is fully collected, the sealing plug 14 can be opened to pour out the dust in the collection box 13;

with reference to fig. 1 and 3, when the water pump at the upper end of the water tank 11 works, water in the water tank 11 can enter the second water pipe 15 from the first water pipe 2, the arc-shaped design of the second water pipe 15 and the atomizing nozzles 3 are arranged on the second water pipe 15 at equal angles, and water can be uniformly sprayed into a mine, so that dust falls, and the temperature of the mine is reduced, which is the working principle of the heat preservation device for the mine.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connected mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt among the prior art, and conventional model, including the conventional connected mode among the circuit connection adoption prior art, and the details are not repeated here, and the content that does not make detailed description in this description belongs to the prior art that skilled person in the art knows.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. An insulation device for mine, includes braced frame (1), its characterized in that: the upper end of the supporting frame (1) is connected with the first water pipe (2) through a bolt, the front end of the first water pipe (2) is fixedly connected with the atomizing spray head (3), the inner wall of the supporting frame (1) is fixedly connected with the first limiting block (4) through a first spring (5), the inner end of the supporting frame (1) is provided with a second groove (16), the inner end of the first limiting block (4) is contacted with the dust suction plate (6), the first limiting block (4) and the second spring (7) which are arranged at the right end of the dust suction plate (6) are fixedly connected, one end, far away from the first limiting block (4), of the second spring (7) is fixedly connected with the inner wall of the second groove (16), the connecting block (8) is fixedly connected with the first limiting block (4), the inner wall of the second groove (16) is provided with a first groove (9), the lower end of the first limiting block (4) is provided with a second limiting block (10), water tank (11) have been placed to the left downside of braced frame (1), adsorption hole (17) have been seted up on dust absorption board (6), and adsorption hole (17) and interface channel (18) fixed connection, the lower extreme and first connecting pipe (12) threaded connection of dust absorption board (6), and the right downside of dust absorption board (6) has placed collecting box (13), the upper right end and sealing plug (14) of collecting box (13) contact, the front end and the second water pipe (15) fixed connection of first water pipe (2), and the front end and the atomizer (3) fixed connection of second water pipe (15).

2. The mine thermal insulation device of claim 1, wherein: the first limiting block (4) and the second groove (16) form a telescopic structure, the longitudinal section of the first limiting block (4) is L-shaped, and the first limiting block (4) and the second limiting block (10) are symmetrically arranged relative to the longitudinal central axis of the dust collection plate (6).

3. The mine thermal insulation device of claim 1, wherein: the longitudinal section shapes of the connecting block (8) and the second limiting block (10) are T-shaped, and the connecting block (8) and the first groove (9) form a sliding structure.

4. The mine thermal insulation device of claim 1, wherein: the collecting box (13) and the sealing plug (14) are connected in a clamping mode, and the first connecting pipe (12) and the sealing plug (14) form a communicating structure.

5. The mine thermal insulation device of claim 1, wherein: the second water pipe (15) and the water tank (11) form a communicating structure through the first water pipe (2), the cross section of the second water pipe (15) is arc-shaped, and the atomizing nozzles (3) are arranged on the second water pipe (15) at equal angles.

6. The mine thermal insulation device of claim 1, wherein: the adsorption holes (17) are arranged on the dust collection plate (6) at equal intervals, the adsorption holes (17) form a communication structure with the first connecting pipe (12) through a connecting channel (18), and the single bodies of the dust collection plate (6) are communicated with each other through the first connecting pipe (12).

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