KR930000174Y1 - Dust collecter - Google Patents

Abstract

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Description

Dust Removal Device in Coal Mine

1 is an exploded perspective view showing an embodiment of the present invention.

2 is an assembly cross-sectional view of the first view.

* Explanation of symbols for main parts of the drawings

1: water spray pipe 2: suction induction pipe

3: diffuser tube 4: connector

5: air flow pipe 6, 6 ': mesh member

A: slope

The present invention relates to a dust removal apparatus in a shaft that performs a function of removing dust generated during coal mining in a mine of a coal mine, and in particular, by spraying water with high pressure air to increase the size and dust removal efficiency of the apparatus. It was developed for the purpose of improving coal working environment by discharging the purified air into the pit after dust removal by collecting and removing the dust existing in the air forced by the air pressure difference by the air grain. The present invention relates to a dust removal apparatus in a coal mine shaft.

In general, most of the miners suffer from occupational disease called pneumoconiosis due to difficult work environment due to many dusts generated at the end of coal mining. The cause of such pneumoconiosis is dust generated during coal mining. Various types of dust removal devices have been developed and used for the purpose of purifying the air of the membrane, but these types perform the dust removal by forcing the suction through the filter by inducing forced air to the turbid air by driving the blower fan. However, not only the dust removal efficiency is low, but management attention is required, and due to the large size of the device to compensate for the dust removal efficiency, there are many problems in the installation in the limited gangway space, and in particular, the air passing through the purifier Low purification efficiency in the form of a large amount of particulate dust in the It was dots.

Therefore, the present invention induces compressed air to enter a specific space to solve the above-mentioned drawbacks, and induces water by simultaneously inducing water to inject water, and injects water by inducing air in the pit by the pressure difference. As the particles can be collected and collected by the granules, the configuration and effect will be described in detail according to the accompanying drawings showing the embodiments.

The water injection pipe 1 is combined with the hydraulic pipe 1a and the pneumatic pipe 1b, and the nozzle 1c is formed at the tip, and the pneumatic pipe is fixed to the fixed portion 2a of the suction induction pipe 2 in the shape of a trumpet. (1b) Diffusing tube (3), which is fastened to a part, is provided with the water spray pipe (1) assembled on a center line, and has a straight portion (3a) and a diffuser portion (3c) having a dust collector (3b) formed on the lower portion thereof. Is provided with an extension assembly to the suction induction pipe (2), and a connecting pipe (4) and air flow pipe (5) having a dust collecting part (4a) formed at the bottom to extend to the diffusion pipe (3), respectively The structure is formed by assembling the mesh members 6 and 6 'to maintain a predetermined inclination A therebetween, wherein reference numeral 7 is a water pipe hose, 8 is an air hose, and 9 is a collecting pipe.

Referring to the effects of the present invention configured in this way in detail as follows.

The water spray pipe 1 of the vibration suppression apparatus according to the present invention, which has an assembled cross-sectional structure shown in FIG. The water pressure pipe (1a) forming a) is connected to the water pipe hose (7) to guide the water, the air pressure pipe (1b) is installed by connecting the air hose (8) to guide the compressed air. When water and compressed air are supplied to the water spray pipe 1 at the same time as the installation is completed, water drawn from the water pressure pipe 1a is connected to the fixed part 2a of the suction induction pipe 1 ( Water is sprayed onto the center line of the diffusion pipe 3 through the nozzle 1c formed at the tip of the water injection pipe 1 by the compressed air guided from the air hose 8 of 1b). Water particles are spread by the water sprayed from the diffusion portion 3c made of a taper by passing through the straight portion 3a constituting the diffusion tube 3.

On the other hand, the high-pressure compressed air guided to the supply pipe (1b) as described above through the nozzle (1c) of the water injection pipe (1) to the diffusion pipe (3) in the process of the air pressure in the gang and suction induction pipe ( 1) and the air in the gang containing a large amount of dust flows into the suction induction pipe 1 through the inlet portion formed in the trumpet shape of the suction induction pipe 1 as the pressure difference in the diffusion pipe 3 is generated. maintain.

Thus, the air containing the dust is introduced into the water particles and the diffusion pipe (3) is injected from the water spray pipe (1), and the dust contained in the air is in the state of being absorbed and collected on the surface of the diffused water particles.

In this way, the water grains in which the dust is collected reach the primary mesh member 6 which has a predetermined inclination A at the tip of the diffusion tube 3.

On the other hand, the reached water grains collide with the mesh member 6 and the grains are destroyed, so that the paperweight and water collected on the water grain surface are separated from the air, and fall below the diffusion portion 3c, and the outside through the dust collecting portion 3b. To be discharged.

In addition, a small grain of water collected by the dust passing through the primary mesh member (6) is passed to the secondary mesh member (6 ') disposed between the air flow pipe (5) mounted at the uppermost end while passing through the connecting pipe (4). After colliding, the water droplets passing through the primary mesh member 6 are destroyed, so that dust and water fall downward, and dust and water are collected to the outside through the secondary dust collector 4a formed on the lower surface of the connecting pipe 4. do.

On the other hand, the dust in the pit including the dust induced by the suction guide pipe (1) by the water particles sprayed and sprayed from the water spray pipe (1) in the primary and secondary mesh members (6), (6 ') By collecting and colliding, the dust and water are completely separated through the collection pipes 9 of the primary and secondary dust collectors 3b and 4a, and the purified air is discharged into the shaft through the airflow pipes 5. .

Here, the primary mesh member 6 is made of a slightly thicker eye tissue than the secondary mesh member 6 ', and the secondary mesh member 6' is a thin eye that can pass only purified air. It was adopted.

In addition, dust is collected on the surface of the water grains injected from the water spray pipe 1 in the process of passing the air including the dust in the gang inside the suction induction pipe 2 and the diffusion pipe 3 so that the tube assembly 2, (3), (4) and (5) collide with the mesh members (6) and (6 ') in the process of passing in the direction parallel to the center line, and water grains are destroyed, so that water and dust are dispersed in the diffusion tube (3). Inducing the maximum efficient dropping point to the dust collectors 3b and 4a disposed at a position perpendicular to the passage direction of the water droplets in the process of drop collection to the dust collectors 3b and 4a formed in the connecting pipe 4. For the water grains induced by placing and laying the mesh members 6 and 6 'at 45 ° corresponding to the collision reflection angle, the water and dust to be collected by the collision are collected in the dust collecting part 3b, ( In order to improve the collision and separation collection efficiency of the water grains by collecting them in 4a), the mesh members 6 and 6 ' When laying a 45 degree slope (A) for the passage direction thereof is more efficient.

On the other hand, the shape of the suction induction pipe (1) is a large diameter (D) of the inlet portion is a diameter (d) of the outlet portion is small when the middle portion is a curved fallopian tube shape tube assembly (2), (3), The difference in air pressure by the water spray pipe (1) in (4) and (5) allows the external air to be induced smoothly without being resisted.

That is, the present invention, as shown in FIG. 2, the overall device is simple in structure and small in size, so that it can be efficiently installed and used in a limited gangway space. Particularly, the dust removal principle is sprayed by water pellets. By being collected, it is possible to perform efficient air purification to fine particulate matter.

Claims (3)

In the air purifier in the coal mine pit, the water spray pipe (1) formed with the hydraulic pipe (1a), the pneumatic pipe (1b), and the nozzle (1c) is passed through the fixing portion (2a) of the suction guide pipe (1). The suction induction pipe (1c) is a diffusion pipe (3) consisting of a dispersing portion (3c) having a granular arrangement so as to be positioned inside the suction induction pipe (1), and a straight portion (3a) and a dust collecting portion (3a) at the front end surface. (1) A separate connecting pipe (4) having a dust collecting portion (4a) formed on the lower surface of the diffuser tube and having the mesh members (6) and (6 ') have a predetermined inclination (A) in the diffusion pipe (3). The dust removal apparatus in the mine shaft pit, characterized in that it is possible to collect and remove the dust in the water particles to be sprayed and diffused by being placed on the air flow pipe (5) and assembled sequentially. The dust removal in the coal mine shaft according to claim 1, wherein the inlet portion has a large diameter (D) and the outlet portion has a small diameter (d), and the space portion has a suction induction pipe (1) having a curved fallopian tube shape. Device. The dust removal in the coal mine shaft according to claim 1, wherein the inclination A of the mesh members 6 and 6 'disposed at the vertically upward positions of the dust collectors 3a and 4a is laid at 45 degrees. Device.