CN212216544U - Mill uses high efficiency dust collecting equipment - Google Patents

Abstract

The utility model is suitable for a dust collecting equipment technical field provides a mill uses high efficiency dust collecting equipment, including total connecting pipe, little connecting pipe, three way connection, dust extraction, dust storage box, dust absorption fan and atomizer, the utility model discloses a cooperation between above each component through setting up a plurality of dust extraction, combines biology to receive the membrane and presses down dirt technique, cloud and fog and press down dirt technique and wet-type dust collection technique three kinds of dirt techniques and reach the purpose of high-efficient dust removal.

Description

Mill uses high efficiency dust collecting equipment

Technical Field

The utility model belongs to the technical field of dust collecting equipment, especially, relate to a mill uses high efficiency dust collecting equipment.

Background

The industrial dust collector adopts an alternating current power supply, has high power and is generally divided into a movable type and a fixed type. The working principle is that a motor is adopted to drive a high-pressure extension machine (or an integrated machine) to generate negative pressure in a limited volume so as to generate suction force, after a medium object is sucked, filtering is carried out through a filter bag or secondary filtering is carried out through a filter barrel, a common type can only absorb a dry medium object with water content instead, and a dry and wet type can absorb oil, water and the like generated in the processing process. The exhaust pipe can be used for absorbing smoke, gas and the like generated in the production operation process.

The workshop dust removal means that the corresponding dust removal equipment is utilized to effectively solve the environmental problem of the workshop and give workers a sweet and comfortable environment so as to improve the working efficiency. The comprehensive dust suppression technology mainly comprises key technologies such as a biological nano-film dust suppression technology, a cloud dust suppression technology, a wet dust collection technology and the like.

The biological nano film is a double-ionization film with interlayer spacing reaching the nanometer level, can increase the ductility of water molecules to the maximum extent, and has strong electric charge adsorption; the biological nano-film is sprayed on the surface of the material, and can attract and agglomerate small-particle dust, so that the small-particle dust is polymerized into large-particle dust particles, and the large-particle dust particles are settled due to the increase of self weight; the dust removal rate of the BME technology can reach more than 99 percent at most, and the average operation cost is 0.05-0.5 yuan/ton.

The cloud dust suppression technology is that superfine dry mist with the particle size of 1-100 mu m can be generated by high-pressure ion atomization and ultrasonic atomization; the superfine dry fog particles are fine and dense, the contact area between the superfine dry fog particles and the dust particles is fully increased, the water fog particles and the dust particles collide and are condensed to form agglomerates, and the agglomerates continuously grow and become heavier until the agglomerates are naturally settled finally, so that the aim of eliminating dust is fulfilled; 30-40% of the generated dry fog particles have the particle size of below 2.5 mu m, and the prevention and treatment effect on the pollution of fine particles in the atmosphere is obvious.

The wet dust collection technology absorbs air attached with dust through pressure drop, and removes dust under the dual actions of centrifugal force and the mixing of water and dust gas; the key design of the unique impeller and the like can provide higher dust removal efficiency.

The method is suitable for the links of bulk material production, processing, transportation, loading and unloading and the like, such as places of mines, buildings, quarries, storage yards, ports, thermal power plants, steel plants, garbage recovery and treatment and the like.

The existing dust collection equipment for factories has a few defects in dust collection efficiency and dust raising treatment modes.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mill uses high efficiency dust collecting equipment aims at solving the current not high problem of dust collecting equipment efficiency for the mill that proposes in the background art.

The utility model is realized in such a way that a high-efficiency dust collecting device for factories comprises a main connecting pipe, a small connecting pipe, a three-way joint, a dust collecting device, a dust storage box, a dust collecting fan and an atomizer, every two dust collecting devices are connected through the small connecting pipe, two small connecting pipes are connected with the left and right openings of the three-way joint, the front side port of the three-way joint is connected with one end of a main connecting pipe, the other end of the main connecting pipe is connected with the dust storage box, the dust collection fan is connected and installed at the lower right part of the dust storage box, the dust collection fan main body of the dust collection fan is connected with the dust storage box through a dust collection pipe, the dust absorbed by the dust collection fan main body is discharged through a dust discharge pipe, the atomizer is fixedly mounted at the upper right of the dust storage box, and the atomizer is connected with the upper part of the dust storage box through an atomizer pipe;

the fan installation rod is installed on the rear side of a dust collection device shell of the dust collection device, the two dust collection fans are installed on the fan installation rod, a dust collection opening is preset in the front side of the dust collection device shell, and the upper portion of the dust collection device shell is connected with the small connecting pipe through a ventilation pipe.

Furthermore, the vent pipe is connected with the small connecting pipe by using a sealing pressure flange.

Furthermore, the small connecting pipe is connected with the three-way joint by using a sealing pressure flange.

Furthermore, the three-way joint is connected with the main connecting pipe by using a sealing pressure flange.

Further, the rear side of the vacuum cleaner housing is sealed by a sealing glass plate.

Furthermore, the rear side of the dust suction device is tightly attached to a wall.

Furthermore, the inner wall of the dust storage box is covered with a layer of biological nano-film.

About implementing the utility model discloses a beneficial technological effect does: the utility model discloses a cooperation between each component among the above technical scheme through setting up a plurality of dust extraction, combines the biology to receive the membrane and presses down dirt technique, cloud and fog and press down dirt technique and wet-type dust collection technique three kinds and press down the dirt technique and reach the purpose that high efficiency removed dust.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the dust suction device of the present invention;

FIG. 3 is a schematic front side view of the dust suction device of the present invention;

fig. 4 is an installation schematic diagram of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-4, the utility model relates to a high-efficiency dust-collecting device for factories, which comprises a main connecting pipe 1, a small connecting pipe 2 and a three-way joint 3, the dust collection device comprises dust collection devices 4, a dust storage box 5, a dust collection fan 6 and an atomizer 7, wherein every two dust collection devices 4 are connected through a small connecting pipe 2, the two small connecting pipes 2 are connected with left and right through holes of a three-way joint 3, a front side through hole of the three-way joint 3 is connected with one end of a main connecting pipe 1, the other end of the main connecting pipe 1 is connected with the dust storage box 5, the dust collection fan 6 is connected and installed at the lower right of the dust storage box 5, a dust collection fan main body 62 of the dust collection fan 6 is connected with the dust storage box 5 through a dust collection pipe 61, dust absorbed by the dust collection fan main body 62 is discharged through a dust discharge pipe 63, the atomizer 7 is fixedly installed at the upper right of the dust storage box 5, and the atomizer 7 is;

a fan mounting rod 43 is arranged at the rear side of a dust suction device shell 44 of the dust suction device 4, two dust suction fans 42 are arranged on the fan mounting rod 43, a dust suction opening 45 is preset at the front side of the dust suction device shell 44, and the upper part of the dust suction device shell 44 is connected with the small connecting pipe 2 through a ventilation pipe 46.

The ventilation pipe 46 is connected with the small connecting pipe 2 by a sealing pressure flange 47. Therefore, the pipeline is ensured to be closed and can resist pressure.

The small connecting pipe 2 is connected with the three-way joint 3 by a sealing pressure flange 47. Therefore, the pipeline is ensured to be closed and can resist pressure.

The three-way joint 3 is connected with the main connecting pipe 1 by a sealing pressure flange 47. Therefore, the pipeline is ensured to be closed and can resist pressure.

The rear side of the cleaner housing 44 is sealed by a seal glass plate 41. This ensures that the vacuum cleaner housing 44 is sealed, and thus that a negative pressure is generated when the vacuum fan 42 is rotated.

The rear side of the dust suction device 4 is closely attached to the wall. The dust suction port 45 is placed on the front side for dust suction.

The number of the dust suction devices 4 is determined by the length of a workshop, and different workshops use different schemes to ensure dust suction efficiency.

The inner wall of the dust storage box 5 is covered with a layer of biological nano-film. The biological nano-film can attract and agglomerate small-particle dust, so that the small-particle dust is polymerized into large-particle dust particles, the dead weight is increased and the large-particle dust particles are settled, and the dust collection efficiency is improved.

In practical application, the dust collection fan 42 is started, the dust collection fan 42 rotates to enable negative pressure to be generated in the dust collection device shell 44, so that dust in a workshop is sucked from the dust collection port 45, the dust collection fan 6 and the atomizer 7 are started, the dust sequentially passes through the small connecting pipe 2, the three-way joint 3 and the main connecting pipe 1 to reach the dust storage box 5, the biological nano-film covered on the inner wall of the dust storage box 5 can attract and agglomerate small-particle dust, meanwhile, water mist generated by the atomizer is combined with a plurality of dust particles, the dust particles are polymerized into large-particle dust particles, and the self weight is increased and the dust particles are settled. Finally, the dust is sucked by the dust suction fan 6 and discharged from the dust discharge pipe 63.

About implementing the utility model discloses a beneficial technological effect does: the utility model discloses a cooperation between each component in the above embodiment, through setting up a plurality of dust extraction 4, combine the biology to receive the membrane and press down the dirt technique, cloud and fog press down dirt technique and wet-type dust collection technique three kinds and press down the dirt technique and reach the purpose that high efficiency removed dust.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a mill uses high efficiency dust collecting equipment, its characterized in that, including total connecting pipe (1), little connecting pipe (2), three way connection (3), dust extraction (4), dust storage box (5), dust absorption fan (6) and atomizer (7), per two dust extraction (4) pass through little connecting pipe (2) are connected, two little connecting pipe (2) with the opening is connected about three way connection (3), the front side opening of three way connection (3) with the one end of total connecting pipe (1) is connected, the other end of total connecting pipe (1) with dust storage box (5) are connected, dust storage box (5) right side below is connected and is installed one dust absorption fan (6), dust absorption fan main part (62) of dust absorption fan (6) pass through dust absorption pipe (61) with dust storage box (5) are connected, the absorbed dust of dust absorption fan main part (62) is discharged through dust discharge pipe (63), the atomizer (7) is fixedly mounted at the upper right part of the dust storage box (5), and the atomizer (7) is connected with the upper part of the dust storage box (5) through an atomizer tube (71);

a fan installation rod (43) is installed on the rear side of a dust collection device shell (44) of the dust collection device (4), two dust collection fans (42) are installed on the fan installation rod (43), a dust collection opening (45) is preset on the front side of the dust collection device shell (44), and the upper portion of the dust collection device shell (44) is connected with the small connecting pipe (2) through a ventilation pipe (46).

2. A plant-use high-efficiency dust-collecting equipment according to claim 1, characterized in that said ventilating pipe (46) is connected with said small connecting pipe (2) by means of a sealed pressure flange (47).

3. A plant high efficiency dust collecting apparatus according to claim 2, wherein the small connecting pipe (2) and the three way joint (3) are connected by the sealing pressure flange (47).

4. A plant high efficiency dust collecting apparatus according to claim 2, wherein the three-way joint (3) and the main connection pipe (1) are connected by the sealing pressure flange (47).

5. A plant-use high-efficiency dust-collecting apparatus according to claim 1, wherein the rear side of said dust-collecting device housing (44) is sealed by a sealing glass plate (41).

6. A factory high efficiency dust collecting apparatus according to claim 1, wherein the rear side of the dust collecting means (4) is mounted close to the wall.

7. A plant high efficiency dust collecting apparatus as claimed in claim 1, wherein the inner wall of said dust storage box (5) is covered with a biofilm.

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