CN212524335U - Dust shaker for production high temperature resistant material - Google Patents

Abstract

The utility model discloses a dust shaker for high temperature resistant material of production, prevent raising upward the subassembly including the dustproof broken case of production of material, the integrative production subassembly of broken screening, wind-force dust absorption subassembly and electrostatic absorption, the dustproof broken incasement of production of material is located to the integrative production subassembly of broken screening, wind-force dust absorption subassembly is located on the dustproof broken case of production of material, electrostatic absorption prevents raising upward the subassembly and locates the dustproof broken incasement upper wall of production of material, wind-force dust absorption subassembly includes dust catcher, dust collection box and dust conveying pipe, the dust catcher is located on the dustproof broken case lateral wall of production of material and is located the integrative production subassembly top of broken screening, dust catcher, dust conveying pipe and dust collection box connect gradually. The utility model belongs to the technical field of high temperature resistant material production, specifically provide a raise dust condition that takes place in avoiding high temperature resistant material production through wind-force absorption and the dual dust removal effect of electrostatic absorption, the production dust shaker for high temperature resistant material of effect that the slope section further blockked and delayed to the dust.

Description

Dust shaker for production high temperature resistant material

Technical Field

The utility model belongs to the technical field of high temperature resistant material production, specifically indicate a dust shaker for production high temperature resistant material.

Background

The raw materials are required to be crushed in the production process of the high-temperature-resistant materials so as to meet the use requirements, a crusher is usually used for crushing large-size solid raw materials to required sizes, external forces such as rolling, shearing, impact striking, grinding and the like are applied to the materials in the crushing process to crush large lump materials, hard materials and the like to required particle sizes so as to meet the use requirements, and meanwhile, the crushing is widely used in the production of industry, agriculture, food and the like, but raise dust can be generated in the material crushing process, and the prevention treatment of the material crushing process can pollute the working environment and influence the body health of workers.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned current difficult problem, the utility model provides a raise dust condition that probably takes place in avoiding high temperature resistant material production through wind-force absorption and electrostatic absorption dual dust removal effect to set up the dust shaker for high temperature resistant material of production that the slope section can play the effect that blocks and delay the leakage to the dust of raising up.

The utility model adopts the following technical scheme: the utility model discloses a dust remover for producing high temperature resistant material, including material dustproof production crushing case, crushing screening integrated production subassembly, wind-force dust absorption subassembly and electrostatic adsorption anti-raise subassembly, material dustproof production crushing case is the cavity setting, crushing screening integrated production subassembly is located material dustproof production crushing case, wind-force dust absorption subassembly is located material dustproof production crushing case, electrostatic adsorption anti-raise subassembly is located material dustproof production crushing case inner upper wall, wind-force dust absorption subassembly includes dust catcher, dust collection box and dust conveying pipe, the dust catcher is located material dustproof production crushing case lateral wall and is located crushing screening integrated production subassembly top, the dust collection box is the cavity setting, dust conveying pipe connection is on dust catcher and dust collection box, electrostatic adsorption anti-raise subassembly includes electrostatic generator and dust adsorption plate, material dustproof production crushing case inner upper wall is equipped with the ann slot, the dust adsorption plate can be installed in the installation slot in a detachable mode, the electrostatic generator is connected with the dust adsorption plate, and the dust adsorption plate can be installed and detached to be designed to be convenient to clean and reuse.

Further, broken integrative production subassembly of screening includes broken axle, broken rotary vane, broken motor and support division board, the support division board is the screen cloth setting, the material is located to the support division board and is prevented dust production broken incasement wall, broken axle is rotatable to be located on the support division board, broken rotary vane evenly distributed is in broken axle periphery, broken motor is located on the support division board and the output is located broken epaxially, the support division board separates the material is prevented dust production broken case for receipts material chamber and broken chamber, the receipts material chamber is located the support division board below, broken chamber is located the position that the broken axle of support division board top was located.

Further, the broken case upper end of dustproof production of material is equipped with the slope section, be equipped with the feed inlet on the slope section, set up the feed path of material with the slope section and can prevent to produce the raise dust when the material is broken and directly spill, can effectually block it and delay through the slope section.

Furthermore, a protective net is arranged at the air inlet of the dust collector, the caliber of the protective net is larger than the particle size of dust of the material and smaller than the particle size of the required crushed material, and the required crushed material is prevented from being sucked.

Furthermore, the supporting and separating plate is provided with the vibrator, so that the crushed materials can be conveniently vibrated to fall, aggregation is avoided, and dust can be reduced.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme production dust shaker for high temperature resistant material, the raise dust condition that probably takes place in with high temperature resistant material production through wind-force absorption and the dual dust removal of electrostatic absorption falls to the minimum, wind-force absorption can adsorb most dust in the breakage, and the electrostatic absorption sets up the micronic dust that can raise the surplus at the material entrance and adsorbs, and set up the slope section with the dustproof production crushing case upper end of material, can stop and delay the effect of leaking to the dust start-up of raising up, can further strengthen the dust removal effect.

Drawings

Fig. 1 is the overall structure schematic diagram of the dust remover for producing high temperature resistant materials of the utility model.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

The dust-proof material production crushing box comprises a material dust-proof production crushing box body, a crushing and screening integrated production assembly body, a wind power dust collection assembly body, a static adsorption anti-raising assembly body, a dust collector, a 6 dust collection box body, a 7 dust conveying pipe, an 8 electrostatic generator, a 9 dust adsorption plate, a 10 dust adsorption plate, an insertion groove, 11 crushing shafts, 12 crushing rotary vanes, a 13 crushing motor, a 14 supporting partition plate, 15 material receiving cavities, 16 crushing cavities, 17 inclined sections, 18 feeding holes, 19 protective nets, 20 vibrators and a dust collecting cavity.

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 some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in figure 1, the dust remover for producing high temperature resistant materials of the utility model comprises a material dust-proof production crushing box 1, a crushing and screening integrated production assembly 2, a wind power dust-absorbing assembly 3 and an electrostatic adsorption anti-lifting assembly 4, wherein the material dust-proof production crushing box 1 is arranged in a hollow cavity, the crushing and screening integrated production assembly 2 is arranged in the material dust-proof production crushing box 1, the wind power dust-absorbing assembly 3 is arranged on the material dust-proof production crushing box 1, the electrostatic adsorption anti-lifting assembly 4 is arranged on the upper wall in the material dust-proof production crushing box 1, the wind power dust-absorbing assembly 3 comprises a dust collector 5, a dust collection box 6 and a dust conveying pipe 7, the dust collector 5 is arranged on the side wall of the material dust-proof production crushing box 1 and is positioned above the crushing and screening integrated production assembly 2, the dust collection box 6 is arranged in a cavity, the dust conveying pipe 7 is connected on the dust collector, the component 4 is prevented raising by electrostatic adsorption includes electrostatic generator 8 and dust adsorption plate 9, the upper wall is equipped with ann slot 10 in the broken case 1 of dustproof production of material, dust adsorption plate 9 can be installed and removed in installing slot 10, electrostatic generator 8 and dust adsorption plate 9 are connected.

The crushing and screening integrated production assembly 2 comprises a crushing shaft 11, a crushing rotary vane 12, a crushing motor 13 and a supporting partition plate 14, wherein the supporting partition plate 14 is arranged as a screen, the supporting partition plate 14 is arranged on the inner wall of the material dustproof production crushing box 1, the crushing shaft 11 is rotatably arranged on the supporting partition plate 14, the crushing rotary vanes 12 are uniformly distributed on the periphery of the crushing shaft 11, the crushing motor 13 is arranged on the supporting partition plate 14, the output end of the crushing motor is arranged on the crushing shaft 11, the supporting partition plate 14 divides the material dustproof production crushing box 1 into a material receiving cavity 15 and a crushing cavity 16, the material receiving cavity 15 is positioned below the supporting partition plate 14, and the crushing cavity 16 is positioned above the supporting partition plate 14 and at the position of the crushing shaft 11; the upper end of the material dustproof production crushing box 1 is provided with an inclined section 17, and the inclined section 17 is provided with a feeding hole 18; a protective net 19 is arranged at the air inlet of the dust collector 5, and the caliber of the protective net 19 is larger than the particle size of material dust and smaller than the particle size of required crushing; the support partition plate 14 is provided with a vibrator 20.

When the dust-proof production crushing box is used specifically, high-temperature-resistant materials are put into the material dust-proof production crushing box 1 from the feeding hole 18 by workers, the workers start the crushing motor 13, the electrostatic generator 8, the dust collector 5 and the vibrator 20, the crushing motor 13 drives the crushing shaft 11 and the crushing rotary vanes 12 on the crushing shaft to crush materials falling into the crushing cavity 16, simultaneously, generated dust is adsorbed by the dust collector 5 and is conveyed into the dust collection box 6 through the dust conveying pipe 7, the protective net 19 at the air inlet of the dust collector 5 can prevent large particles with required particle size from being adsorbed and simultaneously prevent the dust collector 5 from being blocked, and the residual rising dust generated in the crushing process is blocked and delayed when passing through the inclined section 17, the electrostatic generator 8 enables the dust adsorption plate 9 to generate electrostatic adsorption residual dust, the materials crushed to proper size pass through the supporting and separating plate 14 and fall into the material collection cavity 15, and the workers can take materials from the material cavity after the crushing is completed, and the dust adsorption plate 9 is taken out from the insertion groove 10 for cleaning.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (5)

1. The utility model provides a dust shaker for production high temperature resistant material which characterized in that: the material dust-proof production crushing box is arranged in a hollow cavity, the crushing and screening integrated production assembly is arranged in the material dust-proof production crushing box, the wind power dust collection assembly is arranged on the material dust-proof production crushing box, the electrostatic adsorption anti-lifting assembly is arranged on the upper wall in the material dust-proof production crushing box, the wind power dust collection assembly comprises a dust collector, a dust collection box and a dust conveying pipe, the dust collector is arranged on the side wall of the material dust-proof production crushing box and is positioned above the crushing and screening integrated production assembly, the dust collection box is arranged in the cavity, the dust conveying pipe is connected to the dust collector and the dust collection box, the electrostatic adsorption anti-lifting assembly comprises an electrostatic generator and a dust adsorption plate, and an inserting groove is formed in the upper wall in the material dust-proof production crushing box, the dust adsorption plate can be arranged in the inserting groove in a detachable mode, and the electrostatic generator is connected with the dust adsorption plate.

2. A dust collector for producing high temperature resistant material according to claim 1, characterized in that: broken integrative production subassembly of screening includes broken axle, broken rotary vane, broken motor and support division board, the support division board is the screen cloth setting, the material is located to the support division board and is prevented dust production broken incasement wall, broken axle is rotatable to be located on the support division board, broken rotary vane evenly distributed is in broken axle periphery, broken motor is located on the support division board and the output is located broken epaxially, the support division board separates the dustproof production broken case of material for receipts material chamber and broken chamber, the receipts material chamber is located the support division board below, broken chamber is located the position that the broken axle of support division board top was located.

3. A dust collector for producing high temperature resistant material according to claim 1, characterized in that: the material dustproof production crushing box upper end is equipped with the slope section, be equipped with the feed inlet on the slope section.

4. A dust collector for producing high temperature resistant material according to claim 1, characterized in that: the dust collector is characterized in that a protective net is arranged at the air inlet of the dust collector, and the caliber of the protective net is larger than the particle size of material dust and smaller than the particle size of required crushing.

5. A dust collector for producing high temperature resistant material according to claim 2, characterized in that: and a vibrator is arranged on the supporting partition plate.

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