CN-224220983-U - Dust collecting equipment that broken usefulness of enhancement mode rubble

Abstract

The utility model relates to dust removing equipment for enhanced broken stone, which comprises a pulse bag dust collector, a guide and a dust discharging assembly, wherein a plurality of groups of pulse air charging pipes which are arranged side by side are integrated in an outer shell, so that the dust removing efficiency is improved as required, the number of air inlets is also multiple, air to be processed can be respectively connected to a plurality of different air inlets, and then the positions of the pulse air charging pipes are subjected to purification treatment, so that dust generated in high-power broken stone treatment can be easily treated. And the air inlet and the air outlet adopt the same group of equipment, so that the centralized management is convenient, and the space arrangement is saved. Compared with the mode of processing by a plurality of independent processing equipment, the device not only improves the capability of intensively processing the dust-polluted dust gas, but also has reasonable space arrangement and small occupied space.

Inventors

• Hu xinshan

Assignees

• 灵寿县坤鹏矿产品有限公司

Dates

Publication Date

20260512

Application Date

20250704

Claims (8)

1. 1. A dust collection device for enhanced crushed stone, comprising: the pulse bag type dust collector (1) is provided with an outer shell (11), a plurality of groups of dust collector units (12) which are arranged side by side are arranged in the outer shell (11), the dust collector units (12) are provided with a plurality of groups of pulse inflation pipes (121) and filter cloth (122), and a plurality of groups of air inlets (13) are arranged below the outer shell (11); an introducer (2) having an adsorption blower (21), an introduction pipe (22), and a discharge pipe (23), wherein the introduction pipe (22) is connected to the upstream of the adsorption blower (21), and the discharge pipe (23) is connected to the downstream of the adsorption blower (21); Dust discharge subassembly (3) has discharge motor (31), spiral auger (32) and collecting pipe (33), the below of shell body (11) has arc collecting pipe body (34), the lateral part of arc collecting pipe body (34) sets up discharge motor (31), arc collecting pipe body (34) inside arrangement spiral auger (32), discharge motor (31) are connected spiral auger (32), spiral auger (32) have left side spiral section (321), right side spiral section (322) and middle part unloading section (323), the below of middle part unloading section (323) sets up collecting pipe (33).
2. 2. The dust removal device for the crushing of reinforced crushed stone according to claim 1, characterized in that the intermediate blanking section (323) has a plurality of groups of scrapers (3231) arranged in parallel in the axial direction, the collecting pipe (33) being arranged below the scrapers (3231).
3. 3. The dust removing apparatus for enhanced crushed stone as claimed in claim 1, wherein the top of the outer case (11) has an opening portion (113), the opening portion (113) is provided with a mounting plate (114), and the mounting plate (114) is detachably connected to a mounting side wall of the opening portion (113) by a screw.
4. 4. The dust removal apparatus for enhanced crushed stone as claimed in claim 1, wherein the outer housing (11) has a plurality of sets of reinforcing ribs (111) arranged vertically and laterally, the side of the outer housing (11) having a climbing assembly (112), the climbing assembly (112) having a climbing ladder (1121) and a circular guardrail structure (1122).
5. 5. The dust removal device for enhanced crushed stone as claimed in claim 1, wherein the guide (2) has a mounting frame (24), the suction fan (21) is provided at the inner bottom of the mounting frame (24), one side of the mounting frame (24) has a ladder structure (25), and the upper part of the mounting frame (24) has a mounting platform (26), the upper part of the mounting platform (26) has an upper eduction tube (27), and the upper eduction tube (27) is connected with a lower discharge tube (23).
6. 6. The dust collection device for the crushing of reinforced crushed stone according to claim 1, characterized in that the collection pipe (33) has a hopper portion (331) and a discharge pipe (332), the discharge pipe (332) being arranged transversely and outlets (333) being arranged on both sides of the discharge pipe (332).
7. 7. The dust removal device for enhanced crushed stone as claimed in claim 1, characterized in that the intermediate blanking section (323) has a scraping brush (3232).
8. 8. The dust removing device for the enhanced crushed stone as claimed in claim 1, wherein each group of pulse gas charging pipes (121) is provided with a gas charging pipe main pipe (1211), a branch pipe (1212) and gas charging heads (1213), a plurality of groups of the branch pipe (1212) are arranged on the gas charging pipe main pipe (1211), a plurality of groups of the gas charging heads (1213) are arranged below the branch pipe (1212), and each group of the gas charging heads (1213) is matched with the upper part of a single filter cloth (122).

Description

Dust collecting equipment that broken usefulness of enhancement mode rubble Technical Field The utility model relates to a dust removing technology, in particular to a technology for enhancing dust discharge by a plurality of groups of dust removing units. Background The pulse bag type dust removal technology is a very important dust removal device in the prior art. However, when dust is removed in broken stone, more dust is generated in broken stone or broken stone is larger in broken stone area, so that the pulse cloth bag dust removing equipment with a single processing unit is difficult to achieve the effect of matching high-intensity operation. The main components of the pulse bag type dust collection device comprise an air inlet, a box body, filtering dust collection cloth, a pulse air injection assembly and an air outlet, wherein air to be purified enters the box body from the air inlet, moves upwards from bottom to top, is filtered and adsorbed through a plurality of filtering dust collection cloths, and is discharged from the top air outlet. The pulse jet assembly jets air periodically, and dust on the dust removing cloth blows down to be collected. The structure and working principle of the pulse bag-type dust removing device belong to the prior art, and are not repeated here. Therefore, in principle, the filtering dust-removing cloth and the pulse air-jet assembly belong to core components, and can improve the overall efficiency of dust removal and ash removal, so that if the structure is integrally improved, the dust-removing cloth can adapt to the dust-removing work with higher strength so as to adapt to the problem that dust easily generated in broken crushed stone cannot be cleaned in time. Disclosure of utility model Accordingly, the present utility model has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present utility model to provide a technique for enhancing processing power. In order to achieve the above object, the present utility model provides a dust removing apparatus for enhanced crushed stone crushing, comprising a pulse bag dust collector, a guide and a dust discharging assembly; the pulse bag-type dust collector is provided with an outer shell, a plurality of groups of dust collector units are arranged in parallel in the outer shell, each dust collector unit is provided with a plurality of groups of pulse inflation pipes and filter cloth, and a plurality of groups of air inlets are arranged below the outer shell; the guide device is provided with an adsorption fan, an introduction pipe and a discharge pipe, wherein the upstream of the adsorption fan is connected with the introduction pipe, and the downstream of the adsorption fan is connected with the discharge pipe; The dust discharging assembly is provided with a discharging motor, a spiral auger and a collecting pipe, wherein an arc-shaped collecting pipe body is arranged below the outer shell body, the discharging motor is arranged on the side portion of the arc-shaped collecting pipe body, the spiral auger is arranged inside the arc-shaped collecting pipe body, the discharging motor is connected with the spiral auger, the spiral auger is provided with a left side spiral section, a right side spiral section and a middle blanking section, and the collecting pipe is arranged below the middle blanking section. Preferably, the middle blanking section is provided with a plurality of groups of scrapers which are arranged in parallel along the axial direction, and the collecting pipe is arranged below the scrapers. Preferably, the top of the outer shell is provided with an opening, the opening is provided with a mounting plate, and the mounting plate is detachably connected to a mounting side wall of the opening through a screw. Preferably, the outer housing has sets of strengthening ribs arranged vertically and laterally, the sides of the outer housing having climbing assemblies with climbing ladder and circular guardrail structures. Preferably, the guide has a mounting frame, the inside bottom of the mounting frame is provided with the adsorption fan, one side of the mounting frame is provided with a ladder structure, the upper part of the mounting frame is provided with a mounting platform, the upper part of the mounting platform is provided with an upper eduction tube, and the upper eduction tube is connected with a discharge tube below. Preferably, the collecting pipe has a hopper portion and a discharge pipe which is arranged transversely and on both sides of which outlets are arranged. Preferably, the intermediate blanking section has a scraping brush. Preferably, each group of pulse inflation pipes is provided with an inflation pipe main pipe, branch pipelines and inflation heads, a plurality of groups of branch pipelines are arranged on the inflation pipe main pipe, a plurality of groups of inflation heads are arranged below the branch pipelines, and each group of in