CN214819856U - Dust collector is used in graphite processing - Google Patents

Abstract

The utility model relates to a graphite dust removal field, more specifically the dust collector for graphite processing that says so. This dust collector for graphite processing can carry out timely processing work to the graphite dust that produces in the graphite course of working to this device can blow dirt collection work to the graphite dust that falls in device work platform clearance. The main function realizing part of the device is provided with a processing structure, a dust collecting structure and a dust blowing structure. Wherein dust collecting structure and blow dirt structure and all set up on processing structure, dust collecting structure and blow dirt structure all with processing structure sliding connection. The processing structure is a main working structure for positioning, clamping and cutting the graphite raw material, and can bear and support the normal operation of dust removal; the dust collecting structure is mainly used for collecting and adsorbing graphite dust and can be matched with the dust blowing structure for dust removal; the dust blowing structure mainly removes dust of graphite dust attached to the device, and can form a stable air path with the dust collecting structure in the dust removing work.

Description

Dust collector is used in graphite processing

Technical Field

The utility model relates to a graphite dust removal field, more specifically the dust collector for graphite processing that says so.

Background

For example, the disclosure No. CN107364026A discloses a high-efficiency graphite dust removal processing device, which comprises a base, wherein a sliding groove is formed in the left side of the bottom of the base, a sliding block is connected to the inner cavity of the sliding groove in a sliding manner, a supporting plate is fixedly connected to the top of the sliding block, the top of the supporting plate extends to the outside of the sliding groove, an electric extension rod is fixedly connected to the right side of the inner cavity of the sliding groove, the left end of the electric extension rod is fixedly connected with the supporting plate, a motor is fixedly connected to the top of the left side of the supporting plate, a rotating shaft of the motor penetrates through the supporting plate and extends to the outside of the supporting plate, a sleeve is fixedly connected to the outside of the supporting plate, and threaded holes are formed in the top and the bottom of the sleeve. The suction nozzle, the exhaust fan and the collecting box are matched to absorb dust into the inner cavity of the collecting box, so that graphite can rotate in the inner cavity of the dust absorption pipe, the dead-corner-free dust removal is performed on the surface of the graphite, the dust removal efficiency of the graphite is greatly improved, the dust removal effect is good, and the product quality is improved. But the invention can not carry out dust blowing and collecting work on the graphite dust falling in the gap of the working platform of the device.

Disclosure of Invention

The utility model aims at providing a dust collector is used in graphite processing can blow the dirt collection work to the graphite dust that falls in device work platform clearance.

The purpose of the utility model is realized through the following technical scheme:

this dust collector for graphite processing can carry out timely processing work to the graphite dust that produces in the graphite course of working to this device can blow dirt collection work to the graphite dust that falls in device work platform clearance. The main function realizing part of the device is provided with a processing structure, a dust collecting structure and a dust blowing structure. Wherein dust collecting structure and blow dirt structure and all set up on processing structure, dust collecting structure and blow dirt structure all with processing structure sliding connection.

This dust collector's for graphite processing structure mainly includes processingequipment, fixed diaphragm, removal connecting rod, removal slide rail, location slide rail, unable adjustment base and fixed unit. Wherein the positioning slide rail is arranged at the lower side of the processing device and is fixedly connected with the processing device. The two movable connecting rods are arranged on the two fixed transverse plates respectively and are connected with the two fixed transverse plates in a sliding mode respectively. The processing device, the two fixed transverse plates, the two movable slide rails and the positioning slide rail are all fixedly arranged on the fixed base. The fixed unit is provided with a plurality of, and a plurality of fixed unit all sets up on the location slide rail, a plurality of fixed unit all with location slide rail sliding connection.

This dust collector's for graphite processing dust collecting structure mainly includes collection dirt diaphragm, collection dirt suction disc and suction opening. Wherein the dust collecting transverse plate is arranged on one movable slide rail, the dust collecting transverse plate is connected with one movable slide rail in a sliding way, and the dust collecting suction plate is fixedly arranged on the dust collecting transverse plate. The suction opening is provided with a plurality of suction openings which are all fixedly arranged on the dust collecting suction plate.

This dust collector's for graphite processing blow dirt structure mainly includes blows dirt diaphragm and blowing mouth. Wherein blow the dirt diaphragm setting on a movable slide rail, blow dirt diaphragm and a movable slide rail sliding connection, the mouth of blowing is provided with a plurality of, and a plurality of is blown the mouth and all is fixed the setting on blowing the dirt diaphragm, and a movable connecting rod is fixed to be set up on blowing the dirt diaphragm.

The utility model relates to a dust collector for graphite processing's beneficial effect does:

this dust collector for graphite processing can carry out timely processing work to the graphite dust that produces in the graphite course of working to this device can blow dirt collection work to the graphite dust that falls in device work platform clearance. Compared with dust removal gun heads arranged on two sides of a cutter on a common graphite processing device, the dust removal device can better perform dust removal work. Only to the graphite dust carry out single dust blowing and extract work can not carry out good dust removal processing with the graphite dust that adheres to on the work platform, not only the dust removal effect is not comprehensive enough, but also can spread a large amount of graphite dust in the production area. In conclusion, the device has the advantages of simple working principle, practical and reliable integral structure, strong flexibility and good dust removal effect, and can be put into practical production and use.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 shows schematically the overall structure of the invention in a perspective view;

fig. 2 shows schematically in a perspective view a processing structure of the invention;

fig. 3 schematically shows a dust collecting structure of the present invention in a perspective view;

figure 4 shows schematically in a perspective view a dust blowing arrangement according to the invention;

fig. 5 shows schematically a fixing unit of the invention in a perspective view;

fig. 6 shows schematically in a perspective view a movement of the device according to the invention;

fig. 7 shows schematically in perspective a rear view of the device of the invention.

In the figure: a processing structure 11; a dust collecting structure 12; a dust blowing structure 13; a processing device 21; fixing the transverse plate 22; a moving link 23; a movable slide rail 24; a positioning slide rail 25; a stationary base 26; a fixing unit 27; a dust collection horizontal plate 31; a dust collection suction plate 32; an air suction opening 33; a dust blowing transverse plate 41; an air outlet 42.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

According to the utility model relates to a dust collector for graphite processing, the embodiment combines fig. 1 to fig. 7 to show, wherein can see:

this dust collector for graphite processing can carry out timely processing work to the graphite dust that produces in the graphite course of working to this device can blow dirt collection work to the graphite dust that falls in device work platform clearance. The main function realizing parts of the device are a processing structure 11, a dust collecting structure 12 and a dust blowing structure 13. Wherein dust collecting structure 12 and blow dirt structure 13 all set up on processing structure 11, and dust collecting structure 12 and blow dirt structure 13 all with processing structure 11 sliding connection. The processing structure 11 is a main working structure for positioning, clamping and cutting the graphite raw material, and can bear the normal operation of the dust removal device supporting the device; the dust collection structure 12 is mainly used for collecting and adsorbing graphite dust and can be matched with the dust blowing structure 13 for dedusting; the dust blowing structure 13 mainly removes dust from graphite dust attached to the working platform of the device, and can form a stable air path with the dust collecting structure 12 during dust removal.

The processing structure 11 of the dust removing device for graphite processing mainly comprises a processing device 21, a fixed transverse plate 22, a movable connecting rod 23, a movable slide rail 24, a positioning slide rail 25, a fixed base 26 and a fixed unit 27. Wherein, the positioning slide rail 25 is arranged at the lower side of the processing device 21, and the positioning slide rail 25 is fixedly connected with the processing device 21. The number of the moving connecting rods 23 is two, the two moving connecting rods 23 are respectively arranged on the two fixed transverse plates 22, and the two moving connecting rods 23 are respectively connected with the two fixed transverse plates 22 in a sliding manner. The processing device 21, the two fixed transverse plates 22, the two movable slide rails 24 and the positioning slide rail 25 are all fixedly arranged on the fixed base 26. The fixing unit 27 is provided with a plurality of fixing units 27, the fixing units 27 are all arranged on the positioning slide rail 25, and the fixing units 27 are all connected with the positioning slide rail 25 in a sliding mode. The processing device 21 is a main working structure for processing the graphite raw material, various cutters capable of performing precision cutting processing are generally arranged on the processing device 21, and the device mainly embodies a dust removal link in the graphite processing process, so that the descriptions of the cutters are omitted. The two fixed cross plates 22 can provide driving force for the dust collecting structure 12 and the dust blowing structure 13 respectively through the connection action of the movable connecting rod 23. The movable connecting rod 23 and the movable sliding rail 24 provide the dust blowing structure 13 and the dust collecting structure 12 with the freedom of transverse movement on the horizontal working surface, so that the balanced stress transmission of the working structure can be ensured to be stable. The fixing unit 27 can perform overall mobile positioning reference work on the positioning slide rail 25, and typically, graphite raw materials are placed on a fixture on the fixing unit 27, and then the fixing unit 27 drives the fixture to move to a position convenient for cutting, and performs cutting work after performing reference positioning with a cutter. Wherein, the fixing units 27 are fixedly connected with each other, so as to ensure the stable supporting function of the clamp.

This dust collector for graphite processing's dust collecting structure 12 mainly collects the adsorption work to the graphite dust, can blow the cooperation of dirt structure 13 and carry out the dust removal work. The dust collecting structure 12 mainly includes a dust collecting cross plate 31, a dust collecting suction plate 32 and an air suction opening 33. The dust collecting transverse plate 31 is arranged on one movable slide rail 24, the dust collecting transverse plate 31 is connected with one movable slide rail 24 in a sliding way, and the dust collecting suction plate 32 is fixedly arranged on the dust collecting transverse plate 31. The plurality of air suction openings 33 are arranged, and the plurality of air suction openings 33 are all fixedly arranged on the dust collection suction plate 32. The dust collecting transverse plate 31 plays a role in collecting graphite dust in a dust removing structure, when the device needs to perform dust removing work, the dust collecting transverse plate 31 performs transverse movement along the movable slide rail 24 under the action of the movable connecting rod 23, and finally moves to a proper working position, so that the positioning position of the graphite raw material is just positioned on a vertical bisector of the dust collecting transverse plate 31. The dust collection suction plate 32 can make the graphite dust adhere to the dust collection suction plate 32 through electrostatic adsorption, and prevent the graphite dust from floating in the air to pollute the working environment. The suction opening 33 can perform suction work and suck a certain amount of graphite dust, and can form an air passage with the blowing opening 42 to facilitate dust removal work.

The dust blowing structure 13 of the dust removing device for graphite processing mainly removes the graphite dust attached to the working platform of the device, and can form a stable air path with the dust collecting structure 12 during dust removal. The dust blowing structure 13 mainly comprises a dust blowing transverse plate 41 and an air blowing opening 42. Wherein blow dirt diaphragm 41 and set up on a movable slide rail 24, blow dirt diaphragm 41 and a movable slide rail 24 sliding connection, the mouth of blowing 42 is provided with a plurality of, and a plurality of mouth of blowing 42 is all fixed to be set up on blowing dirt diaphragm 41, and a removal connecting rod 23 is fixed to be set up on blowing dirt diaphragm 41. The dust blowing structure 13 is generally arranged symmetrically with the dust collecting structure 12, and the dust blowing structure and the dust collecting structure synchronously perform position movement and dust removal. The blowing port 42 and the suction port 33 are positioned in the same manner to each other, and can form an air passage with relatively rapid movement therebetween. While ventilation openings are provided at both sides of the fixing unit 27, which enable circulation of air inside the fixing unit 27. Due to the bernoulli principle, the air flow rate passing over the stationary unit 27 is significantly faster than the air flow rate passing inside the stationary unit 27, which enables the graphite dust in the gap on the work platform to be subjected to an upward lifting force and finally reach the dust collecting structure 12 via the air passage.

This dust collector for graphite processing can carry out timely processing work to the graphite dust that produces in the graphite course of working to this device can blow dirt collection work to the graphite dust that falls in device work platform clearance. Compared with dust removal gun heads arranged on two sides of a cutter on a common graphite processing device, the dust removal device can better perform dust removal work. Only to the graphite dust carry out single dust blowing and extract work can not carry out good dust removal processing with the graphite dust that adheres to on the work platform, not only the dust removal effect is not comprehensive enough, but also can spread a large amount of graphite dust in the production area. In conclusion, the device has the advantages of simple working principle, practical and reliable integral structure, strong flexibility and good dust removal effect, and can be put into practical production and use.

Claims (10)

1. The utility model provides a dust collector for graphite processing, includes processing structure (11), dust collection structure (12) and blows dirt structure (13), its characterized in that: the dust collecting structure (12) and the dust blowing structure (13) are both arranged on the processing structure (11).

2. The dust removing device for graphite processing according to claim 1, wherein: the processing structure (11) comprises a processing device (21) and a positioning slide rail (25), and the positioning slide rail (25) is arranged on the lower side of the processing device (21).

3. The dust removing device for graphite processing according to claim 2, wherein: the processing structure (11) further comprises two fixing transverse plates (22), and the number of the fixing transverse plates (22) is two.

4. The dust removing device for graphite processing according to claim 3, wherein: the processing structure (11) further comprises two movable connecting rods (23), and the two movable connecting rods (23) are respectively arranged on the two fixed transverse plates (22).

5. The dust removing device for graphite processing according to claim 4, wherein: the processing structure (11) further comprises two movable sliding rails (24), and the number of the movable sliding rails (24) is two.

6. The dust removing device for graphite processing according to claim 5, wherein: the processing structure (11) further comprises a fixed base (26), and the processing device (21), the two fixed transverse plates (22), the two movable sliding rails (24) and the positioning sliding rail (25) are all fixedly arranged on the fixed base (26).

7. The dust removing device for graphite processing according to claim 6, wherein: the processing structure (11) further comprises a fixing unit (27), the fixing unit (27) is provided with a plurality of fixing units, and the fixing units (27) are all arranged on the positioning slide rail (25).

8. The dust removing device for graphite processing according to claim 7, wherein: the dust collection structure (12) comprises a dust collection transverse plate (31) and a dust collection suction plate (32), the dust collection transverse plate (31) is arranged on a movable sliding rail (24), the dust collection suction plate (32) is fixedly arranged on the dust collection transverse plate (31), and a movable connecting rod (23) is fixedly arranged on the dust collection transverse plate (31).

9. The dust removing device for graphite processing according to claim 8, wherein: the dust collection structure (12) further comprises a plurality of air suction openings (33), and the air suction openings (33) are all fixedly arranged on the dust collection suction plate (32).

10. The dust removing device for graphite processing according to claim 9, wherein: blow dirt structure (13) including blowing dirt diaphragm (41) and blowing mouth (42), blow dirt diaphragm (41) and set up on a removal slide rail (24), and blowing mouth (42) are provided with a plurality of, and a plurality of blowing mouth (42) are all fixed to be set up on blowing dirt diaphragm (41), and a removal connecting rod (23) is fixed to be set up on blowing dirt diaphragm (41).

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