CN112501893A - Double-channel dust removal device - Google Patents

Abstract

The invention relates to the field of carbon felt and graphite felt processing, and discloses a double-channel dust removal device which comprises a dust removal component and a driving component for driving the dust removal component to move, wherein a first dust removal channel and a second dust removal channel are respectively arranged at the upper end and the lower end of the dust removal component, the first dust removal channel and the second dust removal channel are groove channels, dust suction ports are respectively arranged at the bottom and the side wall of the groove channel, and the driving component drives the dust removal component to reciprocate in the linear direction, so that the first dust removal channel and the second dust removal channel can respectively pass through a single felt body at an initial position and a lifting position. The invention removes dust on each surface of the monolithic felt body at the initial position and the lifting position by arranging the first dust removal channel and the second dust removal channel which are symmetrical up and down aiming at the monolithic felt body formed by processing the raw materials of the carbon felt and the graphite felt, and can treat certain critical surfaces at least twice.

Description

Double-channel dust removal device

Technical Field

The invention relates to the field of carbon felt and graphite felt processing, in particular to a double-channel dust removal device.

Background

Graphite felt and carbon felt because of the preparation process and method of the material, the felt body inevitably generates a plurality of carbon fiber flocks or contamination foreign matters, so the felt body needs to be subjected to dust removal treatment. The existing dust suction device is generally designed for carbon felt and graphite felt raw materials, the carbon felt and graphite felt raw materials are coil materials with certain width, a series of processing technologies such as cutting, rolling and shaping are needed before the carbon felt and graphite felt raw materials are used for a final product, and then a monolithic felt body which can be directly used is formed. In the process, carbon fibers, scraps, foreign matters mixed in the surface layer and the like are generated on the surface of the monolithic felt body, and related equipment for dedusting the monolithic felt body before the using process is not available at present.

Disclosure of Invention

The invention aims to provide a double-channel dust removal device for a single felt body formed after processing a carbon felt and a graphite felt coil, which is used for removing carbon fibers, scraps and foreign matters mixed in a surface layer generated in the processing process of the surface of the single felt body.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a binary channels dust collector for remove dust at initial position and lift position monolithic felt body, drive assembly including dust removal subassembly and drive dust removal subassembly displacement, the upper and lower both sides of dust removal subassembly are equipped with first dust removal passageway and second dust removal passageway respectively, first dust removal passageway, second dust removal passageway are groove channel, and are located be equipped with the dust absorption mouth on groove channel's bottom and the lateral wall respectively, drive assembly drive dust removal subassembly is reciprocating motion at rectilinear direction, makes first dust removal passageway, second dust removal passageway can be respectively through the monolithic felt body who lifts position, initial position.

The double-channel dust removal device is used for removing dust of the single felt body by matching with the carrying device in the dust removal process of the single felt body, the single felt body is lifted to the lifting position from the initial position through the carrying device, and in the reciprocating motion process of the dust removal assembly, the single felt body located at the initial position and the single felt body located at the lifting position respectively pass through the first dust removal channel and the second dust removal channel of the dust removal assembly, so that dust removal of each surface of the single felt body is achieved.

Furthermore, brushes are arranged on the first dust removal channel and the second dust removal channel, are arranged on the front side or/and the rear side of the first dust removal channel and the second dust removal channel and cover the bottoms and the side walls of the first dust removal channel and the second dust removal channel, and therefore the single felt body can be simultaneously contacted with the brushes when passing through the first dust removal channel or the second dust removal channel.

Furthermore, the dust removal assembly comprises a mounting bracket and a connecting bracket, the mounting bracket is an H-shaped bracket, groove channels arranged on the upper side and the lower side of the H-shaped bracket are respectively a first dust removal channel and a second dust removal channel, the connecting bracket is arranged on the front side and the rear side of the mounting bracket and used for fixing the mounting bracket on the driving assembly, and the brush is mounted on the connecting bracket.

Further, both ends are equipped with first bellying and second bellying respectively about installing support, are located the inside of first bellying and second bellying is equipped with the cavity of being connected with dust extraction, be equipped with bottom dust absorption passageway, lateral wall dust absorption passageway on the installing support, the one end of bottom dust absorption passageway, lateral wall dust absorption passageway and the cavity intercommunication of first bellying or second bellying, the other end and the bottom and the lateral wall intercommunication of first dust removal passageway, second dust removal passageway are in order to form the dust absorption mouth of bottom and lateral wall.

Further, the bottom dust suction channel and the side wall dust suction channel are respectively arranged on the side wall and the bottom of the front side and the rear side of the mounting bracket and are sealed through connecting brackets arranged on the front side and the rear side of the mounting bracket.

Further, be equipped with a plurality of flow distribution plates in the dust absorption passageway of bottom, it is a plurality of the one end of flow distribution plate extends to the cavity interval distribution of first bellying or second bellying, and the other end is bent and is upwards extended to bottom interval distribution, has formed the flow distribution passageway that leads to the bottom by the cavity of first bellying or second bellying between the adjacent flow distribution plate to a plurality of interval arrangement's dust absorption mouth has been formed at the bottom.

Further, the connecting bracket extends to the first boss portion and the second boss portion side, and forms an inner wall of the cavity.

Further, any end of the connecting bracket extends to the outer side of the first protruding part or the second protruding part, and is connected with a movable plate, and the movable plate is connected with the driving assembly.

Further, drive assembly includes the mounting panel and fixes step motor, ball, linear guide and the slider on the mounting panel, the step motor output is connected with ball, the fly leaf is connected with ball and is made the linear motion that reciprocates on linear guide through the slider.

Compared with the prior art, the invention has the following beneficial effects:

according to the single felt body after processing, a first dust removal channel and a second dust removal channel are respectively arranged on the upper side and the lower side of a dust removal component, the dust removal component is driven by a first driving component to do linear reciprocating motion, the first dust removal channel and the second dust removal channel sequentially pass through the single felt body at an initial position and the single felt body at a lifting position in the process, dust collection ports located at the bottom and the side wall of the first dust removal channel and the second dust removal channel respectively remove dust on different surfaces of the single felt body in the process that the single felt body passes through the first dust removal channel and the second dust removal channel, and the surfaces of the single felt body are processed through twice dust removal. Furthermore, the first dust removal channel and the second dust removal channel are provided with the brushes, and the brushes are combined with the vacuum adsorption mode through sweeping, so that the brushes are used for removing scraps, carbon fiber flocks and the like which are not easy to be adsorbed by vacuum on the surface of the single felt body.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of a monolithic felt structure.

Fig. 2 is a schematic structural diagram of the two-channel dust removing device.

Fig. 3 is a schematic structural diagram of the dust removing assembly.

Fig. 4 is a front view of the dust removing assembly.

Fig. 5 is an exploded view of the dust extraction assembly.

Fig. 6 is a schematic structural view of a mounting bracket.

Fig. 7 is an exploded view of the dual channel dust removing device.

The dust removing device comprises a dust removing component 1, a driving component 2, a brush 3, a first dust removing channel 11, a second dust removing channel 12, a dust suction port 13, a mounting bracket 14, a connecting bracket 15, a movable plate 16, a mounting plate 21, a stepping motor 22, a ball screw 23, a linear guide rail 24, a sliding block 25, a first projection 141, a second projection 142, a cavity 143, a bottom dust suction channel 144, a side wall dust suction channel 145 and a flow distribution plate 1441.

Detailed Description

The present invention will be further described with reference to the following detailed description, wherein the drawings are provided for illustrative purposes only and are not intended to be limiting; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example 1

As shown in fig. 1, the single felt in this embodiment refers to a used product formed by cutting a carbon felt and a graphite felt raw material (roll material) after all processing and treatment processes. The monolithic felt body comprises six surfaces (a plane A1, a plane A2, a plane B1, a plane B2, a plane C1 and a plane C2) which are to be dedusted.

As shown in fig. 2, the present embodiment provides a dual-channel dust removing device, which is used for removing dust from a single felt body at an initial position and a lifting position, and includes a dust removing component 1 and a driving component 2 for driving the dust removing component 1 to move, as shown in fig. 3 to 4, a first dust removing channel 11 and a second dust removing channel 12 are respectively disposed on upper and lower sides of the dust removing component 1, the first dust removing channel 11 and the second dust removing channel 12 are groove channels, and dust suction ports 13 are respectively disposed on the bottom and side walls of the groove channels, and the driving component 2 drives the dust removing component 1 to reciprocate in a linear direction, so that the first dust removing channel 11 and the second dust removing channel 12 can respectively pass through the single felt body at the initial position and the lifting position.

It should be noted that, in the dual-channel dust removal device of this embodiment, in the process of removing dust from the monolithic felt, the carrying device needs to be matched with to remove dust from the monolithic felt, and the carrying device lifts the monolithic felt from the initial position to the lifting position, and in the process of reciprocating movement of the dust removal assembly, the monolithic felt located at the lifting position and the monolithic felt located at the initial position respectively pass through the first dust removal channel 11 and the second dust removal channel 12 of the dust removal assembly, so that dust removal of each surface of the monolithic felt is achieved. In this embodiment, the first dust removing channel 11 and the second dust removing channel 12 are both groove channels and are not closed structures, so that the single felt bodies can be sequentially transported to the initial position by using a conventional lifting platform, and similarly, the single felt bodies can be lifted from the initial position to the lifting position by using a conventional suction cup accessory, which is not described in detail in this embodiment.

When the monolithic felt body is transported to the initial position, the C2 surface of the monolithic felt body is a downward supported surface and cannot be in contact with the side wall and the bottom of the second dust removal channel 12, and the other five surfaces of the monolithic felt body can pass through the second dust removal channel. Similarly, when the monolithic felt is transported to the lifted position, the C1 side of the monolithic felt is the upward sucked side, and the other five sides can pass through the first dust removal passage 11.

Through the scheme, the double-channel dust removal device achieves dust removal on multiple surfaces of the monolithic felt body, and particularly can process critical surfaces (a plane A1, a plane A2, a plane B1 and a plane B2) at least 2 times within a round-trip travel range. Meanwhile, the movement speed and the reciprocating times of the dust removal component 1 are controlled by the driving component 2, the processing speed and the processing times of the single felt body are controlled, and the processed single felt body can be directly applied to product assembly.

Referring to fig. 3 again, brushes 3 are further disposed on the first dust removing channel 11 and the second dust removing channel 12, the brushes 3 are mounted on the front side or/and the rear side of the first dust removing channel 11 and the second dust removing channel 12, and cover the bottom and the side wall of the first dust removing channel 11 and the second dust removing channel 12, so that the monolithic felt can contact with the brushes 3 when passing through the first dust removing channel 11 or the second dust removing channel 12.

It can be understood that the brushes 3 should be arranged corresponding to the cross sections of the first dust removing channel 11 and the second dust removing channel 12, so that the single felt body can pass through the first dust removing channel 11 and the second dust removing channel 12 without being affected, because the first dust removing channel 11 and the second dust removing channel 12 are groove channels in the embodiment, the brushes arranged at the front side and the rear side of the groove channels can be two vertically arranged brushes and one transversely arranged brush, the three brushes form a concave cross section and are arranged at the front side and the rear side of the first dust removing channel 11 and the second dust removing channel 12, and therefore the single felt body can be simultaneously contacted with the brushes 3 when passing through the first dust removing channel 11 or the second dust removing channel 12.

In the scheme, considering that chips, carbon fiber flocks and the like which are not easy to fall off are formed on the surface of the carbon felt and the graphite felt in the processing processes of cutting, rolling, shaping and the like, the flocks on the surface cannot fall off or be stripped only by the negative pressure suction force of the conventional dust suction device. Therefore, in the present embodiment, the brushes 3 are disposed on the first dust removal channel 11 and the second dust removal channel 12, and the two forms of sweeping and vacuum absorption are combined, so as to achieve the purpose of removing the debris on the surfaces of the carbon felt and the graphite felt, the carbon fiber flock and the like.

As shown in fig. 5 to 6, as a preferable scheme of this embodiment, the dust removing assembly 1 includes a mounting bracket 14 and a connecting bracket 15, the mounting bracket 14 is an H-shaped bracket, the groove channels disposed on the upper and lower sides of the H-shaped bracket are respectively a first dust removing channel 11 and a second dust removing channel 12, the connecting brackets 15 are respectively disposed on the front and rear sides of the mounting bracket 14 for fixing the mounting bracket 14 on the driving assembly 2, and the brush 3 is mounted on the connecting bracket 15.

Furthermore, the left end and the right end of the mounting bracket 14 are respectively provided with a first protruding portion 141 and a second protruding portion 142, a cavity 143 connected with the dust suction device is arranged inside the first protruding portion 141 and the second protruding portion 142, the mounting bracket 14 is provided with a bottom dust suction channel 144 and a side wall dust suction channel 145, one end of the bottom dust suction channel 144 and one end of the side wall dust suction channel 145 are communicated with the cavity 143 of the first protruding portion 141 or the second protruding portion 142, and the other end of the bottom dust suction channel 144 and the other end of the side wall dust suction channel 145 are communicated with the bottom of the first dust removal channel 11 and the bottom and the side wall of the second dust removal channel 12 to form a dust suction.

Further, in order to facilitate cleaning and maintenance of the bottom suction passage 144 and the side wall suction passage 145, the bottom suction passage 144 and the side wall suction passage 145 are respectively provided on the side wall and the bottom of the front and rear sides of the mounting bracket 14, and are sealed by the connecting brackets 15 provided on the front and rear sides of the mounting bracket 14. When the bottom suction passage 144 and the side wall suction passage 145 need to be cleaned and maintained, the connecting bracket 15 is detached.

Similarly, in consideration of cleaning the cavity 143 in the first boss 141 and the second boss 142, the connecting bracket 15 in the present embodiment also extends to the first boss 141 and the second boss 142 side and forms an inner wall of the cavity 143. When the cavity 143 in the first protruding portion 141 and the second protruding portion 142 needs to be cleaned, the connecting bracket 15 only needs to be detached.

Further, a plurality of flow distribution plates 1441 are arranged in the bottom dust suction channel 144, one end of each of the flow distribution plates 1441 extends to the cavity 143 of the first protruding portion 141 or the second protruding portion 142 at intervals, the other end of each of the flow distribution plates 1441 is bent and extends upwards to the bottoms of the first dust removal channel 11 and the second dust removal channel 12 at intervals, and a flow distribution channel leading to the bottoms of the first dust removal channel 11 and the second dust removal channel 12 from the cavity 143 of the first protruding portion 141 or the second protruding portion 142 is formed between the adjacent flow distribution plates 1441. In the present embodiment, the splitter plate 1441 is disposed in the bottom dust suction passage 144, and a plurality of splitter passages and dust suction ports are formed at the bottom of the splitter plate 1441, so that the dust suction efficiency at the bottom of the first dust removal passage 11 and the second dust removal passage 12 is improved.

As shown in fig. 7, the dust removing assembly and the driving assembly are mounted and connected as follows: either end of the connecting bracket 15 extends to the outside of the first boss 141 or the second boss 142, and is connected with the movable plate 16, and is connected with the driving assembly 2 through the movable plate 16. Specifically, the driving assembly 2 includes a mounting plate 21, and a stepping motor 22, a ball screw 23, a linear guide 24 and a slider 25 fixed on the mounting plate 21, wherein an output end of the stepping motor 22 is connected to the ball screw 23, the movable plate 16 is connected to the ball screw 23 and moves linearly back and forth on the linear guide 24 via the slider 25, and the movable plate 16 drives the mounting bracket 14 to move linearly back and forth.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited thereto. Within the scope of the technical idea of the invention, numerous simple modifications can be made to the technical solution of the invention, including combinations of the individual specific technical features in any suitable way. The invention is not described in detail in order to avoid unnecessary repetition. Such simple modifications and combinations should be considered within the scope of the present disclosure as well.

Claims (9)

1. The utility model provides a binary channels dust collector for remove dust at initial position and lift position monolithic felt body, its characterized in that, drive assembly (2) including dust removal subassembly (1) and drive dust removal subassembly (1) displacement, the upper and lower both sides of dust removal subassembly (1) are equipped with first dust removal passageway (11) and second dust removal passageway (12) respectively, first dust removal passageway (11), second dust removal passageway (12) are groove channel, and are located be equipped with dust absorption mouth (13) on groove channel's bottom and the lateral wall respectively, drive assembly (2) drive dust removal subassembly (1) are reciprocating motion at rectilinear direction, make first dust removal passageway (11), second dust removal passageway (12) can be respectively through the monolithic felt body of lift position, initial position.

2. The dual channel dust removing device of claim 1, wherein brushes (3) are further arranged on the first dust removing channel (11) and the second dust removing channel (12), the brushes (3) are arranged on the front side or/and the rear side of the first dust removing channel (11) and the second dust removing channel (12) and cover the bottom and the side wall of the first dust removing channel (11) and the second dust removing channel (12), so that the single felt body can be simultaneously contacted with the brushes (3) when passing through the first dust removing channel (11) or the second dust removing channel (12).

3. The dual-channel dust removing device according to claim 2, wherein the dust removing assembly (1) comprises a mounting bracket (14) and a connecting bracket (15), the mounting bracket (14) is an H-shaped bracket, the groove channels arranged at the upper side and the lower side of the H-shaped bracket are respectively a first dust removing channel (11) and a second dust removing channel (12), the connecting bracket (15) is respectively arranged at the front side and the rear side of the mounting bracket (14) and used for fixing the mounting bracket (14) on the driving assembly (2), and the brush (3) is arranged on the connecting bracket (15).

4. The dual-channel dust removing device according to claim 3, wherein a first protruding portion (141) and a second protruding portion (142) are respectively arranged at the left end and the right end of the mounting bracket (14), a cavity (143) connected with the dust removing device is arranged inside the first protruding portion (141) and the second protruding portion (142), a bottom dust suction channel (144) and a side wall dust suction channel (145) are arranged on the mounting bracket (14), one end of the bottom dust suction channel (144) and one end of the side wall dust suction channel (145) are communicated with the cavity (143) of the first protruding portion (141) or the second protruding portion (142), and the other end of the bottom dust suction channel (144) and one end of the side wall dust suction channel (145) are communicated with the bottom of the first dust suction channel (11), the bottom of the second dust suction channel (12) and the side wall to form a dust.

5. The dual channel dust removing device according to claim 4, wherein the bottom dust suction channel (144) and the side wall dust suction channel (145) are respectively provided on the side wall and the bottom of the front and rear sides of the mounting bracket (14) and are sealed by the connecting brackets (15) provided on the front and rear sides of the mounting bracket (14).

6. The dual-channel dust removing device of claim 5, wherein a plurality of flow distribution plates (1441) are arranged in the bottom dust suction channel (144), one end of each flow distribution plate (1441) extends to the cavity (143) of the first protruding part (141) or the second protruding part (142) in a spaced manner, the other end of each flow distribution plate (1441) is bent and extends upwards to the bottom of the first dust removing channel (11) and the bottom of the second dust removing channel (12) in a spaced manner, and flow distribution channels leading from the cavity (143) of the first protruding part (141) or the second protruding part (142) to the bottoms of the first dust removing channel (11) and the second dust removing channel (12) are formed between the adjacent flow distribution plates (1441).

7. The dual channel dusting device of claim 4, whereby the connection bracket (15) extends to the first boss (141) and second boss (142) side and forms an inner wall of the cavity (143).

8. The dual channel dust removing device according to claim 4, wherein either end of the connecting bracket (15) extends to the outside of the first boss (141) or the second boss (142), and a movable plate (16) is connected, and the movable plate (16) is connected with the driving assembly (2).

9. The dual-channel dust removing device of claim 8, wherein the driving assembly (2) comprises a mounting plate (21), and a stepping motor (22), a ball screw (23), a linear guide rail (24) and a slider (25) which are fixed on the mounting plate (21), the output end of the stepping motor (22) is connected with the ball screw (23), and the movable plate (16) is connected with the ball screw (23) and linearly moves back and forth on the linear guide rail (24) through the slider (25).

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