CN217569808U - Dust removing device - Google Patents

Abstract

The utility model discloses a dust collector, dust collector includes frame, tool platform, sweeps dirt subassembly, dust absorption subassembly, blows dirt subassembly and viscidity dirt subassembly, be equipped with the slide rail in the frame, tool platform slidable ground sets up on the slide rail, sweep the dirt subassembly dust absorption subassembly blow the dirt subassembly with the viscidity dirt subassembly all with the frame links to each other and follows the length direction of slide rail arranges in proper order, it is used for cleaning to sweep the dirt subassembly dust on the tool platform, the dust absorption subassembly is used for absorbing dust on the tool platform, it is used for sweeping the dirt subassembly dust on the tool platform, the viscidity dirt subassembly is used for the adhesion dust on the tool platform. The utility model discloses a dust collector is through sweeping dirt subassembly, dust absorption subassembly, blowing the setting of dirt subassembly and binding dust subassembly, clears up dust and dust on the tool platform in proper order, has improved the clean effect to dust and dust, has improved the equipment yield.

Description

Dust removing device

Technical Field

The utility model relates to a glass processing technology field especially relates to a dust collector.

Background

In the cutting process of glass, can produce dust and piece, in order to avoid causing the influence to follow-up processing, need often clear up the dust, to ordinary glass, generally directly adopt the dust catcher to clean, however, along with the gradual improvement of consumer electronics outward appearance, ultra-thin glass (UTG glass)'s use is more and more, adopts laser cutting to ultra-thin glass more, in laser cutting glass process, the timely thorough clearance of dust and piece is the key factor that laser equipment can last work. In the actual production process, the glass is scratched due to improper dust treatment of equipment, the yield of the equipment is reduced, faults occur frequently, the cleaning effect of the traditional dust collector cleaning mode on dust is poor, and the dust cannot be completely removed.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the related art to a certain extent. Therefore, the embodiment of the utility model provides a dust collector, dust collector can have the dust of effectively cleaing away the ultra-thin glass surface.

The utility model discloses dust collector includes frame, tool platform, sweeps dirt subassembly, dust absorption subassembly, blows dirt subassembly and viscous dust subassembly, be equipped with the slide rail in the frame, tool platform slidable ground sets up on the slide rail, sweep the dirt subassembly blow the dirt subassembly with the viscous dust subassembly all with the frame links to each other and follows the length direction of slide rail arranges in proper order, it is used for cleaning to sweep the dirt subassembly dust on the tool platform, the dust absorption subassembly is used for absorbing dust on the tool platform, it is used for sweeping to blow the dirt subassembly dust on the tool platform, the viscous dust subassembly is used for the adhesion dust on the tool platform.

The utility model discloses dust collector through sweeping dirt subassembly, dust absorption subassembly, blowing dirt subassembly and the setting of gluing dirt subassembly, clears up dust and dust on the tool platform in proper order, has improved the clean effect to dust and dust, has improved the equipment yield.

In some embodiments, the dust sweeping assembly comprises a screw rod sliding table module, a dust sweeping cylinder, a dust sweeping brush and a driving motor, and the screw rod sliding table module is connected with the rack and is positioned above the sliding rail; the cylinder body of the dust sweeping cylinder is connected with the lead screw sliding table module; the dust sweeping brushes are arranged along the length direction of the sliding rail, the dust sweeping brushes are connected with an air piston rod of a dust sweeping cylinder, and the dust sweeping cylinder can drive the dust sweeping brushes to ascend or descend; the driving motor is connected with the screw rod sliding table module, and the driving motor is used for driving the screw rod sliding table module to drive the dust sweeping cylinder to slide along the screw rod sliding table module.

In some embodiments, the screw rod sliding table module comprises a guide rail, a sliding table and a screw rod, wherein the sliding table is slidably arranged on the guide rail and is provided with a threaded hole; the lead screw runs through the screw hole and with slip table threaded connection, driving motor installs on the guide rail, just driving motor's output shaft with the one end of lead screw links to each other.

In some embodiments, the screw rod sliding table module is horizontally arranged and the length direction of the screw rod sliding table module is perpendicular to the length direction of the slide rail.

In some embodiments, the dust removing device further comprises a waste bin, the waste bin is arranged on one side of the slide rail, and the waste bin can contain dust swept by the dust sweeping brush from the jig platform.

In some embodiments, the dust collection assembly includes a first support, a dust extractor, and a dust extraction pipe, the first support is connected to the frame and located above the slide rail, the first support is horizontally disposed, and a length direction of the first support is perpendicular to a length direction of the slide rail; the dust extractor is slidably arranged on the first supporting piece, and a dust extraction power port is formed in the dust extractor; one end of the dust extraction pipeline is connected with the dust extractor, and the other end of the dust extraction pipeline is communicated with the waste bin.

In some embodiments, the dust blowing assembly comprises a second support, an ion wind generator, a dust blowing wind knife and a dust collection cover, and the second support is connected with the rack and positioned above the sliding rail; the ion wind generator is connected with the second supporting piece; the dust blowing air knife is connected with the ion air generator and used for converting the ion air generated by the ion air generator into high-strength impact air flow so as to blow dust on the jig platform; the dust collecting cover covers the second supporting piece, the ion wind generator and the dust blowing wind knife, and is communicated with the atmosphere through a wind suction pipeline.

In some embodiments, the dust blowing assembly further comprises two adjusting plates and an adjusting block, the two adjusting plates are oppositely arranged, a plurality of mounting holes are formed in the adjusting plates, two ends of the ion wind generator are respectively and adjustably matched in the mounting holes of the two adjusting plates, and the dust blowing air knife is arranged below the ion wind generator; the adjusting block is connected with the ion wind generator, and the adjusting block can drive the ion wind generator to rotate so as to adjust the blowing direction of the dust blowing air knife.

In some embodiments, the dust adhering assembly comprises a fixed plate, a roller adhering module and a dust adhering cylinder, the fixed plate is connected with the rack and is positioned above the sliding rail, a linear bearing is arranged on the fixed plate, and a guide column is arranged in the linear bearing; the adhesive roller module is connected with the lower end of the guide column; the cylinder body of the dust-sticking cylinder is connected with the fixed plate, the piston rod of the dust-sticking cylinder is connected with the guide post, and the dust-sticking cylinder can drive the adhesive roller module to ascend or descend.

In some embodiments, the roller sticking module comprises a lifting plate, a dust sticking roller, a buffer column and a buffer spring, wherein the lifting plate is connected with the lower end of the guide column; the dust adhering roller is arranged below the lifting plate; the two buffer columns are arranged, the upper ends of the two buffer columns penetrate through the lifting plate and are in sliding contact with the lifting plate, and the lower ends of the two buffer columns are connected with the two ends of the dust-binding roller respectively; the two buffer springs are respectively sleeved on the two buffer columns, the upper ends of the two buffer springs are connected with the lifting plate, and the lower ends of the two buffer springs are respectively connected with the two ends of the dust-binding roller.

Drawings

Fig. 1 is a schematic view of a dust removing apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic view of a dust sweeping assembly according to an embodiment of the present invention.

Fig. 3 is a schematic view of a dust collection assembly according to an embodiment of the present invention.

Fig. 4 is a schematic view of a dust blowing assembly according to an embodiment of the present invention.

Fig. 5 is a schematic view of a dust-binding assembly according to an embodiment of the present invention.

Reference numerals: a jig platform 11, a slide rail 12, a waste box 13,

a dust sweeping component 20, a screw rod sliding table module 21, a guide rail 211, a sliding table 212, a dust sweeping cylinder 22, a dust sweeping brush 23, a driving motor 24,

a dust suction assembly 30, a first supporting piece 31, a dust extractor 32, a dust extraction pipeline 33, a dust extraction power port 34,

a dust blowing component 40, a second supporting piece 41, an ion wind generator 42, a dust blowing wind knife 43, a dust deposition cover 44, an adjusting plate 45, an adjusting block 46,

the dust-binding component 50, the fixing plate 51, the roller-binding module 52, the lifting plate 521, the dust-binding roller 522, the buffer column 523, the buffer spring 524, the adjusting plate 525, the horizontal adjusting handle 526, the dust-binding cylinder 53, the linear bearing 54, the guide column 55 and the limiting block 56.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

The dust removing device according to the embodiment of the present invention is described below with reference to the drawings.

As shown in fig. 1, the dust removing apparatus of the embodiment of the present invention includes a frame, a jig platform 11, a dust sweeping assembly 20, a dust sucking assembly 30, a dust blowing assembly 40, and a dust adhering assembly 50. Wherein, be equipped with slide rail 12 in the frame, tool platform 11 slidable ground sets up on slide rail 12, sweep dirt subassembly 20, dust collection assembly 30, blow dirt subassembly 40 and dust binding assembly 50 and all link to each other with the frame and arrange along slide rail 12's length direction in proper order, sweep dirt subassembly 20 and be used for cleaning the dust on the tool platform 11, dust collection assembly 30 is used for absorbing the dust on the tool platform 11, blow dirt subassembly 40 and be used for blowing the dust on the tool platform 11, dust binding assembly 50 is used for the dust on the adhesion tool platform 11.

It should be noted that, after the jig platform 11 completes a product cutting action, the jig platform 11 slides along the slide rail 12 and stops when sliding to the position of the dust sweeping component 20, and the dust sweeping component 20 sweeps dust and dirt on the surface of the jig platform 11. After the dust sweeping action is completed, the jig platform 11 continues to slide along the slide rail 12 and stops when sliding to the position of the dust collection assembly 30, and the dust collection assembly 30 collects the dust and dust remaining in the groove of the jig platform 11. After the dust suction action is completed, the jig platform 11 continues to slide along the slide rail 12 and stops when sliding to the position of the dust blowing assembly 40, and the dust blowing assembly 40 blows and sweeps the tiny particles adsorbed on the surface of the jig platform 11 due to static electricity. After the purging operation is completed, the jig platform 11 continues to slide along the slide rail 12 and stops when sliding to the position of the dust adhering component 50, and the dust adhering component 50 adheres the glass fine dust on the surface of the jig platform 11, thereby completing the cleaning of the jig platform 11.

The utility model discloses dust collector clears up dust and dust on tool platform 11 in proper order through sweeping dirt subassembly 20, dust absorption subassembly 30, blowing dirt subassembly 40 and the setting of adhesion dust subassembly 50, has improved the clean effect to dust and dust, has improved the equipment yield.

As shown in fig. 2, in some embodiments, the dust sweeping assembly 20 includes a screw slide module 21, a dust sweeping cylinder 22, a dust sweeping brush 23 and a driving motor 24, the screw slide module 21 is connected to the frame and located above the slide rail 12; the cylinder body of the dust sweeping cylinder 22 is connected with the screw rod sliding table module 21; the dust-sweeping brush 23 is arranged along the length direction of the slide rail 12, the dust-sweeping brush 23 is connected with an air piston rod of the dust-sweeping cylinder 22, and the dust-sweeping cylinder 22 can drive the dust-sweeping brush 23 to ascend or descend; the driving motor 24 is connected with the screw rod sliding table module 21, and the driving motor 24 is used for driving the screw rod sliding table module 21 to drive the dust sweeping cylinder 22 to slide along the screw rod sliding table module 21.

Alternatively, the dust brush 23 may be an antistatic brush.

Further, the lead screw sliding table module 21 comprises a guide rail 211, a sliding table 212 and a lead screw, wherein the sliding table 212 is slidably arranged on the guide rail 211, and the sliding table 212 is provided with a threaded hole; the screw rod penetrates through the threaded hole and is in threaded connection with the sliding table 212, the driving motor 24 is installed on the guide rail 211, and an output shaft of the driving motor 24 is connected with one end of the screw rod.

Further, lead screw slip table module 21 level sets up and the length direction perpendicular to slide rail 12 of lead screw slip table module 21.

Furthermore, the dust removing device also comprises a waste box 13, the waste box 13 is arranged at one side of the slide rail 12, and the waste box 13 can contain dust cleaned by the dust cleaning brush 23 from the treatment platform 11.

It should be noted that, the dust-sweeping cylinder 22 drives the dust-sweeping brush 23 to move downward and make the dust-sweeping brush 23 contact with the jig platform 11, and then the driving motor 24 drives the screw rod to rotate, the screw rod drives the sliding table 212 to slide along the length direction of the screw rod sliding table module 21 under the action of the screw thread, and the sliding table 212 drives the dust-sweeping brush 23 to slide along the length direction of the screw rod sliding table module 21, so as to sweep the glass residue on the jig platform 11 into the waste bin 13.

As shown in fig. 3, in some embodiments, the dust suction assembly 30 includes a first support 31, a dust extractor 32 and a dust extraction pipe 33, the first support 31 is connected to the frame and located above the sliding rail 12, the first support 31 is horizontally disposed, and a length direction of the first support 31 is perpendicular to a length direction of the sliding rail 12; the dust extractor 32 is slidably mounted on the first support 31, a dust extraction power port 34 is arranged on the dust extractor 32, the dust extraction power port 34 is used for supplying air to the dust extractor 32, and negative pressure is formed in the dust extractor 32 after air supply to extract dust through the dust extraction pipeline 33; one end of the dust exhaust pipe 33 is connected to the dust exhaust 32, and the other end of the dust exhaust pipe 33 is connected to the waste bin 13.

Optionally, the number of dust extractors 32 is two.

It should be noted that, because of the requirement of the cutting process, there are two grooves on the jig platform 11, and the glass residue still remains in the grooves after the dust sweeping action. When the jig platform 11 moves to the dust suction assembly 30 after the dust sweeping action, the dust extractor 32 is adjusted to be right above the groove, then the dust extraction power port 34 starts supplying air to provide dust extraction power, and the dust extractor 32 sucks the fragments in the groove into the dust extraction pipeline 33 and blows the fragments into the waste bin 13 along the dust extraction pipeline 33.

As shown in fig. 4, in some embodiments, the dust blowing assembly 40 includes a second support 41, an ion wind generator 42, a dust blowing wind knife 43, and a dust deposition cover 44, the second support 41 is connected to the frame and located above the sliding rail 12; the ion wind generator 42 is connected to the second support 41; the dust blowing air knife 43 is connected with the ion air generator 42, and the dust blowing air knife 43 is used for converting the ion air generated by the ion air generator 42 into high-strength impact air flow to blow dust on the jig platform 11; the dust collecting cover 44 covers the outer sides of the second supporting member 41, the ion wind generator 42 and the dust blowing wind knife 43, and the dust collecting cover 44 is communicated with the atmosphere through a wind suction pipeline.

Further, the dust cover 44 is spaced 50mm from the surface of the jig platform 11, and a sealing soft curtain (not shown) is arranged below the dust cover 44.

It should be noted that, because the ultra-thin glass is easy to generate static electricity, some tiny particles are still adsorbed on the surface of the tool platform 11 after the dust sweeping action and the dust suction action. When the jig platform 11 moves to the dust blowing assembly 40 after the dust sweeping action and the dust suction action, the ion wind generator 42 is powered on and generates ion wind to blow the dust blowing wind knife 43, the dust blowing wind knife 43 further amplifies the ion wind and forms a high-speed airflow sheet under the action of the coanda effect, the airflow sheet blows away the tiny particles on the surface of the jig platform 11, and the dust cover 44 collects the blown away tiny particles and discharges the tiny particles through the air suction pipeline.

Furthermore, the dust blowing assembly 40 further comprises two adjusting plates 45 and two adjusting blocks 46, the two adjusting plates 45 are oppositely arranged, a plurality of mounting holes are formed in the adjusting plates 45, two ends of the ion wind generator 42 are respectively and adjustably matched in the mounting holes of the two adjusting plates 45, and the dust blowing wind knife 43 is arranged below the ion wind generator 42; the adjusting block 46 is connected to the ion wind generator 42, and the adjusting block 46 can drive the ion wind generator 42 to rotate to adjust the blowing direction of the dust blowing wind knife 43.

Therefore, the utility model discloses blow dirt subassembly 40 and adjust the direction of blowing of ion wind generator 42 through adjusting plate 45, adjust the direction of blowing that blows dirt air knife 43 through adjusting block 46, can select suitable angle of blowing according to operating condition to reach the best clean effect.

As shown in fig. 5, in some embodiments, the dust-binding assembly 50 includes a fixing plate 51, a roller-binding module 52 and a dust-binding cylinder 53, the fixing plate 51 is connected to the frame and located above the sliding rail 12, a linear bearing 54 is disposed on the fixing plate 51, and a guide post 55 is disposed in the linear bearing 54; the roller sticking module 52 is connected with the lower end of the guide column 55; the cylinder body of the dust adhering cylinder 53 is connected with the fixing plate 51, the piston rod of the dust adhering cylinder 53 is connected with the guide column 55, and the dust adhering cylinder 53 can drive the roller sticking module 52 to ascend or descend.

It should be noted that, when the jig platform 11 moves to the dust blowing assembly 40 after the dust sweeping, dust sucking and dust blowing actions, the dust adhering cylinder 53 drives the adhesive roller module 52 to move downward so that the adhesive roller module 52 contacts with the surface of the jig platform 11, and then the jig platform 11 continues to move along the slide rail 12, so as to adhere the fine dust on the surface of the jig platform 11.

Furthermore, a limiting block 56 is arranged on the fixing plate 51, the limiting block 56 is located above the linear bearing 54, and the limiting block 56 and the guide column 55 are connected in a sliding manner along the axial direction of the guide column 55.

Further, the roller sticking module 52 comprises a lifting plate 521, a dust sticking roller 522, a buffer column 523 and a buffer spring 524, wherein the lifting plate 521 is connected with the lower end of the guide column 55; the dust-sticking roller 522 is arranged below the lifting plate 521; the number of the buffer columns 523 is two, the upper ends of the two buffer columns 523 penetrate through the lifting plate 521 and are in sliding contact with the lifting plate 521, and the lower ends of the two buffer columns 523 are respectively connected with the two ends of the dust adhering roller 522; the two buffer springs 524 are respectively sleeved on the two buffer columns 523, the upper ends of the two buffer springs 524 are connected with the lifting plate 521, and the lower ends of the two buffer springs 524 are respectively connected with two ends of the dust-binding roller 522.

It should be noted that, after the sticky roller 522 contacts with the surface of the jig platform 11, the jig platform 11 continues to move along the slide rail 12, so as to drive the sticky roller 522 and the jig platform 11 to roll relatively, so as to adhere the fine dust on the surface of the jig platform 11, and the sticky roller 522 adhered with the fine dust needs to be cleaned with alcohol 1 time for each production shift. When the pressing force between the dust adhering roller 522 and the jig platform 11 is too large, the dust adhering roller 522 pushes the buffering column 523 upwards, the buffering column 523 compresses the buffering spring 524, so as to buffer the space between the dust adhering roller 522 and the jig platform 11, and prevent the jig from being crushed due to too large impact force.

Further, the roller module 52 further includes an adjusting plate 525 and a horizontal adjusting handle 526, the adjusting plate 525 is located above the dust adhering roller 522, two ends of the adjusting plate 525 are respectively connected to two ends of the dust adhering roller 522, the horizontal adjusting handle 526 is installed at one end of the adjusting plate 525, and the horizontal adjusting handle 526 is used for adjusting a distance between one end of the dust adhering roller 522 and one end of the adjusting plate 525. In other words, the horizontal adjustment handle 526 can rotate one end of the dust adhering roller 522 in the vertical direction around the other end of the dust adhering roller 522, thereby changing the angle between the axis of the dust adhering roller 522 and the surface of the jig platform 11.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly defined otherwise.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, a first feature "on" or "under" a second feature may be directly contacting the second feature or the first and second features may be indirectly contacting the second feature through intervening media. Also, a first feature "on," "above," and "over" a second feature may be directly on or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the present disclosure, the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although the above embodiments have been shown and described, it should be understood that they are exemplary and should not be construed as limiting the present invention, and that many changes, modifications, substitutions and alterations to the above embodiments by those of ordinary skill in the art are intended to be within the scope of the present invention.

Claims (10)

1. The utility model provides a dust collector, its characterized in that includes frame, tool platform (11), sweeps dirt subassembly (20), dust absorption subassembly (30), blows dirt subassembly (40) and binder dust subassembly (50), be equipped with slide rail (12) in the frame, tool platform (11) slidable ground sets up on slide rail (12), sweep dirt subassembly (20), dust absorption subassembly (30) blow dirt subassembly (40) and binder dust subassembly (50) all with the frame links to each other and follows the length direction of slide rail (12) arranges in proper order, it is used for cleaning to sweep dirt subassembly (20) the dust on tool platform (11), dust absorption subassembly (30) are used for absorbing dust on tool platform (11), it is used for sweeping to blow dirt subassembly (40) the dust on tool platform (11), binder dust subassembly (50) are used for the adhesion the dust on tool platform (11).

2. A dust extraction apparatus according to claim 1, wherein the dust extraction assembly (20) comprises:

the screw rod sliding table module (21) is connected with the rack and is positioned above the sliding rail (12);

the dust sweeping cylinder (22), the cylinder body of the dust sweeping cylinder (22) is connected with the screw rod sliding table module (21);

the dust sweeping brushes (23) are arranged along the length direction of the sliding rail (12), the dust sweeping brushes (23) are connected with an air piston rod of the dust sweeping air cylinder (22), and the dust sweeping air cylinder (22) can drive the dust sweeping brushes (23) to ascend or descend;

driving motor (24), driving motor (24) with lead screw slip table module (21) link to each other, driving motor (24) are used for driving lead screw slip table module (21) in order to drive sweep dirt cylinder (22) and follow lead screw slip table module (21) slides.

3. The dust removing device according to claim 2, wherein the screw slide table module (21) comprises:

a guide rail (211);

the sliding table (212) is slidably arranged on the guide rail (211), and the sliding table (212) is provided with a threaded hole;

the lead screw, the lead screw runs through the screw hole and with slip table (212) threaded connection, install driving motor (24) on guide rail (211), just the output shaft of driving motor (24) with the one end of lead screw links to each other.

4. The dust collector according to claim 2, characterized in that the lead screw sliding table module (21) is arranged horizontally and the length direction of the lead screw sliding table module (21) is perpendicular to the length direction of the slide rail (12).

5. The dust removing device according to claim 2, further comprising a waste box (13), wherein the waste box (13) is arranged on one side of the slide rail (12), and the waste box (13) can contain dust swept by the dust sweeping brush (23) from the jig platform (11).

6. A dusting apparatus according to claim 5, characterized in that said dusting assembly (30) comprises:

the first supporting piece (31) is connected with the rack and positioned above the sliding rail (12), the first supporting piece (31) is horizontally arranged, and the length direction of the first supporting piece (31) is perpendicular to the length direction of the sliding rail (12);

the dust extractor (32), the dust extractor (32) is slidably mounted on the first support member (31), and a dust extraction power port (34) is arranged on the dust extractor (32);

and the dust extraction pipeline (33), one end of the dust extraction pipeline (33) is connected with the dust extractor (32), and the other end of the dust extraction pipeline (33) is communicated with the waste box (13).

7. A dust extraction apparatus according to claim 1, wherein the dust blowing assembly (40) comprises:

a second support (41), wherein the second support (41) is connected with the frame and is positioned above the sliding rail (12);

an ion wind generator (42), said ion wind generator (42) being connected to said second support (41);

the dust blowing air knife (43), the dust blowing air knife (43) is connected with the ion air generator (42), and the dust blowing air knife (43) is used for converting the ion air generated by the ion air generator (42) into high-strength impact air flow so as to blow dust on the jig platform (11);

and the dust collection cover (44) is covered on the outer sides of the second supporting piece (41), the ion wind generator (42) and the dust blowing wind knife (43), and the dust collection cover (44) is communicated with the atmosphere through a wind suction pipeline.

8. A dust extraction apparatus according to claim 7, wherein the dust blowing assembly (40) further comprises:

the ion wind generator comprises two adjusting plates (45), wherein the two adjusting plates (45) are oppositely arranged, a plurality of mounting holes are formed in the adjusting plates (45), two ends of the ion wind generator (42) are respectively and adjustably matched in the mounting holes of the two adjusting plates (45), and the dust blowing wind knife (43) is arranged below the ion wind generator (42);

the adjusting block (46), the adjusting block (46) is connected with the ion wind generator (42), and the adjusting block (46) can drive the ion wind generator (42) to rotate so as to adjust the blowing direction of the dust blowing wind knife (43).

9. A dust extraction apparatus according to claim 1, wherein the dust-binding assembly (50) comprises:

the fixing plate (51) is connected with the rack and positioned above the sliding rail (12), a linear bearing (54) is arranged on the fixing plate (51), and a guide column (55) is arranged in the linear bearing (54);

the roller sticking module (52), the roller sticking module (52) is connected with the lower end of the guide post (55);

the roller sticking device comprises a dust sticking cylinder (53), a cylinder body of the dust sticking cylinder (53) is connected with the fixing plate (51), a piston rod of the dust sticking cylinder (53) is connected with a guide column (55), and the dust sticking cylinder (53) can drive the roller sticking module (52) to ascend or descend.

10. A dusting apparatus according to claim 9, characterized in that said adhesive roll module (52) comprises:

the lifting plate (521), the lifting plate (521) is connected with the lower end of the guide column (55);

a dust-binding roller (522), the dust-binding roller (522) being disposed below the lifting plate (521);

the number of the buffer columns (523) is two, the upper ends of the two buffer columns (523) penetrate through the lifting plate (521) and are in sliding contact with the lifting plate (521), and the lower ends of the two buffer columns (523) are respectively connected with the two ends of the dust-binding roller (522);

buffer spring (524), buffer spring (524) are two, and two buffer spring (524) overlap respectively and establish two on buffering post (523), two the upper end of buffer spring (524) all with lifter plate (521) link to each other, two the lower extreme of buffer spring (524) respectively with the both ends of binding dust roller (522) link to each other.

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