CN115284109A - Deburring device for vacuum pump production - Google Patents

Abstract

A de-burring device for vacuum pump production belongs to the technical field of part processing and aims to solve the problem that the pump body of a vacuum pump is damaged easily due to irregular clamping improper; the utility model provides a deburring device for vacuum pump production, includes the device shell and sets up the inside protection machanism of device shell, and protection machanism's upper end is provided with fixture, and fixture's the one end outside is provided with the vacuum pump body, and fixture includes that fixed connection is two sets of the fixed block between the fixed plate, the inside fixed mounting of fixed block has first motor, the output fixedly connected with transmission post of first motor, and the other end of transmission post is provided with the adjustment structure, and the outside of adjustment structure is provided with centre gripping shell and centre gripping subassembly, utilizes to twist the handle and makes the activity post pass through the screw thread and remove to the screw thread post other end, makes the grip block touch vacuum pump body inner wall, reaches quick centre gripping, and the effect that is difficult for breaking away from.

Description

Deburring device for vacuum pump production

Technical Field

The invention relates to the technical field of part processing, in particular to a de-burring device for vacuum pump production.

Background

The vacuum pump refers to a device or apparatus for obtaining vacuum by evacuating a container to be evacuated by using a mechanical, physical, chemical or physicochemical method. In popular terms, vacuum pumps are devices that use various methods to improve, create and maintain a vacuum in an enclosed space. Deburring is the removal of burrs or flashes formed at the intersection of the face and the face of the part. Burrs on mechanical parts are caused by plastic deformation in the cutting process; some are flashes of casting, die forging, etc., and some are welding extrusion residues. Along with the improvement of industrialization and automation degree, the hazard of burrs is particularly obvious in the field of mechanical processing, particularly in the fields of aviation, aerospace, instruments and meters, the requirement on the manufacturing precision of mechanical parts is improved, and the mechanism design is miniaturized.

Present burring device is at the burring in-process, easily produces the spark, and the spark is spattered the human body of easily scalding all around, leads to healthy to receive the threat, and the part that need the burring to the vacuum pump in-process simultaneously burring is difficult to the centre gripping because the irregular shape on its surface, leads to the part that makes the vacuum pump among the burring in-process impaired, has promoted the rejection rate, and the waste material that the burring produced and the sweeps that the polisher produced mix and are difficult to separate, leads to waste recycling to be difficult to the direct utilization.

In order to solve the problems, the de-burring device for vacuum pump production is provided.

Disclosure of Invention

The invention aims to provide a deburring device for vacuum pump production, which solves the problems that in the prior deburring device in the background technology, sparks are easily generated, the sparks easily scald human bodies, and health is threatened, and meanwhile, parts of a vacuum pump needing deburring in the deburring process are difficult to clamp due to the irregular shape of the surface of the parts, so that the parts of the vacuum pump are damaged in the deburring process, the rejection rate is improved, and waste materials generated by deburring and waste chips generated by a grinding machine are difficult to mix and separate, so that the waste materials are difficult to recycle and directly utilize.

In order to achieve the purpose, the invention provides the following technical scheme: a deburring device for vacuum pump production comprises a device shell and a protection mechanism arranged inside the device shell, wherein a clamping mechanism is arranged at the upper end of the protection mechanism, a vacuum pump body is arranged outside one end of the clamping mechanism, a polishing mechanism is arranged inside one end above the device shell, a waste screening mechanism is arranged inside the device shell and is arranged at the lower end of the polishing mechanism, the protection mechanism comprises a moving assembly arranged inside the upper end of the device shell, a fixing plate is arranged at the upper end of the moving assembly, a transmission assembly is arranged inside the device shell, and a rotation blocking assembly is rotatably arranged inside one end of the device shell;

the moving assembly comprises sliding rails which are slidably connected to the inner portion of the upper end of the device shell, two groups of sliding rails are arranged, a mounting plate is fixedly connected between the two groups of sliding rails, linkage blocks are fixedly connected below two ends of the mounting plate, the lower end of each linkage block is fixedly connected with a movable rod, a first helical rack is fixedly connected to the outer portion of one end of each movable rod, waste collecting blocks are fixedly connected to two sides of one end of the mounting plate, and a waste shovel is fixedly connected between the two groups of waste collecting blocks;

the transmission assembly comprises a lifting rod which is connected inside the device shell in a sliding mode, one side of the upper end of the lifting rod is fixedly connected with a fixed rack, one side of the lower end of the lifting rod is fixedly connected with a second helical rack, and the second helical rack is connected to the outer portion of the first helical rack in a meshed mode;

the rotation separation assembly comprises a separation plate which is rotatably connected to the outer surface of the device shell, a first gear is fixedly connected to one side of one end of the separation plate, and the first gear is meshed with one end of the fixed rack.

Further, fixture includes that fixed connection is two sets of the fixed block between the fixed plate, the inside fixed mounting of fixed block has first motor, the output fixedly connected with transmission post of first motor, the other end of transmission post is provided with the adjustment structure, the outside of adjustment structure is provided with centre gripping shell and centre gripping subassembly.

Further, the adjustment structure includes fixed guide of fixed connection in transmission post one end, and fixed guide fixed connection is inside the one end of centre gripping shell, and fixed guide's the other end fixedly connected with screw thread post is provided with the displacement groove inside the fixed guide, and the displacement groove is equipped with two sets ofly, and two sets ofly the displacement groove set up respectively at the both ends of screw thread post, and the one end of screw thread post is provided with the adjustment subassembly, and the outside of adjustment subassembly is provided with the displacement pipe.

Furtherly, the adjustment subassembly is including rotating the spacing ring of connection at the displacement intraduct, fixedly connected with activity post on the inner wall of spacing ring, and the handle is turned round to the one end fixedly connected with of activity post, and activity post threaded connection is in the one end of screw post, and activity post rotates to be connected on the inner wall of displacement pipe.

Further, the centre gripping subassembly is including rotating the dwang of connection in the displacement pipe outside, and the other end of dwang rotates and is connected with the transmission piece, and sliding connection has the sliding block on the inner wall in displacement groove, the one end fixedly connected with grip block of sliding block, grip block fixed connection is on the outer wall of transmission piece.

Further, waste screening mechanism is including setting up at the inside garbage collection groove of device shell, and the inside of device shell is provided with waste screening structure, and the inside magnetic separation waste material groove and the sweeps groove of being provided with of lower extreme of device shell, and magnetic separation waste material groove and sweeps groove set up at waste screening structure lower extreme.

Further, waste material screening structure is including installing the second motor inside the device shell, the output fixedly connected with second gear and the rotation post of second motor, rotation post fixed connection is at the middle part of second gear, the lower extreme of second gear is provided with and prevents being stained with the subassembly that attaches, the other end fixedly connected with magnetic force roller of rotation post, the magnetic force roller rotates the inside of connecting at the device shell, the inside of device shell is rotated and is connected with clean piece, clean piece sets up the one end at the magnetic force roller, and clean piece sets up the upper end at the scrap groove, the inside of device shell is provided with the promotion subassembly, and promote the one end that the subassembly set up at clean piece.

Further, promote the subassembly and include the briquetting of sliding connection in the device shell inside, the one end fixedly connected with stopper of briquetting, and stopper sliding connection is in the inside of device shell, and the outside of stopper is provided with the spring.

Further, prevent being stained with and attach the subassembly including rotating the third gear of connection in the device shell inside, the lower extreme at the second gear is connected in the third gear meshing, third gear upper end fixedly connected with dead lever, the one end of dead lever is rotated and is connected with the transmission displacement pole, the one end fixedly connected with guide bar of transmission displacement pole, guide bar sliding connection is on the inner wall of magnetic separation waste tank, guide bar sliding connection is on the inner wall of waste chip groove, guide bar lower extreme fixedly connected with is stained with attaches clean post.

Furthermore, four groups of attached cleaning columns are arranged, two groups of attached cleaning columns are connected to the inner wall of the magnetic separation waste material groove in a sliding mode, and two groups of attached cleaning columns are connected to the inner wall of the waste material groove in a sliding mode.

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

1. according to the deburring device for vacuum pump production, provided by the invention, through the mutual coupling effect of the mounting plate, the linkage block, the first helical rack, the second helical rack, the fixed rack, the first gear and the barrier plate, when burrs on the outer part of the vacuum pump body are removed, the effect of preventing the burrs from being damaged by scraps and flying chips in the deburring process is achieved.

2. According to the deburring device for vacuum pump production, the clamping shell, the twisting handle, the limiting ring, the displacement pipe, the clamping block and the like are mutually combined, so that when the vacuum pump body needs to be clamped, the vacuum pump body integrally rotates, deburring is conveniently carried out, and the effects of quick clamping and difficulty in separation are achieved.

3. According to the deburring device for vacuum pump production, provided by the invention, the waste collecting block and the waste shovel are connected to collect the waste, and then the waste collecting tank, the second motor, the second gear, the rotating column, the magnetic roller, the cleaning block, the pressing block, the limiting block and the spring are mutually connected, when the mounting plate moves towards one end, the waste is separated by using the magnetic roller, so that the effect of screening the waste is achieved.

Drawings

FIG. 1 is a schematic block diagram of the present invention;

FIG. 2 is a schematic overall cross-sectional structure of the present invention;

FIG. 3 is a schematic view of a moving assembly according to the present invention;

FIG. 4 is a schematic view of a rotational blocking assembly of the present invention;

FIG. 5 is a schematic view of the transmission assembly of the present invention;

FIG. 6 is a cross-sectional structural view of a clamping mechanism of the present invention;

FIG. 7 is a schematic view of a clamping mechanism according to the present invention;

FIG. 8 is a schematic view of an adjustment structure according to the present invention;

FIG. 9 is a schematic structural view of a waste screening arrangement of the present invention;

FIG. 10 is an enlarged view of the structure of FIG. 2 at A in accordance with the present invention;

fig. 11 is a schematic structural view of the adhesion preventing member of the present invention.

In the figure: 1. a device housing; 2. a protection mechanism; 21. a fixing plate; 22. a moving assembly; 221. mounting a plate; 222. a linkage block; 223. a movable rod; 224. a first helical rack; 225. a slide rail; 226. collecting the waste into blocks; 227. shoveling waste materials; 23. a transmission assembly; 231. a lifting rod; 232. fixing a rack; 233. a second helical rack; 24. a rotation blocking assembly; 241. a barrier plate; 242. a first gear; 3. a clamping mechanism; 31. a fixed block; 32. a first motor; 33. a drive post; 34. adjusting the structure; 341. fixing the guide rail; 342. a displacement groove; 343. a threaded post; 344. an adjustment assembly; 3441. a movable post; 3442. a limiting ring; 3443. twisting the handle; 345. a displacement tube; 35. a clamping assembly; 351. a slider; 352. a clamping block; 353. a transmission block; 354. rotating the rod; 36. a clamping housing; 4. a vacuum pump body; 5. a polishing mechanism; 6. a waste screening mechanism; 61. a waste collection tank; 62. a waste screening structure; 621. a second motor; 622. a second gear; 623. an anti-sticking component; 6231. a third gear; 6232. fixing the rod; 6233. a transmission displacement rod; 6234. a guide rod; 6235. adhering a cleaning column; 624. rotating the column; 625. a magnetic roller; 626. a cleaning block; 627. a pushing assembly; 6271. a spring; 6272. a limiting block; 6273. briquetting; 63. a magnetic separation waste material tank; 64. a scrap groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the technical problem of how to prevent the waste materials and flying chips from hurting people in the deburring process, the following preferred technical solutions are provided as shown in fig. 1-5:

a deburring device for vacuum pump production comprises a device shell 1 and a protection mechanism 2 arranged in the device shell 1 in a sliding manner, a clamping mechanism 3 is arranged at the upper end of the protection mechanism 2, a vacuum pump body 4 is arranged outside one end of the clamping mechanism 3, a polishing mechanism 5 is arranged inside one end above the device shell 1, a waste screening mechanism 6 is arranged inside the device shell 1, the waste screening mechanism 6 is arranged at the lower end of the polishing mechanism 5, the protection mechanism 2 comprises a moving component 22 arranged inside the upper end of the device shell 1 in a sliding manner, a fixing plate 21 is arranged at the upper end of the moving component 22, a transmission component 23 is arranged inside the device shell 1 in a sliding manner, a rotating separation component 24 is arranged inside one end above the device shell 1 in a rotating manner, the moving component 22 comprises a sliding rail 225 connected inside the upper end of the device shell 1 in a sliding manner, two sets of sliding rails 225 are arranged on the sliding manner, a mounting plate 221 is fixedly connected between the two sets of sliding rails 225, linkage blocks 222 are fixedly connected below two ends of the mounting plate 221, a movable rod 223 is fixedly connected at the lower end of the mounting plate 221, a first inclined rack 224 is connected with a first inclined rack 224 fixedly connected with a lifting rack 231, a lifting rack 233 which is connected with a lifting rod which is connected with a lifting device, a lifting rod which is connected with a lifting rod 227 and a lifting rod which is connected with a lifting rod which is vertically connected with a lifting rod 227 and a lifting rod which is connected with a lifting device which is connected with a lifting rod which is vertically connected with a lifting rod 233 which is connected with a lifting rod which is arranged at one end of a lifting rod 227 and a lifting rod which is connected with a lifting rod which is vertically connected with a lifting rod which is connected with a lifting rod 233 which is connected with a lifting rod which is arranged at one side of a lifting rod which is connected with a lifting rod which is vertically arranged at one side of a lifting rod which is connected with a lifting rod 227, the rotation blocking assembly 24 includes a blocking plate 241 rotatably coupled to an outer surface of the device case 1, and a first gear 242 is fixedly coupled to one side of one end of the blocking plate 241 and is engaged with one end of the fixed rack 232.

Specifically, when burrs on the outside of the vacuum pump body are removed, the mounting plate 221 is pushed to enable the linkage block 222 to drive the movable rod 223 and the first helical rack 224 to move, the second helical rack 233 slowly moves upwards through the meshing action of the first helical rack 224, the fixed rack 232 moves upwards, the first gear 242 is driven to rotate through the meshing action of the fixed rack 232 and the first gear 242, the blocking plate 241 is driven to rotate, when the mounting plate 221 drives the vacuum pump body 4 to reach the upper end of the polishing mechanism 5, one end of the waste collecting block 226 is connected with the inner wall of the device shell 1, the mounting plate 221 stops moving, the first helical rack 224 and the second helical rack 233 are meshed to enable the lifting rod 231 to lift to the highest point plate 241, the blocking plate 241 rotates ninety degrees, the blocking plate 241 is prevented from falling under the meshing action of the fixed rack 232 and the first gear 242, and when the polishing mechanism 5 performs deburring on the vacuum pump body 4, the blocking plate 241 protects polished scraps produced in the deburring process, and achieves the effect of preventing people from being injured by the wastes and the scraps in the deburring process.

In order to solve the technical problem that the pump body of the vacuum pump is damaged easily due to improper irregular clamping and the efficiency is affected, as shown in fig. 6-8, the following preferred technical scheme is provided:

the clamping mechanism 3 comprises fixed blocks 31 fixedly connected between two groups of fixed plates 21, a first motor 32 is fixedly installed inside each fixed block 31, a transmission column 33 is fixedly connected to the output end of the first motor 32, an adjusting structure 34 is arranged at the other end of each transmission column 33, a clamping shell 36 and a clamping assembly 35 are arranged outside each adjusting structure 34, each adjusting structure 34 comprises a fixed guide rail 341 fixedly connected to one end of each transmission column 33, each fixed guide rail 341 is fixedly connected inside one end of each clamping shell 36, a threaded column 343 is fixedly connected to the other end of each fixed guide rail 341, a displacement groove 342 is arranged inside each fixed guide rail 341, two groups of displacement grooves 342 are arranged inside each displacement groove 342, two groups of displacement grooves 342 are respectively arranged at two ends of each threaded column 343, an adjusting assembly 344 is arranged at one end of each threaded column 343, a displacement pipe 345 is arranged outside each adjusting assembly 344, each adjusting assembly 344 comprises a limiting ring 3442 rotatably connected inside each displacement pipe 345, a movable rotating rod column 3441 is fixedly connected to the inner wall of each limiting ring 3442, a twisting handle 43 is fixedly connected to one end of each moving column 3441, a rotating rod 353 is connected to one end of each moving column 343, the corresponding sliding block 351 is connected to the corresponding sliding block 354 on the outer wall of each sliding block 354, and the sliding block 354 is connected to the sliding block 354 of each sliding block 354 on the outer wall of the sliding block 354 of each sliding block 352.

Specifically, when the vacuum pump body 4 needs to be clamped, the vacuum pump body 4 is placed outside the clamping housing 36, the twist handle 3443 is rotated to enable the movable column 3441 to move towards the other end of the threaded column 343 through threads, because the limit ring 3442 is clamped inside the displacement tube 345, the rotation of the twist handle 3443 drives the limit ring 3442 to enable the displacement tube 345 to move towards one end of the threaded column 343, the rotation rod 354 rotates to push the transmission block 353 to enable the clamping block 352 to drive the sliding block 351 to slide on the inner wall of the displacement groove 342, when the clamping block 352 touches the inner wall of the vacuum pump body 4 and cannot move forwards continuously, the vacuum pump body 4 is firmly clamped from the inside by the two groups of clamping blocks 352, and the first motor 32 is started to enable the vacuum pump body 4 to rotate integrally, so that deburring is convenient to be performed, and the effect of rapid clamping and difficult separation is achieved.

In order to solve the technical problem that the collection of the deburring waste and the sweeps is difficult to screen, as shown in fig. 2 and fig. 9-11, the following preferred technical solutions are provided:

the waste screening mechanism 6 comprises a waste collecting tank 61 arranged inside a device shell 1, a waste screening structure 62 is arranged inside the device shell 1, a magnetic separation waste trough 63 and a waste trough 64 are arranged inside the lower end of the device shell 1, the magnetic separation waste trough 63 and the waste trough 64 are arranged at the lower end of the waste screening structure 62, the waste trough 64 and the magnetic separation waste trough 63 are connected to the lower end of the waste collecting tank 61 in a penetrating manner, the waste screening structure 62 comprises a second motor 621 installed inside the device shell 1, an output end of the second motor 621 is fixedly connected with a second gear 622 and a rotating column 624, the rotating column 624 is fixedly connected to the middle of the second gear 622, an anti-sticking component 623 is arranged at the lower end of the second gear 622, a magnetic roller 625 is fixedly connected to the other end of the rotating column 624, the magnetic roller 625 is made of a magnet material, the magnetic roller 625 is rotatably connected inside the device shell 1, a cleaning block 626 is rotatably connected inside the device shell 1, the cleaning block 626 is made of ceramic material, the cleaning block 626 is arranged at one end of the magnetic roller 625, the cleaning block is connected to one end of a sliding block pushing device 6232, a third gear pushing block 72 is connected to the sliding block pushing device 6232, a third gear pushing block 72 is arranged at one end of a sliding block pushing device 32, a third gear pushing block 72 connected to the inner pushing device 6231 of a third gear 32 connected to the sliding block 23 connected to the sliding block 32 of the sliding block 23, guide bar 6234 sliding connection is on the inner wall of magnetic separation waste material groove 63, and guide bar 6234 sliding connection is on the inner wall of waste material groove 64, and guide bar 6234 lower extreme fixedly connected with is stained with attaches clean post 6235, is stained with to attach clean post 6235 and is provided with four groups, and two sets of be stained with attaches clean post 6235 sliding connection on the inner wall of magnetic separation waste material groove 63, and two sets of be stained with attaches clean post 6235 sliding connection on the inner wall of waste material groove 64.

Specifically, when the mounting plate 221 moves towards one end, the waste collecting block 226 collects the mixture of the scraps and the waste on the inner wall of the sliding groove at the upper end of the device shell 1, the mixture is pushed to one end of the waste collecting groove 61 through the waste shovel 227, the mixture slides downwards from the waste collecting groove 61 to the waste screening structure 62, the second motor 621 is started to enable the second gear 622 and the rotating column 624 to rotate, the magnetic roller 625 is driven to rotate to attract the adsorbable waste in the scraps, the spring 6271 rebounds to push the pressing block 6273 and the limiting block 6272 to enable the cleaning block 626 to tightly adhere to the surface of the magnetic roller 625 to shovel the waste on the surface of the magnetic roller 625 to reach the inside of the waste groove 64, meanwhile, the scraps not attracted by the magnetic roller 625 pass through the inside of the magnetic separation waste groove 63, the second gear 622 rotates, the meshing effect drives the third gear 6231 to rotate, the third gear 6231 drives the fixing rod 6232 to enable the transmission rod 6233 to reciprocate, the guide rod 6234 slides inside the device shell 1, the cleaning column 35 adheres to the inner wall of the magnetic separation waste groove 63 and the waste screening groove 64, and the screening effect of scraps is achieved.

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

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a deckle edge device is used in vacuum pump production, including device shell (1) and protection machanism (2) of setting in device shell (1) inside, the upper end of protection machanism (2) is provided with fixture (3), the one end outside of fixture (3) is provided with the vacuum pump body (4), the top one end internally mounted of device shell (1) has grinding machanism (5), the inside of device shell (1) is provided with waste material screening mechanism (6), and waste material screening mechanism (6) set up the lower extreme at grinding machanism (5), its characterized in that: the protection mechanism (2) comprises a moving assembly (22) arranged inside the upper end of the device shell (1), the upper end of the moving assembly (22) is provided with a fixed plate (21), the inside of the device shell (1) is provided with a transmission assembly (23), and a rotation blocking assembly (24) is rotatably arranged inside the upper part of one end of the device shell (1);

the movable assembly (22) comprises slide rails (225) which are slidably connected to the inner portion of the upper end of the device shell (1), two groups of slide rails (225) are arranged, a mounting plate (221) is fixedly connected between the two groups of slide rails (225), linkage blocks (222) are fixedly connected to the lower portions of the two ends of the mounting plate (221), a movable rod (223) is fixedly connected to the lower end of each linkage block (222), a first inclined rack (224) is fixedly connected to the outer portion of one end of each movable rod (223), waste collecting blocks (226) are fixedly connected to the two sides of one end of the mounting plate (221), and a waste shovel (227) is fixedly connected between the two groups of waste collecting blocks (226);

the transmission assembly (23) comprises a lifting rod (231) which is connected inside the device shell (1) in a sliding mode, one side of the upper end of the lifting rod (231) is fixedly connected with a fixed rack (232), one side of the lower end of the lifting rod (231) is fixedly connected with a second helical rack (233), and the second helical rack (233) is connected to the outer portion of the first helical rack (224) in a meshed mode;

the rotating blocking assembly (24) comprises a blocking plate (241) rotatably connected to the outer surface of the device shell (1), a first gear (242) is fixedly connected to one side of one end of the blocking plate (241), and the first gear (242) is meshed with one end of the fixed rack (232).

2. A de-burring apparatus for vacuum pump production according to claim 1, wherein: fixture (3) are including fixed connection two sets of fixed block (31) between fixed plate (21), fixed block (31) inside fixed mounting has first motor (32), the output fixedly connected with transmission post (33) of first motor (32), the other end of transmission post (33) is provided with adjustment structure (34), the outside of adjustment structure (34) is provided with centre gripping shell (36) and centre gripping subassembly (35).

3. A de-burring apparatus for vacuum pump production according to claim 2, wherein: adjustment structure (34) are including fixed guide (341) of fixed connection in transmission post (33) one end, fixed guide (341) fixed connection is inside the one end of centre gripping shell (36), the other end fixedly connected with screw thread post (343) of fixed guide (341), fixed guide (341) inside is provided with displacement groove (342), displacement groove (342) are equipped with two sets ofly, and two sets of displacement groove (342) set up the both ends at screw thread post (343) respectively, the one end of screw thread post (343) is provided with adjustment subassembly (344), the outside of adjustment subassembly (344) is provided with displacement pipe (345).

4. A de-burring apparatus for vacuum pump production according to claim 3, wherein: the adjusting assembly (344) comprises a limiting ring (3442) rotatably connected to the inner portion of the displacement pipe (345), a movable column (3441) is fixedly connected to the inner wall of the limiting ring (3442), a twisting handle (3443) is fixedly connected to one end of the movable column (3441), the movable column (3441) is in threaded connection with one end of the threaded column (343), and the movable column (3441) is rotatably connected to the inner wall of the displacement pipe (345).

5. A de-burring apparatus for vacuum pump production according to claim 2, wherein: centre gripping subassembly (35) are including rotating dwang (354) of connection in displacement pipe (345) outside, and the other end of dwang (354) rotates and is connected with transmission piece (353), and sliding connection has sliding block (351) on the inner wall of displacement groove (342), and one end fixedly connected with grip block (352) of sliding block (351), grip block (352) fixed connection are on the outer wall of transmission piece (353).

6. A de-burring apparatus for vacuum pump production according to claim 1, wherein: waste screening mechanism (6) is including setting up at inside garbage collection groove (61) of device shell (1), and the inside of device shell (1) is provided with waste screening structure (62), and the lower extreme of device shell (1) is inside to be provided with magnetic separation waste chute (63) and sweeps groove (64), and magnetic separation waste chute (63) and sweeps groove (64) set up at waste screening structure (62) lower extreme.

7. A de-burring apparatus for vacuum pump production according to claim 6, wherein: waste material screening structure (62) is including installing second motor (621) in device shell (1) inside, the output fixedly connected with second gear (622) and rotation post (624) of second motor (621), rotation post (624) fixed connection is in the middle part of second gear (622), the lower extreme of second gear (622) is provided with prevents being stained with and adheres to subassembly (623), the other end fixedly connected with magnetic roller (625) of rotation post (624), magnetic roller (625) rotate to be connected in the inside of device shell (1), the inside of device shell (1) rotates and is connected with cleaning block (626), cleaning block (626) set up the one end at magnetic roller (625), and cleaning block (626) set up the upper end at junk groove (64), the inside of device shell (1) is provided with and promotes subassembly (627), and promote subassembly (627) and set up the one end at cleaning block (626).

8. A de-burring apparatus for vacuum pump production according to claim 7, wherein: the pushing assembly (627) comprises a pressing block (6273) which is slidably connected inside the device shell (1), one end of the pressing block (6273) is fixedly connected with a limiting block (6272), the limiting block (6272) is slidably connected inside the device shell (1), and a spring (6271) is arranged outside the limiting block (6272).

9. A de-burring apparatus for vacuum pump production as defined in claim 7, wherein: prevent being stained with and attach subassembly (623) including rotating third gear (6231) of connection in device shell (1) inside, the lower extreme at second gear (622) is connected in third gear (6231) meshing, third gear (6231) upper end fixedly connected with dead lever (6232), the one end of dead lever (6232) is rotated and is connected with transmission displacement pole (6233), the one end fixedly connected with guide bar (6234) of transmission displacement pole (6233), guide bar (6234) sliding connection is on the inner wall of magnetic separation waste material groove (63), guide bar (6234) sliding connection is on the inner wall of waste material groove (64), guide bar (6234) lower extreme fixedly connected with is stained with and attaches clean post (6235).

10. A de-burling apparatus for vacuum pump production according to claim 9, wherein: the adhering cleaning columns (6235) are arranged in four groups, two groups of adhering cleaning columns (6235) are connected to the inner wall of the magnetic separation waste trough (63) in a sliding mode, and two groups of adhering cleaning columns (6235) are connected to the inner wall of the waste trough (64) in a sliding mode.

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