CN114888723A

CN114888723A - Special steel sheet metal component burring equipment

Info

Publication number: CN114888723A
Application number: CN202210832541.5A
Authority: CN
Inventors: 计建康; 刘俊; 朱阳波; 朱龙平
Original assignee: JIANGSU XINGHAI SPECIAL STEEL CO Ltd
Current assignee: JIANGSU XINGHAI SPECIAL STEEL CO Ltd
Priority date: 2022-07-15
Filing date: 2022-07-15
Publication date: 2022-08-12
Anticipated expiration: 2042-07-15
Also published as: CN114888723B

Abstract

The invention discloses a special steel sheet metal part deburring device, which relates to the technical field of plate deburring devices and comprises a case, wherein a flip cover is rotatably arranged on the case, an adsorption component for adsorbing a plate is movably arranged on the flip cover, a dust absorption component for collecting dust is arranged at the bottom of the case, a sand blasting component is arranged on the side surface of the case, and the plate deburring device is used for removing burrs on the plate through sand blasting of the sand blasting component, and the special steel sheet metal part deburring device also comprises: the two clamping components are respectively arranged on two sides of the case and used for clamping and fixing the plate; a linkage component for driving the turnover cover is arranged on the base of the case; the invention can realize the direction conversion of the plate in the deburring operation, and the deburring is more thorough.

Description

Special steel sheet metal component burring equipment

Technical Field

The invention relates to the technical field of plate deburring equipment, in particular to special steel sheet metal part deburring equipment.

Background

The special steel is also called alloy steel, and is a kind of steel. The special steel is made up by adding one or several alloy elements into carbon steel in a proper quantity to change the structure of steel, so that the steel has various special properties. The sheet metal is a comprehensive cold processing technology aiming at sheet metal, comprising shearing, punching, cutting, compounding, folding, welding, riveting, splicing, forming and the like, and is characterized in that the thickness of the same part is consistent, and the product processed by the sheet metal industry is called a sheet metal part. At present, strip-shaped or plate-shaped metal workpieces are generally processed by laser cutting or punching, burrs are formed on the adjacent cut edges, the burrs not only affect the appearance of the workpieces, but also affect the use, assembly, performance, reliability and service life of the workpieces, and the burrs must be removed before the workpieces are painted or finished.

The utility model discloses a chinese utility model patent that publication number is CN210413868U discloses a panel beating burr-grinding machine, and this panel beating burr-grinding machine will install the headstock of aircraft nose and arrange holistic middle part in, polish the product from top to bottom at the soft grinding wheel of during operation headstock control, adjust different thickness products, carry out the decline compensation when becoming to the emery wheel, and overall structure stability is strong, and the focus is located the centre of equipment, and it is effectual to polish. This prior art realizes polishing through the wheel of polishing, but the regional incompleteness of polishing can not carry out real-time transposition to panel at the in-process of polishing.

Disclosure of Invention

Aiming at the technical problems, the technical scheme provided by the invention can realize the direction conversion of the plate in the deburring operation, and the deburring is more thorough.

The technical scheme adopted by the invention is as follows: the utility model provides a special steel sheet metal component burring equipment, includes quick-witted case, and the rotatory installation has flip on the quick-witted case, and the activity is provided with the adsorption component who is used for adsorbing panel on the flip, and the bottom of machine case is provided with the dust absorption part that is used for collecting the dust, and the side of machine case is provided with sand blasting component, and sand blasting through sand blasting component handles the burr in order to get rid of on the panel, still includes: the two clamping components are respectively arranged on two sides of the case and used for clamping and fixing the plate; the clamping component comprises a pushing component and a clamping component, the pushing component comprises a top plate, one end of the top plate is fixedly connected with a connecting frame, an extrusion plate is slidably mounted on the top plate, an extrusion plate spring for providing elasticity is arranged between the extrusion plate and the top plate, an extrusion rotating plate is movably arranged on the extrusion plate, and a second elastic sheet for providing elasticity is arranged between the extrusion rotating plate and the extrusion plate; the pushing assembly further comprises a pushing plate and a sliding groove rod, a pushing plate connecting rod is slidably mounted on the pushing plate, and a pushing plate connecting rod spring for providing elasticity is arranged between the pushing plate connecting rod and the pushing plate; the chute rod is movably arranged on the side surface of the extrusion plate, a chute is arranged on the chute rod, and the extrusion plate is movably connected with the chute on the chute rod; the clamping assembly comprises a clamping frame which is slidably mounted on the case, a clamping fluted disc is rotatably mounted at one end of the clamping frame, the other end of the clamping frame is slidably connected with the connecting frame, a supporting plate for supporting the plate is slidably mounted on the clamping frame, a cam is rotatably mounted on the clamping frame, the circumference of the cam is in contact with one end of the supporting plate, a meshing rack is also slidably mounted on the clamping frame, a meshing gear is rotatably mounted on the clamping frame, the meshing rack is movably connected with a sliding groove on the sliding groove rod, and the meshing rack and the meshing gear form a gear pair; a linkage assembly for driving the flip cover is arranged on a base of the case, the linkage assembly comprises a linkage frame, a connecting rack is fixedly connected to the linkage frame, a contact rotating plate is rotatably mounted on the linkage frame, a first elastic sheet for providing elasticity is arranged between the linkage frame and the contact rotating plate, the flip cover further comprises a gear transmission set, the connecting rack and the gear transmission set form a gear pair, and the gear transmission set is connected with the flip cover; the push plate connecting rod pushes the top plate through the sliding of the push plate, and the clamping frame is pushed through the connecting frame, so that the clamping fluted disc moves; the contact rotating plate is pushed by the connecting frame, so that the linkage frame moves and the gear transmission set drives the turnover cover to turn over; after the turnover cover is turned over, the top plate is continuously pushed through the push plate connecting rod, so that the clamping fluted disc continuously moves and clamps the plate; after the plate is clamped, the push plate continues to move to enable the extrusion rotating plate to deflect, and after the extrusion rotating plate deflects, the extrusion rotating plate slides to enable the chute rod to move; the rack is moved by the movement of the chute rod, the meshing rack is moved, and the rack is connected by the gear pair, so that the cam rotates and the support plate moves, and the support plate slides to not support the plate any more.

Furthermore, the pushing assembly further comprises a screw rod gear which is rotatably arranged on the base of the case, a pushing screw rod is arranged on the screw rod gear in a threaded fit mode, one end of the pushing screw rod is fixedly connected with the push plate, the top plate is arranged on the base of the case in a sliding mode, a top plate spring used for providing elastic force is arranged between the top plate and the base of the case, the sliding groove rod is installed on the base of the case in a sliding mode, and a sliding groove rod spring used for providing elastic force is arranged between the sliding groove rod and the base of the case.

Further, the centre gripping subassembly still includes the integral key shaft of rotatory installation on the holding frame, and the one end fixedly connected with transposition gear of integral key shaft, transposition gear and centre gripping fluted disc constitute the gear pair, be provided with the spring that is used for providing elasticity between backup pad and the holding frame, through belt structural connection between meshing gear and the cam, be provided with two belt drive structures on the quick-witted case, the integral key shaft passes through the belt drive structure drive on the quick-witted case, and the lead screw gear passes through the belt drive structure drive on the quick-witted case two.

Furthermore, the linkage assembly further comprises a support frame fixedly arranged on the base of the case, two sides of the contact rotating plate are movably connected with the support frame, the linkage frame is arranged on the base of the case in a sliding mode, and a linkage frame spring used for providing elastic force is arranged between the linkage frame and the base of the case.

Furthermore, the support frame is provided with a plane area and an arc area, and when the contact rotating plate moves in the plane area, the support frame is connected with the rack-and-drive gear transmission set so as to turn the turnover cover; when the contact rotating plate moves in the cambered surface area, the clamping fluted disc clamps the plate.

Furthermore, the gear transmission group comprises a gear IV which forms a gear pair with the connecting rack, and one end of the gear transmission group is connected with the turnover cover through a belt structure.

Further, the sand blasting part comprises a second displacement frame which is slidably mounted on the side face of the case, a first displacement frame is slidably mounted on the second displacement frame, a sand blaster for sand blasting is slidably mounted on the first displacement frame, and sand blasting treatment is performed on each area of the plate through movement of the sand blaster.

Further, the absorption component comprises an absorption sliding frame which is slidably mounted on the flip cover, and an absorption plate used for absorbing the plate is arranged at one end of the absorption sliding frame.

Compared with the prior art, the invention has the beneficial effects that: (1) the plate material deburring machine clamps and fixes the plate materials with different sizes through the clamping component, and can turn over, so that burrs are removed more thoroughly; (2) according to the invention, the flip cover and the case are spliced and closed, so that the deburring operation is positioned in a closed area, and the environment is prevented from being polluted.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of a sand blasting part and a dust suction part of the invention.

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

FIG. 4 is a partial structural view of the pushing assembly of the present invention.

FIG. 5 is a schematic view of a clamping assembly according to the present invention.

FIG. 6 is a schematic view of a linkage assembly according to the present invention.

FIG. 7 is an enlarged view of a portion of the invention shown in FIG. 6 at reference A.

FIG. 8 is a schematic view of the structure of the adsorption assembly of the present invention.

Reference numerals: 1-a chassis; 2-turning over the cover; 3-a clamping member; 4-a sandblasting means; 5-dust-absorbing parts; 101-belt configuration one; 102-a first motor; 103-a drive shaft; 104-gear one; 105-belt structure two; 106-motor three; 201-belt structure three; 202-gear two; 203-gear three; 204-gear shaft; 205-gear four; 206-a support frame; 207-linkage frame; 208-a linkage spring; 209-spring piece one; 210-a contact rotating plate; 211-suction carriage; 212-carriage screw; 213-motor two; 214-belt configuration four; 215-an adsorption plate; 2071-connecting the rack; 301-pushing the screw rod; 302-screw gear; 303-push plate; 304-an extrusion plate; 305-a compression plate spring; 306-a top plate spring; 307-a top plate; 308-a connecting frame; 309-slotted lever spring; 310-a chute bar; 311-clamping fluted disc; 312-a support plate; 313-a holding frame; 314-a cam; 315-Belt configuration five; 316-meshing gears; 317-meshing a rack; 318-a spline shaft; 319-transposition gear; 3041-spring plate two; 3042 extruding the rotating plate; 3011-push plate connecting rod; 3012-push plate link rod spring; 401-sandblasting box; 402-a sand blast control cylinder; 403-displacement frame one; 404-displacement frame two; 405-a lead screw drive motor; 406-a sand blaster; 407-displacement screw rod; 501-a dust collection box; 502-cleaning head.

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.

As shown in fig. 1 and 2, a flip cover 2 is rotatably mounted on a side surface of a chassis 1, a dust collection component 5 is disposed at a bottom of the chassis 1, a sand blasting component 4 is disposed on a side surface of the chassis 1, the dust collection component 5 includes a dust collection box 501 disposed on a base of the chassis 1, a dust collection head 502 is disposed on the dust collection box 501, and one end of the dust collection head 502 is communicated with the bottom of the chassis 1; for the sand blasting component 4, the sand blasting box 401 is fixedly arranged on the base of the case 1, the sand blasting control cylinder 402 is fixedly arranged on the side face of the case 1, the push rod of the sand blasting control cylinder 402 is fixedly connected with the second displacement frame 404, the first displacement frame 403 is slidably arranged on the second displacement frame 404, the second displacement frame 404 and the first displacement frame 403 are respectively rotatably arranged with the displacement screw rod 407, the displacement screw rod 407 on the second displacement frame 404 and the first displacement frame 403 form a screw pair, the first displacement frame 403 is slidably arranged with the sand blaster 406, the sand blaster 406 is communicated with the sand blasting box 401, and the displacement screw rod 407 on the first displacement frame 403 and the sand blaster 406 form a screw pair; one end of the first displacement frame 403 and one end of the second displacement frame 404 are respectively fixedly provided with a screw rod driving motor 405, and the two screw rod driving motors 405 respectively drive the two displacement screw rods 407.

As shown in fig. 3 and 4, for the pushing assembly on the clamping member 3, the lead screw gear 302 is rotatably mounted on the base of the case 1, the lead screw gear 302 is provided with the pushing lead screw 301 in a threaded fit, one end of the pushing lead screw 301 is fixedly connected with the pushing plate 303, the pushing plate 303 is slidably mounted with the pushing plate connecting rod 3011, a pushing plate connecting rod spring 3012 for providing elastic force is arranged between the pushing plate connecting rod 3011 and the pushing plate 303, the top plate 307 is slidably mounted on the base of the case 1, the top plate spring 306 for providing elastic force is arranged between the top plate 307 and the base of the case 1, and one end of the top plate 307 is fixedly connected with the connecting frame 308; a squeezing plate 304 is slidably mounted on the top plate 307, a squeezing plate spring 305 for providing elastic force is arranged between the squeezing plate 304 and the top plate 307, a squeezing rotating plate 3042 is rotatably mounted on the squeezing plate 304, and a second spring sheet 3041 for providing elastic force is arranged between the squeezing rotating plate 3042 and the squeezing plate 304; the chute rod 310 is slidably mounted on the base of the chassis 1, the chute rod 310 is located on the side surface of the extrusion plate 304, a chute is arranged on the chute rod 310, the extrusion plate 304 is movably connected with the chute on the chute rod 310, and a chute rod spring 309 for providing elastic force is arranged between the chute rod 310 and the base of the chassis 1.

As shown in fig. 5, a clamping frame 313 is slidably mounted on the chassis 1, a supporting plate 312 is slidably mounted on the clamping frame 313, one end of the clamping frame 313 is slidably connected to the connecting frame 308, a meshing rack 317 is slidably mounted on the clamping frame 313, the meshing rack 317 is movably connected to a sliding slot on the sliding slot rod 310, a meshing gear 316 is rotatably mounted on the clamping frame 313, the meshing gear 316 is meshed with the meshing rack 317, a cam 314 is rotatably mounted on the clamping frame 313, the cam 314 is connected with the meshing gear 316 by a belt structure, a circumferential profile of the cam 314 contacts with one end of the supporting plate 312, a spline shaft 318 is rotatably mounted on the clamping frame 313, a transposition gear 319 is fixedly connected to one end of the spline shaft 318, and the transposition gear 319 is meshed with the clamping fluted disc 311.

As shown in fig. 1, 3 and 5, two belt driving structures are disposed on the base of the chassis 1, the spline shaft 318 is driven by the first belt driving structure on the chassis 1, the first belt driving structure includes two belt structures 105 and a motor 106, the motor 106 is fixedly disposed on the base of the chassis 1, the two belt structures 105 are respectively disposed on the output shafts of the motor 106, the spline shaft 318 is slidably connected with one end of the belt structure 105, the lead screw gear 302 is driven by the second belt driving structure on the chassis 1, the second belt driving structure includes a belt structure 101, two driving shafts 103 and a motor 102, the motor 102 is fixedly disposed on the base of the chassis 1, the first belt structure 101 is disposed on the output shaft of the motor 102, the two driving shafts 103 are respectively disposed at two ends of the first belt structure 101, one end of the driving shaft 103 is fixedly connected with the first gear 104, the first gear 104 is meshed with the lead screw gear 302.

As shown in fig. 6 and 7, for the linkage assembly, the supporting frame 206 is fixedly arranged on the base of the chassis 1, the supporting frame 206 has a planar area and an arc area, the linkage frame 207 is slidably mounted on the base of the chassis 1, a linkage frame spring 208 for providing elastic force is arranged between the linkage frame 207 and the base of the chassis 1, a contact rotating plate 210 is rotatably mounted on the linkage frame 207, a spring plate one 209 for providing elastic force is arranged between the contact rotating plate 210 and the linkage frame 207, a connecting rack 2071 is also fixedly connected on the linkage frame 207, the linkage assembly further comprises a gear transmission set, the gear transmission set comprises a gear shaft 204 and a gear two 202 rotatably mounted on the base of the chassis 1, two ends of the gear shaft 204 are respectively and fixedly connected with a gear four 205 and a gear three 203, the gear four 205 is meshed with the connecting rack 2071, the gear three 203 is meshed with the gear two 202, one end of the gear two 202 is connected with a belt structure three 201, the flip cover 2 is connected with one end of the third belt structure 201.

As shown in fig. 7, for the adsorption component, the adsorption carriage 211 is slidably mounted on the flip 2, a carriage screw 212 is fixedly connected to the adsorption carriage 211, a second motor 213 is fixedly mounted on the flip 2, a fourth belt structure 214 is connected to an output shaft of the second motor 213, one end of the fourth belt structure 214 and the carriage screw 212 form a screw pair, and an adsorption plate 215 is disposed at one end of the adsorption carriage 211; it should be noted that, the first belt structure 101, the second belt structure 105, the fifth belt structure 315, the third belt structure 201 and the fourth belt structure 214 are all belt structures, and are all composed of one belt and two belt wheels.

In carrying out the invention:

firstly, a plate is placed on an adsorption plate 215 and is adsorbed and fixed through the adsorption plate 215; through the operation of the first motor 102, under the belt transmission and gear meshing, the screw rod gear 302 rotates to enable the pushing screw rod 301 and the pushing plate 303 to move, at the moment, the pushing plate 303 is in a contact relation with the extrusion rotating plate 3042, when the pushing plate 303 moves, the pushing plate connecting rod 3011 extrudes and pushes the top plate 307 to enable the top plate 307 to slide, further, the connecting frame 308 pushes the clamping frame 313 to move, meanwhile, the connecting frame 308 pushes the contact rotating plate 210 to enable the linkage frame 207 and the contact rotating plate 210 to move simultaneously, under the gear pair connection, the fourth gear 205 rotates, under the gear transmission and belt transmission, the flip cover 2 carries a plate to turn over, and the flip cover 2 is spliced and closed with the case 1; during the flip cover 2 is turned, the link bracket 207 is in a sliding form, and the contact rotating plate 210 moves on the plane area of the support bracket 206.

When the flip cover 2 is turned over and closed, the plate is located on the supporting plate 312, the supporting plate 312 supports the plate, the push plate connecting rod 3011 continues to push the top plate 307 to move, so that the clamping frame 313 continues to move, the clamping fluted disc 311 clamps the plate, and at this time, the contact rotating plate 210 rotates and moves in the cambered surface area of the supporting frame 206; after the plate is clamped, the push plate 303 continues to move, at this time, the top plate 307 cannot be pushed, the push plate connecting rod 3011 slides relative to the push plate 303, the push plate connecting rod spring 3012 compresses, so that the push plate 303 pushes the extrusion rotating plate 3042, so that the extrusion rotating plate 3042 deflects, the extrusion plate 304 moves under the elastic force of the extrusion plate spring 305, so that the extrusion plate 304 carries the chute rod 310 to move, as the meshing rack 317 is movably connected with the empty slot on the chute rod 310, when the chute rod 310 moves, the meshing rack 317 also moves, under the connection of the gear pair, the meshing gear 316 and the cam 314 rotate, along with the change of the contact area of the outer circumferential profile of the cam 314 and the support plate 312, so that the support plate 312 moves and does not support the plate, and the surface of the plate cannot be shielded, and the sandblasting process is not affected.

Controlling the second displacement frame 404 to move through the sand blasting control cylinder 402 so that the sand blaster 406 is close to the plate, connecting through a screw pair so that the first displacement frame 403 moves on the second displacement frame 404, and the sand blaster 406 moves on the first displacement frame 403 to change the sand blasting position of the sand blaster 406; a dust suction head 502 at the bottom of the case 1 absorbs and collects dust in the sand blasting process; after one of the surface sandblast on the completion panel, through the operation of motor three 106, under belt drive, spline shaft 318 carries transposition gear 319 to rotate, again under the gear pair is connected, centre gripping fluted disc 311 carries panel rotation position, so that carry out sand blasting to other surfaces of panel, after accomplishing sand blasting, can pass through the operation of motor two 213, make to adsorb balladeur train 211 and remove, and then make adsorption plate 215 adsorb panel again, then flip 2 carries panel upset back initial position, in order to carry out the change of panel.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims

1. The utility model provides a special steel sheet metal component burring equipment, includes quick-witted case (1), and rotary mounting has flip (2) on quick-witted case (1), and the activity is provided with the adsorption component who is used for adsorbing panel on flip (2), and the bottom of quick-witted case (1) is provided with dust absorption part (5) that are used for collecting the dust, and the side of quick-witted case (1) is provided with sand blasting part (4), and the sand blasting through sand blasting part (4) is handled in order to get rid of the burr on the panel, its characterized in that still includes:

the two clamping components (3) are respectively arranged on two sides of the case (1) and are used for clamping and fixing the plate; the clamping component (3) comprises a pushing component and a clamping component, the pushing component comprises a top plate (307), one end of the top plate (307) is fixedly connected with a connecting frame (308), an extrusion plate (304) is slidably mounted on the top plate (307), and an extrusion rotating plate (3042) is movably arranged on the extrusion plate (304); the pushing assembly further comprises a pushing plate (303) and a sliding groove rod (310), and a pushing plate connecting rod (3011) is slidably mounted on the pushing plate (303); the chute rod (310) is movably arranged on the side surface of the extrusion plate (304), a chute is arranged on the chute rod (310), and the extrusion plate (304) is movably connected with the chute on the chute rod (310);

the clamping assembly comprises a clamping frame (313) which is slidably mounted on the case (1), a clamping fluted disc (311) is rotatably mounted at one end of the clamping frame (313), the other end of the clamping frame (313) is slidably connected with the connecting frame (308), a supporting plate (312) used for supporting a plate is slidably mounted on the clamping frame (313), a cam (314) is rotatably mounted on the clamping frame (313), the circumference of the cam (314) is in contact with one end of the supporting plate (312), a meshing rack (317) and a meshing gear (316) are further slidably mounted on the clamping frame (313), the meshing rack (317) is movably connected with a sliding chute on the sliding chute rod (310), and the meshing rack (317) and the meshing gear (316) form a gear pair.

2. The deburring apparatus of claim 1, wherein: the pushing assembly further comprises a lead screw gear (302) rotatably arranged on the base of the case (1), a pushing lead screw (301) is arranged on the lead screw gear (302) in threaded fit, one end of the pushing lead screw (301) is fixedly connected with the pushing plate (303), the top plate (307) is slidably arranged on the base of the case (1), a top plate spring (306) used for providing elasticity is arranged between the top plate (307) and the base of the case (1), the chute rod (310) is slidably arranged on the base of the case (1), and a chute rod spring (309) used for providing elasticity is arranged between the chute rod (310) and the base of the case (1); a pressing plate spring (305) for providing elastic force is arranged between the pressing plate (304) and the top plate (307); a second elastic sheet (3041) for providing elasticity is arranged between the extrusion rotating plate (3042) and the extrusion plate (304); a push plate connecting rod spring (3012) for providing elastic force is arranged between the push plate connecting rod (3011) and the push plate (303).

3. The deburring apparatus of claim 1, wherein: the centre gripping subassembly is still including the integral key shaft (318) of rotatory installation on clamping frame (313), and the one end fixedly connected with transposition gear (319) of integral key shaft (318), transposition gear (319) constitute the gear pair with centre gripping fluted disc (311), be provided with the spring that is used for providing elasticity between backup pad (312) and clamping frame (313), be connected through belt structure between meshing gear (316) and cam (314), be provided with two belt drive structures on quick-witted case (1), integral key shaft (318) are through the drive of the belt drive structure one on quick-witted case (1), and lead screw gear (302) are through the drive of the belt drive structure two on quick-witted case (1).

4. The de-burring apparatus of claim 3, wherein: a linkage component for driving the flip cover (2) is arranged on a base of the case (1), the linkage component comprises a linkage frame (207), a connecting rack (2071) is fixedly connected to the linkage frame (207), a contact rotating plate (210) is rotatably mounted on the linkage frame (207), a first elastic sheet (209) for providing elasticity is arranged between the linkage frame (207) and the contact rotating plate (210), the linkage component further comprises a gear transmission set, the connecting rack (2071) and the gear transmission set form a gear pair, and the gear transmission set is connected with the flip cover (2); the linkage assembly further comprises a support frame (206) fixedly arranged on the base of the case (1), two sides of the contact rotating plate (210) are movably connected with the support frame (206), the linkage frame (207) is arranged on the base of the case (1) in a sliding mode, and a linkage frame spring (208) used for providing elastic force is arranged between the linkage frame (207) and the base of the case (1).

5. The deburring apparatus of claim 4, wherein: the supporting frame (206) is provided with a plane area and an arc area, and when the contact rotating plate (210) moves in the plane area, the connecting rack (2071) drives the gear transmission set to turn the flip cover (2); when the contact rotating plate (210) moves in the cambered surface area, the clamping fluted disc (311) clamps the plate.

6. The deburring apparatus of claim 5, wherein: the gear transmission group comprises a gear four (205) which forms a gear pair with the connecting rack (2071), and one end of the gear transmission group is connected with the flip cover (2) through a belt structure.

7. The deburring apparatus of claim 1, wherein: the sand blasting component (4) comprises a second displacement frame (404) which is slidably mounted on the side face of the case (1), a first displacement frame (403) is slidably mounted on the second displacement frame (404), a sand blaster (406) for sand blasting is slidably mounted on the first displacement frame (403), and sand blasting treatment is performed on each area of the plate through movement of the sand blaster (406).

8. The deburring apparatus of claim 1, wherein: the adsorption component comprises an adsorption sliding frame (211) which is installed on the turnover cover (2) in a sliding mode, and an adsorption plate (215) used for adsorbing a plate is arranged at one end of the adsorption sliding frame (211).