CN212237942U - Aluminum part powder spraying and powder recycling device thereof - Google Patents

Abstract

The utility model discloses an aluminum product powder spraying and powder recycling device, which comprises a frame, a powder collecting mechanism, a recycling mechanism, a side spraying mechanism and a fixed support frame, wherein a group of recycling mechanisms are arranged at two sides of the frame, the powder collecting mechanism is arranged at the other side of the frame, the fixed support frame is arranged at one side of the powder collecting mechanism, and the side spraying mechanism is arranged at one side of the fixed support frame; the utility model discloses a motor I among the grinding mechanism provides power and carries out abundant cleaning to aluminium finished piece surface, guarantees product surface quality after follow-up dusting, uses in the middle of the powder that makes to satisfy reuse through the conveyer pipe entering into the storage tank through the discharge gate through collecting mechanism and recycle mechanism at the powder, and then can further practice thrift the use of powder, also can play positive effect to environmental protection simultaneously.

Description

Aluminum part powder spraying and powder recycling device thereof

Technical Field

The utility model belongs to the technical field of the processing of aluminium finished piece is prepared, in particular to aluminium finished piece is dusted and powder recycle device thereof.

Background

The aluminous gusset plate has the advantages of flame retardance, corrosion resistance and moisture resistance, and is convenient to assemble and disassemble, different in military and prominent in the recent home decoration market, the powder spraying process and the powder spraying quality in the manufacturing process directly determine the product phase and the service life of the finished aluminous gusset plate, but the problems can exist in the actual powder spraying process: 1) the surface of the aluminum part is not further cleaned before powder spraying, and the surface of the aluminum part is easy to foam and the powder falls off in the later manufacturing and production process, so that some produced products cannot be normally used; 2) the powder spraying process can generate excessive powder which can not be directly utilized for spraying the powder to the aluminum parts, the excessive powder is not further recycled, so that the waste of production materials is caused, and the environmental protection is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides an aluminum part powder spraying and powder recycling device thereof, which can carry out sufficient cleaning treatment on the surface of the aluminum part through a grinding mechanism, thereby ensuring the surface quality of a product after subsequent powder spraying, and can ensure that the powder meeting the requirement of reuse enters a storage tank through a discharge port through a conveying pipe for use through a powder collecting mechanism and a recycling mechanism, thereby further saving the use of the powder and playing an active role in environmental protection;

in order to realize the purpose, the utility model discloses a technical scheme is:

an aluminum part powder spraying and powder recycling device comprises a rack, a powder collecting mechanism, a recycling mechanism, a side spraying mechanism and a fixed support frame, wherein a group of recycling mechanisms are arranged on two sides of the rack;

the machine frame bears a grinding mechanism, a powder spraying mechanism, a lifting control mechanism, a cleaning mechanism and a guide groove, wherein the grinding mechanism is arranged on one side of the guide groove, the powder spraying mechanism is arranged on one side of the grinding mechanism, the cleaning mechanism is arranged on one side of the powder spraying mechanism, and the lifting control mechanism is arranged on the other side of the powder spraying mechanism;

the lifting control mechanism comprises a motor II, a bevel gear I, a bevel gear II, a screw rod, a screw nut, connecting rods and a fixed base, wherein the bevel gear I is arranged on one side of the motor II, the bevel gear II is arranged on one side of the bevel gear I, the screw rod is arranged on one side of the bevel gear II, the screw nut is arranged on one side of the screw rod, a plurality of connecting rods are arranged on one side of the screw nut, the fixed base is arranged on one side of each connecting rod, the motor II is fixed on the side wall of the rack and is fixedly connected with the bevel gear I through a flat key, the bevel gear I is meshed with the bevel gear II, the bevel gear II is fixedly connected with the screw rod, the screw;

the powder spraying mechanism comprises a storage tank, a material conveying hose and a powder spraying gun (model: L60T10), wherein the material conveying hose is arranged on one side of the storage tank, the powder spraying gun is arranged on one side of the material conveying hose, the tail part of the powder spraying gun is fixed on a fixed base, one end of the material conveying hose is connected with the storage tank, the other end of the material conveying hose penetrates through the fixed base to be connected with the powder spraying gun, the material conveying hose is arranged according to the actual preparation requirement, and the length of the material conveying hose is prevented from limiting the working stroke;

the cleaning mechanism comprises a motor III, a gear III, a rack, a cleaning roller, a supporting wheel, a supporting frame and a temporary storage bottom plate, wherein one side of the temporary storage bottom plate is provided with a group of supporting frames, one side of each supporting frame is provided with the supporting wheel, one side of each supporting wheel is provided with the cleaning roller, one side of each cleaning roller is provided with the gear III, one side of the gear III is provided with the rack, the other side of the gear III is provided with the motor III, the motor III is connected with the gear III, the gear III is meshed with the rack, the gear III is connected with the cleaning roller, the other end of the cleaning roller is connected with the supporting wheel, and the supporting wheel is connected with the supporting frame;

the powder collecting mechanism comprises a collecting box, a communicating pipe, a screen, heating wires, a vibrating screen, a vibrating motor, a storage tank and a damping connecting column, wherein the storage tank is arranged on one side of the collecting box, the damping connecting column is arranged on one side of the storage tank, the vibrating screen is arranged on one side of the damping connecting column, the screen is arranged on one side of the vibrating screen, the heating wires are arranged on one side of the screen, the vibrating motor is arranged on the other side of the vibrating screen, the communicating pipe is arranged on the other side of the collecting box, the tail part of the vibrating motor is fixed on the collecting box, the head part of the vibrating motor is connected with the vibrating screen, the vibrating screen is connected with the damping connecting column through a convex block, when the cleaning mechanism cleans powder to the powder collecting mechanism, the powder falls into the screen and is heated through the;

the recycling mechanism comprises a discharge port, a supporting base, a treatment tank, a conveying pipe, a suction fan, a turnover plate, a filter screen, a feed hopper and a supporting net, a feed hopper is arranged on one side of the supporting base, a treatment tank is arranged on one side of the feed hopper, a filter screen is arranged on one side of the treatment tank, a turnover plate is arranged on one side of the filter screen, a group of discharge ports are arranged on one side of the turnover plate, a conveying pipe is arranged on one side of the discharge ports, a supporting net is arranged on the other side of the discharge ports, a suction fan is arranged on one side, after the powder material enters the bottom of the collecting box, the suction fan provides power to make the powder material in the collecting box enter the feed hopper through the communicating pipe, filter through the filter screen, make great granule fall into in the middle of the feeder hopper again, the powder after the filtration blocks through the returning face plate again, makes the powder that satisfies the reuse pass through the conveyer pipe through the discharge gate and enters into the storage tank in the middle of, tiny powder passes the supporting network discharge again.

Preferably, the top of the rack is provided with a conveying guide rail, and a transmission chain can be directly connected in the conveying guide rail, so that automatic conveying and powder spraying of aluminum parts can be quickly realized, and the production efficiency can be improved; a dust cover is arranged on one side of the vibration motor, and the vibration motor is protected from dust through the dust cover; the feeder hopper one side is equipped with rotatory brush, and the produced air current drives rotatory brush and rotates under the suction fan effect to can stir the powder that gets into in the feeder hopper repeatedly, make the powder fully obtain filtering.

Preferably, the side spraying mechanism comprises a substrate, side supporting plates, a supporting and adjusting mechanism and a side spraying adjusting mechanism, wherein one side of the substrate is provided with a group of side supporting plates, one side of each side supporting plate is provided with the supporting and adjusting mechanism, and one side of each supporting and adjusting mechanism is provided with the side spraying adjusting mechanism;

the support adjusting mechanism comprises an upper support plate, T-shaped grooves, a slide rail, a slide block, an X-shaped support, a motor IV, a screw rod, a nut sleeve, a connecting plate, a bearing seat and connecting lugs, wherein the motor IV is arranged on one side of the side support plate, the screw rod is arranged on one side of the motor IV, the nut sleeve is arranged on one side of the screw rod, the connecting plate is arranged on one side of the nut sleeve, a group of slide blocks are arranged at two ends of the connecting plate, the X-shaped support is arranged on one side of the slide block, the slide rail is arranged inside the slide block, a plurality of connecting lugs are arranged on one side of the X-shaped support, the upper support plate is arranged on one side of the connecting lugs, a group of T-shaped grooves are arranged inside the upper support plate, the bearing seat is arranged on the other side of the screw rod, the X-shaped support is movably connected with the connecting lug, the connecting lug is fixed at the bottom of the upper supporting plate, when the side spraying adjusting mechanism needs height adjustment, the motor IV provides power to drive the screw rod to rotate, the screw rod drives the nut sleeve to move, the connecting plate drives the sliding block to move, and the X-shaped support is ejected or contracted under the driving of the sliding block, so that the purpose of adjusting the height is achieved;

preferably, the side-spraying adjusting mechanism comprises a motor V, a screw rod, a screw nut, a connecting bottom plate, T-shaped connecting blocks, a circular groove I, rotary supporting columns, balls, a motor VI, a gear IV, a gear disc, a rotating plate, a guide block, a connecting seat, a jackscrew, a circular groove II, a visible probe (model GSY-9000), a grinding disc I, a motor VII and a transmission shaft II, wherein one side of the connecting bottom plate is provided with a group of T-shaped connecting blocks, the other side of the connecting bottom plate is provided with the circular groove I, one side of the circular groove I is provided with a plurality of rotary supporting columns, the two ends of each rotary supporting column are provided with the balls, the other side of each rotary supporting column is provided with the motor VI, one side of the motor VI is provided with the gear IV, one side of the gear IV is provided with the gear disc, one side of the gear disc is provided with the rotating plate, one side of the guide block is provided with a connecting seat, one side of the connecting seat is provided with a jackscrew, the other side of the connecting seat is provided with a powder gun, the transmission shaft II is arranged on one side of the rotating plate, one side of the transmission shaft II is provided with a motor VII, the other side of the transmission shaft II is provided with a grinding disc I, the motor V is arranged on one side of the upper supporting plate, one side of the motor V is provided with a screw rod, and one side of the;

the motor V is fixed on the side wall of the upper supporting plate and connected with a screw rod, the screw rod is connected with a screw rod nut through threads, the screw rod nut is fixedly connected with a connecting bottom plate, the center of the connecting bottom plate is fixedly connected with a motor VI, the periphery of the connecting plate is connected with the upper supporting plate through a rotating supporting column, the motor VI is connected with a gear IV, the gear IV is meshed with a gear disc, the gear disc is fixed at the bottom of the rotating plate, a guide block is fixed at the upper part of the rotating plate and is matched and connected with a connecting seat and is fixed in position through a jackscrew, a powder gun is fixed on the connecting seat, a visual probe is fixed on the rotating plate, a motor VII is fixed on the side wall of the upper supporting plate, the head of the motor VII is connected with one end of;

it rotates to provide power drive screw rod through motor V, the screw rod rotates and makes screw nut remove, and then drive and connect the bottom plate seesaw, further make the side spout adjustment mechanism reach the assigned position and grind the work of dusting, there are some aluminium finished piece shapes and are not unified, drive gear IV through motor VI and rotate, make the toothed disc take place to rotate, and then drive the rotor plate and rotate, further realize the angular adjustment of abrasive disc I and dusting gun, monitor the grinding position through visual probe, the adjustment is accomplished the back, motor VII drives transmission shaft II and rotates, make abrasive disc I rotate and grind the aluminium finished piece, accomplish the back of grinding, along guide block sliding connection seat with the extension length of adjustment dusting gun, accomplish fixedly through the jackscrew after the regulation is accomplished.

Preferably, the grinding mechanism comprises a grinding angle control box, a motor I, a gear II, a motor base, a sleeve, a transmission shaft I, a grinding disc II, a supporting base plate and an oil cylinder I, wherein the gear I is arranged on one side of the motor I, the motor base is arranged on the other side of the motor I, the gear II is arranged on one side of the gear I, the transmission shaft I is arranged on one side of the gear II, the grinding disc II is arranged on one side of the transmission shaft I, the sleeve is arranged on the other side of the transmission shaft I, the supporting base plate is arranged on one side of the sleeve, the grinding angle control box is arranged on the other side of the sleeve, the oil cylinder I is arranged on one side of the supporting base, the tail part of the oil cylinder I is fixed on the fixing base, the head part of the oil cylinder I is fixedly connected with the supporting base plate, the, the gear I is meshed with the gear II, the gear II is connected with one end of a transmission shaft I, and the other end of the transmission shaft I is connected with a grinding disc II;

preferably, the grinding angle control box comprises a supporting and fixing plate, an oil cylinder II, a connecting base, a sector gear I, a sector gear II, a telescopic shaft, a motor VIII and a motor fixing plate, wherein a group of oil cylinders II are arranged on one side of the supporting and fixing plate, the connecting base is arranged on one side of the oil cylinder II, a group of telescopic shafts are arranged on one side of the connecting base, the sector gear I is arranged on one side of the telescopic shaft, the sector gear II is arranged on one side of the sector gear I, the motor fixing plate is arranged on one side of the motor fixing plate, a grinding disc II is arranged on one side of the motor VIII, the supporting and fixing plate is fixed on a sleeve, the tail of the oil cylinder II is movably connected with the supporting and fixing plate, the head of the oil cylinder II is movably connected with the connecting base, the sector gear I is fixed on the connecting base plate, the sector gear II is fixed on the, the motor VIII is fixed on the other side of the motor fixing plate, and the head of the motor VIII is connected with the grinding disc II;

the motor VIII comprises a connecting shaft, a connecting ball sleeve and a circular arc bump, wherein the connecting ball is arranged on one side of the connecting shaft, a plurality of circular arc bumps are arranged on one side of the connecting ball, the connecting ball sleeve is arranged on the other side of the connecting ball, one end of the connecting shaft is connected with the motor VIII, the other end of the connecting shaft is connected with the connecting ball, the circular arc bumps are fixed on the outer side of the connecting ball, the connecting ball and the connecting ball sleeve are mutually matched and connected, and the connecting ball sleeve is fixedly connected with the grinding disc;

when the aluminum product is needed to be ground and powder sprayed, a motor II provides power to drive a bevel gear I to rotate, the bevel gear I drives a bevel gear II, so that a screw rod rotates, a screw nut drives a fixed base through a connecting rod to enable the height of a grinding mechanism and the height of a powder spraying mechanism to be matched with that of the aluminum product, meanwhile, the motor I rotates to drive the gear I and the gear II to rotate, the gear II drives a transmission shaft I to enable a grinding disc II to rotate rapidly, the grinding disc II is driven to move up and down in a reciprocating mode along the surface of the aluminum product through an oil cylinder I to grind the outer surface of the aluminum product, meanwhile, through controlling the telescopic ejection of a group of oil cylinders II, angle adjustment is carried out, the connecting base is enabled to deflect by utilizing the height difference of the ejection of the two oil cylinders II, further, a motor fixing plate is enabled to change in angle through the meshing fit of, the grinding disc II can rotate by a certain angle around the connecting ball due to uneven stress, so that the surface of the grinding disc II can be parallel to the surface of an aluminum workpiece, the angle suitable for grinding the surface of the aluminum workpiece is further adjusted, meanwhile, the motor VIII provides power to enable the connecting shaft to rotate, further drives the connecting ball to rotate, transmits the power to the connecting ball sleeve through the arc bump, further drives the grinding disc II to rotate, ensures the smoothness of the powder spraying surface of the aluminum workpiece, opens a powder spraying gun switch, enables the storage tank to provide powder for the powder spraying gun through the material conveying hose, and completes the powder spraying process;

preferably, the grinding disc II comprises a disc body, an air suction groove and a suction pipe, wherein the disc body is provided with a plurality of air suction grooves, the suction pipes are arranged in the air suction grooves, the grinding disc I and the grinding disc II have the same structure, the suction pipes form a negative pressure area, rust, aluminum scraps and the like generated by grinding are sucked away, and the influence on the reuse of powder due to the mixing of the rust, the aluminum scraps and the like with the powder is prevented; the felt sealing strip is arranged on one side of the guide groove, the fixing clamp is arranged on one side of the felt sealing strip, the felt sealing strip is fixed on the outer side of the guide groove through the fixing clamp, and powder passing through the guide groove is stuck through the felt sealing strip, so that dust is prevented from spreading and affecting the environment.

Compared with the prior art, the utility model beneficial effect shows:

1) after the aluminum parts are comprehensively cleaned, the aluminum parts are further ground, and the surfaces of the aluminum parts are sufficiently cleaned by grinding, so that scales, oil stains and other dirt do not exist on the surfaces, the bonding degree of powder and the surfaces of the aluminum parts is improved after subsequent powder spraying, the surface quality of products is ensured, and the phenomena of surface foaming, falling off and the like are prevented.

2) After surplus powder falls, through drying in the mechanism is collected to the powder, make the powder reduction in the at utmost, filter through the filter screen again, make great granule fall into in the middle of the feeder hopper again, the powder after the filtration blocks through the returning face plate again, make the powder that satisfies reuse use in the middle of entering into the storage tank through the conveyer pipe through the discharge gate, and then can further practice thrift the use of powder, reduce the waste of manufacturing material, retrieve the powder simultaneously and also can play positive effect to environmental protection.

Drawings

FIG. 1 is a schematic structural view of an aluminum product powder spraying and powder recycling device of the utility model;

FIG. 2 is a schematic position diagram of a frame, a powder collecting mechanism and a recycling mechanism in the aluminum part powder spraying and powder recycling device of the utility model;

FIG. 3 is a schematic view of a middle frame structure of the aluminum part powder spraying and powder recycling device of the present invention;

FIG. 4 is a schematic structural view of a cleaning mechanism in the aluminum product powder spraying and powder recycling device of the present invention;

FIG. 5 is a schematic structural view of a lifting control mechanism in the aluminum product powder spraying and powder recycling device of the present invention;

FIG. 6 is a schematic structural view of a powder collecting mechanism in the powder spraying and powder recycling device for aluminum parts of the present invention;

FIG. 7 is a sectional view of a recycling mechanism in the powder spraying and powder recycling device for aluminum parts of the present invention;

FIG. 8 is a schematic view of the internal structure of the recycling mechanism in the powder spraying and recycling device for aluminum parts of the present invention;

FIG. 9 is a schematic structural view of a side spraying mechanism in the aluminum part powder spraying and powder recycling device of the present invention;

FIG. 10 is a schematic view of the structure of the other side of the side spraying mechanism in the aluminum part powder spraying and powder recycling device of the present invention;

FIG. 11 is an exploded view of a side-spray regulating mechanism in the aluminum part powder spraying and powder recycling device of the present invention;

FIG. 12 is an exploded view of the other side of a side spray adjusting mechanism in the aluminum product powder spraying and powder recycling device of the present invention;

FIG. 13 is a schematic view of a rotary plate structure in the aluminum part powder spraying and powder recycling device of the present invention;

FIG. 14 is a schematic structural view of a grinding mechanism in the powder spraying and powder recycling device for aluminum parts of the present invention;

FIG. 15 is a top view of a grinding mechanism in the powder spraying and recycling device for aluminum parts of the present invention;

FIG. 16 is a schematic structural view of a felt sealing strip in the aluminum part powder spraying and powder recycling device of the present invention;

FIG. 17 is a schematic structural view of a grinding pan II in the aluminum part powder spraying and powder recycling device of the present invention;

FIG. 18 is a schematic structural view of a motor VIII in the aluminum part powder spraying and powder recycling device of the utility model;

FIG. 19 is a schematic view of the connection structure of a motor VIII in the aluminum part powder spraying and powder recycling device of the present invention.

In the figure: 1. a frame; 11. a grinding mechanism; 110. a grinding angle control box; 1101. a support fixing plate; 1102. an oil cylinder II; 1103. connecting a base; 1104. a sector gear I; 1105. a sector gear II; 1106. a telescopic shaft; 1107. a motor VIII; 11071. a connecting shaft; 11072. connecting the ball bearings; 11073. connecting the bead sleeve; 11074. a circular arc bump; 1108. a motor fixing plate; 111. a motor I; 112. a gear I; 113. a gear II; 114. a motor base; 115. a sleeve; 116. a transmission shaft I; 117. a grinding disc II; 1171. an air suction groove; 1172. drawing the tube; 118. a support base plate; 119. an oil cylinder I; 12. a powder spraying mechanism; 121. a material storage tank; 122. a delivery hose; 123. a powder gun; 13. a lift control mechanism; 131. a motor II; 132. a bevel gear I; 133. a bevel gear II; 134. a lead screw; 135. a lead screw nut; 136. a connecting rod; 137. a fixed base; 14. a cleaning mechanism; 141. a motor III; 142. a gear III; 143. a rack; 144. cleaning the roller; 145. a support wheel; 146. a support frame; 147. temporarily storing the bottom plate; 15. a transfer rail; 16. a guide groove; 161. a felt sealing strip; 162. fixing a clamp; 2. a powder collecting mechanism; 21. a collection box; 22. a communicating pipe; 23. screening a screen; 24. an electric heating wire; 25. a vibrating screen; 26. a vibration motor; 27. a storage groove; 28. a shock-absorbing connecting column; 29. a dust cover; 3. a recycling mechanism; 30. a discharge port; 31. a support base; 32. a treatment tank; 33. a delivery pipe; 34. a suction fan; 35. a turnover plate; 36. a filter screen; 37. a feed hopper; 38. rotating the brush; 39. a support net; 4. a side spraying mechanism; 41. a substrate; 42. a side support plate; 43. a support adjustment mechanism; 430. an upper support plate; 4301. a T-shaped groove; 431. a slide rail; 432. a slider; 433. an X-shaped bracket; 434. a motor IV; 435. a screw rod; 436. a nut socket; 437. a connecting plate; 438. a bearing seat; 439. connecting lugs; 44. a side-spraying adjusting mechanism; 440. a motor V; 441. a screw; 442. a screw nut; 443. connecting the bottom plate; 4431. a T-shaped connecting block; 4432. a circular groove I; 444. rotating the support column; 4441. a ball bearing; 445. a motor VI; 446. a gear IV; 447. a gear plate; 448. a rotating plate; 4481. a guide block; 4482. a connecting seat; 4483. carrying out top thread; 4484. a circular groove II; 4485. a visual probe; 449. a grinding disc I; 4491. a motor VII; 4492. a transmission shaft II; 5. and fixing the support frame.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 19.

An aluminum part powder spraying and powder recycling device comprises a rack 1, a powder collecting mechanism 2, a recycling mechanism 3, a side spraying mechanism 4 and a fixed support frame 5, wherein a group of recycling mechanisms 3 are arranged on two sides of the rack 1, the powder collecting mechanism 2 is arranged on the other side of the rack 1, the fixed support frame 5 is arranged on one side of the powder collecting mechanism 2, and the side spraying mechanism 4 is arranged on one side of the fixed support frame;

the machine frame 1 bears a grinding mechanism 11, a powder spraying mechanism 12, a lifting control mechanism 13, a cleaning mechanism 14 and a guide groove 16, wherein the grinding mechanism 11 is arranged on one side of the guide groove 16, the powder spraying mechanism 12 is arranged on one side of the grinding mechanism 11, the cleaning mechanism 14 is arranged on one side of the powder spraying mechanism 12, and the lifting control mechanism 13 is arranged on the other side of the powder spraying mechanism 12;

the lifting control mechanism 13 comprises a motor II 131, a bevel gear I132, a bevel gear II 133, a lead screw 134, a lead screw nut 135, connecting rods 136 and a fixed base 137, wherein the bevel gear I132 is arranged on one side of the motor II 131, the bevel gear II 133 is arranged on one side of the bevel gear I132, the lead screw 134 is arranged on one side of the bevel gear II 133, the lead screw nut 135 is arranged on one side of the lead screw 134, a plurality of connecting rods 136 are arranged on one side of the lead screw nut 135, the fixed base 137 is arranged on one side of each connecting rod 136, the motor II 131 is fixed on the side wall of the rack 1 and is fixedly connected with the bevel gear I132 through a flat key, the bevel gear I132 is meshed with the bevel gear II 133, the bevel gear II 133 is fixedly connected with the lead screw 134, the lead screw 134 is;

the powder spraying mechanism 12 comprises a material storage tank 121, a material conveying hose 122 and a powder spraying gun 123, wherein the material conveying hose 122 is arranged on one side of the material storage tank 121, the powder spraying gun 123 is arranged on one side of the material conveying hose 122, the tail part of the powder spraying gun 123 is fixed on a fixed base 137, one end of the material conveying hose 122 is connected with the material storage tank 121, the other end of the material conveying hose 122 penetrates through the fixed base 137 to be connected with the powder spraying gun 123, the material conveying hose 122 is arranged according to the actual preparation requirement, and the length of the material conveying hose 122 is prevented from limiting the;

the cleaning mechanism 14 comprises a motor III 141, a gear III 142, a rack 143, a cleaning roller 144, a supporting wheel 145, a supporting frame 146 and a temporary storage bottom plate 147, one side of the temporary storage bottom plate 147 is provided with a group of supporting frames 146, one side of each supporting frame 146 is provided with the supporting wheel 145, one side of each supporting wheel 145 is provided with the cleaning roller 144, one side of each cleaning roller 144 is provided with the gear III 142, one side of each gear III 142 is provided with the rack 143, the other side of each gear III 142 is provided with the motor III 141, each motor III 141 is connected with the gear III 142, each gear III 142 is meshed with the rack 143, the gear III 142 is connected with the cleaning roller 144, the other end of each cleaning roller 144 is connected with the supporting wheel 145, each supporting wheel 145 is connected with the supporting frame 146, when a large amount of powder falls and needs to be cleaned to the powder collecting mechanism 2, power is provided by the motor III 141 to drive the gear III 142 to rotate, so that the, cleaning the powder to a powder collecting mechanism 2;

the powder collecting mechanism 2 comprises a collecting box 21, a communicating pipe 22, a screen 23, heating wires 24, a vibrating screen 25, a vibrating motor 26, a storage tank 27 and a damping connecting column 28, wherein the storage tank 27 is arranged on one side of the collecting box 21, the damping connecting column 28 is arranged on one side of the storage tank 27, the vibrating screen 25 is arranged on one side of the damping connecting column 28, the screen 23 is arranged on one side of the vibrating screen 25, the heating wires 24 are arranged on one side of the screen 23, the vibrating motor 26 is arranged on the other side of the vibrating screen 25, the communicating pipe 22 is arranged on the other side of the collecting box 21, the tail part of the vibrating motor 26 is fixed on the collecting box 21, the head part of the vibrating motor is connected with the vibrating screen 25, the vibrating screen 25 is connected with the damping connecting column 28 through a bump, when the cleaning mechanism 14 cleans powder to the powder collecting mechanism 2, the powder falls into the, the dried powder enters the bottom of the collecting box 21;

the recycling mechanism 3 comprises a discharge port 30, a supporting base 31, a processing tank 32, a conveying pipe 33, a suction fan 34, a turnover plate 35, a filter screen 36, a feed hopper 37 and a supporting net 39, wherein the feed hopper 37 is arranged on one side of the supporting base 31, the processing tank 32 is arranged on one side of the feed hopper 37, the filter screen 36 is arranged on one side of the processing tank 32, the turnover plate 35 is arranged on one side of the filter screen 36, a group of discharge ports 30 are arranged on one side of the turnover plate 35, the conveying pipe 33 is arranged on one side of the discharge port 30, the supporting net 39 is arranged on the other side of the discharge port 30, the suction fan 34 is arranged on one side of the supporting net 39, when powder enters the bottom of the collecting box 21, the suction fan 34 provides power to enable the powder in the collecting box 21 to enter the feed hopper 37 through the communicating pipe 22, the, the powder meeting the requirement of reuse enters the storage tank 121 through the delivery pipe 33 through the discharge port 30, and the fine powder passes through the supporting net 39 to be discharged.

The top of the rack 1 is provided with a conveying guide rail 15, a transmission chain can be directly connected in the conveying guide rail 15, automatic conveying and powder spraying of aluminum parts can be quickly realized, and the production efficiency is improved; a dust cover 29 is arranged on one side of the vibration motor 26, and the vibration motor 26 is protected from dust through the dust cover 29; one side of the feed hopper 37 is provided with a rotary brush 38, and the air flow generated under the action of the suction fan 34 drives the rotary brush 38 to rotate, so that the powder entering the feed hopper 37 can be repeatedly stirred, and the powder can be fully filtered.

The side spraying mechanism 4 comprises a substrate 41, side support plates 42, a supporting and adjusting mechanism 43 and a side spraying adjusting mechanism 44, wherein one side of the substrate 41 is provided with a group of side support plates 42, one side of each side support plate 42 is provided with the supporting and adjusting mechanism 43, and one side of each supporting and adjusting mechanism 43 is provided with the side spraying adjusting mechanism 44;

the supporting and adjusting mechanism 43 comprises an upper supporting plate 430, T-shaped grooves 4301, a sliding rail 431, a sliding block 432, an X-shaped bracket 433, a motor IV 434, a screw rod 435, a nut sleeve 436, a connecting plate 437, a bearing seat 438 and a connecting lug 439, the motor IV 434 is arranged on one side of a side supporting plate 42, the screw rod 435 is arranged on one side of the motor IV 434, the nut sleeve 436 is arranged on one side of the screw rod 435, the connecting plate 437 is arranged on one side of the nut sleeve 436, a group of sliding blocks 432 are arranged at two ends of the connecting plate 437, the X-shaped bracket 433 is arranged on one side of the sliding block 432, the sliding rail 431 is arranged in the sliding block 432, a plurality of connecting lugs 439 are arranged on one side of the X-shaped bracket 433, the upper supporting plate 430 is arranged on one side of the connecting lug 439, a group of T-shaped grooves 4301 is arranged in the, the sliding block 432 is connected with the connecting plate 437, the sliding block 432 is connected with the X-shaped support 433 through the rotating shaft, the X-shaped support 433 is movably connected with the connecting lug 439, the connecting lug 439 is fixed at the bottom of the upper support plate 430, when the side spraying adjusting mechanism 44 needs to adjust the height, the motor IV 434 provides power to drive the lead screw 435 to rotate, the lead screw 435 drives the nut sleeve 436 to move, the connecting plate 437 drives the sliding block 432 to move, and the X-shaped support 433 is ejected or contracted under the driving of the sliding block 432, so that the purpose of adjusting the height is achieved;

the side spraying adjusting mechanism 44 comprises a motor V440, a screw 441, a screw nut 442, a connecting bottom plate 443, a T-shaped connecting block 4431, a circular groove I4432, a rotary supporting column 444, a ball 4441, a motor VI 445, a gear IV 446, a gear disc 447, a rotating plate 448, a guide block 4481, a connecting seat 4482, a top thread 4483, a circular groove II 4484, a grinding disc I449, a motor VII 4491 and a transmission shaft II 4492, wherein one side of the connecting bottom plate 443 is provided with a group of T-shaped connecting blocks 4431, the other side of the connecting bottom plate 443 is provided with a circular groove I4432, one side of the circular groove I4432 is provided with a plurality of rotary supporting columns 444, two ends of the rotary supporting columns 444 are provided with the ball 4441, the other side of the rotary supporting columns 444 is provided with the motor VI 445, one side of the motor VI 445 is provided with the gear IV 446, one side of the gear IV 446 is provided with the gear disc 447, one side of the gear disc 447 is provided with the rotating, a connecting seat 4482 is arranged on one side of the guide block 4481, a jackscrew 4483 is arranged on one side of the connecting seat 4482, a powder gun 123 is arranged on the other side of the connecting seat 4482, a transmission shaft II 4492 is arranged on one side of a rotating plate 448, a motor VII 4491 is arranged on one side of the transmission shaft II 4492, a grinding disc I449 is arranged on the other side of the transmission shaft II 4492, a motor V440 is arranged on one side of an upper supporting plate 430, a screw rod 441 is arranged on one side of the motor V440, and a screw rod nut 442 is;

the motor V440 is fixed on the side wall of the upper supporting plate 430 and connected with the screw 441, the screw 441 is connected with the screw nut 442 through screw threads, the screw nut 442 is fixedly connected with the connecting bottom plate 443, the center of the connecting bottom plate 443 is fixedly connected with the motor VI 445, the periphery of the connecting plate 437 is connected with the upper supporting plate 430 through the rotating support column 444, the motor VI 445 is connected with the gear IV 446, the gear IV 446 is meshed with the gear disc 447, the gear disc 447 is fixed at the bottom of the rotating plate 448, the guide block 4481 is fixed at the upper part of the rotating plate 448, and is matched and connected with a connecting seat 4482 and fixed in position through a jackscrew 4483, a powder gun 123 is fixed on the connecting seat 4482, the visual probe 4485 is fixed on the rotating plate 448, the motor VII 4491 is fixed on the side wall of the rotating plate 448, the head of the motor VII 4491 is connected with one end of a transmission shaft II 4492, the other end of the transmission shaft II 4492 is connected with a grinding disc I449, and the transmission shaft II 4492 is fixed on the upper part of the rotating plate 448 through a square sleeve;

the motor V440 provides power to drive the screw 441 to rotate, the screw 441 rotates to enable the screw nut 442 to move, the connecting bottom plate 443 is further driven to move back and forth, the side spray adjusting mechanism 44 is further enabled to reach a designated position to conduct grinding and powder spraying work, the shapes of some aluminum products are not uniform, the motor VI 445 drives the gear IV 446 to rotate, the gear disc 447 is enabled to rotate, the rotating plate 448 is further driven to rotate, angle adjustment of the grinding disc I449 and the powder spraying gun 123 is further achieved, the grinding position is monitored through the visual probe 4485, after adjustment is completed, the motor VII 4491 drives the transmission shaft II 4492 to rotate, the grinding disc I449 rotates to grind the aluminum products, after grinding is completed, the connecting seat 4482 is slid along the guide block 4481 to adjust the extending length of the powder spraying gun 123, and after adjustment is completed, fixing is completed through the top thread 4483.

The grinding mechanism comprises a grinding angle control box 110, a motor I111, a gear I112, a gear II 113, a motor base 114, a sleeve 115, a transmission shaft I116, a grinding disc II 117, a supporting base plate 118 and a cylinder I119, wherein the gear I112 is arranged on one side of the motor I111, the motor base 114 is arranged on the other side of the motor I111, the gear II 113 is arranged on one side of the gear I112, the transmission shaft I116 is arranged on one side of the gear II 113, the grinding disc II 117 is arranged on one side of the transmission shaft I116, the sleeve 115 is arranged on the other side of the transmission shaft I116, the supporting base plate 118 is arranged on one side of the sleeve 115, the grinding angle control box 110 is arranged on the other side of the sleeve 115, the cylinder I119 is arranged on one side of the supporting base plate 118, the tail part of the cylinder I119 is fixed on the fixed base 137, the head, the upper part of the sleeve 115 is fixedly provided with a motor base 114, the motor base 114 is fixedly connected with a motor I111, the head of the motor I111 is connected with a gear I112, the gear I112 is meshed with a gear II 113, the gear II 113 is connected with one end of a transmission shaft I116, and the other end of the transmission shaft I116 is connected with a grinding disc II 117;

the grinding angle control box 110 comprises a supporting and fixing plate 1101, an oil cylinder II 1102, a connecting base 1103, a sector gear I1104, a sector gear II 1105, a telescopic shaft 1106, a motor VIII 1107 and a motor fixing plate 1108, wherein one side of the supporting and fixing plate 1101 is provided with a group of oil cylinders II 1102, one side of the oil cylinders II 1102 is provided with the connecting base 1103, one side of the connecting base 1103 is provided with a group of telescopic shaft 1106, one side of the telescopic shaft 1106 is provided with the sector gear I1104, one side of the sector gear I1104 is provided with the sector gear II 1105, one side of the sector gear II 1105 is provided with the motor fixing plate 1108, one side of the motor fixing plate 1108 is provided with the motor VIII 1107, one side of the motor VIII 1107 is provided with a grinding disc II 117, the supporting and fixing plate 1101 is fixed on a sleeve 115, the tail of the oil cylinder II 1102 is movably connected with the supporting and fixing plate 1101, the head, the sector gear I1104 is meshed with the sector gear II 1105, the connecting base 1103 and the motor fixing plate 1108 are supported in an auxiliary mode through the telescopic shaft 1106, the motor VIII 1107 is fixed to the other side of the motor fixing plate 1108, and the head of the motor VIII 1107 is connected with the grinding disc II 117;

the motor VIII 1107 comprises a connecting shaft 11071, a connecting ball 11072, a connecting ball sleeve 11073 and an arc bump 11074, wherein one side of the connecting shaft 11071 is provided with the connecting ball 11072, one side of the connecting ball 11072 is provided with a plurality of arc bumps 11074, the other side of the connecting ball 11072 is provided with the connecting ball sleeve 11073, one end of the connecting shaft 11071 is connected with the motor VIII 1107, the other end of the connecting shaft 11071 is connected with the connecting ball 11072, the arc bumps 11074 are fixed on the outer side of the connecting ball 11072, the connecting ball 11072 is connected with the connecting ball sleeve 11073 in a matched mode, and the connecting ball sleeve 11073 is fixedly connected with the grinding;

when aluminum products need to be ground and powder sprayed, a motor II 131 provides power to drive a bevel gear I132 to rotate, the bevel gear I132 drives a bevel gear II 133, so that a screw 134 rotates, a screw nut 135 drives a fixed base 137 through a connecting rod 136 to enable the heights of a grinding mechanism 11 and a powder spraying mechanism 12 to be matched with the aluminum products, meanwhile, a motor I111 rotates to drive a gear I112 and a gear II 113 to rotate, the gear II 113 drives a transmission shaft I116 to enable a grinding disc II 117 to rotate rapidly, an oil cylinder I119 drives the grinding disc II 117 to move up and down along the surface of the aluminum products in a reciprocating mode to finish grinding the aluminum products, meanwhile, a group of oil cylinders II 1102 is controlled to eject 1104 to adjust the angle, the connecting base 1103 is shifted by utilizing the height difference ejected by the two oil cylinders II 1102, and the motor fixing plate 1108 is changed by meshing and matching of the sector gear I and the sector gear 1105 II, the grinding disc II 117 is contacted with the surface of the aluminum workpiece, the grinding disc II 117 can rotate for a certain angle around the connecting ball 11072 due to uneven stress, so that the surface of the grinding disc II 117 can be parallel to the surface of the aluminum workpiece, the angle suitable for grinding the surface of the aluminum workpiece is further adjusted, meanwhile, the motor VIII 1107 provides power to enable the connecting shaft 11071 to rotate, the connecting ball 11072 is further driven to rotate, the power is transmitted to the connecting ball sleeve 11073 through the arc bump 11074, the grinding disc II 117 is further driven to rotate, the smoothness of the powder spraying surface of the aluminum workpiece is guaranteed, a switch of the powder spraying gun 123 is opened, the material storage tank 121 provides powder for the powder spraying gun 123 through the material conveying hose 122, and the powder spraying process is completed;

the grinding disc II 117 comprises a disc body, an air suction groove 1171 and a suction pipe 1172, the disc body is provided with a plurality of air suction grooves 1171, the suction groove 1171 is internally provided with a plurality of suction pipes 1172, the structure of the grinding disc I449 is the same as that of the grinding disc II 117, the suction grooves 1171 form a negative pressure area through the suction pipe 1172, rust, aluminum scraps and the like generated by grinding are sucked away, the dust is prevented from being mixed with powder, and the reuse of the powder is influenced; the felt sealing strip 161 is arranged on one side of the guide groove 16, the fixing clamp 162 is arranged on one side of the felt sealing strip 161, the felt sealing strip 161 is fixed on the outer side of the guide groove 16 through the fixing clamp 162, and powder passing through the guide groove 16 is adhered through the felt sealing strip 161, so that dust is prevented from spreading and affecting the environment.

An aluminum part powder spraying and powder recycling device comprises the following working processes:

when powder is needed to be ground and sprayed on the front surface of an aluminum part, a motor II provides power to drive a bevel gear I to rotate, the bevel gear I drives a bevel gear II so as to rotate a screw rod, a screw nut drives a fixed base through a connecting rod so that the heights of a grinding mechanism and a powder spraying mechanism are matched with those of the aluminum part, meanwhile, the motor I rotates to drive a gear I and a gear II to rotate, the gear II drives a transmission shaft I so as to rapidly rotate a grinding disc II, the oil cylinder I drives the grinding disc II to vertically reciprocate along the surface of the aluminum part so as to finish grinding the outer surface of the aluminum part, meanwhile, through controlling the telescopic ejection of a group of oil cylinders II, angle adjustment is carried out, the connecting base is deviated by utilizing the height difference of the ejection of the two oil cylinders II, and further, a motor fixing plate is subjected to angle change through the meshing and, further adjusting the angle suitable for grinding the surface of the aluminum workpiece, ensuring the smoothness of the powder spraying surface of the aluminum workpiece, opening a switch of the powder spraying gun, and enabling the storage tank to provide powder for the powder spraying gun through the delivery hose to finish the front surface powder spraying process;

when the aluminum product is needed to be ground and powder sprayed, a motor II provides power to drive a bevel gear I to rotate, the bevel gear I drives a bevel gear II, so that a screw rod rotates, a screw nut drives a fixed base through a connecting rod to enable the height of a grinding mechanism and the height of a powder spraying mechanism to be matched with that of the aluminum product, meanwhile, the motor I rotates to drive the gear I and the gear II to rotate, the gear II drives a transmission shaft I to enable a grinding disc II to rotate rapidly, the grinding disc II is driven to move up and down in a reciprocating mode along the surface of the aluminum product through an oil cylinder I to grind the outer surface of the aluminum product, meanwhile, through controlling the telescopic ejection of a group of oil cylinders II, angle adjustment is carried out, the connecting base is enabled to deflect by utilizing the height difference of the ejection of the two oil cylinders II, further, a motor fixing plate is enabled to change in angle through the meshing fit of, the grinding disc II can rotate by a certain angle around the connecting ball due to uneven stress, so that the surface of the grinding disc II can be parallel to the surface of an aluminum workpiece, the angle suitable for grinding the surface of the aluminum workpiece is further adjusted, meanwhile, the motor VIII provides power to enable the connecting shaft to rotate, further drives the connecting ball to rotate, transmits the power to the connecting ball sleeve through the arc bump, further drives the grinding disc II to rotate, ensures the smoothness of the powder spraying surface of the aluminum workpiece, opens a powder spraying gun switch, enables the storage tank to provide powder for the powder spraying gun through the material conveying hose, and completes the powder spraying process;

when a large amount of powder falls off due to powder spraying and needs to be cleaned to the powder collecting mechanism, the motor III provides power to drive the gear III to rotate, so that the gear III drives the cleaning roller to move along the rack while rotating, and the powder is cleaned to the powder collecting mechanism;

after cleaning mechanism cleans the powder to powder collection mechanism, fall into the screen cloth and heat through the heating wire, make unnecessary moisture rapid evaporation in the powder, vibrating motor drives the vibrating screen and vibrates this moment, make the powder after the drying get into the collecting box bottom, the suction fan provides power and passes through communicating pipe and enter into in the middle of the feeder hopper with the powder in the collecting box, filter through the filter screen, make great granule fall into in the middle of the feeder hopper again, the powder after the filtration blocks through the returning face plate again, make the powder that satisfies reuse pass through the conveyer pipe through the discharge gate and enter into in the middle of the storage tank, tiny powder passes the supporting network discharge again.

The above description is only an example and an explanation of the structure of the present invention, the circuit components (powder gun L60T10, visual probe GSY-9000) of the present invention are all components in the prior art, and the electrical connections between the circuit components are all conventional circuit connections in the prior art, which is not the protection scope of the present invention.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims (7)

1. An aluminum part powder spraying and powder recycling device comprises a rack, a powder collecting mechanism, a recycling mechanism, a side spraying mechanism and a fixed support frame, and is characterized in that a group of recycling mechanisms are arranged on two sides of the rack, the powder collecting mechanism is arranged on the other side of the rack, the fixed support frame is arranged on one side of the powder collecting mechanism, and the side spraying mechanism is arranged on one side of the fixed support frame;

the machine frame bears a grinding mechanism, a powder spraying mechanism, a lifting control mechanism, a cleaning mechanism and a guide groove, wherein the grinding mechanism is arranged on one side of the guide groove, the powder spraying mechanism is arranged on one side of the grinding mechanism, the cleaning mechanism is arranged on one side of the powder spraying mechanism, and the lifting control mechanism is arranged on the other side of the powder spraying mechanism;

the lifting control mechanism comprises a motor II, a bevel gear I, a bevel gear II, a screw rod, a screw nut, connecting rods and a fixed base, wherein the bevel gear I is arranged on one side of the motor II, the bevel gear II is arranged on one side of the bevel gear I, the screw rod is arranged on one side of the bevel gear II, the screw nut is arranged on one side of the screw rod, a plurality of connecting rods are arranged on one side of the screw nut, the fixed base is arranged on one side of each connecting rod, the motor II is fixed on the side wall of the rack and is fixedly connected with the bevel gear I through a flat key, the bevel gear I is meshed with the bevel gear II, the bevel gear II is fixedly connected with the screw rod, the screw;

the powder spraying mechanism comprises a storage tank, a conveying hose and a powder spraying gun, wherein the conveying hose is arranged on one side of the storage tank, the powder spraying gun is arranged on one side of the conveying hose, the tail part of the powder spraying gun is fixed on a fixed base, one end of the conveying hose is connected with the storage tank, and the other end of the conveying hose penetrates through the fixed base and is connected with the powder spraying gun;

the cleaning mechanism comprises a motor III, a gear III, a rack, a cleaning roller, a supporting wheel, a supporting frame and a temporary storage bottom plate, wherein one side of the temporary storage bottom plate is provided with a group of supporting frames, one side of each supporting frame is provided with the supporting wheel, one side of each supporting wheel is provided with the cleaning roller, one side of each cleaning roller is provided with the gear III, one side of each gear III is provided with the rack, the other side of each gear III is provided with the motor III, the motor III is connected with the gear III, the gear III is meshed with the rack, the gear III is connected with the cleaning roller, the other end of the cleaning roller is connected with the supporting;

the powder collecting mechanism comprises a collecting box, a communicating pipe, a screen, heating wires, a vibrating screen, a vibrating motor, a storage tank and a damping connecting column, wherein the storage tank is arranged on one side of the collecting box, the damping connecting column is arranged on one side of the storage tank, the vibrating screen is arranged on one side of the damping connecting column, the screen is arranged on one side of the vibrating screen, the heating wires are arranged on one side of the screen, the vibrating motor is arranged on the other side of the vibrating screen, the communicating pipe is arranged on the other side of the collecting box, the tail part of the vibrating motor is fixed on the collecting box, the head part;

the recycling mechanism comprises a discharge port, a supporting base, a processing tank, a conveying pipe, a suction fan, a turnover plate, a filter screen, a feed hopper and a supporting net, wherein the feed hopper is arranged on one side of the supporting base, the processing tank is arranged on one side of the feed hopper, the filter screen is arranged on one side of the processing tank, the turnover plate is arranged on one side of the filter screen, a group of discharge ports are arranged on one side of the turnover plate, the conveying pipe is arranged on one side of the discharge port, the supporting net is arranged on the other side.

2. The aluminum part powder spraying and powder recycling device as claimed in claim 1, wherein a conveying guide rail is arranged at the top of the frame; a dust cover is arranged on one side of the vibration motor; one side of the feed hopper is provided with a rotary brush.

3. The aluminum product dusting and powder recycling device as claimed in claim 1, wherein the side spraying mechanism comprises a base plate, side supporting plates, a supporting and adjusting mechanism and a side spraying adjusting mechanism, wherein a group of side supporting plates are arranged on one side of the base plate, the supporting and adjusting mechanism is arranged on one side of each side supporting plate, and the side spraying adjusting mechanism is arranged on one side of each supporting and adjusting mechanism;

the support adjusting mechanism comprises an upper support plate, T-shaped grooves, a slide rail, a slide block, an X-shaped support, a motor IV, a screw rod, a nut sleeve, a connecting plate, a bearing seat and connecting lugs, wherein the motor IV is arranged on one side of the side support plate, the screw rod is arranged on one side of the motor IV, the nut sleeve is arranged on one side of the screw rod, the connecting plate is arranged on one side of the nut sleeve, a group of slide blocks are arranged at two ends of the connecting plate, the X-shaped support is arranged on one side of the slide block, the slide rail is arranged inside the slide block, a plurality of connecting lugs are arranged on one side of the X-shaped support, the upper support plate is arranged on one side of the connecting lugs, a group of T-shaped grooves are arranged inside the upper support plate, the bearing seat is arranged on the other side of the screw rod, the X-shaped bracket is movably connected with the connecting lug, and the connecting lug is fixed at the bottom of the upper supporting plate.

4. The aluminum product powder spraying and powder recycling device of claim 3, wherein the side spraying adjusting mechanism comprises a motor V, a screw rod, a screw nut, a connecting bottom plate, T-shaped connecting blocks, a circular groove I, rotary supporting columns, balls, a motor VI, a gear IV, a gear disc, a rotating plate, a guide block, a connecting seat, a top thread, a circular groove II, a visible probe, a grinding disc I, a motor VII and a transmission shaft II, one side of the connecting bottom plate is provided with a group of T-shaped connecting blocks, the other side of the connecting bottom plate is provided with the circular groove I, one side of the circular groove I is provided with a plurality of rotary supporting columns, two ends of the rotary supporting columns are provided with the balls, the other side of the rotary supporting columns is provided with the motor VI, one side of the motor VI is provided with the gear IV, one side of the gear IV is provided with the gear disc, one side of the gear disc is provided with the rotating plate, the powder spraying device is characterized in that a group of guide blocks are arranged on the other side of the rotating plate, a connecting seat is arranged on one side of each guide block, a jackscrew is arranged on one side of the connecting seat, a powder spraying gun is arranged on the other side of the connecting seat, a transmission shaft II is arranged on one side of the rotating plate, a motor VII is arranged on one side of the transmission shaft II, a grinding disc I is arranged on the other side of the transmission shaft II, a motor V is arranged on one side of the upper supporting plate, a screw;

motor V fixes at last backup pad lateral wall, and be connected with the screw rod, the screw rod passes through the screw thread and is connected with screw nut, screw nut and connection bottom plate fixed connection, connection bottom plate center fixed connection motor VI, the connecting plate is connected with last backup pad through the rotation support post all around, motor VI is connected with gear IV, gear IV meshes with the toothed disc mutually, the toothed disc is fixed in the rotor plate bottom, the guide block is fixed on rotor plate upper portion, and be connected and carry out the rigidity through the jackscrew with the connecting seat cooperation, the powder gun is fixed on the connecting seat, visual probe is fixed on the rotor plate, motor VII is fixed at last backup pad lateral wall, motor VII head is connected with II one end of transmission shaft, II other ends of transmission shaft are connected with abrasive disc I, transmission shaft II is fixed on last backup pad upper portion through.

5. The aluminum product dusting and powder recycling device as claimed in claim 1, wherein the grinding mechanism comprises a grinding angle control box, a motor I, a gear II, a motor base, a sleeve, a transmission shaft I, a grinding disc II, a support base plate and a cylinder I, the gear I is arranged on one side of the motor I, the motor base is arranged on the other side of the motor I, the gear II is arranged on one side of the gear I, the transmission shaft I is arranged on one side of the gear II, the grinding disc II is arranged on one side of the transmission shaft I, the sleeve is arranged on the other side of the transmission shaft I, the support base plate is arranged on one side of the sleeve, the grinding angle control box is arranged on the other side of the sleeve, the cylinder I is arranged on one side of the support base plate, the tail part of the cylinder I is fixed on the fixed base, the head part of, the motor base is fixed on upper portion of the sleeve, the motor base is fixedly connected with the motor I, the head of the motor I is connected with the gear I, the gear I is meshed with the gear II, the gear II is connected with one end of the transmission shaft I, and the other end of the transmission shaft I is connected with the grinding disc II.

6. The aluminum product powder spraying and powder recycling device of claim 5, wherein the grinding angle control box comprises a support fixing plate, oil cylinders II, a connection base, a sector gear I, a sector gear II, a telescopic shaft, a motor VIII and a motor fixing plate, one side of the support fixing plate is provided with a group of oil cylinders II, one side of the oil cylinders II is provided with the connection base, one side of the connection base is provided with a group of telescopic shafts, one side of the telescopic shaft is provided with the sector gear I, one side of the sector gear I is provided with the sector gear II, one side of the sector gear II is provided with the motor fixing plate, one side of the motor fixing plate is provided with the motor VIII, one side of the motor VIII is provided with a grinding disc II, the support fixing plate is fixed on the sleeve, the tail of the oil cylinder II is movably connected with the support fixing plate, the head of the oil cylinder II is movably connected, the sector gear I is meshed with the sector gear II, the connecting bottom plate and the motor fixing plate are supported in an auxiliary mode through a telescopic shaft, the motor VIII is fixed to the other side of the motor fixing plate, and the head of the motor VIII is connected with the grinding disc II;

the motor VIII comprises a connecting shaft, a connecting ball sleeve and an arc bump, wherein the connecting ball is arranged on one side of the connecting shaft, a plurality of arc bumps are arranged on one side of the connecting ball, the connecting ball sleeve is arranged on the other side of the connecting ball, one end of the connecting shaft is connected with the motor VIII, the other end of the connecting shaft is connected with the connecting ball, the arc bumps are fixed on the outer side of the connecting ball, the connecting ball and the connecting ball sleeve are mutually matched and connected, and the connecting ball sleeve is fixedly connected with the grinding disc II.

7. The aluminum part powder spraying and powder recycling device as claimed in claim 5, wherein the grinding disc II comprises a disc body, a plurality of air suction grooves and a plurality of extraction pipes, the disc body is provided with the plurality of air suction grooves, the plurality of extraction pipes are arranged in the air suction grooves, the grinding disc I and the grinding disc II are identical in structure, and the air suction grooves form a negative pressure area through the extraction pipes; and a felt sealing strip is arranged on one side of the guide groove, a fixing clamp is arranged on one side of the felt sealing strip, and the felt sealing strip is fixed on the outer side of the guide groove through the fixing clamp.

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