JP2021091074A - Air jet type sand blast device - Google Patents

Abstract

To provide an air jet type sand blast device.SOLUTION: An air jet type sand blast device includes a sand blast box 1 and a sand storage space 2 installed in the sand blast box. A sand inlet 58 opening on the outside is disposed in a rear wall inside the sand storage space, and an air compressor 53 is fixedly installed in the sand blast box. A sand blast space 5 is installed under the left side of the sand storage space in the sand blast box, and the sand blast device is installed in the sand blast space. Efficiency of blowing sand against a workpiece is enhanced by realizing automatic blowing of sand and automatic recovery of sand. Also, the occurrence of atmospheric pollution is avoided by realizing mechanical control in a processing process and manually blowing sand. The sand as a polishing material can be reused, which is environmentally friendly and saves cost and is suitable for many machine manufacturers.SELECTED DRAWING: Figure 1

Description

The present invention relates to a technical field for manufacturing a sandblasting device, and specifically, is an air injection type sandblasting device.

For surface treatment of some metal material components, sandblasting equipment is used for processing, and with many existing sandblasting equipment, it is necessary to hold the sandblasting gun head by hand and blow sand, and sandblasting with sandblasting equipment. When processing, a large amount of dust is generated from the sandblast gun head, which may cause air pollution. Furthermore, in the process of spraying sand on the surface of the processed product, some of the abrasive material falls out, wasting the abrasive material. Therefore, it is disadvantageous to the spread and use of sandblasting equipment, and there are drawbacks, so improvement is needed.

Chinese Patent Application Publication No. 109015402

The present invention provides an air injection type sandblasting apparatus, and an object of the present invention is to eliminate the above-mentioned drawbacks in the existing technology.

The air-injection type sandblasting apparatus according to the present invention includes a sandblasting box and a sand storage space installed in the sandblasting box, and a sand inlet open to the outside is installed on a rear wall inside the sand storage space. An air compressor is fixedly installed in the sand blast box, a sand blast space is installed below the left side of the sand storage space in the sand blast box, and a sand blast device is installed in the sand blast space. A recovery space is installed below the sand storage space, a recovery device is installed in the recovery space, and the recovery device includes a recovery motor installed in the lower right inside the sandblast box. A recovery transport space is installed on the right side of the recovery space, and the right wall inside the recovery space and the bottom of the left wall inside the recovery transport space are communicated by a recovery guide port, and the top wall inside the sandblast space and the air. The left end surface of the compressor is communicated with the sand blast pipe, a sand falling groove extending downward is formed on the bottom wall inside the sand storage space, and the sand storage space and the sand blast pipe are communicated with each other by the sand falling groove. A closed door slide groove extending to the right is formed on the right wall of the sand drop groove, and a sand drop closing door for closing the sand drop groove is slidably installed in the closed door slide groove. The right end surface of the sand drop closing door and the right wall of the closing door slide groove are fixedly connected by a closing door return spring, and a reel is rotatably installed on the right side of the closing door slide groove. A connecting block slide groove is fixedly formed above the connecting block, an electromagnet is fixedly installed on the top wall inside the connecting block slide groove, and the connecting block is slidably installed in the connecting block slide groove. The lower end surface on the left side of the connecting block and the sand drop closing door are fixedly connected by a drawstring, and a transmission space is installed below the right side of the sand storage space in the sandblast box. A punched hole link block extending downward into the transmission space is fixedly installed on the lower end surface on the right side of the connecting block, the punched hole link block closes the sandblast pipe, and the lower end of the punched hole link block. A push plate is fixedly connected to the sand, a transmission device is installed in the transmission space, a power space is installed below the bottom wall inside the transmission space, and a power device is installed in the power space. Has been done.

The sandblasting device includes a sandblasting hose installed on the top wall inside the sandblasting space, the sandblasting hose and the sandblasting pipe are fixedly connected to each other, and the power space is to the right on the left wall inside the sandblasting space. A meshing rack block extending into the inside is slidably installed, a nozzle connecting rod is fixedly connected to the right end of the meshing rack block, and a sandblast gun head is fixedly installed to the left end of the nozzle connecting rod. The upper end surface of the sandblast gun head and the sandblast hose are connected, a rotation axis is rotatably installed on the left wall inside the sandblast space, and the right wall inside the sandblast space is to the right in the power space. The main driving shaft extending to is rotatably installed, the mounting support frame is fixedly installed at the right end of the rotating shaft, and the mounting support frame is also fixedly installed at the left end of the main driving shaft. The mounting support frame is symmetrical, and the tightening nuts are vertically symmetrical and connected by threads to the mounting support frame, and a seat is fixedly installed at the upper end of the tightening nut.

The recovery device further includes a sandblast filter layer installed on the bottom wall inside the sandblast space, a rotation support frame is fixedly installed on the left wall inside the recovery space, and the rotation support frame is moved to the right. A vibrating plate extending into the recovery guide port is rotatably installed, and the lower end surface of the vibrating plate and the bottom wall inside the collecting space are fixedly connected by a vibrating spring, and below the right side of the vibrating plate. A link is fixedly installed on the end face, a vibration push plate is fixedly installed at the lower end of the link, a vibration rotation shaft is rotatably installed on the right wall inside the collection space, and the vibration rotation shaft is installed. A driven gear is fixedly installed in the wheel, a hexagonal rotary wheel is fixedly installed at the left end of the vibration rotary shaft, the hexagonal rotary wheel and the vibration push plate come into contact with each other, and the left end of the recovery motor. The recovery drive shaft extending to the left in the recovery space is movably connected, a drive gear is fixedly installed at the left end of the recovery drive shaft, and a worm is fixed to the recovery drive shaft. The transport rotation shaft is rotatably installed on the upper and lower walls inside the recovery transport space, and the transport blades are fixedly installed on the outer surface of the transport rotation shaft in the recovery transport space. A worm wheel is fixedly installed at the lower end of the rotating shaft, the worm and the worm wheel mesh with each other, and the left wall inside the collection and transportation space and the right wall inside the sand storage space are communicated by a circulation guide port. ing.

The power unit includes a main motor installed on the right wall inside the power space, and the left end surface of the main motor and the right end of the main driving shaft are movably connected to each other, and a main driving bevel gear is fixed to the main driving shaft. A transmission shaft extending upward into the transmission space is rotatably installed on the top wall inside the power space, and a driven bevel gear is fixedly installed at the lower end of the transmission shaft. The main gear and the driven gear mesh with each other, a reciprocating gear is installed on the transmission shaft, the reciprocating gear and the meshing rack block mesh with each other, and a rack support block is fixed to the rear wall inside the power space. The meshing rack block and the rack support block are slidably connected to each other.

The transmission device includes a first bevel gear installed at the upper end of the transmission shaft, a closed transmission shaft is rotatably installed on the left wall inside the transmission space, and a second bead gear is mounted on the closed transmission shaft. It is fixedly installed, the first bevel gear and the second bead gear are meshed with each other, and a closing cam is fixedly connected to the right end of the closing transmission shaft.

The effect of the present invention is: The present invention is easy to configure and use, realizes automatic spraying of sand and automatic recovery of sand, improving the efficiency of spraying sand on the processed product, and also. Mechanical control is realized in the processing process, air pollution is avoided by manually spraying sand, sand as an abrasive can be reused, it is environmentally friendly, it saves cost, and many Suitable for machine manufacturers.

In order to explain the present invention in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention and is described in the present application. Each direction is the direction when the device is viewed in the same direction as in FIG.

FIG. 1 is a schematic configuration diagram of the present invention. FIG. 2 is a schematic configuration diagram of parts AA in FIG. FIG. 3 is a schematic configuration diagram of a portion BB in FIG. FIG. 4 is an enlarged schematic view of part C in FIG.

With reference to FIGS. 1 to 4, the air injection type sand blasting apparatus according to the present invention includes a sand blast box 1 and a sand storage space 2 installed in the sand blast box 1, and is rearward inside the sand storage space 2. A sand inlet 58 opened to the outside is installed on the wall, an air compressor 53 is fixedly installed in the sand blast box 1, and below the left side of the sand storage space 2 in the sand blast box 1. A sandblast space 5 is installed, a sandblast device is installed in the sandblast space 5, a recovery space 15 is installed below the sand storage space 2, and a recovery device is installed in the recovery space 15. The recovery device includes a recovery motor 27 installed in the lower right inside the sandblast box 1, a recovery transport space 56 is installed on the right side of the recovery space 15, and the right wall inside the recovery space 15 and the above. The bottom of the left wall inside the recovery transport space 56 is communicated with the recovery guide port 24, the top wall inside the sandblast space 5 and the left end surface of the air compressor 53 are communicated with each other by the sandblast pipe 3, and the sand storage space 2 A sand drop groove 52 extending downward is formed on the inner bottom wall, the sand storage space 2 and the sand blast pipe 3 are communicated with each other by the sand drop groove 52, and the right wall of the sand drop groove 52 is on the right side. A closed door slide groove 49 extending into the closed door slide groove 49 is formed, and a sand drop closing door 51 for closing the sand falling groove 52 is slidably installed in the closed door slide groove 49, and the sand falling closing door 51 of the sand falling closing door 51 is slidably installed. The right end surface and the right wall of the closed door slide groove 49 are fixedly connected by a closed door return spring 50, and a reel 43 is rotatably installed on the right side of the closed door slide groove 49, above the reel 43. A connecting block slide groove 47 is fixedly formed in the connecting block slide groove 47, an electric magnet 48 is fixedly installed on the top wall inside the connecting block slide groove 47, and the connecting block 46 slides in the connecting block slide groove 47. It is possible to install, and the lower end surface on the left side of the connecting block 46 and the sand drop closing door 51 are fixedly connected by a pull string 44, and in the sandblast box 1, below the right side of the sand storage space 2. Is provided with a transmission space 37, and a punch hole link block 45 extending downward into the transmission space 37 is fixedly installed on the lower end surface on the right side of the connection block 46, and the punch hole link block 45 is said. The sandblast pipe 3 is closed, and the punch hole link block 45 A push plate 42 is fixedly connected to the lower end, a transmission device is installed in the transmission space 37, a power space 28 is installed below the bottom wall inside the transmission space 37, and the inside of the power space 28. Is equipped with a power unit.

The sandblasting device includes a sandblasting hose 4 installed on the top wall inside the sandblasting space 5, the sandblasting hose 4 and the sandblasting pipe 3 are fixedly connected, and the left wall inside the sandblasting space 5 is on the right. A meshing rack block 35 extending into the power space 28 is slidably installed, and a nozzle connecting rod 7 is fixedly connected to the right end of the meshing rack block 35, and is fixedly connected to the left end of the nozzle connecting rod 7. The sandblast gun head 6 is fixedly installed, the upper end surface of the sandblast gun head 6 and the sandblast hose 4 are connected to each other, and a rotating shaft 9 is rotatably installed on the left wall inside the sandblast space 5 to rotatably install the sandblast. A driving shaft 31 extending to the right in the power space 28 is rotatably installed on the right wall inside the space 5, and a mounting support frame 8 is fixedly installed at the right end of the rotating shaft 9. The mounting support frame 8 is also fixedly installed at the left end of the main driving shaft 31, the two mounting support frames 8 are symmetrical, and the tightening nut 11 is vertically symmetrical and connected by threads to the mounting support frame 8. A seat metal 10 is fixedly installed at the upper end of the tightening nut 11.

The recovery device further includes a sandblast filter layer 12 installed on the bottom wall inside the sandblast space 5, and a rotation support frame 13 is fixedly installed on the left wall inside the recovery space 15, and the rotation support frame 13 is installed. A vibrating plate 14 extending to the right in the recovery guide port 24 is rotatably installed, and the lower end surface of the vibrating plate 14 and the bottom wall inside the recovery space 15 are fixed by a vibrating spring 16. The link 17 is fixedly installed on the lower end surface on the right side of the vibrating plate 14, and the vibrating push plate 19 is fixedly installed on the lower end of the link 17 on the right wall inside the recovery space 15. The vibrating rotating shaft 20 is rotatably installed, the driven gear 21 is fixedly installed on the vibrating rotating shaft 20, and the hexagonal rotating wheel 18 is fixedly installed on the left end of the vibrating rotating shaft 20. The hexagonal rotary wheel 18 and the vibration push plate 19 are in contact with each other, and a recovery main driving shaft 23 extending to the left in the recovery space 15 is movably connected to the left end of the recovery motor 27 to transmit the recovery. A drive gear 22 is fixedly installed at the left end of the drive shaft 23, a worm 26 is fixedly installed on the recovery drive shaft 23, and a transport rotation shaft 55 rotates on the upper and lower walls inside the recovery transport space 56. The transport blade 54 is fixedly installed on the outer surface of the transport rotary shaft 55 in the recovery transport space 56, and the worm wheel 25 is fixedly installed on the lower end of the transport rotary shaft 55. The worm 26 and the worm wheel 25 mesh with each other, and the left wall inside the recovery transport space 56 and the right wall inside the sand storage space 2 are communicated with each other by a circulation guide port 57.

The power unit includes a main motor 29 installed on the right wall inside the power space 28, and a left end surface of the main motor 29 and a right end of the main driving shaft 31 are movably connected to the main driving shaft 31. The main gear 30 is fixedly installed, and a transmission shaft 33 extending upward into the transmission space 37 is rotatably installed on the top wall inside the power space 28, and is installed at the lower end of the transmission shaft 33. The driven gear 32 is fixedly installed, the main gear 30 and the driven gear 32 mesh with each other, the reciprocating gear 34 is installed on the transmission shaft 33, and the reciprocating gear 34 and the meshing rack block 35 A rack support block 36 is fixedly installed on the rear wall inside the power space 28, and the meshing rack block 35 and the rack support block 36 are slidably connected to each other.

The transmission device includes a first bevel gear 38 installed at the upper end of the transmission shaft 33, a closed transmission shaft 39 is rotatably installed on the left wall inside the transmission space 37, and the closed transmission shaft 39 is rotatably installed. The second bevel gear 40 is fixedly installed, the first bevel gear 38 and the second bead gear 40 are meshed with each other, and the closing cam 41 is fixedly connected to the right end of the closing transmission shaft 39.

In the initial state, the main bevel gear 30 and the driven bevel gear 32 are meshed, the main gear 22 and the driven gear 21 are meshed, the closing door return spring 50 is in a natural state, and the vibration. The spring 16 is also in a natural state, the sand drop closing door 51 closes the sand drop groove 52, and the punch hole link block 45 closes the sandblast pipe 3.

When mounting the processed product, the processed product is mounted between the mounting support frames 8 and the tightening nut 11 is tightened.

When sand is blown, the air compressor 53 operates, the electric magnet 48 is energized, the main motor 29 operates to rotate the main driving shaft 31, and the main driving shaft 31 is the main driving umbrella gear 30 and the driven The closing cam 41 is rotated via the umbrella gear 32, the transmission shaft 33, the first umbrella gear 38, the second umbrella gear 40, and the closing transmission shaft 39, and the closing cam 41 rotates to push the push. By abutting on the plate 42, the punched hole link block 45 moves upward to communicate with the sandblast pipe 3, injects air, and the punched hole link block 45 moves the connecting block 46 upward. The connecting block 46 is attracted to the electromagnet 48, the connecting block 46 pulls the sand drop closing door 51 to move to the right through the pull string 44, and the closing door return spring 50 is compressed. The sand drop groove 52 communicates, the sand of the abrasive material falls, and the compressed airflow blows the sand of the abrasive material onto the processed product through the sandblast pipe 3, the sandblast hose 4, and the sandblast gun head 6, and the main operation. The shaft 31 rotates the reciprocating gear 34 via the main driving umbrella gear 30, the driven umbrella gear 32, and the transmission shaft 33, and the reciprocating gear 34 rotates to reciprocate to the left and right on the meshing rack block 35. The meshing rack block 35 causes the sandblast gun head 6 to reciprocate to the left and right via the nozzle connecting rod 7 to blow sand, and the driving shaft 31 is the mounting support frame 8 and the rotating shaft. The processed product is rotated through 9.

When returning, the main motor 29 stops, the air compressor 53 stops, the electromagnet 48 loses power, the closing door return spring 50 returns, and the closing door return spring 50 closes the sand drop closing door 51. After returning, the sand drop groove 52 is closed, the sand drop closing door 51 moves the connecting block 46 to the left via the pull string 44, the connecting block 46 is separated from the electromagnet 48, and the said. The connecting block 46 returns the punched hole link block 45 downward, and the sandblast pipe 3 is closed by the punched hole link block 45.

When collecting the sand of the abrasive, the sand of the abrasive passes through the sandblast filter layer 12 and falls on the vibrating plate 14, and the recovery motor 27 operates to rotate the recovery main shaft 23 and the recovery main drive. The shaft 23 rotates the hexagonal rotary wheel 18 via the main drive gear 22, the driven gear 21, and the vibrating rotary shaft 20, and the hexagonal rotary wheel 18 rotates to vibrate the vibrating plate 14 up and down. The sand of the abrasive material on the vibrating plate 14 enters the recovery guide port 24, and the recovery main driving shaft 23 passes the transport blade 54 via the worm 26, the worm wheel 25, and the transport rotation shaft 55. It is rotated to transport the sand of the abrasive material upward, and finally, the sand of the abrasive material enters the sand storage space 2 again through the circulation guide port 57.

The above is merely a specific embodiment of the invention, and the scope of protection of the invention is not limited to this, and all changes or replacements that can be conceived without the passage of creative labor are within the scope of protection of the invention of the present application. Including inside. Therefore, the scope of protection of the invention should be based on the scope of protection limited to the claims.

The present invention relates to a technical field for manufacturing a sandblasting device, and specifically, is an air injection type sandblasting device.

For surface treatment of some metal material components, sandblasting equipment is used for processing, and with many existing sandblasting equipment, it is necessary to hold the sandblasting gun head by hand and blow sand, and sandblasting with sandblasting equipment. When processing, a large amount of dust is generated from the sandblast gun head, which may cause air pollution. Furthermore, in the process of spraying sand on the surface of the processed product, some of the abrasive material falls out, wasting the abrasive material. Therefore, it is disadvantageous to the spread and use of sandblasting equipment, and there are drawbacks, so improvement is needed.

Chinese Patent Application Publication No. 109015402

The present invention provides an air injection type sandblasting apparatus, and an object of the present invention is to eliminate the above-mentioned drawbacks in the existing technology.

The air-injection type sandblasting apparatus according to the present invention includes a sandblasting box and a sand storage space installed in the sandblasting box, and a sand inlet open to the outside is installed on a rear wall inside the sand storage space. An air compressor is fixedly installed in the sand blast box, a sand blast space is installed below the left side of the sand storage space in the sand blast box, and a sand blast device is installed in the sand blast space. A recovery space is installed below the sand storage space, a recovery device for collecting sand is installed in the recovery space, and the recovery device is installed at the lower right inside the sandblast box. A recovery transport space is installed on the right side of the recovery space, and the right wall inside the recovery space and the bottom of the left wall inside the recovery transport space are communicated by a recovery guide port, and the inside of the sandblast space. The top wall of the sand storage space and the left end surface of the air compressor are communicated with each other by a sand blast pipe, a sand drop groove extending downward is formed in the bottom wall inside the sand storage space, and the sand storage space and the sand blast pipe are connected to each other. A closed door slide groove extending to the right is formed on the right wall of the sand falling groove, and a sand falling closing door for closing the sand falling groove is formed in the closing door slide groove. Is slidably installed, the right end surface of the sand drop closing door and the right wall of the closing door slide groove are fixedly connected by a closing door return spring, and a reel can rotate on the right side of the closing door slide groove. A connecting block slide groove is fixedly formed above the reel, an electromagnet is fixedly installed on the top wall inside the connecting block slide groove, and connected in the connecting block slide groove. The block is slidably installed, and the lower end surface on the left side of the connecting block and the sand drop closing door are fixedly connected by a pull string, and are transmitted to the lower right side of the sand storage space in the sandblast box. A space is installed, and a punched hole link block extending downward into the transmission space is fixedly installed on the lower end surface on the right side of the connecting block, and the punched hole link block closes the sandblast pipe, and the sandblast pipe is closed. A push plate is fixedly connected to the lower end of the punch hole link block, a transmission device is installed in the transmission space, and a power space is installed below the bottom wall inside the transmission space. A power unit is installed in.

The sandblasting device includes a sandblasting hose installed on the top wall inside the sandblasting space, the sandblasting hose and the sandblasting pipe are fixedly connected to each other, and the power space is to the right on the left wall inside the sandblasting space. A meshing rack block extending into the inside is slidably installed, a nozzle connecting rod is fixedly connected to the right end of the meshing rack block, and a sandblast gun head is fixedly installed to the left end of the nozzle connecting rod. The upper end surface of the sandblast gun head and the sandblast hose are connected, a rotation axis is rotatably installed on the left wall inside the sandblast space, and the right wall inside the sandblast space is to the right in the power space. The main driving shaft extending to is rotatably installed, the mounting support frame is fixedly installed at the right end of the rotating shaft, and the mounting support frame is also fixedly installed at the left end of the main driving shaft. The mounting support frame is symmetrical, and the tightening nuts are vertically symmetrical and connected by threads to the mounting support frame, and a seat is fixedly installed at the upper end of the tightening nut.

The recovery device further includes a sandblast filter layer installed on the bottom wall inside the sandblast space, a rotation support frame is fixedly installed on the left wall inside the recovery space, and the rotation support frame is moved to the right. A vibrating plate extending into the recovery guide port is rotatably installed, and the lower end surface of the vibrating plate and the bottom wall inside the collecting space are fixedly connected by a vibrating spring, and below the right side of the vibrating plate. A link is fixedly installed on the end face, a vibration push plate is fixedly installed at the lower end of the link, a vibration rotation shaft is rotatably installed on the right wall inside the collection space, and the vibration rotation shaft is installed. A driven gear is fixedly installed in the wheel, a hexagonal rotary wheel is fixedly installed at the left end of the vibration rotary shaft, the hexagonal rotary wheel and the vibration push plate come into contact with each other, and the left end of the recovery motor. The recovery drive shaft extending to the left in the recovery space is movably connected, a drive gear is fixedly installed at the left end of the recovery drive shaft, and a worm is fixed to the recovery drive shaft. The transport rotation shaft is rotatably installed on the upper and lower walls inside the recovery transport space, and the transport blades are fixedly installed on the outer surface of the transport rotation shaft in the recovery transport space. A worm wheel is fixedly installed at the lower end of the rotating shaft, the worm and the worm wheel mesh with each other, and the left wall inside the collection and transportation space and the right wall inside the sand storage space are communicated by a circulation guide port. ing.

The power unit includes a main motor installed on the right wall inside the power space, and the left end surface of the main motor and the right end of the main driving shaft are movably connected to each other, and a main driving bevel gear is fixed to the main driving shaft. A transmission shaft extending upward into the transmission space is rotatably installed on the top wall inside the power space, and a driven bevel gear is fixedly installed at the lower end of the transmission shaft. The main gear and the driven gear mesh with each other, a reciprocating gear is installed on the transmission shaft, the reciprocating gear and the meshing rack block mesh with each other, and a rack support block is fixed to the rear wall inside the power space. The meshing rack block and the rack support block are slidably connected to each other.

The transmission device includes a first bevel gear installed at the upper end of the transmission shaft, a closed transmission shaft is rotatably installed on the left wall inside the transmission space, and a second bead gear is mounted on the closed transmission shaft. It is fixedly installed, the first bevel gear and the second bead gear are meshed with each other, and a closing cam is fixedly connected to the right end of the closing transmission shaft.

The effect of the present invention is: The present invention is easy to configure and use, realizes automatic spraying of sand and automatic recovery of sand, improving the efficiency of spraying sand on the processed product, and also. Mechanical control is realized in the processing process, air pollution is avoided by manually spraying sand, sand as an abrasive can be reused, it is environmentally friendly, it saves cost, and many Suitable for machine manufacturers.

In order to explain the present invention in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention and is described in the present application. Each direction is the direction when the device is viewed in the same direction as in FIG.

FIG. 1 is a schematic configuration diagram of the present invention. FIG. 2 is a schematic configuration diagram of parts AA in FIG. FIG. 3 is a schematic configuration diagram of a portion BB in FIG. FIG. 4 is an enlarged schematic view of part C in FIG.

With reference to FIGS. 1 to 4, the air injection type sand blasting apparatus according to the present invention includes a sand blast box 1 and a sand storage space 2 installed in the sand blast box 1, and is rearward inside the sand storage space 2. A sand inlet 58 opened to the outside is installed on the wall, an air compressor 53 is fixedly installed in the sand blast box 1, and below the left side of the sand storage space 2 in the sand blast box 1. A sandblast space 5 is installed, a sandblast device is installed in the sandblast space 5, a collection space 15 for collecting sand is installed below the sand storage space 2, and the inside of the collection space 15 is installed. A recovery device is installed in the sand blast box 1, the recovery device includes a recovery motor 27 installed in the lower right inside the sandblast box 1, a recovery transportation space 56 is installed on the right side of the recovery space 15, and the recovery space 15 is installed. The right wall inside and the bottom of the left wall inside the recovery transport space 56 are communicated by the recovery guide port 24, and the top wall inside the sandblast space 5 and the left end surface of the air compressor 53 are communicated by the sandblast pipe 3. A sand drop groove 52 extending downward is formed on the bottom wall inside the sand storage space 2, and the sand storage space 2 and the sand blast pipe 3 are communicated with each other by the sand drop groove 52. A closed door slide groove 49 extending to the right is formed on the right wall, and a sand drop closing door 51 for closing the sand falling groove 52 is slidably installed in the closed door slide groove 49. The right end surface of the sand drop closing door 51 and the right wall of the closing door slide groove 49 are fixedly connected by a closing door return spring 50, and a reel 43 is rotatably installed on the right side of the closing door slide groove 49. A connecting block slide groove 47 is fixedly formed above the reel 43, and an electromagnet 48 is fixedly installed on the top wall inside the connecting block slide groove 47. The connecting block 46 is slidably installed, and the lower end surface on the left side of the connecting block 46 and the sand drop closing door 51 are fixedly connected by a pull string 44, and the sand storage space in the sand blast box 1 A transmission space 37 is installed below the right side of No. 2, and a hole link block 45 extending downward into the transmission space 37 is fixedly installed on the lower end surface on the right side of the connecting block 46. The hole link block 45 closes the sandblast pipe 3, and the hole is removed. A push plate 42 is fixedly connected to the lower end of the link block 45, a transmission device is installed in the transmission space 37, and a power space 28 is installed below the bottom wall inside the transmission space 37. A power unit is installed in the space 28.

The sandblasting device includes a sandblasting hose 4 installed on the top wall inside the sandblasting space 5, the sandblasting hose 4 and the sandblasting pipe 3 are fixedly connected, and the left wall inside the sandblasting space 5 is on the right. A meshing rack block 35 extending into the power space 28 is slidably installed, and a nozzle connecting rod 7 is fixedly connected to the right end of the meshing rack block 35, and is fixedly connected to the left end of the nozzle connecting rod 7. The sandblast gun head 6 is fixedly installed, the upper end surface of the sandblast gun head 6 and the sandblast hose 4 are connected to each other, and a rotating shaft 9 is rotatably installed on the left wall inside the sandblast space 5 to rotatably install the sandblast. A driving shaft 31 extending to the right in the power space 28 is rotatably installed on the right wall inside the space 5, and a mounting support frame 8 is fixedly installed at the right end of the rotating shaft 9. The mounting support frame 8 is also fixedly installed at the left end of the main driving shaft 31, the two mounting support frames 8 are symmetrical, and the tightening nut 11 is vertically symmetrical and connected by threads to the mounting support frame 8. A seat metal 10 is fixedly installed at the upper end of the tightening nut 11.

The recovery device further includes a sandblast filter layer 12 installed on the bottom wall inside the sandblast space 5, and a rotation support frame 13 is fixedly installed on the left wall inside the recovery space 15, and the rotation support frame 13 is installed. A vibrating plate 14 extending to the right in the recovery guide port 24 is rotatably installed, and the lower end surface of the vibrating plate 14 and the bottom wall inside the recovery space 15 are fixed by a vibrating spring 16. The link 17 is fixedly installed on the lower end surface on the right side of the vibrating plate 14, and the vibrating push plate 19 is fixedly installed on the lower end of the link 17 on the right wall inside the recovery space 15. The vibrating rotating shaft 20 is rotatably installed, the driven gear 21 is fixedly installed on the vibrating rotating shaft 20, and the hexagonal rotating wheel 18 is fixedly installed on the left end of the vibrating rotating shaft 20. The hexagonal rotary wheel 18 and the vibration push plate 19 are in contact with each other, and a recovery main driving shaft 23 extending to the left in the recovery space 15 is movably connected to the left end of the recovery motor 27 to transmit the recovery. A drive gear 22 is fixedly installed at the left end of the drive shaft 23, a worm 26 is fixedly installed on the recovery drive shaft 23, and a transport rotation shaft 55 rotates on the upper and lower walls inside the recovery transport space 56. The transport blade 54 is fixedly installed on the outer surface of the transport rotary shaft 55 in the recovery transport space 56, and the worm wheel 25 is fixedly installed on the lower end of the transport rotary shaft 55. The worm 26 and the worm wheel 25 mesh with each other, and the left wall inside the recovery transport space 56 and the right wall inside the sand storage space 2 are communicated with each other by a circulation guide port 57.

The power unit includes a main motor 29 installed on the right wall inside the power space 28, and a left end surface of the main motor 29 and a right end of the main driving shaft 31 are movably connected to the main driving shaft 31. The main gear 30 is fixedly installed, and a transmission shaft 33 extending upward into the transmission space 37 is rotatably installed on the top wall inside the power space 28, and is installed at the lower end of the transmission shaft 33. The driven gear 32 is fixedly installed, the main gear 30 and the driven gear 32 mesh with each other, the reciprocating gear 34 is installed on the transmission shaft 33, and the reciprocating gear 34 and the meshing rack block 35 A rack support block 36 is fixedly installed on the rear wall inside the power space 28, and the meshing rack block 35 and the rack support block 36 are slidably connected to each other.

The transmission device includes a first bevel gear 38 installed at the upper end of the transmission shaft 33, a closed transmission shaft 39 is rotatably installed on the left wall inside the transmission space 37, and the closed transmission shaft 39 is rotatably installed. The second bevel gear 40 is fixedly installed, the first bevel gear 38 and the second bead gear 40 are meshed with each other, and the closing cam 41 is fixedly connected to the right end of the closing transmission shaft 39.

In the initial state, the main bevel gear 30 and the driven bevel gear 32 are meshed, the main gear 22 and the driven gear 21 are meshed, the closing door return spring 50 is in a natural state, and the vibration. The spring 16 is also in a natural state, the sand drop closing door 51 closes the sand drop groove 52, and the punch hole link block 45 closes the sandblast pipe 3.

When mounting the processed product, the processed product is mounted between the mounting support frames 8 and the tightening nut 11 is tightened.

When sand is blown, the air compressor 53 operates, the electric magnet 48 is energized, the main motor 29 operates to rotate the main driving shaft 31, and the main driving shaft 31 is the main driving umbrella gear 30 and the driven The closing cam 41 is rotated via the umbrella gear 32, the transmission shaft 33, the first umbrella gear 38, the second umbrella gear 40, and the closing transmission shaft 39, and the closing cam 41 rotates to push the push. By abutting on the plate 42, the punched hole link block 45 moves upward to communicate with the sandblast pipe 3, injects air, and the punched hole link block 45 moves the connecting block 46 upward. The connecting block 46 is attracted to the electromagnet 48, the connecting block 46 pulls the sand drop closing door 51 to move to the right through the pull string 44, and the closing door return spring 50 is compressed. The sand drop groove 52 communicates, the sand of the abrasive material falls, and the compressed airflow blows the sand of the abrasive material onto the processed product through the sandblast pipe 3, the sandblast hose 4, and the sandblast gun head 6, and the main operation. The shaft 31 rotates the reciprocating gear 34 via the main driving umbrella gear 30, the driven umbrella gear 32, and the transmission shaft 33, and the reciprocating gear 34 rotates to reciprocate to the left and right on the meshing rack block 35. The meshing rack block 35 causes the sandblast gun head 6 to reciprocate to the left and right via the nozzle connecting rod 7 to blow sand, and the driving shaft 31 is the mounting support frame 8 and the rotating shaft. The processed product is rotated through 9.

When returning, the main motor 29 stops, the air compressor 53 stops, the electromagnet 48 loses power, the closing door return spring 50 returns, and the closing door return spring 50 closes the sand drop closing door 51. After returning, the sand drop groove 52 is closed, the sand drop closing door 51 moves the connecting block 46 to the left via the pull string 44, the connecting block 46 is separated from the electromagnet 48, and the said. The connecting block 46 returns the punched hole link block 45 downward, and the sandblast pipe 3 is closed by the punched hole link block 45.

When collecting the sand of the abrasive, the sand of the abrasive passes through the sandblast filter layer 12 and falls on the vibrating plate 14, and the recovery motor 27 operates to rotate the recovery main shaft 23 and the recovery main drive. The shaft 23 rotates the hexagonal rotary wheel 18 via the main drive gear 22, the driven gear 21, and the vibrating rotary shaft 20, and the hexagonal rotary wheel 18 rotates to vibrate the vibrating plate 14 up and down. The sand of the abrasive material on the vibrating plate 14 enters the recovery guide port 24, and the recovery main driving shaft 23 passes the transport blade 54 via the worm 26, the worm wheel 25, and the transport rotation shaft 55. It is rotated to transport the sand of the abrasive material upward, and finally, the sand of the abrasive material enters the sand storage space 2 again through the circulation guide port 57.

The above is merely a specific embodiment of the invention, and the scope of protection of the invention is not limited to this, and all changes or replacements that can be conceived without the passage of creative labor are within the scope of protection of the invention of the present application. Including inside. Therefore, the scope of protection of the invention should be based on the scope of protection limited to the claims.

Claims (5)

A sand blast box and a sand storage space installed in the sand blast box are included, a sand inlet open to the outside is installed on the rear wall inside the sand storage space, and an air compressor is installed in the sand blast box. It is fixedly installed, a sandblast space is installed below the left side of the sand storage space in the sandblast box, a sandblast device is installed in the sandblast space, and a collection is installed below the sand storage space. A space is installed, a collection device is installed in the collection space, the collection device includes a collection motor installed in the lower right inside the sandblast box, and a collection transportation space is installed on the right side of the collection space. The right wall inside the recovery space and the bottom of the left wall inside the recovery transportation space are communicated by a recovery guide port, and the top wall inside the sandblast space and the left end surface of the air compressor are communicated by a sandblast pipe. A sand drop groove extending downward is formed on the bottom wall inside the sand storage space, the sand storage space and the sand blast pipe are communicated by the sand drop groove, and the right wall of the sand drop groove is on the right side. A closed door slide groove is formed, and a sand drop closing door for closing the sand falling groove is slidably installed in the closing door slide groove, and the right end surface of the sand falling closing door and the closing are provided. The right side wall of the door slide groove is fixedly connected by a closing door return spring, a reel is rotatably installed on the right side of the closing door slide groove, and a connecting block slide groove is fixedly connected above the reel. An electromagnet is fixedly installed on the top wall inside the connecting block slide groove, and the connecting block is slidably installed in the connecting block slide groove, and the lower end surface on the left side of the connecting block and the said The sand fall closing door is fixedly connected by a pull string, a transmission space is installed below the right side of the sand storage space in the sandblast box, and the lower end surface on the right side of the connecting block is downwardly described. A punched hole link block extending into the transmission space is fixedly installed, the punched hole link block closes the sandblast pipe, and a push plate is fixedly connected to the lower end of the punched hole link block. An air injection type sandblast characterized in that a transmission device is installed in the transmission space, a power space is installed below the bottom wall inside the transmission space, and a power device is installed in the power space. apparatus. The sandblasting device includes a sandblasting hose installed on the top wall inside the sandblasting space, the sandblasting hose and the sandblasting pipe are fixedly connected to each other, and the power space is to the right on the left wall inside the sandblasting space. A meshing rack block extending into the inside is slidably installed, a nozzle connecting rod is fixedly connected to the right end of the meshing rack block, and a sandblast gun head is fixedly installed to the left end of the nozzle connecting rod. The upper end surface of the sandblast gun head and the sandblast hose are connected, a rotation axis is rotatably installed on the left wall inside the sandblast space, and the right wall inside the sandblast space is to the right in the power space. The main driving shaft extending to is rotatably installed, the mounting support frame is fixedly installed at the right end of the rotating shaft, and the mounting support frame is also fixedly installed at the left end of the main driving shaft. Claim 1 is characterized in that the mounting support frame is symmetrical, tightening nuts are vertically symmetrical and connected by threads to the mounting support frame, and a seat is fixedly installed at the upper end of the tightening nut. Pneumatic sandblasting apparatus according to. The recovery device further includes a sandblast filter layer installed on the bottom wall inside the sandblast space, a rotation support frame is fixedly installed on the left wall inside the recovery space, and the rotation support frame is moved to the right. A vibrating plate extending into the recovery guide port is rotatably installed, and the lower end surface of the vibrating plate and the bottom wall inside the collecting space are fixedly connected by a vibrating spring, and below the right side of the vibrating plate. A link is fixedly installed on the end face, a vibration push plate is fixedly installed at the lower end of the link, a vibration rotation shaft is rotatably installed on the right wall inside the collection space, and the vibration rotation shaft is installed. A driven gear is fixedly installed in the wheel, a hexagonal rotary wheel is fixedly installed at the left end of the vibration rotary shaft, the hexagonal rotary wheel and the vibration push plate come into contact with each other, and the left end of the recovery motor. The recovery drive shaft extending to the left in the recovery space is movably connected, a drive gear is fixedly installed at the left end of the recovery drive shaft, and a worm is fixed to the recovery drive shaft. The transport rotation shaft is rotatably installed on the upper and lower walls inside the recovery transport space, and the transport blades are fixedly installed on the outer surface of the transport rotation shaft in the recovery transport space. A worm wheel is fixedly installed at the lower end of the rotating shaft, the worm and the worm wheel mesh with each other, and the left wall inside the collection and transportation space and the right wall inside the sand storage space are communicated by a circulation guide port. The air injection type sandblasting apparatus according to claim 1, wherein the air injection type sandblasting apparatus is provided. The power unit includes a main motor installed on the right wall inside the power space, and the left end surface of the main motor and the right end of the main driving shaft are movably connected to each other, and a main driving bevel gear is fixed to the main driving shaft. A transmission shaft extending upward into the transmission space is rotatably installed on the top wall inside the power space, and a driven bevel gear is fixedly installed at the lower end of the transmission shaft. The main gear and the driven gear mesh with each other, a reciprocating gear is installed on the transmission shaft, the reciprocating gear and the meshing rack block mesh with each other, and a rack support block is fixed to the rear wall inside the power space. The air injection type sandblasting apparatus according to claim 1, wherein the meshing rack block and the rack support block are slidably connected to each other. The transmission device includes a first bevel gear installed at the upper end of the transmission shaft, a closed transmission shaft is rotatably installed on the left wall inside the transmission space, and a second bead gear is mounted on the closed transmission shaft. The first aspect of claim 1, wherein the first bevel gear and the second bevel gear are fixedly installed, the first bead gear and the second bead gear are engaged with each other, and a closing cam is fixedly connected to the right end of the closing transmission shaft. Pneumatic sandblasting device.

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