CN111496658B

CN111496658B - Light machine is swept to strong adaptability

Info

Publication number: CN111496658B
Application number: CN202010174220.1A
Authority: CN
Inventors: 刘金财
Original assignee: Zheng Lingjia
Current assignee: Zheng Lingjia
Priority date: 2020-03-13
Filing date: 2020-03-13
Publication date: 2021-06-04
Anticipated expiration: 2040-03-13
Also published as: CN111496658A

Abstract

The invention discloses a sweeping machine with strong adaptability, wherein a sweeping device comprises a supporting workbench and an upper supporting seat; the supporting workbench is movably arranged on the upper end surface of the supporting base in the front-back direction; a lifting cylinder is fixed at the center of the upper end surface of the upper supporting seat; the lower end of a piston rod of the lifting cylinder is fixed with a U-shaped connecting seat with a downward opening; the lower end of the connecting seat is fixed with a rectangular frame-shaped light sweeping supporting seat with a downward opening; an air bag cloth is arranged at the opening at the lower end of the light sweeping supporting seat; a plurality of left and right uniformly distributed optical disks are rotatably arranged on the bottom surface of the air bag cloth; a plurality of light sweeping motors which are uniformly distributed on the left and the right are fixed on the upper end surface of the light sweeping supporting seat; the lower end of the sweeping motor is provided with a vertical telescopic unit; the sweeping motor drives the vertical telescopic unit to rotate; the upper end of the optical scanning disk is formed with a connecting column; the connecting column penetrates through the air bag cloth and the upper end of the connecting column is hinged to the lower end of the vertical telescopic unit.

Description

Light machine is swept to strong adaptability

Technical Field

The invention relates to the technical field of light sweeping machines, in particular to a light sweeping machine with strong adaptability.

Background

With the development of intelligent display terminal technology, market demand is continuously expanding. To meet the needs of consumers, 2.5D glass and 3D glass have been introduced in tandem. However, 2.5D glass and 3D glass produced by a glass machine often cannot meet the process requirements, and the glass needs to be ground and polished by a light sweeping machine. However, when the sweep polishing machine with the traditional structure grinds curved glass, the glass cannot be finished at one time due to the fact that the glass is not flat, and therefore the glass sweep efficiency is low and the cost is high.

Disclosure of Invention

The invention aims to solve the technical problem that the existing light sweeping machine is narrow in application range, and provides a light sweeping machine with strong adaptability.

The technical scheme for solving the technical problems is as follows: a high-adaptability light sweeping machine comprises a supporting base and a light sweeping device; a plurality of supporting legs are formed on the bottom surface of the supporting base; an upper support frame with a downward opening is formed on the upper end surface of the support base; the light sweeping device comprises a supporting workbench and an upper supporting seat; the supporting workbench is movably arranged on the upper end surface of the supporting base in the front-back direction; the upper supporting seat is arranged on the horizontal part of the upper supporting frame; a lifting cylinder is fixed at the center of the upper end surface of the upper supporting seat; the lower end of a piston rod of the lifting cylinder is fixed with a U-shaped connecting seat with a downward opening; the lower end of the connecting seat is fixed with a light sweeping seat; the light sweeping seat comprises a rectangular frame-shaped light sweeping support seat which is fixed at the lower end of the connecting seat and provided with an opening facing downwards; an air inlet and outlet pipe is formed on the upper side wall of the light sweeping supporting seat; the air inlet and outlet pipe is connected with an external air supply and extraction device; an air bag cloth is arranged at the opening at the lower end of the light sweeping supporting seat; a plurality of left and right uniformly distributed optical disks are rotatably arranged on the bottom surface of the air bag cloth; a plurality of light sweeping motors which are uniformly distributed on the left and the right are fixed on the upper end surface of the light sweeping supporting seat; the lower end of an output shaft of the sweeping motor is provided with a vertical telescopic unit; the sweeping motor drives the vertical telescopic unit to rotate; the upper end of the optical scanning disk is formed with a connecting column; the connecting column penetrates through the air bag cloth and the upper end of the connecting column is hinged to the lower end of the vertical telescopic unit.

Preferably, the vertical telescopic unit comprises an upper connecting column and a telescopic moving seat; the upper end of the upper connecting column is fixedly connected with an output shaft of the sweeping motor; a cylindrical groove-shaped telescopic groove is formed in the telescopic moving seat; an upper jack which is vertically penetrated and is used for inserting the upper connecting column is formed at the top of the telescopic groove; the lower end of the upper connecting column penetrates through the upper jack to enter the telescopic groove and is formed with a stop block matched with the telescopic groove; a plurality of vertical moving guide grooves which are uniformly distributed on the circumference are formed on the cylindrical surface at the lower part of the upper connecting column; a plurality of vertical moving guide blocks matched with the vertical moving guide grooves are formed in the cylindrical surface of the upper insertion hole; the lower end of the upper connecting column is sleeved with a pressure spring; the upper end of the pressure spring is fixed on the upper side wall of the telescopic groove, and the lower end of the pressure spring is fixed on the stop block; a lower connecting column is formed on the lower end surface of the telescopic moving seat; the upper end of the connecting column is hinged at the lower end of the lower connecting column.

Preferably, a left-right moving groove is formed on the horizontal part of the upper support frame; a left moving block and a right moving block are arranged in the left-right moving groove in a left-right moving mode; the upper supporting seat is arranged on the left moving block and the right moving block.

Preferably, the left and right guide grooves are formed on the front and rear side walls of the left and right moving groove respectively; the front end surface and the rear end surface of the left moving block and the right moving block are respectively provided with a left guide block and a right guide block which are matched with the left guide groove and the right guide groove; a left-right moving cylinder is fixed on the left side wall of the left-right moving groove; the left and right moving blocks are fixed at the right end of a piston rod of the left and right moving cylinder.

Preferably, the upper support base is rotatably provided on the left and right moving blocks.

Preferably, the upper end surfaces of the left and right moving blocks are formed with upper rotating grooves in the shape of cylindrical grooves; a lower rotary hole which penetrates downwards and is in a round hole shape is formed on the lower side wall of the upper rotary groove; the upper end of the cylindrical surface of the upper supporting seat is formed with a gear ring; a rotating motor is fixed on the bottom surface of the upper rotating groove; a driving gear is fixed on an output shaft of the rotating motor; the driving gear is meshed with the gear ring; the lower part of the upper supporting seat is positioned in the lower rotating hole and is connected with the lower rotating hole through a bearing.

Preferably, three front and rear guide grooves which are uniformly distributed from left to right are formed on the upper end surface of the supporting base; front and rear guide posts in the front and rear direction are formed between the front and rear side walls of the front and rear guide grooves on the left and right sides; a front driving threaded rod and a rear driving threaded rod are pivoted between the front side wall and the rear side wall of the front guide groove and the rear guide groove in the middle; a front driving motor and a rear driving motor are fixed on the front side wall of the front guide groove and the rear guide groove in the middle; the front end of the front and rear driving threaded rod is fixedly connected with an output shaft of a front and rear driving motor; three front and rear guide blocks matched with the front and rear guide grooves are formed on the lower end surface of the supporting workbench; the front and rear guide blocks on the left side and the right side are sleeved on the pair of front and rear guide posts in the front and rear direction; the middle front and rear guide block is in threaded connection with the front and rear driving threaded rods.

The invention has the beneficial effects that: the surface light scanning device is suitable for the surface light scanning of different workpieces and has strong adaptability.

Drawings

FIG. 1 is a schematic structural view of a cross section of the present invention;

fig. 2 is a schematic structural view of a section where the vertical telescopic unit 28 and the support table 29 of the present invention are connected.

In the figure, 10, a support base; 100. a front and rear guide groove; 11. supporting legs; 12. an upper support frame; 120. a groove is moved left and right; 121. a left guide groove and a right guide groove; 13. front and rear guide posts; 20. a light sweeping device; 21. the cylinder moves left and right; 22. a left moving block and a right moving block; 220. a lower rotation hole; 221. an upper spin basket; 23. an upper support base; 231. a ring gear; 24. a rotating electric machine; 241. a drive gear; 25. a lifting cylinder; 251. a connecting seat; 26. a light sweeping seat; 261. a light sweeping supporting seat; 262. air bag cloth; 263. an air inlet pipe and an air outlet pipe; 264. scanning the optical disc; 265. connecting columns; 27. a sweeping motor; 28. a vertical telescopic unit; 281. an upper connecting column; 2810. a vertically moving guide groove; 2811. a stop block; 282. a telescopic movable seat; 2820. a telescopic groove; 2821. an upper jack; 2822. vertically moving the guide block; 283. a pressure spring; 284. a lower connecting column; 29. supporting a worktable; 291. a front guide block and a rear guide block; 292. the threaded rod is driven back and forth.

Detailed Description

As shown in fig. 1 and 2, an adaptable light sweeping machine includes a supporting base 10 and a light sweeping device 20; a plurality of supporting feet 11 are formed on the bottom surface of the supporting base 10; an upper support frame 12 with a downward opening is formed on the upper end surface of the support base 10; the light sweeping device 20 comprises a support workbench 29 and an upper support seat 23; the supporting workbench 29 is arranged on the upper end surface of the supporting base 10 in a moving manner in the front-back direction; the upper supporting seat 23 is arranged on the horizontal part of the upper supporting frame 12; a lifting cylinder 25 is fixed at the center of the upper end surface of the upper supporting seat 23; the lower end of the piston rod of the lifting cylinder 25 is fixed with a U-shaped connecting seat 251 with a downward opening; a light sweeping seat 26 is fixed at the lower end of the connecting seat 251; the light sweeping base 26 includes a rectangular frame-shaped light sweeping support base 261 fixed to the lower end of the connecting base 251 and having an opening facing downward; an air inlet and outlet pipe 263 is formed on the upper side wall of the light sweeping supporting seat 261; the air inlet/outlet pipe 263 is connected with an external air supply/extraction device; an air bag cloth 262 is arranged at the opening at the lower end of the light sweeping supporting seat 261; a plurality of light sweeping discs 264 which are uniformly distributed from left to right are rotatably arranged on the bottom surface of the air bag cloth 262; a plurality of light sweeping motors 27 which are uniformly distributed left and right are fixed on the upper end surface of the light sweeping supporting seat 261; the lower end of the output shaft of the sweeping motor 27 is provided with a vertical telescopic unit 28; the sweeping motor 27 drives the vertical telescopic unit 28 to rotate; the upper end of the optical scanning disk 264 is formed with a connecting post 265; the connection pole 265 penetrates the airbag cloth 262 and is hinged at the upper end to the lower end of the vertical telescopic unit 28.

As shown in fig. 1 and 2, the vertical telescopic unit 28 includes an upper connection column 281 and a telescopic moving seat 282; the upper end of the upper connecting column 281 is fixedly connected with an output shaft of the sweeping motor 27; a telescopic slot 2820 in the shape of a cylindrical slot is formed in the telescopic moving seat 282; an upper insertion hole 2821 which is vertically penetrated and is used for inserting the upper connecting column 281 is formed at the top of the telescopic groove 2820; the lower end of the upper connecting pole 281 passes through the upper plug hole 2821 and enters the telescopic slot 2820 and is formed with a stop block 2811 matched with the telescopic slot 2820; a plurality of vertical moving guide slots 2810 which are uniformly distributed in the circumference are formed on the cylindrical surface of the lower part of the upper connecting column 281; a plurality of vertical moving guide blocks 2822 matched with the vertical moving guide slots 2810 are formed in the cylindrical surface of the upper insertion hole 2821; the lower end of the upper connecting column 281 is sleeved with a pressure spring 283; the upper end of the pressure spring 283 is fixed on the upper side wall of the telescopic slot 2820, and the lower end is fixed on the stop block 2811; a lower connecting column 284 is formed on the lower end surface of the telescopic moving seat 282; the upper end of the connecting column 265 is hinged to the lower end of the lower connecting column 284.

As shown in fig. 1, a left-right moving groove 120 is formed on the horizontal portion of the upper support frame 12; a left moving block 22 and a right moving block 22 are arranged in the left-right moving groove 120 in a left-right moving manner; the upper support base 23 is provided on the left and right moving blocks 22.

As shown in fig. 1, left and right guide grooves 121 are formed on the front and rear side walls of the left and right movement grooves 120, respectively; left and right guide blocks matched with the left and right guide grooves 121 are respectively formed on the front and rear end surfaces of the left and right moving blocks 22; a left-right moving cylinder 21 is fixed on the left side wall of the left-right moving groove 120; the left and right moving block 22 is fixed to the right end of the piston rod of the left and right moving cylinder 21.

As shown in fig. 1, the upper support base 23 is rotatably provided on the left and right moving blocks 22.

As shown in fig. 1, an upper rotary groove 221 in the shape of a cylindrical groove is formed on the upper end surface of the left and right moving blocks 22; a lower rotary hole 220 in a circular hole shape penetrating downwards is formed on the lower side wall of the upper rotary groove 221; a gear ring 231 is formed at the upper end of the cylindrical surface of the upper support seat 23; a rotary motor 24 is fixed on the bottom surface of the upper rotary groove 221; a driving gear 241 is fixed to an output shaft of the rotating electric machine 24; drive gear 241 meshes with gear ring 231; the lower portion of the upper support 23 is located at the lower rotation hole 220 and is coupled with the lower rotation hole 220 by a bearing.

As shown in fig. 1, three front and rear guide grooves 100 are formed on the upper end surface of the support base 10 and are distributed evenly; front and rear guide posts 13 in the front and rear direction are formed between the front and rear side walls of the left and right front and rear guide grooves 100; a front and rear driving threaded rod 292 is pivoted between the front and rear side walls of the front and rear guide grooves 100 in the middle; a front and rear driving motor is fixed on the front side wall of the front and rear guide groove 100 in the middle; the front end of the front and rear driving threaded rod 292 is fixedly connected with an output shaft of a front and rear driving motor; three front and rear guide blocks 291 fitted with the front and rear guide grooves 100 are formed on the lower end surface of the support table 29; the front and rear guide blocks 291 on the left and right sides are sleeved on the pair of front and rear guide posts 13 in the front and rear directions; the intermediate front and rear guide blocks 291 are screwed to the front and rear drive threaded rods 292.

The working principle of the sweeping machine is strong in adaptability;

during normal operation, a workpiece is placed on the supporting workbench 29, then the connecting seat 251 is lowered, so that the optical scanning disc 264 is contacted with the surface of the workpiece, then the air inlet/outlet pipe 263 is used for inflating the optical scanning seat 26, due to the existence of the vertical telescopic unit 28 and the articulation of the optical scanning disc 264 and the vertical telescopic unit 28, the optical scanning disc 264 is tightly attached to the surface of the workpiece, so that the optical scanning seat is suitable for the surface of different workpieces, then the optical scanning motor 27 is started to drive the optical scanning disc 264 to rotate, and simultaneously the supporting workbench 29 drives the workpiece to move back and forth for scanning,

since the gap between the optical scanning discs 264 is unavoidable, the surface of the workpiece is not completely scanned during the above operation, then the air is pumped out from the optical scanning base 26, then the left and right moving blocks 22 move left and right, then the air is charged into the optical scanning base 26, and the scanning is performed again according to the above distance, so as to complete the complete scanning of the surface of the workpiece.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims

1. The utility model provides a strong adaptability sweeps ray apparatus which characterized in that: comprises a supporting base (10) and a light sweeping device (20); a plurality of supporting feet (11) are formed on the bottom surface of the supporting base (10); an upper U-shaped support frame (12) with a downward opening is formed on the upper end surface of the support base (10); the light sweeping device (20) comprises a supporting workbench (29) and an upper supporting seat (23); the supporting workbench (29) is arranged on the upper end surface of the supporting base (10) in a moving way in the front-back direction; the upper supporting seat (23) is arranged on the horizontal part of the upper supporting frame (12); a lifting cylinder (25) is fixed at the center of the upper end surface of the upper supporting seat (23); the lower end of the piston rod of the lifting cylinder (25) is fixed with a U-shaped connecting seat (251) with an opening facing downwards; a light sweeping seat (26) is fixed at the lower end of the connecting seat (251); the light sweeping seat (26) comprises a rectangular frame-shaped light sweeping support seat (261) which is fixed at the lower end of the connecting seat (251) and provided with an opening facing downwards; an air inlet and outlet pipe (263) is formed on the upper side wall of the light sweeping supporting seat (261); the air inlet and outlet pipe (263) is connected with an external air supply and extraction device; an air bag cloth (262) is arranged at the opening at the lower end of the light sweeping supporting seat (261); a plurality of left and right uniformly distributed optical scanning discs (264) are rotatably arranged on the bottom surface of the air bag cloth (262); a plurality of light sweeping motors (27) which are uniformly distributed on the left and the right are fixed on the upper end surface of the light sweeping supporting seat (261); a vertical telescopic unit (28) is arranged at the lower end of an output shaft of the sweeping motor (27); the sweeping motor (27) drives the vertical telescopic unit (28) to rotate; the upper end of the optical scanning disc (264) is formed with a connecting column (265); the connecting column (265) passes through the airbag cloth (262) and is hinged at the upper end to the lower end of the vertical telescopic unit (28).

2. The adaptable light sweeping machine of claim 1, further comprising: the vertical telescopic unit (28) comprises an upper connecting column (281) and a telescopic moving seat (282); the upper end of the upper connecting column (281) is fixedly connected with an output shaft of the sweeping motor (27); a cylindrical groove-shaped telescopic slot (2820) is formed in the telescopic moving seat (282); an upper jack (2821) which is arranged in a vertically penetrating manner and used for inserting an upper connecting column (281) is formed at the top of the telescopic groove (2820); the lower end of the upper connecting column (281) penetrates through the upper jack (2821) and enters the telescopic groove (2820), and a stop block (2811) matched with the telescopic groove (2820) is formed; a plurality of vertical moving guide grooves (2810) which are uniformly distributed in the circumference are formed on the cylindrical surface of the lower part of the upper connecting column (281); a plurality of vertical moving guide blocks (2822) matched with the vertical moving guide grooves (2810) are formed in the cylindrical surface of the upper insertion hole (2821); the lower end of the upper connecting column (281) is sleeved with a pressure spring (283); the upper end of the pressure spring (283) is fixed on the upper side wall of the telescopic groove (2820), and the lower end is fixed on the stop block (2811); a lower connecting column (284) is formed on the lower end surface of the telescopic moving seat (282); the upper end of the connecting column (265) is hinged at the lower end of the lower connecting column (284).

3. The adaptable light sweeping machine of claim 1, further comprising: a left-right moving groove (120) is formed on the horizontal part of the upper support frame (12); a left moving block (22) and a right moving block (22) are arranged in the left-right moving groove (120) in a left-right moving way; the upper supporting seat (23) is arranged on the left and right moving blocks (22).

4. An adaptable light sweeping machine according to claim 3, characterized in that: left and right guide grooves (121) are respectively formed on the front and rear side walls of the left and right moving groove (120); the front end surface and the rear end surface of the left moving block and the right moving block (22) are respectively provided with a left guide block and a right guide block which are matched with the left guide groove and the right guide groove (121); a left-right moving cylinder (21) is fixed on the left side wall of the left-right moving groove (120); the left and right moving block (22) is fixed at the right end of the piston rod of the left and right moving cylinder (21).

5. An adaptable light sweeping machine according to claim 3, characterized in that: the upper supporting seat (23) is rotatably arranged on the left and right moving blocks (22).

6. The adaptable light sweeping machine of claim 5, wherein: an upper rotary groove (221) in the shape of a cylindrical groove is formed on the upper end surface of the left and right moving blocks (22); a lower rotary hole (220) in a circular hole shape penetrating downwards is formed on the lower side wall of the upper rotary groove (221); a gear ring (231) is formed at the upper end of the cylindrical surface of the upper support seat (23); a rotating motor (24) is fixed on the bottom surface of the upper rotating groove (221); a driving gear (241) is fixed on an output shaft of the rotating motor (24); the driving gear (241) is meshed with the gear ring (231); the lower part of the upper supporting seat (23) is positioned in the lower rotating hole (220) and is connected with the lower rotating hole (220) through a bearing.

7. The adaptable light sweeping machine of claim 1, further comprising: three front and rear guide grooves (100) which are uniformly distributed from left to right are formed on the upper end surface of the supporting base (10); front and rear guide posts (13) in the front and rear direction are formed between the front and rear side walls of the left and right front and rear guide grooves (100); a front and a rear driving threaded rods (292) are pivoted between the front and the rear side walls of the front and the rear guide grooves (100) in the middle; a front and rear driving motor is fixed on the front side wall of the front and rear guide groove (100) in the middle; the front end of the front and back driving threaded rod (292) is fixedly connected with an output shaft of a front and back driving motor; three front and rear guide blocks (291) matched with the front and rear guide grooves (100) are formed on the lower end surface of the support workbench (29); the front and rear guide blocks (291) on the left side and the right side are sleeved on the front and rear guide posts (13) in the front and rear direction; the middle front and rear guide block (291) is screwed on the front and rear drive threaded rod (292).