CN112318269A

CN112318269A - Building glass curtain wall forming post-processing method

Info

Publication number: CN112318269A
Application number: CN202011165652.2A
Authority: CN
Inventors: 倪敏芳
Original assignee: 倪敏芳
Current assignee: Shanghai Haihua Curtain Wall Architectural Decoration Engineering Co.,Ltd.
Priority date: 2020-10-27
Filing date: 2020-10-27
Publication date: 2021-02-05
Anticipated expiration: 2040-10-27
Also published as: CN112318269B

Abstract

The invention relates to a method for post-processing of building glass curtain wall molding, which comprises a workbench and cross sliding chutes arranged at the front end and the rear end of the top of the workbench, wherein a fixing device is arranged above the workbench, a clamping device is arranged at the center of the top of the workbench, and a cooling device is arranged at the bottom end of the outer wall of an upper cylindrical groove. The first bidirectional screw rod designed by the invention can enable the two groups of supporting plates to simultaneously perform bidirectional movement so as to support and fix the bottom of the arc-shaped glass plate, and the designed electric slide block can enable each group of supporting plates to independently move so as to grind the bottom corners of the arc-shaped glass plate, so that the arc-shaped glass plate can not be supported while the bottom corners of the arc-shaped glass plate are ground, and the grinding effect is better.

Description

Building glass curtain wall forming post-processing method

Technical Field

The invention relates to the technical field of glass curtain wall processing, in particular to a method for processing a formed building glass curtain wall.

Background

The glass curtain wall is a building outer protective structure or decorative structure which has a certain displacement capacity relative to the main structure by a supporting structure system and does not bear the action of the main structure.

The arc glass curtain wall is a common glass curtain wall building in glass curtain walls, organically combines factors such as building aesthetics, building functions, building structures and the like, has a simple and luxurious shape and strong modern sense, can reflect surrounding scenery, has a good decoration effect, combines a wall and a window into a whole, and greatly lightens the dead weight of a building. Has the advantages of light dead weight, strong decoration, convenient installation and construction, etc.

The corners of the formed arc-shaped glass curtain wall need to be polished and ground, and the following problems may exist in the polishing and grinding process:

1. when the arc glass is fixed, a plurality of support points are required to be designed to clamp and fix the arc glass, so that the clamping and fixing device cannot be adjusted randomly aiming at the arc glass with different radians, and the arc glass with a single specification can only be clamped and fixed;

2. when the both ends edge to the arc glass support ground simultaneously, make arc glass's support terminal surface not contact with the backup pad, when grinding simultaneously to it this moment, cause the inside unstable that supports of arc glass easily to make the phenomenon of arc glass landing appear, have certain potential safety hazard.

Therefore, the invention provides a method for post-processing of building glass curtain wall molding.

Disclosure of Invention

In order to achieve the purpose, the invention provides a building glass curtain wall forming post-processing method, which comprises a workbench and cross chutes arranged at the front end and the rear end of the top of the workbench, wherein a fixing device is arranged above the workbench and comprises cross plates which are in sliding butt joint with the inner parts of the cross chutes, a first bidirectional screw rod is in threaded connection between two groups of the cross plates, a first bidirectional motor is arranged at the front end of the workbench, the output end of the first bidirectional motor is fixedly connected with the tail end of the first bidirectional screw rod, the tops of the two groups of the cross plates are both fixedly connected with a connecting plate, the top of the connecting plate is fixedly connected with a sliding plate, a rectangular chute is arranged at the top of the sliding plate, an electric sliding block is in sliding butt joint with the inner part of the rectangular chute, a supporting plate is fixedly connected with the top of the electric sliding block, a grinding device is arranged at one end of the moving block and comprises an extending plate arranged at one end, close to the inner side, of the moving block, a rotating shaft is arranged at the top of the extending plate in a rotating mode, the tail end of the rotating shaft penetrates through the bottom of the extending plate, a grinding disc is fixedly connected to the top of the rotating shaft, a grinding motor is arranged at the bottom of the extending plate, the output end of the grinding motor is fixedly connected with the tail end of the rotating shaft, a gear rack mechanism is arranged at the other end of the moving block and comprises a rack fixedly connected to one end, close to the outer side, of the moving block, a transmission shaft is arranged on the front end face of a vertical plate at the lower section of;

the top center of the workbench is provided with a clamping device, the clamping device comprises a support column arranged at the top center of the workbench, the top of the support column is fixedly connected with a cylindrical groove, the cylindrical groove is provided with two groups of cylindrical sleeves in an up-and-down symmetrical manner, the outer wall of the cylindrical groove below is provided with a plurality of groups of cylindrical sleeves, a round table is arranged inside the cylindrical groove, the left end of the cylindrical groove is fixedly connected with an air cylinder through a bolt, the moving end of the air cylinder penetrates through the left end of the cylindrical groove, the moving end of the air cylinder is fixedly connected with one end of the round table, the bottom end inside the cylindrical sleeve is in sliding butt joint with a round rod, the bottom end of the round rod is fixedly connected with an arc plate, a reset spring is arranged between the left end and the right end of the arc plate and the inner wall of the cylindrical groove, the top end inside, the top ends of the telescopic columns are fixedly connected with clamping plates, the left ends and the right ends of the two groups of cylindrical grooves are fixedly connected with fan-shaped plates, and positioning rods penetrate through the positioning holes and the through holes;

a polishing mechanism is arranged above the workbench, the polishing mechanism comprises Contraband-shaped frames which are symmetrically arranged at the front end and the rear end of the top of the workbench and have downward openings, a plurality of groups of supporting frames are arranged at the top of the Contraband-shaped frame, and a plurality of groups of fixing rods are fixedly connected to the positions, corresponding to the supporting frames, of the front end and the rear end of the outer wall of the cylindrical groove above the polishing mechanism;

t-shaped grooves are symmetrically formed in the left end and the right end of the bottom of the upper clamping plate, T-shaped plates are in sliding butt joint with the inside of the T-shaped grooves, the bottom of each T-shaped plate is fixedly connected with a polishing plate, the left end and the right end of the clamping plate are rotatably connected with a second bidirectional screw, and the tail end of the second bidirectional screw is fixedly connected with a second bidirectional motor;

the manufacturing method of the stator core reinforcing structure comprises the following steps:

s1 clamping the bottom surface of the arc glass: starting a first bidirectional motor to enable a first bidirectional screw rod to rotate, driving two groups of supporting plates to move oppositely by a connecting plate, closing the first bidirectional motor when the two groups of supporting plates move to a required position, placing the plane at the bottom end of the arc-shaped glass plate on the top of a horizontal plate of the supporting plates, starting the first bidirectional motor again, adjusting the moving distance of the supporting plates, and tightly contacting the arc-shaped glass plate with the supporting plates again to clamp and fix the arc-shaped glass plate;

s2 arc glass arc surface fixation: starting the two groups of cylinders to extend the telescopic rod, driving the circular truncated cone to gradually translate, enabling the reset spring to contract under the pressure action of the circular arc plate when the outer wall of the circular truncated cone gradually contacts with the circular arc plate, enabling the circular rod to move outwards along the inner wall of the cylindrical sleeve, driving the telescopic column to synchronously move with the telescopic spring by the circular rod, enabling the clamping plate to move outwards along with the telescopic column, enabling the middle clamping plate to contact with the central curved surface of the arc-shaped glass plate, enabling the clamping plates on two sides of the middle clamping plate to gradually contact with the curved surface of the arc-shaped glass plate when the telescopic rod continues to extend, enabling the telescopic spring to contract under the pressure of the clamping plates at the right and left, and manually inserting the positioning rod into the positioning hole and the through holes of the two groups of fan-shaped plates, so that the clamping plates clamp and fix the curved;

s3 grinding corners of the bottom surface of the arc glass: after the arc-shaped glass plate is fixed, opening a group of electric sliding blocks to enable one group of electric sliding blocks to move to the outer side of the arc-shaped glass plate along the rectangular sliding groove, moving the grinding device to the corner of the bottom end of the arc-shaped glass plate, closing the electric sliding blocks, starting a group of grinding motors to enable one group of rotating shafts to rotate, enabling the rotating shafts to drive the grinding discs to rotate synchronously, starting a group of motors to enable the transmission shafts to rotate, enabling the transmission shafts to drive the gears to rotate synchronously, enabling the gears to be meshed with the racks to enable the racks to move along the moving holes, enabling the racks to drive the grinding device to move synchronously, finishing grinding the corner of the bottom end of the arc-shaped glass at the moment;

s4 corner polishing of the arc glass end face: starting a two-way motor, make two-way screw rod rotate No. two, two sets of polishing boards move along T type groove phase to phase under the rotation of two-way screw rod, make polishing board and the laminating of the both ends of controlling of arc glass board, start the cylinder of top, make the telescopic link shorten, the telescopic link drives the round platform translation gradually, when the outer wall of round platform separates with the arc board gradually, make the circular arc board remove to cylinder inslot portion down to reset spring's elastic force effect again, the round bar moves inwards along the telescopic inner wall of cylinder, the round bar drives flexible post and expanding spring synchronous motion, the clamp plate moves inwards along with flexible post, make the clamp plate of top separate with the central curved surface of arc glass board, the clamp plate of top moves two sets of polishing boards and moves both ends rebound about the arc glass board, so reciprocal, realize polishing treatment to the corner at both ends about the arc glass board.

Preferably, the two ends of the first bidirectional screw are rotatably connected with the front end and the rear end of the workbench, the tail end of the first bidirectional screw penetrates through the front end of the workbench, and the rectangular sliding groove extends along the width direction of the workbench.

Preferably, the supporting plate is composed of two groups of vertical plates and a group of horizontal plates, the left end and the right end of the supporting plate are of Z-shaped structures, and the moving hole extends along the length direction of the supporting plate.

Preferably, the height of the overhanging plate is larger than that of the moving hole, and the gear and the rack are meshed with each other.

Preferably, both ends are circular structure about the cylinder groove, and the cylinder sleeve is arranged along the cylinder groove upper half circle circumference equidistant, is provided with a set of cylinder sleeve under the outer wall in top cylinder groove, and the inside in cylinder groove is run through to the telescopic one end of cylinder, and inside and the cylinder inslot portion of cylinder sleeve communicate with each other.

Preferably, the length of the arc plate is greater than the diameter of the inner wall of the cylindrical sleeve, the positioning holes are arranged at equal intervals along the height direction of the telescopic column, the surface of the clamping plate is covered with sponge, the fan-shaped plate is positioned between the two sets of cylindrical grooves, and the through holes are formed in the end face of the fan-shaped plate corresponding to the positioning holes.

Preferably, the support frame is linearly distributed along the length direction of the workbench, the tail end of the fixing rod penetrates through the support frame and is fixedly connected with the support frame, the length of the upper clamping plate is larger than that of the lower clamping plate, the second bidirectional screw rod penetrates through the inside of the clamping plate, and the second bidirectional screw rod is in threaded fit with the T-shaped plate.

Preferably, a cooling device is arranged at the bottom end of the outer wall of the upper cylindrical groove and comprises water tanks symmetrically arranged at the left end and the right end of the cylindrical groove, a water inlet valve is arranged at the outer end of each water tank, a liquid discharge pipe is arranged at the center of the bottom of each water tank and communicated with the inside of each water tank, a spray head is fixedly connected to the bottom of each liquid discharge pipe, and each spray head is located above the clamping plate.

Advantageous effects

1. The first bidirectional screw rod designed by the invention can enable the two groups of supporting plates to simultaneously perform bidirectional movement, so that the bottom of the arc-shaped glass plate is supported and fixed, and the designed electric sliding block can enable each group of supporting plates to independently move, so that the bottom corners of the arc-shaped glass plate are ground, the arc-shaped glass plate cannot be supported while the bottom corners of the arc-shaped glass plate are ground, and the grinding effect is better;

2. the clamping device can enable the telescopic column to reciprocate along the cylindrical sleeve, the telescopic spring can enable the clamping plate to gradually contract when the clamping plate is contacted with the curved surface of the arc-shaped glass plate, and the clamping plate can be fixed through the matching of the positioning rod and the positioning hole, so that the curved surface of the arc-shaped glass plate is clamped, and the stability effect of the arc-shaped glass plate is better;

3. the cooling device designed by the invention can reduce the temperature generated when the grinding device and the polishing mechanism grind and polish the arc-shaped glass plate, can also flush the glass powder generated in the grinding process, and can spray liquid more uniformly due to the arrangement of the spray head, so that the arc-shaped glass plate can be fully sprayed with the liquid, thereby achieving the effect of reducing the temperature.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a schematic view of the working state of the present invention;

FIG. 3 is a schematic view of the grinding mechanism of the present invention;

FIG. 4 is a cross-sectional view of the present invention;

FIG. 5 is a schematic view of the internal structure of the cylindrical sleeve of the present invention;

FIG. 6 is a perspective view of a T-slot and polishing plate of the present invention;

fig. 7 is a schematic view of the internal structure of the cooling device of the present invention.

In the figure: 10. a work table; 101. a cross-shaped chute; 20. a fixing device; 21. a cross-shaped plate; 211. a first bidirectional screw; 212. a first bi-directional motor; 22. a connecting plate; 23. a slide plate; 231. a rectangular chute; 24. an electric slider; 25. a support plate; 251. moving the hole; 26. a moving block; 27. a grinding device; 271. an overhang plate; 272. a rotating shaft; 273. grinding disc; 274. polishing the motor; 28. a rack and pinion mechanism; 281. a rack; 282. a gear; 283. a motor; 30. a clamping device; 31. a cylindrical groove; 311. a cylindrical sleeve; 32. a circular truncated cone; 33. a cylinder; 34. a round bar; 341. a circular arc plate; 342. a return spring; 35. a telescopic column; 351. positioning holes; 352. a tension spring; 353. a clamping plate; 36. a fan-shaped plate; 37. positioning a rod; 38. a polishing mechanism; 381. contraband type frame; 382. a support frame; 383. fixing the rod; 384. a T-shaped groove; 385. a T-shaped plate; 386. a second bidirectional screw; 387. a second bi-directional motor; 388. polishing the plate; 39. a support pillar; 40. a cooling device; 41. a water tank; 42. a water inlet valve; 43. a liquid discharge pipe; 44. and (4) a spray head.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 2 to 7, a method for post-processing of a building glass curtain wall after molding comprises a workbench 10 and cross chutes 101 arranged at the front end and the rear end of the top of the workbench 10, a fixing device 20 is arranged above the workbench 10, the fixing device 20 comprises cross plates 21 in sliding butt joint with the inside of the cross chutes 101, a first bidirectional screw 211 is in threaded connection between two groups of the cross plates 21, two ends of the first bidirectional screw 211 are rotatably connected with the front end and the rear end of the workbench 10, the tail end of the first bidirectional screw 211 penetrates through the front end of the workbench 10, a first bidirectional motor 212 is arranged at the front end of the workbench 10, the output end of the first bidirectional motor 212 is fixedly connected with the tail end of the first bidirectional screw 211, connecting plates 22 are fixedly connected with the tops of the two groups of the cross plates 21, sliding plates 23 are fixedly connected with the tops of the connecting plates 22, rectangular chutes 231 are arranged at, the rectangular sliding groove 231 extends along the width direction of the workbench 10, the electric slider 24 is in sliding butt joint with the inside of the rectangular sliding groove 231, the top of the electric slider 24 is fixedly connected with a supporting plate 25, the supporting plate 25 is composed of two groups of vertical plates and a group of horizontal plates, the left end and the right end are in a Z-shaped structure, a moving hole 251 is formed in the vertical plate at the lower section of the supporting plate 25, the moving hole 251 extends along the length direction of the supporting plate 25, a moving block 26 is arranged inside the moving hole 251, one end of the moving block 26 is provided with a grinding device 27, the grinding device 27 comprises an outer extending plate 271 arranged at one end of the moving block 26 close to the inner side, the height of the outer extending plate 271 is greater than that of the moving hole 251, a rotating shaft 272 is rotatably arranged at the top of the outer extending plate 271, the tail end of the rotating shaft 272, the output of grinding motor 274 and the terminal fixed connection of pivot 272, the other end of movable block 26 is provided with rack and pinion mechanism 28, rack and pinion mechanism 28 includes rack 281 of fixed connection at the one end that movable block 26 is close to the outside, rotates on the preceding terminal surface of the vertical board of backup pad 25 hypomere and is provided with the transmission shaft, and the outer wall cover of transmission shaft is equipped with gear 282, gear 282 and rack 281 intermeshing, the terminal fixedly connected with motor 283 of transmission shaft.

During operation, start a two-way motor 212, make a two-way screw 211 rotate, connecting plate 22 drives two sets of backup pad 25 and moves in opposite directions, when moving to required position, closes a two-way motor 212, places the plane of arc glass plate bottom at backup pad 25 horizontal plate top, restarts a two-way motor 212, adjusts the displacement of backup pad 25, with the in close contact with between arc glass plate and the backup pad 25 once more, makes it press from both sides tightly fixedly.

The top center of the workbench 10 is provided with a clamping device 30, the clamping device 30 comprises a support pillar 39 arranged at the top center of the workbench 10, the top of the support pillar 39 is fixedly connected with a cylindrical groove 31, the left and right ends of the cylindrical groove 31 are in a circular structure, the cylindrical groove 31 is symmetrically provided with two groups of upper and lower ends, the outer wall of the lower cylindrical groove 31 is provided with a plurality of groups of cylindrical sleeves 311, the cylindrical sleeves 311 are arranged along the upper semicircle circumference of the cylindrical groove 31 at equal intervals, a group of cylindrical sleeves 311 are arranged right below the outer wall of the upper cylindrical groove 31, one end of each cylindrical sleeve 311 penetrates through the inside of the cylindrical groove 31, the inside of each cylindrical sleeve 311 is communicated with the inside of the cylindrical groove 31, the inside of the cylindrical groove 31 is provided with a circular platform 32, the left and right ends of the circular platform 32 are in a circular structure, the left end of the cylindrical groove 31 is fixedly connected with an air cylinder 33 through a bolt, the, a round rod 34 is in sliding butt joint with the bottom end inside the cylindrical sleeve 311, an arc plate 341 is fixedly connected with the bottom end of the round rod 34, the length of the arc plate 341 is larger than the diameter of the inner wall of the cylindrical sleeve 311, a return spring 342 is arranged between the left end and the right end of the arc plate 341 and the inner wall of the cylindrical groove 31, a telescopic column 35 is in sliding butt joint with the top end inside the cylindrical sleeve 311, a plurality of groups of positioning holes 351 are formed in the left end and the right end of the telescopic column 35, the positioning holes 351 are arranged at equal intervals along the height direction of the telescopic column 35, a telescopic spring 352 is arranged between the telescopic column 35 and the round rod 34, a clamping plate 353 is fixedly connected with the top end of the telescopic column 35, a sponge is covered on the surface of the clamping plate 353, fan-shaped plates 36 are fixedly connected with the left end and the right end of the two groups of cylindrical grooves 31, through holes;

a polishing mechanism 38 is arranged above the workbench 10, the polishing mechanism 38 comprises Contraband-shaped frames 381 which are symmetrically arranged at the front end and the rear end of the top of the workbench 10 and have downward openings, a plurality of groups of supporting frames 382 are arranged at the top of the Contraband-shaped frame 381, the supporting frames 382 are linearly distributed along the length direction of the workbench 10, a plurality of groups of fixing rods 383 are fixedly connected to the front end and the rear end of the outer wall of the upper cylindrical groove 31 corresponding to the positions of the supporting frames 382, and the tail ends of the fixing rods 383 penetrate through the supporting frames 382 and are fixedly connected with the;

wherein the length of top clamp plate 353 is greater than the length of below clamp plate 353, and T type groove 384 has been seted up to the left and right sides both ends symmetry of top clamp plate 353 bottom, the inside slip of T type groove 384 is docked has T type board 385, the bottom fixedly connected with polishing plate 388 of T type board 385, both ends are rotated and are connected with No. two-way screw rod 386 about clamp plate 353, No. two-way screw rod 386 runs through the inside of clamp plate 353, and No. two-way screw rod 386 and T type board 385 screw-thread fit, No. two-way screw rod 386's terminal fixedly connected with No. two-way motor 387.

When the device works, the two groups of cylinders 33 are started to extend the telescopic rods, the telescopic rods drive the circular truncated cone 32 to gradually translate, when the outer wall of the circular truncated cone 32 is gradually contacted with the arc plate 341, the return spring 342 is contracted under the pressure action of the arc plate 341, the circular rod 34 moves outwards along the inner wall of the cylindrical sleeve 311, the circular rod 34 drives the telescopic column 35 and the telescopic spring 352 to synchronously move, the clamping plates 353 move outwards along with the telescopic column 35, so that the middle clamping plate 353 is contacted with the central curved surface of the arc-shaped glass plate, when the telescopic rod continues to extend, the clamping plates 353 at two sides of the middle clamping plate 353 are gradually contacted with the curved surface of the arc glass plate, at the moment, the telescopic spring 352 contracts under the pressure of the clamping plates 353, the positioning rod 37 is manually inserted into the positioning hole 351 and the through holes of the two groups of fan-shaped plates 36, the design ensures that the clamping plate 353 clamps and fixes the curved surface of the arc glass plate, so that the stable effect is better;

after the arc-shaped glass plate is fixed, opening one group of electric sliding blocks 24 to enable one group of electric sliding blocks 24 to move towards the outer side of the arc-shaped glass plate along the rectangular sliding groove 231, moving the grinding device 27 to the bottom end corner of the arc-shaped glass plate, closing the electric sliding blocks 24, starting one group of grinding motors 274 to enable one group of rotating shafts 272 to rotate, enabling the rotating shafts 272 to drive the grinding discs 273 to rotate synchronously, starting one group of motors 283 to enable the transmission shafts to rotate, enabling the transmission shafts to drive the gears 282 to rotate synchronously, enabling the gears 282 to be meshed with the racks 281 to enable the racks 281 to move along the moving holes 251, enabling the racks 281 to drive the grinding device 27 to move synchronously, and finishing grinding the bottom;

starting the electric slider 24 to move the electric slider 24 along the rectangular sliding groove 231 to the inner side of the arc-shaped glass plate, moving the horizontal plate in the supporting plate 25 to the bottom corner of the arc-shaped glass plate, closing the electric slider 24, starting another group of electric sliders 24 to move another group of electric sliders 24 along the rectangular sliding groove 231 to the outer side of the arc-shaped glass plate, moving the grinding device 27 to the bottom corner of the arc-shaped glass plate, closing the electric sliders 24, starting another group of grinding motors 274 to rotate another group of rotating shafts 272, driving the grinding discs 273 to synchronously rotate by the rotating shafts 272, starting another group of motors 283 to rotate the transmission shaft, driving the gear 282 to synchronously rotate by the transmission shaft, meshing the gear 282 with the rack 281 to move the rack 281 along the moving hole 251, driving the grinding device 27 to synchronously move by the rack 281, finishing grinding the bottom corner of the arc-shaped glass at the moment, and starting the electric slider 24, the electric slider 24 is moved to the inner side of the arc-shaped glass plate along the rectangular chute 231;

the second two-way motor 387 is started to rotate the second two-way screw 386, the two groups of polishing plates 388 move oppositely along the T-shaped groove 384 under the rotation of the second two-way screw 386, so that the polishing plates 388 are attached to the left end and the right end of the arc-shaped glass plate, the upper air cylinder 33 is started to shorten the telescopic rod, the telescopic rod drives the circular truncated cone 32 to gradually translate, when the outer wall of the circular truncated cone 32 is gradually separated from the arc-shaped plate 341, make circular arc board 341 reset spring 342's elastic force effect down to the inside removal of cylinder groove 31 again, round bar 34 is along the inside removal of the inner wall of cylinder sleeve 311, round bar 34 drives flexible post 35 and expanding spring 352 synchronous motion, clamp plate 353 moves along with flexible post 35 is inside, the clamp plate 353 of messenger's top separates with the central curved surface of arc glass board, the clamp plate 353 of top drives two sets of polishing boards 388 along the both ends rebound about the arc glass board, so reciprocal, the realization is polished the corner at both ends about the arc glass board.

The bottom end of the outer wall of the upper cylindrical groove 31 is provided with a cooling device 40, the cooling device 40 comprises water tanks 41 symmetrically arranged at the left end and the right end of the cylindrical groove 31, the outer ends of the water tanks 41 are provided with water inlet valves 42, the center of the bottom of the water tank 41 is provided with a liquid discharge pipe 43, the liquid discharge pipe 43 is communicated with the inside of the water tank 41, the bottom of the liquid discharge pipe 43 is fixedly connected with a spray head 44, and the spray head 44 is positioned above the clamping plate 353.

When the glass plate cooling device works, the water inlet valve 42 is opened, the water tank 41 sprays liquid on the surface of the lower arc-shaped glass plate through the water inlet valve 42, the liquid is sprayed more uniformly through the arrangement of the spray head, the arc-shaped glass plate can be fully sprayed with the liquid, and therefore the cooling effect is achieved.

The working principle is as follows: starting a first bidirectional motor 212 to enable a first bidirectional screw 211 to rotate, driving the two groups of supporting plates 25 to move oppositely by the connecting plate 22, closing the first bidirectional motor 212 when the two groups of supporting plates move to a required position, placing the plane at the bottom end of the arc-shaped glass plate on the top of the horizontal plate of the supporting plate 25, starting the first bidirectional motor 212 again, adjusting the moving distance of the supporting plate 25, and tightly contacting the arc-shaped glass plate with the supporting plate 25 again to enable the arc-shaped glass plate to be clamped and fixed;

the water inlet valve 42 is opened, the water tank 41 sprays on the surface of the downward arc-shaped glass plate through the water inlet valve 42, the liquid is sprayed more uniformly due to the arrangement of the spray head, and the arc-shaped glass plate can be fully sprayed with the liquid, so that the effect of cooling is achieved;

As shown in fig. 1, the method for manufacturing the stator core reinforcing structure includes the following steps:

s1 clamping the bottom surface of the arc glass: starting a first bidirectional motor 212 to enable a first bidirectional screw 211 to rotate, driving the two groups of supporting plates 25 to move oppositely by the connecting plate 22, closing the first bidirectional motor 212 when the two groups of supporting plates move to a required position, placing the plane at the bottom end of the arc-shaped glass plate on the top of the horizontal plate of the supporting plate 25, starting the first bidirectional motor 212 again, adjusting the moving distance of the supporting plate 25, and tightly contacting the arc-shaped glass plate with the supporting plate 25 again to enable the arc-shaped glass plate to be clamped and fixed;

s2 arc glass arc surface fixation: the two groups of cylinders 33 are started to extend the telescopic rods, the telescopic rods drive the circular truncated cone 32 to gradually translate, when the outer wall of the circular truncated cone 32 is gradually contacted with the circular arc plate 341, the return spring 342 contracts under the pressure of the arc plate 341, the round rod 34 moves outwards along the inner wall of the cylindrical sleeve 311, the round rod 34 drives the telescopic column 35 and the telescopic spring 352 to move synchronously, the clamping plate 353 moves outwards along with the telescopic column 35, so that the middle clamping plate 353 is in contact with the central curved surface of the arc-shaped glass plate, when the telescopic rod continues to extend, the clamping plates 353 at two sides of the middle clamping plate 353 are gradually contacted with the curved surface of the arc glass plate, at the moment, the telescopic spring 352 contracts under the pressure of the clamping plates 353, the positioning rod 37 is manually inserted into the positioning hole 351 and the through holes of the two groups of fan-shaped plates 36, the design ensures that the clamping plate 353 clamps and fixes the curved surface of the arc glass plate, so that the stable effect is better;

s3 grinding corners of the bottom surface of the arc glass: after the arc-shaped glass plate is fixed, opening one group of electric sliding blocks 24 to enable one group of electric sliding blocks 24 to move towards the outer side of the arc-shaped glass plate along the rectangular sliding groove 231, moving the grinding device 27 to the corner of the bottom end of the arc-shaped glass plate, closing the electric sliding blocks 24, starting one group of grinding motors 274 to enable one group of rotating shafts 272 to rotate, enabling the rotating shafts 272 to drive the grinding discs 273 to rotate synchronously, starting one group of motors 283 to enable the transmission shafts to rotate, enabling the transmission shafts to drive the gears 282 to rotate synchronously, enabling the gears 282 to be meshed with the racks 281 to enable the racks 281 to move along the moving holes 251, enabling the racks 281 to drive the grinding device 27 to move synchronously, finishing grinding the corner of the bottom end of the arc-shaped glass at the moment;

s4 corner polishing of the arc glass end face: the second two-way motor 387 is started to rotate the second two-way screw 386, the two groups of polishing plates 388 move oppositely along the T-shaped groove 384 under the rotation of the second two-way screw 386, so that the polishing plates 388 are attached to the left end and the right end of the arc-shaped glass plate, the upper air cylinder 33 is started to shorten the telescopic rod, the telescopic rod drives the circular truncated cone 32 to gradually translate, when the outer wall of the circular truncated cone 32 is gradually separated from the arc-shaped plate 341, make circular arc board 341 reset spring 342's elastic force effect down to the inside removal of cylinder groove 31 again, round bar 34 is along the inside removal of the inner wall of cylinder sleeve 311, round bar 34 drives flexible post 35 and expanding spring 352 synchronous motion, clamp plate 353 moves along with flexible post 35 is inside, the clamp plate 353 of messenger's top separates with the central curved surface of arc glass board, the clamp plate 353 of top drives two sets of polishing boards 388 along the both ends rebound about the arc glass board, so reciprocal, the realization is polished the corner at both ends about the arc glass board.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a building glass curtain wall shaping aftertreatment method, includes workstation (10) and sets up cross spout (101) at both ends around workstation (10) top, its characterized in that: a fixing device (20) is arranged above the workbench (10), the fixing device (20) comprises cross-shaped plates (21) which are in sliding butt joint with the inside of a cross-shaped sliding groove (101), a first bidirectional screw (211) is in threaded connection between two groups of the cross-shaped plates (21), a first bidirectional motor (212) is installed at the front end of the workbench (10), the output end of the first bidirectional motor (212) is fixedly connected with the tail end of the first bidirectional screw (211), the tops of the two groups of the cross-shaped plates (21) are both fixedly connected with a connecting plate (22), the top of the connecting plate (22) is fixedly connected with a sliding plate (23), a rectangular sliding groove (231) is formed in the top of the sliding plate (23), an electric sliding block (24) is in sliding butt joint with the inside of the rectangular sliding groove (231), a supporting plate (25) is fixedly connected with the top of the electric sliding block (24), and a, a moving block (26) is arranged in the moving hole (251), a grinding device (27) is arranged at one end of the moving block (26), the grinding device (27) comprises an outer extending plate (271) which is arranged at one end, close to the inner side, of the moving block (26), a rotating shaft (272) is rotatably arranged at the top of the outer extending plate (271), the tail end of the rotating shaft (272) penetrates through the bottom of the outer extending plate (271), a grinding disc (273) is fixedly connected to the top of the rotating shaft (272), a grinding motor (274) is installed at the bottom of the outer extending plate (271), the output end of the grinding motor (274) is fixedly connected with the tail end of the rotating shaft (272), a gear and rack mechanism (28) is arranged at the other end of the moving block (26), the gear and rack mechanism (28) comprises a rack (281) which is fixedly connected to one end, close to the outer side, the outer wall of the transmission shaft is sleeved with a gear (282), and the tail end of the transmission shaft is fixedly connected with a motor (283);

the clamping device (30) is arranged at the center of the top of the workbench (10), the clamping device (30) comprises a supporting column (39) arranged at the center of the top of the workbench (10), cylindrical grooves (31) are fixedly connected to the tops of the supporting column (39), two groups of cylindrical grooves (31) are arranged in an up-down symmetrical mode, a plurality of groups of cylindrical sleeves (311) are arranged on the outer wall of the cylindrical groove (31) below, round tables (32) are arranged inside the cylindrical grooves (31), the left end of each cylindrical groove (31) is fixedly connected with an air cylinder (33) through a bolt, the moving end of each air cylinder (33) penetrates through the left end of each cylindrical groove (31), the moving end of each air cylinder (33) is fixedly connected with one end of each round table (32), a round rod (34) is in sliding butt joint with the bottom end inside each cylindrical sleeve (311), an arc plate (341) is fixedly connected to the bottom end of each round rod (34), and a reset spring (342) is arranged between the left, the top end in the cylindrical sleeve (311) is in sliding butt joint with a telescopic column (35), a plurality of groups of positioning holes (351) are formed in the left end and the right end of the telescopic column (35), a telescopic spring (352) is arranged between the telescopic column (35) and the round rod (34), the top end of the telescopic column (35) is fixedly connected with a clamping plate (353), the left end and the right end of each of two groups of cylindrical grooves (31) are fixedly connected with fan-shaped plates (36), and positioning rods (37) penetrate through the positioning holes (351) and the through holes;

a polishing mechanism (38) is arranged above the workbench (10), the polishing mechanism (38) comprises Contraband-shaped frames (381) which are symmetrically arranged at the front end and the rear end of the top of the workbench (10) and have downward openings, a plurality of groups of supporting frames (382) are arranged at the top of the Contraband-shaped frame (381), and a plurality of groups of fixing rods (383) are fixedly connected at the positions, corresponding to the supporting frames (382), of the front end and the rear end of the outer wall of the cylindrical groove (31) above;

the left end and the right end of the bottom of the upper clamping plate (353) are symmetrically provided with T-shaped grooves (384), T-shaped plates (385) are in sliding butt joint in the T-shaped grooves (384), the bottom of the T-shaped plates (385) is fixedly connected with a polishing plate (388), the left end and the right end of the clamping plate (353) are rotatably connected with a second bidirectional screw (386), and the tail end of the second bidirectional screw (386) is fixedly connected with a second bidirectional motor (387);

s1 clamping the bottom surface of the arc glass: starting a first bidirectional motor (212) to enable a first bidirectional screw (211) to rotate, driving two groups of supporting plates (25) to move oppositely by a connecting plate (22), closing the first bidirectional motor (212) when the two groups of supporting plates move to a required position, placing the plane at the bottom end of the arc-shaped glass plate on the top of a horizontal plate of the supporting plates (25), starting the first bidirectional motor (212), adjusting the moving distance of the supporting plates (25), and tightly contacting the arc-shaped glass plate with the supporting plates (25) again to clamp and fix the arc-shaped glass plate;

s2 arc glass arc surface fixation: starting the two groups of cylinders (33) to extend the telescopic rods, enabling the telescopic rods to drive the circular truncated cone (32) to gradually translate, enabling the reset springs (342) to contract under the pressure action of the circular arc plates (341) when the outer wall of the circular truncated cone (32) is gradually contacted with the circular arc plates (341), enabling the circular rods (34) to move outwards along the inner wall of the cylindrical sleeve (311), enabling the telescopic columns (35) and the telescopic springs (352) to move synchronously through the circular rods (34), enabling the clamping plates (353) at the middle to move outwards along with the telescopic columns (35), enabling the clamping plates (353) at the middle to be contacted with the central curved surface of the arc-shaped glass plate, enabling the clamping plates (353) at two sides of the clamping plate (353) at the middle to be gradually contacted with the curved surface of the arc-shaped glass plate when the telescopic rods continue to extend, enabling the telescopic springs (352) to contract under the pressure of the clamping plates (353), and manually inserting the positioning rods (37) into through holes of the two, the design ensures that the clamping plate (353) clamps and fixes the curved surface of the arc glass plate, so that the stable effect is better;

s3 grinding corners of the bottom surface of the arc glass: after the arc-shaped glass plate is fixed, opening a group of electric sliding blocks (24), enabling one group of electric sliding blocks (24) to move to the outer side of the arc-shaped glass plate along a rectangular sliding groove (231), moving a grinding device (27) to the corner of the bottom end of the arc-shaped glass plate, closing the electric sliding blocks (24), starting a group of grinding motors (274), enabling one group of rotating shafts (272) to rotate, enabling the rotating shafts (272) to drive a grinding disc (273) to synchronously rotate, starting a group of motors (283), enabling a transmission shaft to rotate, enabling the transmission shaft to drive a gear (282) to synchronously rotate, enabling the gear (282) to be meshed with a rack (281), enabling the rack (281) to move along a moving hole (251), enabling the rack (281) to drive the grinding device (27) to synchronously move, finishing grinding the corner of the bottom end of the arc-shaped glass at the moment, and repeating in such;

s4 corner polishing of the arc glass end face: starting a second two-way motor (387) to rotate a second two-way screw (386), enabling two groups of polishing plates (388) to move oppositely along a T-shaped groove (384) under the rotation of the second two-way screw (386), enabling the polishing plates (388) to be attached to the left end and the right end of an arc-shaped glass plate, starting an upper air cylinder (33) to shorten a telescopic rod, enabling the telescopic rod to drive a round table (32) to gradually translate, enabling the arc plate (341) to move towards the inside of a cylindrical groove (31) under the action of elastic force of a return spring (342) when the outer wall of the round table (32) is gradually separated from the arc plate (341), enabling a round rod (34) to move inwards along the inner wall of the cylindrical sleeve (311), enabling the round rod (34) to drive a telescopic column (35) and the telescopic spring (352) to synchronously move, enabling a clamping plate (353) to move inwards along with the telescopic column (35), and enabling the clamping plate (353) above to be separated, the clamp plate (353) of top drives two sets of polishing boards (388) and moves up along the both ends about the arc glass board, so reciprocal, realizes polishing the corner at both ends about the arc glass board.

2. The method for post-processing of the building glass curtain wall after forming as claimed in claim 1, wherein: the two ends of the first bidirectional screw (211) are rotatably connected with the front end and the rear end of the workbench (10), the tail end of the first bidirectional screw (211) penetrates through the front end of the workbench (10), and the rectangular sliding groove (231) extends along the width direction of the workbench (10).

3. The method for post-processing of the building glass curtain wall after forming as claimed in claim 1, wherein: the supporting plate (25) is composed of two groups of vertical plates and a group of horizontal plates, the left end and the right end of the supporting plate are of Z-shaped structures, and the moving hole (251) extends along the length direction of the supporting plate (25).

4. The method for post-processing of the building glass curtain wall after forming as claimed in claim 1, wherein: the height of the overhanging plate (271) is larger than that of the moving hole (251), and the gear (282) is meshed with the rack (281).

5. The method for post-processing of the building glass curtain wall after forming as claimed in claim 1, wherein: the left end and the right end of the cylindrical groove (31) are of circular structures, the cylindrical sleeve (311) is arranged along the upper semicircle circumference of the cylindrical groove (31) at equal intervals, a group of cylindrical sleeves (311) are arranged right below the outer wall of the upper cylindrical groove (31), one end of each cylindrical sleeve (311) penetrates through the inside of the cylindrical groove (31), and the inside of each cylindrical sleeve (311) is communicated with the inside of the cylindrical groove (31).

6. The method for post-processing of the building glass curtain wall after forming as claimed in claim 1, wherein: the length of the arc plate (341) is larger than the diameter of the inner wall of the cylindrical sleeve (311), the positioning holes (351) are arranged at equal intervals along the height direction of the telescopic column (35), the surface of the clamping plate (353) is covered with sponge, the fan-shaped plate (36) is located between the two sets of cylindrical grooves (31), and the end face of the fan-shaped plate (36) corresponds to the position of the positioning holes (351) and is provided with through holes.

7. The method for post-processing of the building glass curtain wall after forming as claimed in claim 1, wherein: the supporting frame (382) is linearly distributed along the length direction of the workbench (10), the tail end of the fixing rod (383) penetrates through the supporting frame (382) and is fixedly connected with the supporting frame (382), the length of the upper clamping plate (353) is larger than that of the lower clamping plate (353), the second bidirectional screw (386) penetrates through the inside of the clamping plate (353), and the second bidirectional screw (386) is in threaded fit with the T-shaped plate (385).

8. The method for post-processing of the building glass curtain wall after forming as claimed in claim 1, wherein: the cooling device (40) is arranged at the bottom end of the outer wall of the upper cylindrical groove (31), the cooling device (40) comprises water tanks (41) symmetrically arranged at the left end and the right end of the cylindrical groove (31), a water inlet valve (42) is arranged at the outer end of each water tank (41), a liquid discharge pipe (43) is arranged at the center of the bottom of each water tank (41), the liquid discharge pipes (43) are communicated with the inside of the water tanks (41), a spray head (44) is fixedly connected to the bottom of each liquid discharge pipe (43), and the spray head (44) is located above the clamping plate (353).