CN220759790U - Rotary gluing table for glass processing - Google Patents

Abstract

The utility model relates to the technical field of glass processing and discloses a rotary gluing table for glass processing, which comprises a workbench, wherein a moving assembly is arranged on one side of the workbench, a feeding assembly is arranged above the moving assembly, a glue coating pipe is arranged on the inner side of the feeding assembly, a third motor is arranged in the workbench, the output end of the third motor is connected with an output shaft, a first fixing frame is arranged above the workbench, and a clamping assembly is arranged at the top of the first fixing frame. The utility model realizes that the glue coating pipe is convenient to drive to move through the arranged moving assembly, thereby facilitating the glue coating treatment of the sealing position required by glass, ensuring that the glue coating of the device on the glass is more uniform at the gap position along the rectangular glass when in use, and realizing the convenient automatic feeding through the arranged feeding assembly, thereby facilitating the smearing of the sealing glue on the joint of the glass, and the device has simple structure, is convenient to operate and improves the flexibility of the device.

Description

Rotary gluing table for glass processing

Technical Field

The utility model relates to the technical field of glass processing, in particular to a rotary gluing table for glass processing.

Background

The glass is amorphous inorganic nonmetallic material, generally uses a plurality of inorganic minerals as main raw materials, and is additionally added with a small amount of auxiliary raw materials to prepare the glass, the glass is of a plurality of types, the toughened glass belongs to safety glass, the toughened glass is a prestressed glass, in order to improve the strength of the glass, a chemical or physical method is generally used for forming compressive stress on the surface of the glass, and the surface stress is firstly counteracted when the glass bears external force, so that the bearing capacity is improved, and the wind pressure resistance, summer and cold resistance, impact resistance and the like of the glass are enhanced.

In the process of manufacturing toughened glass, two or more pieces of glass are uniformly spaced by effective support and peripheral bonding is sealed, the joint of the outer sides of the glass is required to be sealed, and in the process of processing the glass, a rotary workbench is required to be used for gluing the glass.

Chinese patent publication No.: CN218423904U discloses a rotatory rubber coating platform for cavity glass processing, including the processing platform, the inboard fixed equipment that is equipped with of processing platform, one side block of processing platform is equipped with rubber coating mechanism, driving equipment includes driving motor, driving motor fixes the inboard at the processing platform, driving motor's top surface is equipped with cavity glass, and the device carries out fixed block with the rubber coating pipe through the connecting piece of block on the processing platform for rubber outlet department of rubber coating pipe supports and carries out the rubber coating on cavity glass's lateral wall, and when cavity glass rotated, cavity glass can push up the rubber coating pipe, can carry out reciprocating motion along with cavity glass's rotation through the connecting piece that sets up in the shifting chute, thereby makes the rubber outlet of rubber coating pipe can support always on cavity glass's lateral wall and carry out the rubber coating operation, and whole journey is continuous uninterrupted, improves rubber coating efficiency.

The utility model provides a glue coating pipe is fixed block through the connecting piece of block on the processing bench for glue outlet department of glue coating pipe supports on cavity glass's lateral wall and carries out the rubber coating, when cavity glass rotated, cavity glass can push up and move the rubber coating pipe, through the connecting piece that can remove in the removal groove that sets up, make glue coating pipe can carry out reciprocating motion along with cavity glass's rotation, thereby make glue outlet of glue coating pipe can support always and carry out the rubber coating operation on cavity glass's lateral wall, whole continuous uninterrupted improves the rubber coating efficiency, but current the device is in the use, when square glass carries out the rubber coating operation, because square glass left circular motion, and the position of distance rubber tube is indefinite, when carrying out the rubber coating operation to glass, because its distance is unequal, make in the course of working, the inhomogeneous condition of rubber coating appear can appear, it is comparatively inconvenient to carry out the processing operation to glass.

Disclosure of Invention

The utility model aims to provide a rotary gluing table for glass processing, which aims to solve the problem that in the background art, the gluing is uneven in the glass gluing process.

In order to solve the technical problems, the utility model provides the following technical scheme: the rotary gluing table for glass processing comprises a workbench, wherein a moving assembly is arranged on one side of the workbench, a feeding assembly is arranged above the moving assembly, a glue coating pipe is arranged on the inner side of the feeding assembly, a third motor is arranged in the workbench, the output end of the third motor is connected with an output shaft, a first fixing frame is arranged above the workbench, and a clamping assembly is arranged at the top of the first fixing frame;

the movable assembly comprises a second fixing frame, a first motor is installed at one end of the second fixing frame, a first screw rod is connected to the output end of the first motor, guide posts are arranged on two sides of the first screw rod, and a first movable block is arranged on the outer sides of the first screw rod and the guide posts;

the feeding assembly comprises a mounting frame, a second motor is mounted at one end of the mounting frame, a supporting plate is connected to the middle position of the mounting frame, a second screw rod is connected to the output end of the second motor, a second movable block is arranged on the outer side of the second screw rod, and a pushing plate is connected to the bottom of the second movable block;

the clamping assembly comprises a pneumatic telescopic rod, the top of the pneumatic telescopic rod is connected with a bearing seat, the output end of the pneumatic telescopic rod is connected with an upper clamping plate, a lower clamping plate matched with the upper clamping plate is arranged below the upper clamping plate, and the lower clamping plate is arranged at the top end of the output shaft.

Preferably, the second fixing frame is fixedly connected with the workbench, the first motor is detachably connected with the second fixing frame, and the first motor is detachably connected with the first screw rod.

Preferably, the guide post is located inside the second fixing frame and is fixedly arranged, a screw hole matched with the first screw rod is formed in the first movable block, and round holes matched with the guide post are formed in two sides of the screw hole.

Preferably, the mounting frame is fixedly connected with the first movable block, the second motor is detachably connected with the mounting frame, and the mounting frame is fixedly connected with the supporting plate.

Preferably, the output end of the second motor is detachably connected with the second screw rod, a bearing is arranged on the outer side of the end part of the second screw rod, and the bearing is arranged inside the supporting plate.

Preferably, a screw hole matched with the second screw rod is formed in the second movable block, and the second movable block is fixedly connected with the push plate.

Preferably, the push plate penetrates through the supporting plate and extends to the outer side of the supporting plate, the gluing pipe is clamped and fixed in the mounting frame, and the structure of the push plate is matched with the gluing pipe.

Preferably, the pneumatic telescopic rod is detachably connected with the upper clamping plate, the lower clamping plate is detachably connected with the output shaft, and the pneumatic telescopic rod is fixedly connected with the bearing seat.

Compared with the prior art, the utility model has the following beneficial effects:

the device has the advantages that the glue coating pipe is convenient to drive to move through the moving assembly, so that glue coating treatment is convenient to be carried out on sealing positions required by glass, glue coating on the glass by the device is more uniform at gaps along rectangular glass, automatic feeding is convenient to realize through the feeding assembly, the sealing glue is convenient to paint on the joints of the glass, the structure of the device is simple, the operation is convenient, and the flexibility of the device is improved.

The clamping assembly is arranged, the glass can be fixed conveniently and better, the device can glue the glass conveniently, the gluing operation can be accurately performed at a designated position, the pneumatic telescopic rod is started, the output end of the pneumatic telescopic rod drives the upper clamping plate to move, the upper clamping plate and the lower clamping plate are matched with each other, the glass can be pressed and fixed conveniently, and the pneumatic telescopic rod can be guaranteed to rotate along with the rotation of the output end of the third motor through the arranged bearing seat, so that the device is simple in structure and convenient to operate.

Drawings

FIG. 1 is a diagram illustrating the use of the structure of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is an enlarged view of the structure of FIG. 1A in accordance with the present utility model;

fig. 4 is a schematic diagram of a push plate structure according to the present utility model.

In the figure: 1. a work table; 2. a moving assembly; 201. the second fixing frame; 202. a first motor; 203. a first screw rod; 204. a guide post; 205. a first movable block; 3. a feeding assembly; 301. a mounting frame; 302. a second motor; 303. a support plate; 304. a second screw rod; 305. a second movable block; 306. a push plate; 4. a rubber coating tube; 5. a third motor; 6. an output shaft; 7. a clamping assembly; 701. a pneumatic telescopic rod; 702. a bearing seat; 703. an upper clamping plate; 704. a lower clamping plate; 8. a first fixing frame.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, a rotary glue spreading table for glass processing comprises a workbench 1, wherein a moving component 2 is arranged on one side of the workbench 1, a feeding component 3 is arranged above the moving component 2, a glue tube 4 is arranged on the inner side of the feeding component 3, a third motor 5 is arranged in the workbench 1, the output end of the third motor 5 is connected with an output shaft 6, a first fixing frame 8 is arranged above the workbench 1, and a clamping component 7 is arranged at the top of the first fixing frame 8; the moving assembly 2 comprises a second fixed frame 201, a first motor 202 is installed at one end of the second fixed frame 201, a first screw rod 203 is connected to the output end of the first motor 202, guide posts 204 are arranged on two sides of the first screw rod 203, and a first movable block 205 is arranged on the outer sides of the first screw rod 203 and the guide posts 204; the feeding assembly 3 comprises a mounting frame 301, a second motor 302 is mounted at one end of the mounting frame 301, a supporting plate 303 is connected to the middle position of the mounting frame 301, a second screw rod 304 is connected to the output end of the second motor 302, a second movable block 305 is arranged on the outer side of the second screw rod 304, and a push plate 306 is connected to the bottom of the second movable block 305; the clamping assembly 7 comprises a pneumatic telescopic rod 701, a bearing seat 702 is connected to the top of the pneumatic telescopic rod 701, an upper clamping plate 703 is connected to the output end of the pneumatic telescopic rod 701, a lower clamping plate 704 matched with the upper clamping plate 703 is arranged below the upper clamping plate 703, and the lower clamping plate 704 is located at the top end of the output shaft 6.

Through the technical scheme, the movable assembly 2 is arranged, so that the glue coating pipe 4 is conveniently driven to move, the sealing position required by glass is conveniently subjected to glue coating treatment, the glue coating of the device on the glass is more uniform at the gap position along the rectangular glass, and the automatic feeding is conveniently realized through the feeding assembly 3, so that the sealing glue is conveniently coated at the joint of the glass, the device is simple in structure and convenient to operate, and the flexibility of the device is improved; simultaneously through the clamping assembly 7 that sets up, realize being convenient for better fix glass, thereby be convenient for install and carry out the rubber coating to glass, guarantee that the rubber coating operation can be accurate operate in the assigned position, through starting pneumatic telescopic link 701, make the output of pneumatic telescopic link 701 drive punch holder 703 and remove, make mutually support between punch holder 703 and the lower plate 704, thereby be convenient for compress tightly fixedly glass, and through the bearing frame 702 that sets up, can guarantee that pneumatic telescopic link 701 rotates along with the output rotation of third motor 5, device simple structure is convenient for operate.

Specifically, the second fixing frame 201 is fixedly connected with the workbench 1, the first motor 202 is detachably connected with the second fixing frame 201, and the first motor 202 is detachably connected with the first screw 203.

Through the above technical scheme, the second fixing frame 201 is of a rectangular structure, the second fixing frame 201 is of a frame-shaped structure with an hollowed inner portion, the first motor 202 is a positive and negative motor, the output end of the first motor 202 is connected with a worm gear reducer, and the worm gear reducer is connected with the first screw 203 through a coupling.

Specifically, the guide pillar 204 is located inside the second fixing frame 201 and is fixedly arranged, a screw hole matched with the first screw rod 203 is formed inside the first movable block 205, and round holes matched with the guide pillar 204 are formed on two sides of the screw hole.

Through the above technical scheme, the number of the guide posts 204 is two, the two groups of guide posts 204 are symmetrically and fixedly arranged on the inner side of the second fixing frame 201, and the guide posts 204 are matched with the screw holes formed in the first screw rod 203 and the first movable block 205 through the screw holes formed in the inner side of the guide posts 204 and the first movable block 205, so that the first movable block 205 is convenient to move, and the first movable block 205 is ensured to move along the linear direction.

Specifically, the mounting frame 301 is fixedly connected with the first movable block 205, the second motor 302 is detachably connected with the mounting frame 301, and the mounting frame 301 is fixedly connected with the supporting plate 303.

Through above-mentioned technical scheme, mounting bracket 301 is concave type structure, and fixed connection between first movable block 205 and the mounting bracket 301, makes first movable block 205 remove and can drive mounting bracket 301 and remove, and the structure of second motor 302 is the same with first motor 202, does not make excessive redundant description here, and fixed connection between backup pad 303 and the mounting bracket 301 of setting is convenient for support second lead screw 304.

Specifically, the output end of the second motor 302 is detachably connected with the second screw rod 304, and a bearing is disposed outside the end of the second screw rod 304 and is disposed inside the support plate 303.

Through the above technical scheme, the second lead screw 304 that sets up is convenient for drive second movable block 305 and removes, and the bearing of setting up is convenient for make second lead screw 304 rotate, mutually support between mounting bracket 301 one side and the backup pad 303 to be convenient for support second lead screw 304.

Specifically, a screw hole matched with the second screw rod 304 is formed in the second movable block 305, and the second movable block 305 is fixedly connected with the push plate 306.

Through the above technical scheme, the second movable block 305 can be moved to drive the push plate 306 fixedly connected with the bottom to move, and the screw hole is formed in the second movable block 305, so that the second screw rod 304 is conveniently located outside the second movable block 305 to move.

Specifically, the pushing plate 306 penetrates through the supporting plate 303 and extends to the outer side of the supporting plate, the glue coating pipe 4 is clamped and fixed inside the mounting frame 301, and the structure of the pushing plate 306 is matched with the glue coating pipe 4.

Through above-mentioned technical scheme, the push pedal 306 that sets up is convenient for promote the inside sealant of rubberizing pipe 4 and removes, and the rubberizing pipe 4 of setting is current device, does not do too much in here and repeating the description, and the rubberizing pipe 4 is located the mounting bracket 301 and keeps away from one side joint of second motor 302 fixedly to be convenient for go out the rubberizing operation to rubberizing pipe 4.

Specifically, the pneumatic telescopic rod 701 is detachably connected with the upper clamping plate 703, the lower clamping plate 704 is detachably connected with the output shaft 6, and the pneumatic telescopic rod 701 is fixedly connected with the bearing seat 702.

Through above-mentioned technical scheme, the bearing frame that the pneumatic telescopic link 701 top that sets up set up, be convenient for make pneumatic telescopic link 701 can follow the rotation of punch holder 703 and rotate, when having guaranteed to be fixed to glass centre gripping, can make glass rotate.

When the sealing device is used, a worker places rectangular hollow glass above the lower clamp plate 704, then starts the pneumatic telescopic rod 701, enables the output end of the pneumatic telescopic rod 701 to extend, enables the output end of the pneumatic telescopic rod 701 to drive the upper clamp plate 703 to move, utilizes the mutual matching between the upper clamp plate 703 and the lower clamp plate 704, and accordingly facilitates fixing of the glass, when sealing operation is required, starts the first motor 202 and the second motor 302, enables the output end of the first motor 202 to rotate so as to drive the first screw 203 to rotate, drives the first movable block 205 to move by utilizing the rotating first screw 203 and the fixed guide pillar 204, enables the first movable block 205 to drive the feeding assembly 3 to move, simultaneously enables the output end of the second motor 302 to drive the second screw 304 to rotate, enables the second movable block 305 to drive the push plate 306 to move, and accordingly facilitates enabling the push plate 306 to push the sealant arranged inside the glue tube 4 to move, so that the sealant is smeared at a glass connecting part, after one side is smeared, the first motor 202 and the second motor 302 are controlled to overturn, and accordingly drive the glue tube 4 to reset, then the third motor 203 drives the output shaft to rotate, and the third motor 704 is driven by rotating the second motor 704, and the output shaft is enabled to rotate by the third motor 704 to rotate, and the output shaft is enabled to rotate, and the sealing device is further arranged under the sealing position 6, and the sealing device is rotated.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit thereof, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a rotatory rubber coating platform that glass processing was used, includes workstation (1), its characterized in that: one side of the workbench (1) is provided with a moving assembly (2), a feeding assembly (3) is arranged above the moving assembly (2), a rubber coating pipe (4) is arranged on the inner side of the feeding assembly (3), a third motor (5) is arranged in the workbench (1), the output end of the third motor (5) is connected with an output shaft (6), a first fixing frame (8) is arranged above the workbench (1), and a clamping assembly (7) is arranged at the top of the first fixing frame (8);

the movable assembly (2) comprises a second fixed frame (201), a first motor (202) is installed at one end of the second fixed frame (201), a first screw rod (203) is connected to the output end of the first motor (202), guide posts (204) are arranged on two sides of the first screw rod (203), and a first movable block (205) is arranged on the outer sides of the first screw rod (203) and the guide posts (204);

the feeding assembly (3) comprises a mounting frame (301), a second motor (302) is mounted at one end of the mounting frame (301), a supporting plate (303) is connected to the middle position of the mounting frame (301), a second screw rod (304) is connected to the output end of the second motor (302), a second movable block (305) is arranged on the outer side of the second screw rod (304), and a push plate (306) is connected to the bottom of the second movable block (305);

the clamping assembly (7) comprises a pneumatic telescopic rod (701), a bearing seat (702) is connected to the top of the pneumatic telescopic rod (701), an upper clamping plate (703) is connected to the output end of the pneumatic telescopic rod (701), a lower clamping plate (704) matched with the upper clamping plate (703) is arranged below the upper clamping plate, and the lower clamping plate (704) is located at the top end of the output shaft (6).

2. A spin coater station for glass processing as defined in claim 1, wherein: the second fixing frame (201) is fixedly connected with the workbench (1), the first motor (202) is detachably connected with the second fixing frame (201), and the first motor (202) is detachably connected with the first screw rod (203).

3. A spin coater station for glass processing as defined in claim 1, wherein: the guide posts (204) are fixedly arranged in the second fixing frame (201), screw holes matched with the first screw rods (203) are formed in the first movable blocks (205), and round holes matched with the guide posts (204) are formed in two sides of each screw hole.

4. A spin coater station for glass processing as defined in claim 1, wherein: the mounting frame (301) is fixedly connected with the first movable block (205), the second motor (302) is detachably connected with the mounting frame (301), and the mounting frame (301) is fixedly connected with the supporting plate (303).

5. A spin coater station for glass processing as defined in claim 1, wherein: the output end of the second motor (302) is detachably connected with the second screw rod (304), a bearing is arranged on the outer side of the end part of the second screw rod (304), and the bearing is arranged in the supporting plate (303).

6. A spin coater station for glass processing as defined in claim 1, wherein: screw holes matched with the second screw rods (304) are formed in the second movable blocks (305), and the second movable blocks (305) are fixedly connected with the pushing plates (306).

7. A spin coater station for glass processing as defined in claim 1, wherein: the push plate (306) penetrates through the supporting plate (303) and extends to the outer side of the supporting plate, the gluing pipe (4) is clamped and fixed inside the mounting frame (301), and the structure of the push plate (306) is matched with the gluing pipe (4).

8. A spin coater station for glass processing as defined in claim 1, wherein: the pneumatic telescopic rod (701) is detachably connected with the upper clamping plate (703), the lower clamping plate (704) is detachably connected with the output shaft (6), and the pneumatic telescopic rod (701) is fixedly connected with the bearing seat (702).