CN217807417U - Glass burst module and glass burst structure - Google Patents

Abstract

The utility model discloses a glass burst module and glass burst structure, glass drive assembly and glass burst module including glass adsorption component and drive glass adsorption component, glass adsorption component is arranged in absorbing the glass in the glass burst module. The glass slicing module comprises a glass frame and a bearing plate used for placing glass, wherein the bearing plate is positioned in the glass frame, an automatic slicing structure is further arranged between the bearing plate and the glass frame, and the automatic slicing structure is used for adjusting the size of the bearing plate in the glass frame. Through the automatic adjustment of the bearing plate in the glass frame, the glass is stably supported and is absorbed in a slicing mode through the glass absorption structure. The lamination precision, the lamination efficiency and the intelligent and automatic degree are improved, the labor intensity is reduced, and the labor cost is reduced.

Description

Glass burst module and glass burst structure

Technical Field

The utility model belongs to the technical field of a glass processing technique and specifically relates to a glass burst module and glass burst structure.

Background

Demand to automation equipment continues to rise in the existing market, dress the apron to intelligence, glass materials such as glass panels are at the course of working, wherein there is a process to carry out the burst and the process of snatching for a plurality of glass pieces that will stack, the mode that adopts artifical manual burst is mostly to carry out the burst to glass at present general burst mode, the mode of artifical burst exists inefficiency at present, take place counterpoint easily and count the mistake, and the cost of labor is higher, easily cause industrial accident scheduling problem, can't satisfy the demand in existing market. In view of the above circumstances, an automatic fragmentation device capable of automatically identifying, positioning and fragmenting is needed in the market, so as to improve fragmentation precision, efficiency and intelligent automation degree, reduce labor intensity, reduce labor cost and the like.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a can carry out the burst and get the glass burst module of piece to glass automatically.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a glass burst module, includes glass frame and is used for placing glass's loading board, the loading board is located glass frame, and still is provided with automatic burst structure between loading board and the glass frame, automatic burst structure is used for adjusting the size of loading board in glass frame.

As an improvement of the technical scheme, the automatic slicing structure comprises a pushing assembly and a sliding assembly, a frame bottom plate is arranged at the bottom of the glass frame, the pushing assembly is used for pushing the bearing plate and glass placed on the bearing plate, and the sliding assembly is used for sliding between the bearing plate and the frame bottom plate.

As a further improvement of the above technical solution, the sliding assembly includes a sliding bearing disposed on the frame bottom plate and a slideway disposed on the bearing plate, and the sliding bearing is slidably disposed in the slideway.

As a further improvement of the technical scheme, the sliding bearings are arranged in a plurality of groups, the sliding bearings are evenly arranged on two sides of the frame bottom plate, and the slide ways are arranged at the bottom of the bearing plate and correspond to the sliding bearings.

As a further improvement of the technical scheme, the pushing assembly comprises an elastic pushing piece and a direct pushing piece, the direct pushing piece is a blowing rod arranged on the glass frame, and the blowing rod is fixedly connected with one end, corresponding to the vertical surface of the glass, of the glass frame through a fixing block.

As a further improvement of the technical scheme, the elastic pushing piece is a spring connected with the bottom of the bearing plate and the bottom plate of the frame, and a spring moving groove and a spring mounting buckle are arranged on the bearing plate and the bottom plate of the frame.

And a glass burst structure, including glass adsorption component and the glass drive assembly and foretell glass burst module of drive glass adsorption component, glass adsorption component is arranged in absorbing the glass in the glass burst module, glass drive assembly is arranged in driving glass adsorption component.

As an improvement of the above technical solution, the glass driving assembly includes an X-axis glass drive, a Y-axis glass drive, a Z-axis glass drive, and an R-axis glass drive, the R-axis glass drive is disposed on the Y-axis glass drive, the Y-axis glass drive is disposed on the Z-axis glass drive, and the Z-axis glass drive is disposed on the X-axis glass drive.

As a further improvement of the technical scheme, the X-axis glass drive and the Z-axis glass drive both adopt screw rod transmission, the Y-axis glass drive adopts a servo motor to drive a gear rack to carry out transmission, the R-axis glass drive is a turning cylinder, the turning cylinder is arranged in the Y-axis direction, and the adsorption assembly is turned over through the turning cylinder.

As the further improvement of the technical scheme, the glass adsorption component comprises a sucker connecting plate, a sucker mounting plate and a vacuum sucker, the sucker connecting plate is connected with the R-axis glass in a driving mode, and the vacuum sucker is arranged on the sucker connecting plate through the sucker mounting plate.

The beneficial effects are that: the utility model discloses a glass burst module and glass burst mechanism can carry out the glass loading board that adjusts automatically through what set up in glass frame, through the automatic adjustment of loading board in glass frame, have realized carrying out the support that stabilizes to glass and carry out the burst through glass adsorption structure and absorb glass. The full-automatic slicing and slicing structure completely replaces manual slicing and slicing, automatic identification, positioning, slicing and slicing automatic lamination equipment, lamination precision, lamination efficiency, intellectualization and automation degree are improved, labor intensity is reduced, and labor cost is reduced.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

FIG. 1 is an assembly schematic of the present invention;

FIG. 2 is a schematic structural view of the plate-taking part of the present invention;

FIG. 3 is a schematic structural view of the slice portion of the present invention;

fig. 4 is a structural split view of the slice portion of the present invention.

1. A sliding assembly; 11. a sliding bearing; 12. a slideway; 2. a pushing assembly; 21. a spring; 22. a blowing rod; 3. a glass frame; 31. a frame floor; 4. a carrier plate; 5. a glass adsorption component; 51. a sucker connecting plate; 52. a sucker mounting plate; 53. a vacuum chuck 6 and a glass driving component; 61. an X-axis glass drive; 62. driving the Y-axis glass; 63. driving the Z-axis glass; 64. and (4) driving the R-axis glass.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The utility model discloses each technical feature in the creation can the interactive combination under the prerequisite that does not contradict conflict each other.

Referring to fig. 1, when a polishing machine needs to polish glass, the glass needs to be sent to a proper processing position, in order to avoid the problems of low efficiency, large error and the like caused by manual feeding, a glass slicing structure is adopted, the glass slicing structure comprises a glass adsorption component 5, a glass driving component for driving the glass adsorption component 5 and a glass slicing module, the glass adsorption component 5 is used for absorbing the glass in the glass slicing module, and the glass driving component is used for driving the glass adsorption component 5. When feeding, the glass slicing module separates the glass stacked together, then the glass driving component can drive the glass adsorption component 5 to adsorb the separated glass, and the glass adsorption structure is driven to convey the glass to a designated position. The automatic feeding structure saves manpower and material resources, increases the feeding efficiency of glass, can control the position and other parameters of the glass when the glass is sucked and placed, ensures the feeding accuracy, and is convenient for a machine tool to further process the glass.

Referring to fig. 2, the glass driving assembly comprises an X-axis glass drive, a Y-axis glass drive, a Z-axis glass drive and an R-axis glass drive, the R-axis glass drive is arranged on the Y-axis glass drive, an installation block for installing a cylinder is arranged at the end of the Y-axis glass drive, and the installation block for turning over the cylinder is perpendicular to the screw rod direction of the screw rod transmission assembly driven by the Y-axis glass. Y axle glass drive sets up on Z axle glass drive, and Z axle glass drive sets up on X axle glass drive, and X axle glass driven bottom is provided with screw rod drive's installation frame, and the structural Z axle glass driven bottom of Z axle glass of vertical setting X axle glass drive also is provided with the mount pad that is convenient for the two to carry out swing joint, and the mount pad can also guarantee the stability of the Z axle glass drive of vertical setting at excessive in-process. X axle glass drive and Z axle glass drive all adopt screw drive, Y axle glass drive adopts servo motor drive gear rack to carry out the transmission, R axle glass drive is the upset cylinder, the upset cylinder sets up in Y axle direction, the absorption subassembly overturns through the upset cylinder.

Glass adsorbs subassembly 5 includes sucking disc connecting plate 51, sucking disc mounting panel 52 and vacuum chuck, sucking disc connecting plate 51 is connected with R axle glass drive, vacuum chuck passes through sucking disc mounting panel 52 and sets up on sucking disc connecting plate 51.

Referring to fig. 3 and 4, the glass slicing module specifically comprises a glass frame 3 and a bearing plate 4 for placing glass, wherein the bearing plate 4 is located in the glass frame 3, an automatic slicing structure is further arranged between the bearing plate 4 and the glass frame 3, and the automatic slicing structure is used for adjusting the size of the bearing plate 4 in the glass frame 3. Because glass is vertical to be placed on loading board 4, the support limit of glass frame 3 on the Y axle is close with glass's size, can carry out stable support to glass, nevertheless to the multilayer glass who stacks in the X axle direction, the distance of glass frame 3 on the X axle has decided glass's stability in the frame and whether be convenient for get and put. And the automatic lamination structure alright adjustment loading board 4 of setting is in the size of glass frame 3 the inside, adjusts the size of glass frame 3 in the X axle direction promptly, can guarantee the stability that glass placed when not taking glass like this, can guarantee the light when taking glass again.

Specifically, the automatic piece separating structure comprises a pushing assembly 2 and a sliding assembly 1, a frame bottom plate 31 is arranged at the bottom of the glass frame 3, the pushing assembly 2 is used for pushing the bearing plate 4 and glass placed on the bearing plate 4, and the sliding assembly 1 is used for sliding between the bearing plate 4 and the frame bottom plate 31. The sliding assembly 1 comprises a sliding bearing 11 arranged on the frame bottom plate 31 and a slideway 12 arranged on the bearing plate 4, wherein the sliding bearing 11 is arranged in the slideway 12 in a sliding way. The slide bearings 11 are provided with a plurality of groups of slide bearings 11 which are uniformly arranged on two sides of the frame bottom plate 31, and the slide ways 12 are arranged at the bottom of the bearing plate 4 and correspond to the slide bearings 11. The pushing assembly 2 comprises an elastic pushing piece and a direct pushing piece, the direct pushing piece is a gas blowing rod 22 arranged on the glass frame 3, and the gas blowing rod 22 is fixedly connected with one end, corresponding to the vertical surface of the glass, of the glass frame 3 through a fixing block. The elastic pushing part is a spring 21 connected with the bottom of the bearing plate 4 and the frame bottom plate 31, and the bearing plate 4 and the frame bottom plate 31 are both provided with a spring 21 movable groove and a spring 21 mounting buckle. When the glass needs to be taken, the blowing rods 22 arranged on the glass frame 3 can blow the glass arranged in front of the blowing rods 22, and the glass which is impacted moves backwards due to the fact that the glass is arranged on the bearing plate 4, so that the bearing plate 4 is driven to move backwards. At this time, a distance is left between the bearing plate 4 and the side of the glass frame 3 where the blowing rod 22 is arranged, and the adsorption component of the plate taking component can adsorb and take the first glass in the left space. After the glass is taken away, the blowing rod 22 stops blowing, the stress of the glass disappears at the moment, the tension of the spring 21 arranged between the bearing plate 4 and the frame bottom plate 31 disappears, the spring 21 rebounds, and the bearing plate 4 drives the glass to return to the position where the edge of the glass is contacted with the edge of the glass frame 3, so that the stability of the glass when the glass is not taken away is ensured.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (10)

1. The utility model provides a glass burst module which characterized in that: including glass frame and the loading board that is used for placing glass, the loading board is located glass frame, and still is provided with automatic burst structure between loading board and the glass frame, automatic burst structure is used for adjusting the size of loading board in glass frame.

2. The glass sheet module of claim 1, wherein: the automatic slicing structure comprises a pushing assembly and a sliding assembly, a frame bottom plate is arranged at the bottom of the glass frame, the pushing assembly is used for pushing the bearing plate and glass placed on the bearing plate, and the sliding assembly is used for sliding between the bearing plate and the frame bottom plate.

3. The glass sheet module of claim 2, wherein: the sliding assembly comprises a sliding bearing arranged on the frame bottom plate and a slideway arranged on the bearing plate, and the sliding bearing is arranged in the slideway in a sliding manner.

4. The glass sheet module of claim 3, wherein: the slide bearing is provided with a plurality ofly, and the even setting of multiunit slide bearing is in the both sides of frame bottom plate, the slide corresponds the setting with the slide bearing in the bottom of loading board.

5. The glass sheet module of claim 2, wherein: the pushing assembly comprises an elastic pushing piece and a direct pushing piece, the direct pushing piece is a blowing rod arranged on the glass frame, and the blowing rod is fixedly connected with one end, corresponding to the vertical surface of the glass, of the glass frame through a fixing block.

6. The glass sheet module of claim 5, wherein: the elastic pushing piece is a spring connected with the bottom of the bearing plate and the frame bottom plate, and a spring moving groove and a spring mounting buckle are arranged on the bearing plate and the frame bottom plate.

7. A glass burst structure which characterized in that: the glass slicing module comprises a glass adsorption component, a glass driving component and a glass slicing module, wherein the glass driving component drives the glass adsorption component, the glass adsorption component is used for adsorbing glass in the glass slicing module, and the glass driving component is used for driving the glass adsorption component.

8. The glass sheet structure of claim 7, wherein: the glass driving assembly comprises an X-axis glass drive, a Y-axis glass drive, a Z-axis glass drive and an R-axis glass drive, the R-axis glass drive is arranged on the Y-axis glass drive, the Y-axis glass drive is arranged on the Z-axis glass drive, and the Z-axis glass drive is arranged on the X-axis glass drive.

9. The glass sheet structure of claim 8, wherein: x axle glass drive and Z axle glass drive all adopt screw drive, Y axle glass drive adopts servo motor drive gear rack to carry out the transmission, R axle glass drive is the upset cylinder, the upset cylinder sets up in Y axle direction, the absorption subassembly overturns through the upset cylinder.

10. The glass sheet structure according to claim 8, wherein: the glass adsorption component comprises a sucker connecting plate, a sucker mounting plate and a vacuum sucker, the sucker connecting plate is connected with the R-axis glass in a driving mode, and the vacuum sucker is arranged on the sucker connecting plate through the sucker mounting plate.

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