CN214391236U - Automatic surface treatment mechanism for photovoltaic module glass - Google Patents

Abstract

The utility model discloses an automatic surface treatment mechanism for photovoltaic module glass, include: the glass surface cleaning device comprises a shoveling component for shoveling glass surface materials and a stripping component for removing materials on the shoveling component, wherein the stripping component is arranged on the side surface of the shoveling component. In this way, the utility model relates to an automatic surface treatment mechanism for photovoltaic module glass not only can utilize the spiller to shovel materials such as sticky tape, tetrafluoro cloth on the glass, can clear up the material on the spiller automatically moreover, improves work efficiency and peels off the quality, facilitates the use, does not harm glass.

Description

Automatic surface treatment mechanism for photovoltaic module glass

Technical Field

The utility model relates to a photovoltaic module glass processing field especially relates to an automatic surface treatment mechanism for photovoltaic module glass.

Background

In the production of photovoltaic module glass, often need to tear the material such as the sticky tape of establishing on the glass surface or tetrafluoro cloth at the subsides, at present, sticky tape isotructure on the photovoltaic trade subassembly still gets rid of through artificial mode, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides an automatic surface treatment mechanism for photovoltaic module glass, has advantages such as reliable performance height, location accuracy, compact structure, has extensive market prospect in the application of photovoltaic module glass processing and popularizing simultaneously.

In order to solve the technical problem, the utility model discloses a technical scheme be:

an automated surface treatment mechanism for photovoltaic module glass is provided, comprising: a shoveling component for shoveling the glass surface material and a stripping component for removing the material on the shoveling component, wherein the stripping component is arranged on the side surface of the shoveling component,

the shoveling component comprises a mounting plate, a floating connecting component, a shovel blade driving cylinder, a connecting frame, a connecting seat, a shovel blade, a connecting shaft, a pressing column, a supporting block, a pushing cylinder and a moving through groove,

the scraper knife driving cylinder is arranged on the bottom surface of the cylinder mounting plate, the connecting frame is connected with the scraper knife driving cylinder, the scraper knife driving cylinder is connected with the connecting seat, the scraper knife seat is connected with the connecting seat through the connecting shaft, the scraper knife is arranged on the lower part of the scraper knife seat, the scraper knife driving cylinder drives the scraper knife to move relatively to scrape off materials on the surface of the glass,

the supporting block is fixedly arranged on the connecting frame and positioned between the two opposite shovel blades, the pushing cylinders are arranged on two sides of the connecting frame, one end of the pressing column penetrates through the moving through groove on the shovel blade seat and is movably connected with the supporting block, the pushing cylinders drive the pressing column to move back and forth so as to press the adhesive tape or the tetrafluoro cloth shoveled by the shovel blades on the supporting block,

the stripping assembly comprises a clamping cylinder, a clamping jaw, a push plate cylinder, a push plate and a base, wherein the clamping cylinder and the push plate cylinder are arranged on the base, the push plate cylinder drives the push plate to move front and back, the clamping cylinder drives the clamping jaw to open and close, and the clamping jaw penetrates through a through groove in the push plate to clamp an adhesive tape or teflon on a shovel blade.

In a preferred embodiment of the present invention, a torsion spring is disposed on the connecting shaft for driving the scraper to float up and down.

In a preferred embodiment of the present invention, the floating connection assembly includes a fixed mounting seat, a spring, a guiding shaft, and a bearing, the bearing is disposed on the fixed mounting seat, one end of the guiding shaft is fixed on the cylinder mounting plate, the other end of the guiding shaft is movably connected to the bearing, and the spring is disposed between the bearing and the cylinder mounting plate to play a role of floating and limiting.

In a preferred embodiment of the present invention, two of the pressing posts are movably connected to each blade holder.

In a preferred embodiment of the present invention, the pushing cylinder is located outside the blade.

In a preferred embodiment of the present invention, the blade is detachably disposed at a lower portion of the blade holder.

The utility model has the advantages that: the scraper knife can be used for scraping materials such as adhesive tapes and teflon on glass, the materials on the scraper knife can be automatically cleaned, the working efficiency is improved, the stripping quality is improved, the scraper knife is convenient to use, and the glass is not damaged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic structural view of a removing member in a preferred embodiment of an automatic surface treatment mechanism for photovoltaic module glass according to the present invention;

FIG. 2 is a schematic structural view of a peeling assembly in a preferred embodiment of an automatic surface treatment mechanism for glass of a photovoltaic module according to the present invention;

fig. 3 is a schematic view of a preferred embodiment of an automatic surface treatment mechanism for photovoltaic module glass according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, an embodiment of the present invention includes:

an automatic surface treatment mechanism for photovoltaic module glass, the structure of which comprises: the glass surface cleaning device comprises a shoveling component for shoveling glass surface materials and a stripping component for removing materials on the shoveling component, wherein the stripping component is arranged on the side surface of the shoveling component.

The shoveling component comprises a mounting plate 1, a floating connecting component 2, a shovel blade driving cylinder 3, a connecting frame 4, a connecting seat 5, a shovel blade seat 6, a shovel blade 7, a connecting shaft 8, a pressing column 9, a supporting block 10, a pushing cylinder 11 and a moving through groove,

the scraper knife drive cylinder set up in the bottom surface of cylinder mounting panel, the link with the scraper knife drive cylinder is connected, the output of scraper knife drive cylinder with the connecting seat is connected, the scraper knife seat pass through the connecting axle with the connecting seat is connected, the scraper knife can dismantle set up in the lower part of scraper knife seat. The scraper knife driving cylinder drives a group of scraper knives (including 2 or more) to move relatively so as to remove adhesive tapes or tetrafluoro cloth on the surface of the glass.

In order to prevent the scraper knife from scratching the glass, the connecting shaft is provided with a torsional spring which drives the scraper knife to float up and down, the scraper knife is tightly attached to the surface of the glass, and the glass is used as a positioning surface to thoroughly remove the adhesive tape (or the tetrafluoro cloth).

The supporting block is fixedly arranged on the connecting frame and located between the two opposite shovel blades, the pushing cylinders are arranged on two sides of the connecting frame, the output ends of the pushing cylinders are connected with the pressing columns, the other ends of the pressing columns penetrate through the moving through grooves in the shovel blade holder and are movably connected with the supporting block, and the pushing cylinders drive the pressing columns to move back and forth so as to press the adhesive tapes or the tetrafluorocloths shoveled by the shovel blades on the supporting block.

The floating connection assembly comprises a fixed mounting seat, a spring, a guide shaft and a bearing, wherein the bearing is arranged on the fixed mounting seat, one end of the guide shaft is fixed on the cylinder mounting plate, the other end of the guide shaft is movably connected with the bearing, the spring is arranged between the bearing and the cylinder mounting plate to play a role in floating limiting, and damage to glass is reduced.

The stripping assembly comprises a clamping cylinder 12, a clamping jaw 13, a push plate cylinder 14, a push plate 15 and a base 16. The base can be fixed on the workstation, the centre gripping cylinder with the push pedal cylinder set up in on the base, the push pedal cylinder drives the push pedal seesaw, the centre gripping cylinder drives the centre gripping clamping jaw and opens and shuts, just the centre gripping clamping jaw passes logical groove in the push pedal to press from both sides sticky tape or tetrafluoro cloth on the clamp shovel sword.

The clamping cylinder drives the clamping jaw to open firstly, and when the scraper knife with the adhesive tape moves to the middle of the clamping jaw, the clamping cylinder drives the clamping jaw to close and clamp firstly so as to clamp and pull the adhesive tape pressed on the supporting block; the scraper knife withdraws outwards, so that the adhesive tape or the tetrafluoro cloth is separated from the scraper knife and the supporting block; the push plate cylinder drives the push plate to advance, and the push plate moves to push the adhesive tape or the teflon away from the clamping jaw so as to remove the adhesive tape.

The utility model relates to an automatic surface treatment mechanism for photovoltaic module glass's beneficial effect is: the scraper knife can be used for scraping materials such as adhesive tapes and teflon on glass, the materials on the scraper knife can be automatically cleaned, the working efficiency is improved, the stripping quality is improved, the scraper knife is convenient to use, and the glass is not damaged.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (6)

1. An automatic surface treatment mechanism for photovoltaic module glass, comprising: a shoveling component for shoveling the glass surface material and a stripping component for removing the material on the shoveling component, wherein the stripping component is arranged on the side surface of the shoveling component,

the shoveling component comprises a mounting plate, a floating connecting component, a shovel blade driving cylinder, a connecting frame, a connecting seat, a shovel blade, a connecting shaft, a pressing column, a supporting block, a pushing cylinder and a moving through groove,

the scraper knife driving cylinder is arranged on the bottom surface of the cylinder mounting plate, the connecting frame is connected with the scraper knife driving cylinder, the scraper knife driving cylinder is connected with the connecting seat, the scraper knife seat is connected with the connecting seat through the connecting shaft, the scraper knife is arranged on the lower part of the scraper knife seat, the scraper knife driving cylinder drives the scraper knife to move relatively to scrape off materials on the surface of the glass,

the supporting block is fixedly arranged on the connecting frame and positioned between the two opposite shovel blades, the pushing cylinders are arranged on two sides of the connecting frame, one end of the pressing column penetrates through the moving through groove on the shovel blade seat and is movably connected with the supporting block, the pushing cylinders drive the pressing column to move back and forth so as to press the adhesive tape or the tetrafluoro cloth shoveled by the shovel blades on the supporting block,

the stripping assembly comprises a clamping cylinder, a clamping jaw, a push plate cylinder, a push plate and a base, wherein the clamping cylinder and the push plate cylinder are arranged on the base, the push plate cylinder drives the push plate to move front and back, the clamping cylinder drives the clamping jaw to open and close, and the clamping jaw penetrates through a through groove in the push plate to clamp an adhesive tape or teflon on a shovel blade.

2. The automatic surface treatment mechanism for the photovoltaic assembly glass as recited in claim 1, wherein a torsion spring for driving the scraper knife to float up and down is arranged on the connecting shaft.

3. The automatic surface treatment mechanism for photovoltaic module glass according to claim 1, wherein the floating connection assembly comprises a fixed mounting seat, a spring, a guide shaft and a bearing, the bearing is arranged on the fixed mounting seat, one end of the guide shaft is fixed on the cylinder mounting plate, the other end of the guide shaft is movably connected with the bearing, and the spring is arranged between the bearing and the cylinder mounting plate to play a role in floating limit.

4. The automatic surface treatment mechanism for photovoltaic module glass according to claim 1, wherein two pressing columns are movably connected to each blade holder.

5. The automatic surface treatment mechanism for photovoltaic module glass according to claim 1, characterized in that the pushing cylinder is located outside the blade.

6. The automatic surface treatment mechanism for photovoltaic module glass according to claim 1, wherein the scraper knife is detachably arranged at the lower part of the scraper knife seat.

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