CN219350256U - Automatic glass combining machine - Google Patents

Abstract

The application provides an automatic glass combining machine, which relates to the technical field of photovoltaic equipment and comprises a fixing device, a righting cylinder, at least two sliding blocks and a guide rail adjusting bracket; the restoring air cylinder is fixed on a fixing device which is arranged on the sliding block and the guide rail adjusting bracket; the fixing device comprises a bottom plate and a blocking block, wherein the blocking block is connected with the bottom plate and is positioned at one side of the bottom plate far away from the sliding block; the bottom plate includes a fixing hole including a first through hole and a second through hole that overlap and penetrate the bottom plate in a first direction. This automatic glass machine closes, it returns to normal cylinder and is fixed in on the fixing device, and fixing device is including blockking the piece design, returns to normal cylinder effort that produces in the course of the work, can shift to fixing device on, can effectively prevent to return to normal cylinder's installation screw and take place to break, prevents to return to normal cylinder and take place the skew, reduces photovoltaic module and closes behind the glass that leads to because returning to normal to poor problem to improve photovoltaic module's productivity and product yield.

Description

Automatic glass combining machine

Technical Field

The utility model relates to the technical field of photovoltaic equipment, in particular to an automatic glass combining machine.

Background

With the development of the photovoltaic industry, the yield and the product yield of the photovoltaic module also need to be further improved, and the automatic glass combining machine is important equipment in the manufacturing process of the sound field of the photovoltaic module. The position stability of the righting cylinder in the automatic glass combining machine directly influences the precision of the assembly after righting and the productivity of the automatic glass combining machine. In the related art, the righting cylinder is fixed on an automatic glass combining machine through the mounting screw, and the mounting screw is easy to break in the working process of the equipment, so that the righting cylinder is separated from the fixed bottom plate, the assembly is not righted in place, the overlapping difference after glass combining is generated, the problems of assembly explosion plate, light leakage and the like are caused, and the productivity of the equipment and the yield of the photovoltaic assembly are affected to a certain extent.

Disclosure of Invention

In view of the above, the utility model provides an automatic glass combining machine, which is characterized in that a fixing device is used for solving the problems that screws are easy to break in the working process of a righting cylinder of the automatic glass combining machine, so that a photovoltaic module is not righted in place, and the productivity and the product yield of the automatic glass combining machine are affected.

The automatic glass combining machine comprises a fixing device, a righting cylinder, at least two sliding blocks and a guide rail adjusting bracket;

the resetting air cylinder is fixed on the fixing device, the fixing device is arranged on the sliding blocks and the guide rail adjusting support, and the guide rail adjusting support is positioned between the two sliding blocks;

the fixing device comprises a bottom plate and a blocking block, wherein the blocking block is connected with the bottom plate and is positioned at one side of the bottom plate far away from the sliding block;

the bottom plate comprises a fixing hole, the fixing hole comprises a first through hole and a second through hole, the first through hole and the second through hole are overlapped along a first direction and penetrate through the bottom plate, the first direction is the thickness direction of the bottom plate, and the aperture of the first through hole is smaller than that of the second through hole.

Optionally, wherein:

the blocking block comprises a first blocking unit and a second blocking unit, wherein the height of the first blocking unit along the first direction is larger than that of the second blocking unit along the first direction.

Optionally, wherein:

the height of the first blocking unit along the first direction is H1, and H1 is more than or equal to 8mm and less than or equal to 12mm.

Optionally, wherein:

the height of the second blocking unit along the first direction is H2, and H2 is more than or equal to 3mm and less than or equal to 7mm.

Optionally, wherein:

the width of the first blocking unit and the second blocking unit along the second direction is L, L is more than or equal to 3mm and less than or equal to 7mm, and the second direction is the length direction of the bottom plate.

Optionally, wherein:

the first blocking unit and the second blocking unit are integrally formed with the bottom plate.

Optionally, wherein:

the restoring cylinder is fixed between the first blocking unit and the second blocking unit.

Optionally, wherein:

the bottom plate and the blocking block are made of metal.

Optionally, wherein:

the fixing device is fixed on the sliding block and the guide rail adjusting bracket through the fixing hole.

Optionally, wherein:

the resetting air cylinder further comprises a screw, the fixing device further comprises a screw hole, and the resetting air cylinder is fixed on the bottom plate through the screw and the screw hole.

Compared with the prior art, the automatic glass combining machine provided by the utility model has the advantages that at least the following beneficial effects are realized:

the automatic glass combining machine comprises a fixing device, a righting cylinder, at least two sliding blocks and a guide rail adjusting bracket; the resetting air cylinder is fixed on the fixing device, the fixing device is arranged on the sliding blocks and the guide rail adjusting bracket, and the guide rail adjusting bracket is positioned between the two sliding blocks; the fixing device comprises a bottom plate and a blocking block, wherein the blocking block is connected with the bottom plate and is positioned at one side of the bottom plate far away from the sliding block; the bottom plate includes the fixed orifices, and the fixed orifices includes first through-hole and second through-hole, and first through-hole and second through-hole overlap and link up the bottom plate along first direction, and first direction is the thickness direction of bottom plate, and the aperture of first through-hole is less than the aperture of second through-hole. The application provides an automatic glass machine closes, it returns to normal cylinder and is fixed in on the fixing device, and fixing device is including blockking the piece design, returns to normal cylinder the effort of production in the course of the work, can shift to on the fixing device, can effectively prevent to return to normal cylinder's installation screw and take place the fracture, and then prevent to return to normal cylinder and take place the skew, reduce photovoltaic module and close the poor problem of post-glassing fold of photovoltaic module that leads to owing to returning to the position to improve photovoltaic module's productivity and product yield.

Of course, it is not necessary for any one product embodying the utility model to achieve all of the technical effects described above at the same time.

Other features of the present utility model and its advantages will become apparent from the following detailed description of exemplary embodiments of the utility model, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description, serve to explain the principles of the utility model.

FIG. 1 is a schematic view of one embodiment of an automatic glass bonding machine;

fig. 2 shows a top view of an embodiment of the fastening device.

Detailed Description

Various exemplary embodiments of the present utility model will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present utility model unless it is specifically stated otherwise.

The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the utility model, its application, or uses.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of exemplary embodiments may have different values.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

With the development of the photovoltaic industry, the yield and the product yield of the photovoltaic module also need to be further improved. The position stability of the righting cylinder in the automatic glass combining machine directly influences the precision of the components after righting and the yield of the production line. In the related art, the righting cylinder is fixed on an automatic glass combining machine through the mounting screw, and the mounting screw is easy to break in the working process of the equipment, so that the righting cylinder is separated from the fixed bottom plate, the assembly is not righted in place, the overlapping difference after glass combining is generated, the problems of assembly explosion plate, light leakage and the like are caused, and the productivity of the equipment and the yield of the photovoltaic assembly are affected to a certain extent.

Therefore, how to overcome the above-mentioned problems is one of the technical problems to be solved in the present stage.

In view of the above, the utility model provides an automatic glass combining machine, which is used for solving the problems that the installation screw is easy to break in the working process of a normalization air cylinder of the automatic glass combining machine, the photovoltaic module is not normalized in place, and the lamination difference of the photovoltaic module after glass combination is caused, so that the productivity and the product yield of the automatic glass combining machine are affected.

The following detailed description will proceed with reference being made to the drawings and detailed description of embodiments.

Fig. 1 is a schematic diagram of an embodiment of an automatic glass combining machine, fig. 2 is a top view of an embodiment of a fixing device, and referring to fig. 1 and 2, the automatic glass combining machine provided in the application includes a fixing device 10, a resetting cylinder 20, at least two sliding blocks 30 and a guide rail adjusting bracket 40; the restoring air cylinder 20 is fixed on the fixing device 10, the fixing device 10 is arranged on the sliding blocks 30 and the guide rail adjusting bracket 40, and the guide rail adjusting bracket 40 is positioned between the two sliding blocks 30; the fixing device 10 comprises a bottom plate 11 and a blocking block 12, wherein the blocking block 12 is connected with the bottom plate 11 and is positioned on one side of the bottom plate 11 far away from the sliding block 30; the bottom plate 11 includes a fixing hole 13, the fixing hole 13 includes a first through hole 131 and a second through hole 132, the first through hole 131 and the second through hole 132 overlap in a first direction, which is a thickness direction of the bottom plate 11, and the aperture of the first through hole 131 is smaller than the aperture of the second through hole 132.

Specifically, the automatic glass combining machine provided by the application comprises a fixing device 10, a resetting cylinder 20, at least two sliding blocks 30 and a guide rail adjusting bracket 40; wherein the fixing device 10 is used for installing and fixing a righting cylinder 20, and the righting cylinder 20 is used for righting the component; the fixing device 10 comprises a bottom plate 11 and a blocking block 12, and the fixing device 10 is arranged on the sliding block 30 and the guide rail adjusting bracket 40 through a fixing hole 13 on the bottom plate 11; the blocking block 12 is connected with the bottom plate 11, is located one side of the bottom plate 11 far away from the sliding block 30, and the restoring air cylinder 20 is contacted with the blocking block 12, so that when the restoring air cylinder 20 works, a part of acting force can be transferred to the blocking block 12, namely, the blocking block 12 in the fixing device 10 plays a certain blocking role, the mounting screw of the restoring air cylinder 20 can be effectively prevented from being broken, further, the restoring air cylinder 20 is prevented from being deviated, the problem of stacking difference of the photovoltaic assembly due to the fact that the restoring air cylinder is not in place after glass combination is solved, and the yield and the product yield of the photovoltaic assembly are improved.

It should be noted that, in the drawings, the positions and the number of the fixing holes 13 are only schematically shown, and may be adjusted according to actual situations, which is not particularly limited in the application; the sliding blocks 30 need to have a certain supporting effect on the fixing device 10, so that the number of the sliding blocks 30 is at least two, and the sliding blocks can be adjusted according to actual conditions, and the application is not particularly limited; the rail adjustment bracket 40 is merely illustrative of the positional relationship and does not represent the actual size and structure.

With continued reference to fig. 1, the present application provides an alternative embodiment in which the blocking block 12 includes a first blocking unit 131 and a second blocking unit 132, and the height of the first blocking unit 131 along the first direction is greater than the height of the second blocking unit 132 along the first direction.

Specifically, the blocking block 12 includes a first blocking unit 131 and a second blocking unit 132, and the first blocking unit 131 and the second blocking unit 132 are located at both sides of the restoring cylinder 20, respectively. One side of the restoring air cylinder 20 is provided with an air cylinder shaft 21, the first blocking unit 131 is positioned at one side of the restoring air cylinder 20 where the air cylinder shaft 21 is not arranged, the second blocking unit 132 is positioned at one side of the restoring air cylinder 20 where the air cylinder shaft 21 is arranged, and the height of the first blocking unit 131 along the first direction is larger than that of the second blocking unit 132 along the first direction, so that not only can enough working space be reserved for the air cylinder shaft 21, but also acting force generated in the working process of the restoring air cylinder 20 can be transferred to the blocking block 12, breakage of mounting screws of the restoring air cylinder 20 can be effectively prevented, further deviation of the restoring air cylinder 20 is prevented, and the problem of poor lamination of a photovoltaic assembly due to the fact that the restoring air cylinder 20 is not in place is reduced, thereby improving the productivity and the product yield of an automatic glass combining machine.

With continued reference to FIG. 1, the present application provides an alternative embodiment in which the height of the first blocking unit 131 in the first direction is H1,8 mm.ltoreq.H2 mm. The height of the second blocking unit 132 in the first direction is H2, and 3mm < H2 < 7mm.

Specifically, the height H1 of the first blocking unit 131 in the first direction needs to be consistent with a good blocking effect, and does not interfere with the function of the automatic glass combining machine, and meanwhile, the manufacturing cost is reduced as much as possible. Therefore, the height H1 of the first blocking unit 131 in the first direction is set to 8 mm.ltoreq.H2.ltoreq.12 mm. An alternative embodiment is provided herein, h1=8mm; another alternative embodiment is provided by the present application, h1=9 mm; yet another alternative embodiment is provided by the present application, h1=12 mm; yet another alternative embodiment is provided in the present application, 8 mm.ltoreq.H2.ltoreq.10mm; in yet another alternative embodiment, 9 mm.ltoreq.H2.ltoreq.11 mm is provided.

Since the second blocking unit 132 is located at the side of the restoring cylinder 20 where the cylinder shaft 21 is provided, in order to leave a sufficient working space for the cylinder shaft 21 while a good blocking effect can be achieved, the height H2 of the second blocking unit 132 in the first direction is set to 3mm < H2 < 7mm. An alternative embodiment is provided herein, h2=3 mm; another alternative embodiment is provided by the present application, h2=5 mm; yet another alternative embodiment is provided by the present application, h2=7mm; yet another alternative embodiment is provided in the present application wherein 3 mm.ltoreq.H2.ltoreq.5 mm; yet another alternative embodiment is 5 mm.ltoreq.H2.ltoreq.7mm.

With continued reference to FIG. 1, an alternative embodiment is provided in which the first blocking unit 131 and the second blocking unit 132 have a width L in the second direction, where 3 mm.ltoreq.L.ltoreq.7 mm, and the second direction is the length direction of the base plate 11.

Specifically, when the widths L <3mm of the first and second blocking units 131 and 132 in the second direction are too small, breakage easily occurs; when the widths L of the first and second blocking units 131 and 132 in the second direction are greater than 7mm, the widths of the first and second blocking units 131 and 132 are excessively large, not only occupying excessive space, but also increasing manufacturing costs; when the widths of the first blocking unit 131 and the second blocking unit 132 in the second direction are 3mm < L < 7mm, not only can a good blocking effect be achieved, but also space and cost can be saved. An alternative embodiment is provided by the present application, l=3 mm; another alternative embodiment is provided by the present application, l=6mm; yet another alternative embodiment is provided by the present application, l=7mm; the application provides a further alternative embodiment that L is more than or equal to 4mm and less than or equal to 6mm; in yet another alternative embodiment, 4 mm.ltoreq.L.ltoreq.7 mm is provided.

Referring to fig. 1 and 2, an alternative embodiment is provided in the present application, in which the first blocking unit 131 and the second blocking unit 132 are integrally formed with the base plate 11.

Specifically, the manufacturing method of the fixing device 10 adopts the first blocking unit 131 and the second blocking unit 132 to be integrally formed with the bottom plate 11, so that the assembly between the first blocking unit 131 and the second blocking unit 132 and the bottom plate 11 can be avoided, the blocking effect can be enhanced, and the manufacturing process can be simplified.

With continued reference to fig. 1 and 2, the present application provides an alternative embodiment in which the normalization cylinder 20 is fixed between the first blocking element 131 and the second blocking element 132.

Specifically, the fixing device 10 is provided with the first blocking unit 131 and the second blocking unit 132, the first blocking unit 131 is located on one side of the return air cylinder 20 where the air cylinder shaft 21 is not arranged, the second blocking unit 132 is located on one side of the return air cylinder 20 where the air cylinder shaft 21 is arranged, two sides of the return air cylinder 20 are respectively in contact with the first blocking unit 131 and the second blocking unit 132, namely, the return air cylinder 20 is clamped between the first blocking unit 131 and the second blocking unit 132, acting force and reacting force generated by the return air cylinder 20 in the working process can be transferred to the first blocking unit 131 and the second blocking unit 132, the mounting screw of the return air cylinder 20 can be effectively prevented from being broken, further, the offset of the return air cylinder 20 is prevented, the problem of poor lamination of a photovoltaic assembly due to the fact that the return air cylinder is not in place is reduced, and accordingly the productivity and the product yield of the automatic glass combining machine are improved.

Referring to fig. 1 and 2, an alternative embodiment is provided in the present application, where the material of the base plate 11 and the blocking block 12 is metal.

Specifically, the bottom plate 11 of fixing device 10 and the material that blocks piece 12 are the same, all are the metal, the integrated into one piece preparation of being convenient for to the intensity of metal is higher, and the effort that can avoid receiving automatic glass machine long-term operation to produce is fixing device 10 takes place plastic deformation, can be better play the barrier action, thereby effectively prevent that the installation screw of righting cylinder 20 from breaking, and then prevent righting cylinder 20 from taking place the skew, reduce photovoltaic module and fold poor problem behind the glass because the photovoltaic module that is not put in place of righting, thereby improve automatic glass machine's productivity and product yield.

With continued reference to fig. 1 and 2, an alternative embodiment is provided in which the fixture 10 is secured to the slider 30 and the rail adjustment bracket 40 via the securing holes 13. It can be appreciated that the fixing holes 13 are used for installing the fixing device 10 on the sliding block 30 and the guide rail adjusting bracket 40, the number of the fixing holes 13 can be adjusted according to actual demands, the application is not limited specifically, the number of the fixing holes 13 can be set according to actual conditions, the fixing device 10 can be stably installed on the sliding block 30 and the guide rail adjusting bracket 40, so that the fixing device 10 can better produce a blocking effect, the mounting screws of the righting cylinder 20 are effectively prevented from being broken, the righting cylinder 20 is further prevented from being offset, the problem of overlapping difference of the photovoltaic assembly due to the fact that the righting cannot be completed is solved, and the productivity and the product yield of the automatic glass combining machine are improved.

With continued reference to fig. 1 and 2, an alternative embodiment is provided in which the righting cylinder 20 further includes screws (not shown), the fixing device 10 further includes screw holes 14, and the righting cylinder 20 is fixed to the base plate 11 by the screws and the screw holes 14.

Specifically, the restoring air cylinder 20 further comprises screws, the bottom plate 11 of the fixing device 10 further comprises screw holes 14, the screws correspond to the screw holes in position, the restoring air cylinder 20 is fixed on the bottom plate 11 of the fixing device 10 through the screws and the screw holes 14, the restoring air cylinder 20 is blocked by the screw fixing and blocking block 12, acting force generated in the working process of the restoring air cylinder 20 can be transferred to the fixing device 10, the restoring air cylinder 20 and the fixing device are matched with each other, deviation of the restoring air cylinder 20 is effectively prevented, the problem of stacking difference of the photovoltaic assembly after glass combination caused by the fact that the photovoltaic assembly is not restored in place is solved, and accordingly productivity and product yield of an automatic glass combining machine are improved.

In summary, the automatic glass combining machine provided by the utility model at least has the following beneficial effects:

the automatic glass combining machine comprises a fixing device, a righting cylinder, at least two sliding blocks and a guide rail adjusting bracket; the resetting air cylinder is fixed on the fixing device, the fixing device is arranged on the sliding blocks and the guide rail adjusting bracket, and the guide rail adjusting bracket is positioned between the two sliding blocks; the fixing device comprises a bottom plate and a blocking block, wherein the blocking block is connected with the bottom plate and is positioned at one side of the bottom plate far away from the sliding block; the bottom plate includes the fixed orifices, and the fixed orifices includes first through-hole and second through-hole, and first through-hole and second through-hole overlap and link up the bottom plate along first direction, and first direction is the thickness direction of bottom plate, and the aperture of first through-hole is less than the aperture of second through-hole. The application provides an automatic glass machine closes, it returns to normal cylinder and is fixed in on the fixing device, and fixing device is including blockking the piece design, returns to normal cylinder the effort of production in the course of the work, can shift to on the fixing device, can effectively prevent to return to normal cylinder's installation screw and take place the fracture, and then prevent to return to normal cylinder and take place the skew, reduce photovoltaic module and close the poor problem of post-glassing fold of photovoltaic module that leads to owing to returning to the position to improve photovoltaic module's productivity and product yield.

While certain specific embodiments of the utility model have been described in detail by way of example, it will be appreciated by those skilled in the art that the above examples are for illustration only and are not intended to limit the scope of the utility model. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the utility model. The scope of the utility model is defined by the appended claims.

Claims (10)

1. An automatic glass combining machine is characterized by comprising a fixing device, a righting cylinder, at least two sliding blocks and a guide rail adjusting bracket;

the resetting air cylinder is fixed on the fixing device, the fixing device is arranged on the sliding blocks and the guide rail adjusting support, and the guide rail adjusting support is positioned between the two sliding blocks;

the fixing device comprises a bottom plate and a blocking block, wherein the blocking block is connected with the bottom plate and is positioned at one side of the bottom plate far away from the sliding block;

the bottom plate comprises a fixing hole, the fixing hole comprises a first through hole and a second through hole, the first through hole and the second through hole are overlapped along a first direction and penetrate through the bottom plate, the first direction is the thickness direction of the bottom plate, and the aperture of the first through hole is smaller than that of the second through hole.

2. The automatic glass combining machine according to claim 1, wherein the blocking block comprises a first blocking unit and a second blocking unit, the height of the first blocking unit along the first direction being greater than the height of the second blocking unit along the first direction.

3. The automatic glass combining machine according to claim 2, wherein the height of the first blocking unit along the first direction is H1,8mm is equal to or less than H1 is equal to or less than 12mm.

4. The automatic glass combining machine according to claim 2, wherein the height of the second blocking unit along the first direction is H2,3mm < H2 < 7mm.

5. The automatic glass combining machine according to claim 2, wherein the widths of the first blocking unit and the second blocking unit in the second direction are L, L is 3mm and L is 7mm and L is the length direction of the bottom plate.

6. The automatic glass combining machine according to claim 2, wherein the first blocking unit and the second blocking unit are integrally formed with the bottom plate.

7. The automatic glass combining machine according to claim 2, wherein the return cylinder is fixed between the first blocking unit and the second blocking unit.

8. The automatic glass combining machine according to claim 1, wherein the bottom plate and the blocking block are made of metal.

9. The automatic glass combining machine according to claim 1, wherein the fixing device is fixed to the slider and the rail adjusting bracket through the fixing hole.

10. The automatic glass combining machine according to claim 1, wherein the righting cylinder further comprises a screw, the fixing device further comprises a screw hole, and the righting cylinder is fixed on the bottom plate through the screw and the screw hole.

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