CN218506224U - Photovoltaic module backboard regulating mechanism for film sticking machine - Google Patents

Abstract

The utility model discloses a photovoltaic module backboard regulating mechanism for a film sticking machine, which comprises a platform, a photovoltaic module backboard, a synchronous belt conveying device, a lifting mechanism and a regulating assembly; the synchronous belt conveying device is arranged on the lifting mechanism, and a synchronous conveying belt of the synchronous belt conveying device is positioned below the photovoltaic module back plate; a photovoltaic module back plate is placed on the platform; regular subassembly has a plurality ofly, locates the side of four sides of photovoltaic module backplate respectively, and a set of regular wheel of each regular subassembly all can paste the contact with the lateral surface of photovoltaic module backplate mutually. The utility model provides a pair of regular mechanism of photovoltaic module backplate for sticking film machine adopts sharp module to add servo motor and regulates the photovoltaic module backplate, and regular precision is higher, also can adapt to various not unidimensional photovoltaic module backplates.

Description

Photovoltaic module backboard regulating mechanism for film sticking machine

Technical Field

The utility model relates to a regular mechanism especially relates to a regular mechanism of photovoltaic module backplate for sticking film machine.

Background

Before the photovoltaic module backboard is subjected to film pasting, the position of the photovoltaic module backboard is regulated to be adjusted to a proper position, and then the photovoltaic module backboard is conveyed to the position below the film pasting mechanism through the conveying belt structure to be subjected to a film pasting process. Generally adopt the cylinder in market to carry out the position to the photovoltaic module backplate regular, however the unable fine various not unidimensional photovoltaic module backplate of adaptation of cylinder, when different photovoltaic module backplate models are switched to a key, the relevant work fixture of cylinder need be changed to the operative employee scene, consumes time, and production efficiency remains to be promoted further.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a regular mechanism of photovoltaic module backplate for sticking film machine.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a photovoltaic module back plate regulating mechanism for a film sticking machine comprises a platform, a photovoltaic module back plate, a synchronous belt conveying device, a lifting mechanism and a regulating assembly; the synchronous belt conveying device is arranged on the lifting mechanism, and a synchronous conveying belt of the synchronous belt conveying device is positioned below the back plate of the photovoltaic module;

a photovoltaic module back plate is placed on the platform; the regular assemblies are provided with a plurality of structures and are respectively arranged on the sides of four side surfaces of the photovoltaic assembly back plate; each regulating assembly comprises two bottom plate fixing plates, a short edge module plate, a servo motor, a linear module, a photovoltaic assembly back plate regulating mechanism and regulating wheels, the two bottom plate fixing plates of each regulating assembly are fixedly arranged on the platform in a penetrating mode, the short edge module plate is arranged on the two bottom plate fixing plates, the linear module is arranged at the upper end of the short edge module plate, a rotation driving assembly is arranged at the outer side end of the linear module, the servo motor is arranged on the outer wall of the rotation driving assembly, a motor shaft of the servo motor is connected with the rotation driving assembly, the rotation driving assembly drives a sliding block on the linear module to do linear motion, the photovoltaic assembly back plate regulating mechanism is arranged at the upper end of the sliding block, and the regulating wheels are arranged at the upper end of the photovoltaic assembly back plate regulating mechanism; and each regular assembly is provided with a group of regular wheels which can be attached to and contacted with the outer side surface of the photovoltaic assembly back plate.

Preferably, the linear module comprises a linear module shell, a ball screw, a sliding block and a coupler; the rotation driving assembly comprises a driving assembly shell, a driving gear, a driven gear and a central rotating shaft; the driving assembly shell is arranged on the outer side wall of the linear module shell, the servo motor is arranged on the outer wall of the driving assembly shell, a motor shaft of the servo motor is connected with the driving gear, the driving gear is meshed with the driven gear, the driving gear and the driven gear are both positioned in the driving assembly shell, a central rotating shaft of the driven gear is rotatably arranged in the driving assembly shell, the central rotating shaft of the driven gear extends out of the driving assembly shell and is connected with a ball screw through a coupler, the ball screw is externally threaded with a sliding block, and the sliding block is connected to the linear module in a sliding mode; and a group of regulating wheels of each regulating component can be attached to and contacted with the outer side surface of the photovoltaic component back plate.

Preferably, a sliding groove for the sliding block to pass through is formed in the linear module shell.

Preferably, the sliding block is divided into a top sliding block and a bottom sliding block which are integrally connected; the bottom sliding block is in an inverted T shape, an internal thread hole is formed in the middle of the inverted T-shaped bottom sliding block, the inverted T-shaped bottom sliding block is connected to the ball screw through the internal thread hole in a threaded mode, and the tops of the two sides of the inverted T-shaped bottom sliding block are connected into the sliding groove in a matched sliding mode; the top slider is in sliding connection with the upper end face of the linear module, and the upper end of the top slider is provided with a photovoltaic module backboard arranging mechanism.

Preferably, the number of the structured assemblies is 6, and the structured assemblies are respectively arranged on the sides of four side surfaces of the photovoltaic assembly back plate.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a pair of regular mechanism of photovoltaic module backplate for sticking film machine adopts sharp module to add servo motor and regulates the photovoltaic module backplate, has replaced original adoption cylinder to regulate the photovoltaic module backplate, and regular precision is higher, also can adapt to various not unidimensional photovoltaic module backplate, realizes that a key switches different versions, the time of the on-the-spot change work anchor clamps of operative employee that has significantly reduced, and productivity ratio is effectively promoted.

Drawings

Fig. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 3 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic structural view of the organizer of the present invention;

FIG. 6 is a schematic diagram of the principle structure of the regulating assembly of the present invention;

fig. 7 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A in fig. 6.

In the figure: 1. a tooling support column; 2. tooling; 3. a photovoltaic module backsheet; 4. a synchronous belt conveying device; 5. lifting the mounting rack; 6. a lifting cylinder; 7. a bottom plate fixing plate; 8. short-edge module plates; 9. a servo motor; 10. a linear module; 11. a photovoltaic module back plate regulating mechanism; 12. A regulating wheel; 101. a linear module housing; 102. a ball screw; 103. a slider; 104. a coupling; 13. a drive assembly housing; 14. a driving gear; 15. a driven gear; 16. a central rotating shaft; 17. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships that are based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, rather than to indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in fig. 1 to 7, a photovoltaic module backplane organizing mechanism 11 for a film sticking machine includes a plurality of platforms, a photovoltaic module backplane 3, a synchronous belt conveying device 4, a lifting mechanism and an organizing assembly.

In the embodiment, the platform comprises a tool support 1 and a tool 2, and the lifting mechanism comprises a lifting mounting frame 5 and a lifting cylinder 6; the plurality of tool posts 1 are provided with tools 2, and photovoltaic module back plates 3 are placed on the tools 2; synchronous belt conveying device 4 is installed on lift mounting bracket 5, and synchronous belt conveying device 4's synchronous conveyor belt is located the below of photovoltaic module backplate 3, and the bottom of lift mounting bracket 5 is equipped with lift cylinder 6.

The number of the structured assemblies is 6, and the structured assemblies are respectively arranged on the sides of four side surfaces of the photovoltaic assembly back plate 3; each regulating assembly comprises two bottom plate fixing plates 7, a short side module plate 8, a servo motor 9, a linear module 10, a photovoltaic assembly back plate regulating mechanism 11 and a regulating wheel 12.

On two bottom plate fixed plates 7 of each regular subassembly all worn to establish to be fixed in frock pillar 1, be equipped with a minor face module board 8 on two bottom plate fixed plates 7, minor face module board 8 upper end is equipped with sharp module 10, and the outside end of sharp module 10 is equipped with rotation drive assembly.

The linear module 10 comprises a linear module shell 101, a ball screw 102, a slide block 103 and a coupling 104; the rotary driving assembly comprises a driving assembly shell 13, a driving gear 14, a driven gear 15 and a central rotating shaft 16; the driving assembly shell 13 is arranged on the outer side wall of the linear module shell 101, the servo motor 9 is arranged on the outer wall of the driving assembly shell 13, a motor shaft of the servo motor 9 is connected with the driving gear 14, the driving gear 14 is meshed with the driven gear 15, the driving gear 14 and the driven gear 15 are both located inside the driving assembly shell 13, a central rotating shaft 16 of the driven gear 15 is rotatably arranged in the driving assembly shell 13, one end of the central rotating shaft 16 of the driven gear 15 is arranged in the inner wall of the driving assembly shell 13 in a penetrating manner, the other end of the central rotating shaft extends out of the driving assembly shell 13 and is connected with the ball screw 102 through a coupler 104 (the other end of the ball screw 102 is also arranged in the inner wall of the linear module shell 101), the ball screw 102 is externally threaded with a sliding block 103, the sliding block 103 is connected on the linear module 10 in a sliding manner, a photovoltaic assembly backboard regularizing mechanism 11 is arranged at the upper end of the sliding block 103, and a group of regularizing wheels 12 is arranged at the upper end of the photovoltaic assembly backboard regularizing mechanism 11; and a group of regulating wheels 12 of each regulating assembly can be attached and contacted with the outer side surface of the photovoltaic assembly back plate 3.

The upper end surface of the linear module shell 101 is provided with a sliding groove 17 for the sliding block 103 to pass through. Slider 103 divide into the top slider and the bottom slider of a body coupling, and the bottom slider is the shape of falling T, and the internal thread hole has been seted up at the middle part of the bottom slider of falling T, and the bottom slider of falling T passes through internal thread hole threaded connection on ball screw 102, and sliding connection is matchd in two spouts 17 at the both sides top of the bottom slider of falling T, and the top slider slips in the up end of sharp module 10, and top slider upper end is equipped with the regular mechanism of photovoltaic module backplate.

The utility model discloses a theory of operation does:

this device photovoltaic module backplate position adjust with regular, adopt 6 regular subassemblies to realize: the photovoltaic module backboard 3 to be filmed is placed on a workpiece 2, servo motors 9 of 6 structured modules are started, a motor shaft of each servo motor 9 rotates to drive a driving gear 14 to rotate, the driving gear 14 drives a driven gear 15 and a central rotating shaft 16 to rotate, the central rotating shaft 16 further drives a ball screw 102 to rotate, the ball screw 102 is in threaded connection with a sliding block 103, the sliding block 103 can do linear motion on a linear module 10 in the rotating process of the ball screw 102, and the sliding block 103 drives a group of structured wheels 12 to slide to be in contact with the outer side face of the photovoltaic module backboard 3 in a pasting mode, so that the photovoltaic module backboard 3 can be driven to move, the photovoltaic module backboard 3 can be subjected to position movement and adjustment by the thrust of the group of the structured wheels 12 on 6 side faces until the photovoltaic module backboard is adjusted to a proper position;

after the photovoltaic module backboard 3 is adjusted to a proper position, the lifting cylinder 6 drives the lifting mounting frame 5 to ascend, the lifting mounting frame 5 further drives the synchronous belt conveying device 4 to ascend until the synchronous belt conveying belt is contacted with the lower end face of the photovoltaic module backboard 3, the lifting cylinder 6 stops working, at the moment, the synchronous belt conveying device 4 starts working, and the photovoltaic module backboard 3 is conveyed to the position below the film sticking mechanism to be subjected to a film sticking process; the synchronous belt conveying device 4 can be a common synchronous belt conveying device in the market, and is a conventional technology and is not described again;

this scheme adopts sharp module to carry out regularly with servo motor the photovoltaic module backplate, has replaced original adoption cylinder to carry out regularly to the photovoltaic module backplate, and regular precision is higher, also can adapt to the photovoltaic module backplate of various not unidimensional, realizes a key and switches different version types, the time of the on-the-spot change work fixture of operative employee that has significantly reduced, productivity ratio obtains effectively promoting.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (5)

1. A photovoltaic module back plate regulating mechanism for a film sticking machine comprises a platform, a photovoltaic module back plate (3), a synchronous belt conveying device (4), a lifting mechanism and a regulating assembly; the synchronous belt conveying device (4) is arranged on the lifting mechanism, and a synchronous conveying belt of the synchronous belt conveying device (4) is positioned below the photovoltaic module back plate (3); the method is characterized in that:

a photovoltaic module backboard (3) is placed on the platform; the regular assemblies are provided with a plurality of structures and are respectively arranged on the sides of four side surfaces of the photovoltaic assembly back plate (3); each regulating assembly comprises two bottom plate fixing plates (7), a short edge module plate (8), a servo motor (9), a linear module (10), a photovoltaic assembly backboard regulating mechanism (11) and regulating wheels (12), the two bottom plate fixing plates (7) of each regulating assembly are fixedly arranged on the platform in a penetrating mode, a short edge module plate (8) is arranged on each of the two bottom plate fixing plates (7), the linear module (10) is arranged at the upper end of each short edge module plate (8), a rotation driving assembly is arranged at the outer side end of each linear module (10), the servo motor (9) is arranged on the outer wall of each rotation driving assembly, a motor shaft of the servo motor (9) is connected with each rotation driving assembly, the rotation driving assembly drives a sliding block (103) on the linear module (10) to do linear motion, the photovoltaic assembly backboard regulating mechanism (11) is arranged at the upper end of the sliding block (103), and a group of regulating wheels (12) is arranged at the upper end of the photovoltaic assembly backboard regulating mechanism (11); and a group of regulating wheels (12) of each regulating assembly can be attached to and contacted with the outer side surface of the photovoltaic assembly back plate (3).

2. The photovoltaic module backplane organizing mechanism for a laminator according to claim 1, wherein: the linear module (10) comprises a linear module shell (101), a ball screw (102), a sliding block (103) and a coupler (104); the rotary driving assembly comprises a driving assembly shell (13), a driving gear (14), a driven gear (15) and a central rotating shaft (16); the driving assembly shell (13) is arranged on the outer side wall of the linear module shell (101), the servo motor (9) is arranged on the outer wall of the driving assembly shell (13), a motor shaft of the servo motor (9) is connected with the driving gear (14), the driving gear (14) is meshed with the driven gear (15), the driving gear (14) and the driven gear (15) are both located inside the driving assembly shell (13), a central rotating shaft (16) of the driven gear (15) is rotatably arranged in the driving assembly shell (13), the central rotating shaft (16) of the driven gear (15) extends out of the driving assembly shell (13) and is connected with the ball screw (102) through a coupler (104), a sliding block (103) is connected with the outer thread of the ball screw (102), and the sliding block (103) is connected on the linear module (10) in a sliding mode; one group of the regulating wheels (12) of each regulating component can be attached to and contacted with the outer side surface of the photovoltaic component back plate (3).

3. The photovoltaic module backplane organizing mechanism for a laminator according to claim 2, wherein: and a sliding groove (17) for the sliding block (103) to pass through is formed in the linear module shell (101).

4. The photovoltaic module backplane organizing mechanism for a laminator according to claim 3, wherein: the sliding block (103) is divided into a top sliding block and a bottom sliding block which are integrally connected; the bottom sliding block is in an inverted T shape, an internal threaded hole is formed in the middle of the inverted T-shaped bottom sliding block, the inverted T-shaped bottom sliding block is connected to the ball screw (102) through the internal threaded hole in a threaded mode, and the tops of the two sides of the inverted T-shaped bottom sliding block are connected into the sliding groove (17) in a matched sliding mode; the top sliding block is connected to the upper end face of the linear module (10) in a sliding mode, and a photovoltaic module backboard arranging mechanism (11) is arranged at the upper end of the top sliding block.

5. The photovoltaic module backplane organizing mechanism for a laminator according to any of claims 1-4, wherein: the number of the regular assemblies is 6, and the regular assemblies are respectively arranged on the sides of four side faces of the photovoltaic assembly backboard (3).

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