CN215266232U - Crystalline silicon photovoltaic module frock of rolling off production line - Google Patents

Abstract

The utility model belongs to the technical field of photovoltaic module offline tools, in particular to a crystalline silicon photovoltaic module offline tool; the device comprises a rectangular frame body, wherein at least one assembly supporting mechanism with adjustable length is arranged on the inner side of at least one group of opposite sides of the rectangular frame body, the outer end of the assembly supporting mechanism is connected with an assembly supporting point, and a cushion pad is coated on the assembly supporting point; the utility model provides a crystalline silicon photovoltaic module frock of rolling off production line, long minor face installation component supporting mechanism in the framework, the stress point when having increased the subassembly and rolling off production line, avoid the subassembly to rock the latent splitting that leads to, adjustable length component supporting mechanism uses the electronic button to control simultaneously, the button is pressed the back, the rocking arm stretches out in crystalline silicon photovoltaic module below, prop up the subassembly, the subassembly stress point position increases the cushion block, can prevent that the stress point from latent splitting, thereby the staff rolls off production line the frock through lifting.

Description

Crystalline silicon photovoltaic module frock of rolling off production line

Technical Field

The utility model belongs to the technical field of photovoltaic module frock of inserting winding, especially, crystalline silicon photovoltaic module frock of inserting winding.

Background

The crystal silicon photovoltaic semi-manufactured goods subassembly passes a stop again because of information is not input before the circulation in-process on the assembly line, need lift the semi-manufactured goods subassembly again and go to the process that the assembly line below corresponds and go over the station again, original subassembly mode of rolling off the production line is lifted for personnel's manual work, the subassembly minor face respectively has a personnel to hold up the subassembly after and places in the region of rolling off the production line, but along with the increase of subassembly version type, the intensity that the whole weight of subassembly and needs is higher, but along with the demand of subassembly end cost reduction increase, subassembly glass thickness and battery piece thickness all have the reduction, thereby when leading to the staff to lift the subassembly, the subassembly intermediate part is divided into the bow-shaped, and rock along with removing the subassembly mid portion, lead to the subassembly because of receiving to rock or the subassembly crypto that leads to colliding with, thereby lead to the subassembly to become invalid.

Disclosure of Invention

The utility model aims at: the defect in the prior art is overcome, and the crystalline silicon photovoltaic module offline tool is provided, so that the stress point of the module during offline can be increased, and hidden crack caused by shaking of the module is avoided.

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

the utility model provides a crystalline silicon photovoltaic module frock of rolling off production line, includes the rectangle framework, the inboard of the at least a set of opposite side of rectangle framework is provided with at least one subassembly supporting mechanism of adjustable length, subassembly supporting mechanism's outer end is connected with the subassembly strong point, the cladding has the blotter on the subassembly strong point.

Furthermore, the buffer pad adopts motion sponge or plastic cushion block.

Furthermore, the length-adjustable component supporting mechanism comprises a fixed platform, a telescopic mechanism is connected to the fixed platform, and a component supporting point is connected to the outer end of the telescopic mechanism.

Furthermore, telescopic machanism is the telescopic link, the telescopic link is established by two-layer metal pipe cover and forms, is provided with the threaded rod in the inlayer metal pipe, and is provided with the internal thread on the inner wall of inlayer metal pipe and is connected with the threaded rod through the internal thread.

The fixed platform is internally provided with a rotating motor, the output end of the rotating motor is connected with the inner end of the threaded rod through a gear set, and the rotating motor is further connected with an electric button.

Furthermore, the assembly supporting point comprises a supporting ring, the supporting ring is connected with the metal pipe on the inner layer in a welding mode, a screw is arranged in the supporting ring and fixed through a nut, and a cushion pad is coated on the top end table of the screw.

Furthermore, a first threaded section is arranged at the top of the threaded rod, a first polished rod section is arranged below the first threaded section, a second polished rod section is arranged at the lower end of the inner wall of the telescopic rod, and more than two polished rod sections are second threaded sections.

Furthermore, a circle of limiting ring I is arranged on the outer side face of the lower end of the inner-layer metal pipe, and a circle of limiting ring II matched with the limiting ring I is arranged on the inner side face of the top end of the outer-layer metal pipe.

Furthermore, a reinforcing rod is connected between the lower part of the outer layer of the two layers of metal pipes and the fixed platform.

Furthermore, telescopic machanism is the folding telescopic bracket of fluid pressure type X type, and the outer end connection of the folding telescopic bracket of X type has the subassembly strong point, the subassembly strong point adopts the supporting shoe, and the cladding has the blotter on the contact surface of supporting shoe and subassembly.

Furthermore, the supporting block is connected with the X-shaped folding telescopic bracket through a bolt.

Adopt the technical scheme of the utility model's beneficial effect is:

the utility model provides a crystalline silicon photovoltaic module frock of rolling off production line, installation component supporting mechanism in the framework, the stress point when having increased the subassembly and rolling off production line, avoid the subassembly to rock the latent division that leads to, adjustable length component supporting mechanism uses the electronic button to control simultaneously, the button is pressed the back, the rocking arm stretches out in crystalline silicon photovoltaic module below, prop up the subassembly, the subassembly stress point position increases the cushion block, can prevent that the stress point from latent division, thereby the staff rolls off production line the frock through lifting.

The utility model provides a line frock under crystalline silicon photovoltaic module, framework are the framework of line frock under crystalline silicon photovoltaic module for design according to subassembly size, and each version type subassembly can be customized according to the biggest version type, can realize that full version type is general.

The utility model provides a crystal silicon photovoltaic module frock of rolling off production line, telescopic machanism adopt the folding telescopic bracket of fluid pressure type X type for the folding telescopic bracket of fluid pressure type X type, can effectively reduce length adjustable subassembly supporting mechanism's area, and flexible regulation is more convenient.

Drawings

Fig. 1 is the utility model provides a crystal silicon photovoltaic module rolls off production line frock's schematic structure diagram.

Fig. 2 is a schematic structural diagram of an embodiment of the middle-length adjustable component supporting mechanism of the present invention.

Fig. 3 is a cross-sectional view of the telescoping pole.

Fig. 4 is a schematic structural diagram of another embodiment of the assembly supporting mechanism with adjustable length according to the present invention.

In the figure: the device comprises a rectangular frame body, 2 component supporting mechanisms, 3 component supporting points, 4 fixed platforms, 5 telescopic rods, 501 inner-layer metal tubes, 502 threaded rods, 503 outer-layer metal tubes, 504 first limiting rings, 505 second limiting rings, 6 rotating motors, 7 electric buttons, 8 supporting rings, 9 reinforcing rods, 10X-shaped folding telescopic supports, 11 supporting blocks and 12 gear sets.

Detailed Description

The invention will now be described in further detail with reference to specific embodiments and the accompanying drawings. The following examples are intended to provide those skilled in the art with a more complete understanding of the present invention, but are not intended to limit the scope of the present invention. Reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with at least one implementation of the invention is included. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

The utility model provides a framework is a framework for according to subassembly size design with crystal silicon photovoltaic module frock of rolling off the production line, and each version type subassembly is customized according to the biggest version type, can realize that full version type is general.

Referring to fig. 1 and 2, the offline tool for crystalline silicon photovoltaic modules of the present invention comprises a rectangular frame 1, at least one module supporting mechanism 2 with adjustable length is disposed at the inner side of at least one group of opposite sides of the rectangular frame 1, the outer end of the module supporting mechanism is connected to a module supporting point, a cushion pad is coated on the module supporting point,

including rectangular frame 1, the inboard of rectangular frame 1 four limits is the symmetry respectively and is provided with a plurality of adjustable length's subassembly supporting mechanism 2, and the outer end of subassembly supporting mechanism 2 is connected with subassembly strong point 3, and the cladding has the blotter on the subassembly strong point 3. The utility model discloses the quantity of the subassembly supporting mechanism 2 on every edge of well rectangle framework 1 and the installation distance between the adjacent subassembly supporting mechanism 2 are decided according to the in-service use needs. The number of the supporting mechanisms 2 on the long edge of the rectangular frame body 1 is at least one per edge, and specifically, the number can be as follows: 1, 2, 3, 4 and the like, which are reasonably adjusted according to the actual length of the assembly, and when the number of the supporting mechanisms 2 is more than 2, the mechanism supports 2 are arranged at equal intervals; the supporting mechanism 2 on the short edge of the rectangular frame body 1 can be set according to actual requirements, and the supporting mechanism 2 can be set on the short edge or the supporting mechanism 2 is not set. When the support mechanisms 2 are arranged on the short sides, since the long sides of the assembly are more easily deformed, the number of the support mechanisms 2 on the long sides of the rectangular frame 1 may be greater than or equal to the number of the support mechanisms 2 on the short sides of the rectangular frame 1.

The working principle is as follows: during operation, the frame body is sleeved on the outer side of the assembly, the length of the assembly supporting mechanism 2 is adjusted, the assembly supporting mechanism 2 extends out to support the assembly, the stress point of the assembly is wrapped by the cushion pad, the stress point of the assembly can be prevented from being cracked, a worker can take the assembly off line in a mode of lifting the off-line tool, due to the fact that the assembly supporting mechanism 2 is arranged in multiple positions, the assembly is stressed uniformly, the phenomena of shaking the assembly and the like cannot occur in the process of carrying the tool, and the problem of cracking of battery pieces is avoided.

Specifically, the utility model provides a blotter can adopt motion sponge or plastic cushion, and the thickness of motion sponge and plastic cushion is decided according to the in-service use needs, can be 1mm, 1.5mm, 2mm, 2.5mm, 2.8mm, 3mm, 3.2mm, 3.5 mm.

Implementation mode one

Referring to fig. 2 and 3, as an implementation manner of the length-adjustable component supporting mechanism 2, the length-adjustable component supporting mechanism 2 in this embodiment includes a fixed platform 4, connecting pieces are disposed at two ends of the fixed platform 4, the connecting pieces are connected to the frame body by bolts, a telescopic mechanism is connected to the fixed platform 4, an outer end of the telescopic mechanism is connected to a component supporting point 3, specifically, the telescopic mechanism is a telescopic rod 5, the telescopic rod 5 is formed by two layers of metal pipes sleeved with each other, a threaded rod 502 is disposed in the inner layer of metal pipe 501, an inner thread is disposed on an inner wall of the inner layer of metal pipe 501 and connected to the threaded rod 502 by the inner thread, a rotating motor 6 is disposed in the fixed platform 4, an output end of the rotating motor 6 is connected to an inner end of the threaded rod 502 by a gear set 12, and the rotating motor 6 is further connected to an electric button 7.

During operation, overlap the framework in the subassembly outside, click electronic button 7, rotating electrical machines 6 rotates, thereby its output drives gear train 12 and rotates and drive threaded rod 502 and rotate, threaded rod 502 rotates and makes inlayer tubular metal resonator 501 rebound, thereby realize stretching out of telescopic link 5, prop up the subassembly, treat that telescopic link 5 stretches out the position and loosen the button behind the subassembly below, the personnel lift the frock of inserting the line, lift the subassembly to the regional back of inserting the line, click the button will, rotating electrical machines 6 reverses, and drive threaded rod 502 reversal through gear train 12, thereby realize withdrawing of telescopic link 5, the subassembly is placed in the region of inserting the line, it finishes to insert the line.

Subassembly strong point 3 in this embodiment includes support ring 8, through welded connection between the metal pipe of support ring 8 and inlayer, is provided with the screw rod in the support ring 8 and fixes through the nut, adopts this structural design, is convenient for change the screw rod of different sizes, also is convenient for change ageing blotter.

In this embodiment, the top of the threaded rod 502 is provided with a first threaded section, a first polished rod section is arranged below the threaded section, the lower end of the inner wall of the telescopic rod 5 is provided with a second polished rod section, and more than two polished rod sections are provided with a second threaded section. Alternatively, the following structure may also be adopted: the outer side surface of the lower end of the inner layer metal tube 501 is provided with a first limit ring 504, and the inner side surface of the top end of the outer layer metal tube 503 is provided with a second limit ring 505 matched with the first limit ring 504. Alternatively, the above two methods may be used in combination.

In order to further improve the installation strength of the telescopic rod 5, in the two layers of metal pipes in this embodiment, a reinforcing rod 9 is connected between the lower part of the outer layer metal pipe 503 and the fixed platform 4, and the reinforcing rod 9 is connected with the fixed platform 4 and the outer layer metal pipe 503 by welding.

Second embodiment

Referring to fig. 4, as another embodiment of the length-adjustable component supporting mechanism 2, different from the first embodiment, the telescopic mechanism in this embodiment is a hydraulic X-shaped foldable telescopic bracket 10, the outer end of the X-shaped foldable telescopic bracket 10 is connected with a component supporting point 3, the component supporting point 3 is a supporting block 11, a cushion pad is coated on a contact surface between the supporting block 11 and the component, and the supporting block 11 is connected with the X-shaped foldable telescopic bracket 10 through a bolt. By adopting the structural design and the hydraulic X-shaped folding telescopic support 10, the area of the assembly supporting mechanism 2 with adjustable length can be effectively reduced, and the hydraulic X-shaped folding telescopic support 10 is more convenient to telescopically adjust. The shape of the supporting block 11 in this embodiment may be a flat blade, a cylinder, a square block, or the like, which may be used as the supporting point 3 of the assembly.

The utility model provides a crystal silicon photovoltaic module frock of rolling off production line can have following several kinds of embodiments:

1. at least one group of support mechanisms as in the first embodiment is arranged on the inner side of the long side of the frame body, and the inner side of the short side is not arranged.

2. At least one set of support mechanisms as in the second embodiment is provided on the inner side of the long side of the frame body, and the inner side of the short side is not provided.

3. At least one group of support mechanisms in the first embodiment are arranged on the inner sides of the long sides and the short sides of the frame body respectively, and the number of the support mechanisms on the inner sides of the long sides is larger than that of the support mechanisms on the inner sides of the short sides.

4. At least one group of support mechanisms in the first embodiment are respectively arranged on the inner sides of the long sides and the short sides of the frame body, and the number of the support mechanisms on the inner sides of the long sides is equal to that of the support mechanisms on the inner sides of the short sides.

5. At least one group of support mechanisms as in the second embodiment are respectively arranged on the inner sides of the long sides and the short sides of the frame body, and the number of the support mechanisms on the inner sides of the long sides is larger than that of the support mechanisms on the inner sides of the short sides.

6. At least one group of support mechanisms as in the second embodiment are respectively arranged on the inner sides of the long sides and the short sides of the frame body, and the number of the support mechanisms on the inner sides of the long sides is equal to that of the support mechanisms on the inner sides of the short sides.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides a crystalline silicon photovoltaic module frock of rolling off production line which characterized in that: including the rectangle framework, the inboard of the at least a set of opposite side of rectangle framework is provided with at least one subassembly supporting mechanism of adjustable length, the outer end of subassembly supporting mechanism is connected with the subassembly strong point, the cladding has the blotter on the subassembly strong point.

2. The offline tool for the crystalline silicon photovoltaic module according to claim 1, is characterized in that: the length-adjustable component supporting mechanism comprises a fixed platform, a telescopic mechanism is connected to the fixed platform, and a component supporting point is connected to the outer end portion of the telescopic mechanism.

3. The offline tool for the crystalline silicon photovoltaic module as claimed in claim 2, is characterized in that: the telescopic mechanism is a telescopic rod which is formed by sleeving two layers of metal pipes, a threaded rod is arranged in the inner layer metal pipe, internal threads are arranged on the inner wall of the inner layer metal pipe and connected with the threaded rod through the internal threads,

the fixed platform is internally provided with a rotating motor, the output end of the rotating motor is connected with the inner end of the threaded rod through a gear set, and the rotating motor is further connected with an electric button.

4. The offline tool for the crystalline silicon photovoltaic module as recited in claim 3, is characterized in that: the assembly supporting point comprises a supporting ring, the supporting ring is connected with the metal pipe on the inner layer in a welding mode, a screw is arranged in the supporting ring and fixed through a nut, and a cushion pad is coated on the top end table of the screw.

5. The offline tool for the crystalline silicon photovoltaic module as recited in claim 3, is characterized in that: the top of the threaded rod is provided with a first threaded section, a first polished rod section is arranged below the threaded section, a second polished rod section is arranged at the lower end of the inner wall of the telescopic rod, and more than two polished rod sections are second threaded sections.

6. The offline tool for the crystalline silicon photovoltaic module as recited in claim 3, is characterized in that: a circle of limiting ring I is arranged on the outer side face of the lower end of the inner-layer metal pipe, and a circle of limiting ring II matched with the limiting ring I is arranged on the inner side face of the top end of the outer-layer metal pipe.

7. The offline tool for the crystalline silicon photovoltaic module as recited in claim 3, is characterized in that: and a reinforcing rod is connected between the lower part of the outer metal pipe in the two layers of metal pipes and the fixed platform.

8. The offline tool for the crystalline silicon photovoltaic module as claimed in claim 2, is characterized in that: the telescopic mechanism is a hydraulic X-shaped folding telescopic support, the outer end part of the X-shaped folding telescopic support is connected with an assembly supporting point, the assembly supporting point adopts a supporting block, and a cushion pad is coated on the contact surface of the supporting block and the assembly.

9. The offline tool for the crystalline silicon photovoltaic module according to claim 8, is characterized in that: the supporting block is connected with the X-shaped folding telescopic bracket through a bolt.

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