CN223532566U - An EVA cutting machine for solar cell processing - Google Patents

Abstract

The utility model relates to the technical field of EVA cutting machines, in particular to an EVA cutting machine for solar cell processing. The utility model comprises a support, wherein a console is arranged on one side of the support, a platen is fixedly connected to the upper end of the support, a cutting machine is arranged on the platen, a limiting structure is arranged on the support, the limiting structure comprises two fixing frames, the two fixing frames are respectively and fixedly connected to two ends of the support, two sliding holes are symmetrically formed in the upper ends of the fixing frames, a sliding block is slidingly connected in the sliding holes, a rotating plate is rotatably connected to the lower ends of the sliding block, a pressing block is rotatably connected to the lower ends of the two rotating plates, and two fixing blocks are fixedly connected to the upper ends of the fixing frames. The problem of traditional EVA guillootine when cutting solar cell panel, because it is relatively poor to solar cell panel's spacing effect, solar cell panel takes place the skew easily when cutting to influence the precision of cutting solar cell panel is solved.

Description

EVA cutting machine for solar cell processing

Technical Field

The utility model relates to the technical field of EVA cutting machines, in particular to an EVA cutting machine for solar cell processing.

Background

EVA guillootine is the cutting equipment that integration was controlled to collection intelligence, and it is comparatively extensive to use in the machining field.

The utility model such as the publication number CN211664385U in the prior art, in particular discloses an EVA cutting machine for solar cell processing, relates to the technical field of EVA cutting machines, and aims to solve the problem that the existing EVA cutting machine body is large, so that the movement is inconvenient. The utility model provides a novel automatic cutting machine for the plastic material, including cutting the host computer body, including the host computer body, cutting the bottom of host computer body and being provided with the bottom plate, the top of bottom plate is provided with the curb plate, and the curb plate is provided with two, the universal wheel is all installed to the four corners department of bottom plate below, fixed establishment is installed to the inboard in curb plate the place ahead and rear, fixed establishment includes bearing plate, recess, bracing piece, second fixed orifices, rocker and threaded rod, the bottom of bearing plate is provided with the recess, and the recess is provided with a plurality of, the top of bearing plate is provided with the bracing piece, and the bracing piece is provided with two, the inside of bracing piece is provided with the second fixed orifices, and the second fixed orifices is provided with two.

According to the technical content, in the practical use process, the conventional EVA cutting machine is found that when the solar panel is cut, the solar panel is easy to deviate when the solar panel is cut due to poor limiting effect on the solar panel, so that the accuracy of cutting the solar panel is affected.

Disclosure of utility model

The utility model aims to solve the defects that in the prior art, when a traditional EVA cutting machine cuts a solar panel, the solar panel is easy to deviate during cutting due to poor limiting effect on the solar panel, so that the accuracy of cutting the solar panel is affected.

In order to achieve the aim, the EVA cutting machine for solar cell processing comprises a support, wherein a control console is arranged on one side of the support, a platen is fixedly connected to the upper end of the support, a cutting machine is arranged on the platen, a limiting structure is arranged on the support, the limiting structure comprises two fixing frames, the two fixing frames are respectively and fixedly connected to two ends of the support, two sliding holes are symmetrically formed in the upper ends of the fixing frames, a sliding block is slidingly connected in the sliding holes, a rotating plate is rotatably connected to the lower end of the sliding block, a same pressing block is rotatably connected to the lower ends of the two rotating plates, two fixing blocks are fixedly connected to the upper ends of the fixing frames, a driving rod is connected to internal threads of the sliding block, threads with opposite directions are formed in the two ends of the driving rod, two ends of the driving rod are respectively and fixedly connected with a driving wheel and a driven wheel, a conveying belt is in transmission connection with the circular arc face of the driving wheel and the driven wheel, a circular plate is fixedly connected to one side of the circular plate is fixedly connected with a circular plate, a circular plate is fixedly connected to one side of the circular plate is fixedly connected to the circular plate, and a positioning screw is fixedly connected to one side of the circular plate is fixedly connected to the circular plate.

The solar panel clamping device has the advantages that when the solar panel is placed on the bedplate, two ends of the solar panel can be rapidly clamped and fixed.

Preferably, the inner side of the fixing frame is fixedly connected with a telescopic rod, and the output end of the telescopic rod is fixedly connected with the pressing block.

The component has the effect of limiting the moving position of the pressing block.

Preferably, the lower surface of the pressing block is fixedly connected with a pressing plate, and anti-skidding bulges are uniformly arranged on the lower surface of the pressing plate.

The component has the effect of increasing the roughness of the lower surface of the pressing block.

Preferably, one side of the bedplate is provided with an adjusting structure, the adjusting structure comprises a clamping plate, the clamping plate is fixedly connected to the bedplate, a screw rod is inserted into the clamping plate through internal threads, the upper end of the screw rod is rotationally connected with a top plate, one end of the top plate is fixedly connected with two positioning wheels, the two positioning wheels are respectively positioned on the upper side and the lower side of the conveyor belt, and the two positioning wheels are movably connected with the conveyor belt.

The component has the advantages that the position of the positioning wheel can be adjusted by rotating the screw rod, and the tightness degree of the conveyor belt can be adjusted by means of the positioning wheel.

Preferably, the arc surface fixedly connected with circle piece of lead screw, the arc surface rotation of circle piece is connected with the snap ring, the arc surface fixedly connected with locating lever of snap ring, the long arm end of locating lever slides and runs through the cardboard.

The screw rod limiting device has the advantage that the screw rod limiting effect is achieved.

Preferably, the lower end of the screw rod is fixedly connected with a pull rod, and the section of the pull rod is T-shaped.

The component has the advantages that the effect of conveniently rotating the screw rod and adjusting the position of the screw rod is achieved.

In summary, the beneficial effects of the utility model are as follows:

According to the utility model, after the solar cell panel is placed on the bedplate, the two pressing plates can be simultaneously driven to move downwards only by rotating the handle to drive the driving wheel to rotate, and meanwhile, the two ends of the solar cell panel are extruded and fixed, so that the solar cell panel can be cut more accurately.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a portion of the structure of FIG. 1 according to the present utility model;

FIG. 3 is a schematic view of a portion of a limiting structure according to the present utility model;

fig. 4 is a schematic structural view of the adjusting structure of the present utility model.

The legend is 1, a bracket, 2, a console, 3, a bedplate, 4, a cutting machine, 5, a limiting structure, 501, a fixing frame, 502, a sliding hole, 503, a sliding block, 504, a fixing block, 505, a driving rod, 506, a driving wheel, 507, a conveying belt, 508, a rotating plate, 509, a pressing block, 510, a handle, 511, a circular plate, 512, a screw rod, 513, a locating plate, 514, a telescopic rod, 515, a pressing plate, 516, a driven wheel, 6, an adjusting structure, 61, a clamping plate, 62, a screw rod, 63, a top plate, 64, a locating wheel, 65, a round block, 66, a clamping ring, 67, a locating rod, 68 and a pull rod.

Detailed Description

Referring to fig. 1, the utility model provides a technical scheme that an EVA cutting machine for solar cell processing comprises a support 1, wherein a control console 2 is arranged on one side of the support 1, the upper end of the support 1 is fixedly connected with a bedplate 3, a cutting machine 4 is arranged on the bedplate 3, a limiting structure 5 is arranged on the support 1, and an adjusting structure 6 is arranged on one side of the bedplate 3.

The specific arrangement and function of the limit structure 5 and the adjustment structure 6 will be described in detail below.

Referring to fig. 2 and 3, in this embodiment, the limiting structure 5 includes two fixing frames 501, the two fixing frames 501 are respectively and fixedly connected to two ends of the support 1, two sliding holes 502 are symmetrically formed at the upper ends of the fixing frames 501, sliding blocks 503 are slidably connected in the sliding holes 502, a rotating plate 508 is rotatably connected at the lower ends of the sliding blocks 503, the same pressing block 509 is rotatably connected at the lower ends of the two rotating plates 508, two fixing blocks 504 are fixedly connected at the upper ends of the fixing frames 501, driving rods 505 are connected with internal threads of the sliding blocks 503, threads with opposite thread directions are formed at two ends of the driving rods 505, two ends of the driving rods 505 are respectively and rotatably connected with the two fixing blocks 504, one ends of the two driving rods 505 are respectively and fixedly connected with a driving wheel 506 and a driven wheel 516, circular arc surfaces of the driving wheel 506 and the driven wheel 516 are in transmission connection with a conveying belt 507, one side of the driving wheel 506 is fixedly connected with a handle 510, a circular arc surface of the handle 510 is fixedly connected with a circular plate 511, a screw 512 is inserted on the circular plate 511, one side of the support 1 corresponding to the circular plate 511 is fixedly connected with a positioning plate 513, one end of the positioning plate 513 is fixedly connected with a circular ring of a battery plate, and two ends of the solar panel 513 is rotatably connected with a driving plate is rotatably connected with a driving rod 516. The telescopic rod 514 is fixedly connected to the inner side of the fixing frame 501, and the output end of the telescopic rod 514 is fixedly connected with the pressing block 509, so that the effect of limiting the moving position of the pressing block 509 is achieved. The lower surface of the pressing block 509 is fixedly connected with a pressing plate 515, and anti-skidding bulges are uniformly arranged on the lower surface of the pressing plate 515, so that the effect of increasing the roughness of the lower surface of the pressing block 509 is achieved.

Referring to fig. 4, specifically, the adjusting structure 6 includes a clamping plate 61, the clamping plate 61 is fixedly connected to the platen 3, a screw rod 62 is inserted in the clamping plate 61, a top plate 63 is rotatably connected to the upper end of the screw rod 62, one end of the top plate 63 is fixedly connected with two positioning wheels 64, the two positioning wheels 64 are respectively located on the upper side and the lower side of the conveyor belt 507, the two positioning wheels 64 are movably connected with the conveyor belt 507, and the effect that the position of the positioning wheels 64 can be adjusted by rotating the screw rod 62 is achieved, so that the tightness degree of the conveyor belt 507 is adjusted by means of the positioning wheels 64. The circular arc surface fixedly connected with circle piece 65 of lead screw 62, the circular arc surface rotation of circle piece 65 is connected with snap ring 66, and the circular arc surface fixedly connected with locating lever 67 of snap ring 66, the long arm end slip of locating lever 67 runs through cardboard 61, has reached the effect of spacing to lead screw 62. The lower end of the screw rod 62 is fixedly connected with a pull rod 68, and the section of the pull rod 68 is T-shaped, so that the screw rod 62 can be conveniently rotated, and the position of the screw rod 62 can be adjusted.

When the working principle is that the solar cell panel needs to be cut, the solar cell panel can be directly placed on the platen 3, then the pull rod 68 is rotated, the pull rod 68 drives the screw rod 62 to rotate, the screw rod 62 rotates to drive the round block 65 to rotate in the snap ring 66, the screw rod 62 drives the positioning wheels 64 to move downwards by means of threads, and the two positioning wheels 64 can downwards press the conveying belt 507, so that the effect of adjusting the tensioning degree of the conveying belt 507 is achieved. After the tensioning degree of the conveyor belt 507 is adjusted, the handle 510 is directly rotated, the handle 510 drives the driving wheel 506 to rotate, the driving wheel 506 drives the driven wheel 516 to rotate by means of the conveyor belt 507, the driving wheel 506 and the driven wheel 516 respectively drive the two driving rods 505 to rotate, the driving rods 505 drive the two sliding blocks 503 to move towards directions close to each other by means of bidirectional threads, the sliding blocks 503 move to drive the rotating plate 508 to rotate, the rotating plate 508 rotates to drive the pressing block 509 to move downwards, at the moment, the telescopic rods 514 start to stretch, the telescopic rods 514 play a role of further limiting the moving position of the pressing block 509, the pressing plate 515 can be extruded on the surface of a solar cell panel, then the screw 512 is rotated, the screw 512 is extruded on a circular ring of the positioning plate 513 by means of threads, the effect of fixing the rotating angle of the handle 510 is achieved, and at the moment, the cutting machine 4 can be directly controlled by the control console 2 to cut the solar cell panel.

In the description of the present utility model, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

Claims (6)

1. The EVA cutting machine for processing the solar battery comprises a support (1), and is characterized in that one side of the support (1) is provided with a control console (2), the upper end of the support (1) is fixedly connected with a platen (3), the platen (3) is provided with a cutting machine (4), the support (1) is provided with a limiting structure (5), the limiting structure (5) comprises two fixing frames (501), the two fixing frames (501) are respectively and fixedly connected with two ends of the support (1), two sliding holes (502) are symmetrically formed in the upper end of the fixing frames (501), sliding blocks (503) are connected in a sliding manner, the lower ends of the sliding blocks (503) are rotationally connected with a rotating plate (508), the lower ends of the two rotating plates (508) are rotationally connected with the same pressing block (509), the upper ends of the fixing frames (501) are fixedly connected with two fixing blocks (504), the inner threads of the sliding blocks (503) are connected with driving rods (505), the two ends of the driving rods (505) are respectively and fixedly connected with two driving rods (506) in opposite directions, the two ends of the driving rods (505) are respectively and fixedly connected with one end of each driving rod (516), the novel automatic transmission device is characterized in that a conveyor belt (507) is connected to the circular arc surfaces of the driving wheel (506) and the driven wheel (516) in a transmission mode, a handle (510) is fixedly connected to one side of the driving wheel (506), a circular plate (511) is fixedly connected to the circular arc surface of the handle (510), a screw (512) is inserted into the circular plate (511) in a threaded mode, a locating plate (513) is fixedly connected to one side of the support (1) corresponding to the circular plate (511), and a circular ring is fixedly connected to one end of the locating plate (513).

2. The EVA cutting machine for solar cell processing of claim 1, wherein a telescopic rod (514) is fixedly connected to the inner side of the fixing frame (501), and the output end of the telescopic rod (514) is fixedly connected with the pressing block (509).

3. The EVA cutting machine for solar cell processing of claim 1, wherein the lower surface of the pressing block (509) is fixedly connected with a pressing plate (515), and anti-slip protrusions are uniformly arranged on the lower surface of the pressing plate (515).

4. The EVA cutting machine for solar cell processing of claim 1, wherein one side of the platen (3) is provided with an adjusting structure (6), the adjusting structure (6) comprises a clamping plate (61), the clamping plate (61) is fixedly connected to the platen (3), a screw rod (62) is inserted into the clamping plate (61) through internal threads, the upper end of the screw rod (62) is rotatably connected with a top plate (63), one end of the top plate (63) is fixedly connected with two positioning wheels (64), the two positioning wheels (64) are respectively positioned on the upper side and the lower side of a conveyor belt (507), and the two positioning wheels (64) are movably connected with the conveyor belt (507).

5. The EVA cutting machine for solar cell processing according to claim 4, wherein the arc surface of the screw rod (62) is fixedly connected with a round block (65), the arc surface of the round block (65) is rotatably connected with a clamping ring (66), the arc surface of the clamping ring (66) is fixedly connected with a positioning rod (67), and the long arm end of the positioning rod (67) penetrates through the clamping plate (61) in a sliding mode.

6. The EVA cutting machine for solar cell processing of claim 4, wherein a pull rod (68) is fixedly connected to the lower end of the screw rod (62), and the cross section of the pull rod (68) is T-shaped.