CN215869435U - Clamping device for punching solar panel frame - Google Patents

Abstract

The utility model discloses a clamping device for punching a solar panel frame, which relates to the technical field of photovoltaic equipment and comprises a workbench, a pair of first air cylinders vertically arranged on one side of the upper surface of the workbench, a horizontally arranged movable plate, an upper die and a lower die arranged at the central position of the workbench, wherein the telescopic ends of the pair of first air cylinders are jointly connected with one side of the lower bottom surface of the movable plate, the other side of the lower bottom surface of the movable plate is connected with the upper surface of the upper die through a connecting column, the upper die corresponds to the lower die in the vertical direction, and a buckling structure is arranged on one side of the upper surface of the workbench, which is far away from the pair of first air cylinders, has universality.

Description

Clamping device for punching solar panel frame

Technical Field

The utility model relates to the technical field of photovoltaic equipment, in particular to a clamping device for punching a solar panel frame.

Background

The photovoltaic panel assembly is a power generation device which can generate direct current when exposed to the sun and consists of a thin solid photovoltaic cell which is almost made of semiconductor materials; because there is no moving part, it can be operated for a long time without causing any loss; the simple photovoltaic cell can provide energy for watches and calculators, and the more complex photovoltaic system can provide illumination for houses and supply power for a power grid; photovoltaic panel subassembly includes solar panel's frame, it is the important part of installation and fixed panel, and its precision that punches influences the stability of installation, and the solar panel frame is the rectangular alloy of both sides mutually perpendicular angled shape, and it is punching a hole or the drilling messenger is difficult to fix to influence the precision that punches, so a clamping device who is used for the solar panel frame to punch a hole is urgent to be under development.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides the clamping device for punching the solar panel frame, the vertical edges of the material plates can be fixed through the buckling structures, the buckling is stable and not easy to loosen, the clamping stability is greatly improved, the punching is more accurate, the buckling positions can be adjusted, the requirement that the material plates with different sizes are matched with dies for processing can be met, and the clamping device has universality.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a clamping device for punching a solar panel frame comprises a workbench, a pair of first air cylinders vertically mounted on one side of the upper surface of the workbench, a horizontally arranged moving plate, an upper die and a lower die mounted at the center of the workbench, wherein the telescopic ends of the first air cylinders are connected with one side of the lower bottom surface of the moving plate together, the other side of the lower bottom surface of the moving plate is connected with the upper surface of the upper die through a connecting column, the upper die corresponds to the lower die in the vertical direction, a buckling structure is arranged on one side, away from the pair of first air cylinders, of the upper surface of the workbench, a material plate with mutually perpendicular two sides and an L-shaped cross section is buckled on the edge of the lower die, the horizontal side is jointed with the upper surface of the lower die, the vertical side is jointed with the side surface of the lower die corresponding to the buckling structure, and the buckling structure and the lower die can clamp the vertical side of the material plate; the buckling structure comprises a driving component and a contact component.

Preferably, the driving assembly comprises a second cylinder horizontally arranged on the edge of the upper surface of the workbench, a rack connected with the telescopic end of the second cylinder, a gear and a rotating rod, a pair of fixing plates are fixedly arranged on the upper surface of the workbench and positioned on one side far away from the pair of first cylinders, through holes are formed in the horizontal planes of the fixing plates, the rotating rod movably penetrates through the through holes of the fixing plates, clamping plates are arranged on the side walls of the two ends of the rotating rod, one end of the rotating rod corresponding to the second cylinder and the rack is connected with the gear, and the gear is meshed with the rack; the dwang middle part sets up to the hexagonal prism with dwang integrated into one piece, the contact assembly sets up on the hexagonal prism of dwang.

Preferably, the workbench is provided with a limiting plate corresponding to the movable position of the rack, the limiting plate is provided with a limiting hole, and the rack can be inserted into the limiting hole in a pulling mode.

Preferably, the contact assembly comprises a rotating plate, a connecting rod and a cylindrical extrusion head, a hexagonal hole matched with the hexagonal prism of the rotating rod is formed in the side wall of one end of the rotating plate, the rotating plate is sleeved into the hexagonal prism through the hexagonal hole to enable the hexagonal prism to move horizontally, a plurality of threaded holes are uniformly formed in the upper surface of the hexagonal prism, a through hole with the diameter larger than that of the threaded hole is formed in the upper surface of the rotating plate, the through hole penetrates through the through hole through a screw to be screwed with the threaded hole of the hexagonal prism, the connecting rod is fixedly connected with the front wall of the lower end of the rotating plate, and the extrusion head is movably connected with the connecting rod.

Preferably, be provided with the cavity in the extrusion head, the cavity corresponds connecting rod one side and is provided with the opening that is less than the cavity diameter, is greater than the connecting rod diameter, the connecting rod inserts the opening and carries out the screens through the chuck of connecting, it is provided with buffer spring to overlap between extrusion head and the rotor plate on the connecting rod.

Preferably, a rubber pad is arranged at the front end of the extrusion head.

The utility model provides a clamping device for punching a solar panel frame, which has the following beneficial effects:

1. according to the utility model, the vertical edges of the material plates can be fixed through the buckling structure, the buckling is stable and not easy to loosen, the clamping stability is greatly improved, the punching is more accurate, the buckling position can be adjusted, the requirement that the material plates with different sizes are matched with molds for processing can be met, and the universality is realized;

2. according to the utility model, the buffer spring is arranged between the extrusion head and the rotating plate, and the rubber pad is arranged at the front end of the extrusion head, so that a certain buffer effect is achieved before the material plate is completely fixed, and the damage is avoided; the rack is arranged in the limiting hole of the limiting plate, so that the transmission relation between the rack and the gear is more stable.

Drawings

FIG. 1 is a front view of a schematic view of a clamping device for punching a solar panel frame according to the present invention.

FIG. 2 is a left side view of the schematic view of the clamping device for punching the solar panel frame according to the present invention.

FIG. 3 is a top view of the lower mold of FIG. 1 according to the present invention.

FIG. 4 is a left side sectional view of the present invention at the rotating plate.

In the figure: 1. a limiting plate; 2. a limiting hole; 3. a rack; 4. a fixing plate; 5. a lower die; 6. rotating the rod; 7. a hexagonal prism; 8. connecting columns; 9. an extrusion head; 10. a rotating plate; 11. a screw; 12. a work table; 13. clamping a plate; 14. a material plate; 15. an upper die; 16. moving the plate; 17. a first cylinder; 18. a gear; 19. a second cylinder; 20. a threaded hole; 21. a rubber pad; 22. a buffer spring; 23. a cavity; 24. a connecting rod; 25. a hexagonal hole; 26. a through hole; 27. a chuck.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-4, a clamping device for punching a solar panel frame comprises a workbench 12, a pair of first air cylinders 17 vertically installed on one side of the upper surface of the workbench 12, a horizontally arranged moving plate 16, an upper die 15 and a lower die 5 installed at the center of the workbench 12, wherein the telescopic ends of the pair of first air cylinders 17 are connected with one side of the lower bottom surface of the moving plate 16, the other side of the lower bottom surface of the moving plate 16 is connected with the upper surface of the upper die 15 through a connecting column 8, the upper die 15 corresponds to the lower die 5 in the vertical direction, a buckling structure is arranged on one side, far away from the pair of first cylinders 17, of the upper surface of the workbench 12, material plates 14 with mutually vertical two sides and L-shaped sections are buckled on the edges of the lower die 5, the horizontal sides are attached to the upper surface of the lower die 5, the vertical sides are attached to the side surfaces of the lower die 5 corresponding to the buckling structure, and the buckling structure and the lower die 5 can clamp the vertical sides of the material plates 14; the buckling structure comprises a driving component and a contact component; the driving assembly comprises a second cylinder 19 horizontally arranged at the edge of the upper surface of the workbench 12, a rack 3 connected with the telescopic end of the second cylinder 19, a gear 18 and a rotating rod 6, a pair of fixing plates 4 are fixedly arranged on the upper surface of the workbench 12 and positioned at one side far away from the pair of first cylinders 17, through holes are horizontally arranged in the pair of fixing plates 4, the rotating rod 6 movably penetrates through the through holes of the pair of fixing plates 4, clamping plates 13 are arranged on the side walls of two ends of the rotating rod 6, one end of the rotating rod 6 corresponding to the second cylinder 19 and the rack 3 is connected with the gear 18, and the gear 18 is meshed with the rack 3; the middle part of the rotating rod 6 is provided with a hexagonal prism 7 which is integrally formed with the rotating rod 6, and the contact assembly is arranged on the hexagonal prism 7 of the rotating rod 6; a limiting plate 1 is arranged on the workbench 12 and corresponds to the movable position of the rack 3, a limiting hole 2 is formed in the limiting plate 1, and the rack 3 can be inserted into the limiting hole 2; the contact assembly comprises a rotating plate 10, a connecting rod 24 and a cylindrical extrusion head 9, wherein a hexagonal hole 25 matched with the hexagonal prism 7 of the rotating rod 6 is formed in the side wall of one end of the rotating plate 10, the rotating plate 10 is sleeved into the hexagonal prism 7 through the hexagonal hole 25 and can only horizontally move, a plurality of threaded holes 20 are uniformly formed in the upper surface of the hexagonal prism 7, a through hole 26 with the diameter larger than that of the threaded hole 20 is formed in the upper surface of the rotating plate 10, the through hole 26 penetrates through the through hole 26 through a screw 11 and is in screwed connection with the threaded hole 20 of the hexagonal prism 7, the connecting rod 24 is fixedly connected with the front wall of the lower end of the rotating plate 10, and the extrusion head 9 is movably connected with the connecting rod 24; a cavity 23 is arranged in the extrusion head 9, an opening which is smaller than the diameter of the cavity 23 and larger than the diameter of the connecting rod 24 is arranged on one side of the cavity 23 corresponding to the connecting rod 24, the connecting rod 24 is inserted into the opening and clamped by a connected chuck 27, and a buffer spring 22 is arranged between the extrusion head 9 and the rotating plate 10 and sleeved on the connecting rod 24; the front end of the extrusion head 9 is provided with a rubber pad 21.

The detailed connection means is a technique known in the art, and the following main description is provided for the working principle and process, and specifically provided for the following:

as can be seen from the drawings of the specification and the description of the figures 1-4, when the utility model works, firstly, the material plate 14 with two mutually vertical sides and L-shaped section is buckled on the edge of the lower die 5; the second cylinder 19 starts to extend, taking fig. 3 as an example, the telescopic end pushes the rack 3 to move downwards, the rack 3 penetrates through the limiting hole 2 of the limiting plate 1, so that the movement is stable, the rack 3 is meshed with the gear 18, and the gear 18 is connected with the rotating rod 6 which is rotatably connected with the through holes of the pair of fixing plates 4, so that the rack 3 moves downwards, so that the gear 18 rotates, the rotating rod 6 is driven to rotate, and the side walls of the two ends of the rotating rod 6 are provided with the clamping plates 13, so that the rotating rod 6 rotates more stably in the through holes of the fixing plates 4; the hexagonal prism 7 in the middle of the rotating rod 6 is inserted into the hexagonal hole 25 of the rotating plate 10, so that the rotating plate rotates along with the rotation of the rotating rod 6, meanwhile, the rotating plate 10 penetrates through a screw 11 and is screwed and fixed with a certain threaded hole 20 in the hexagonal prism 7, the threaded holes 20 are arranged in a row at equal intervals, and the fixed position can be selected according to specific conditions; the rotating rod 6 rotates to drive the rotating plate 10 to rotate by taking the axis of the rotating rod 6 as a center, the distance from the lower die 5 to the axis of the rotating rod 6 is greater than the length of the connecting rod 24 and less than the total length of the connecting rod 24 and the extrusion head 9, the rotating plate 10 rotates to drive the connecting rod 24 and the extrusion head 9 to rotate, when the rotation is close to 180 degrees, the extrusion head 9 contacts the vertical edge of the material plate 14, the extrusion head 9 is extruded to be compressed towards the rotating plate 10, the buffer spring 22 between the extrusion head 9 and the rotating plate 10 is compressed, the rotation is stopped when the rotation is 180 degrees, the material plate 14 is clamped by the reaction force of the compressed buffer spring 22, the buckling is stable and is not easy to loosen, the clamping stability is greatly improved, and the punching is more accurate; the rubber pad 21 in front of the extrusion head 9 increases the friction with the material plate 14; at the moment, the first air cylinder 17 contracts, the movable plate 16 at the telescopic end moves downwards, the upper die 15 connected with the connecting column 8 on the lower bottom surface of the movable plate 16 is pushed to move downwards, and the upper die 15 and the lower die 5 are matched to complete punching of the material plate 14; the first cylinder 17 is extended to lift the upper die 15, the second cylinder 19 is contracted, the rack 3 is pulled back, the gear 18 is rotated reversely, the rotating rod 6 and the rotating plate 10 are rotated reversely to be separated from the material plate 14, and a person unloads the material.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The clamping device for punching the solar panel frame comprises a workbench (12), a pair of first cylinders (17) vertically mounted on one side of the upper surface of the workbench (12), a horizontally arranged moving plate (16), an upper die (15) and a lower die (5) mounted at the center of the workbench (12), wherein the telescopic ends of the pair of first cylinders (17) are connected with one side of the lower bottom surface of the moving plate (16) together, the other side of the lower bottom surface of the moving plate (16) is connected with the upper surface of the upper die (15) through a connecting column (8), the upper die (15) corresponds to the lower die (5) in the vertical direction, the clamping device is characterized in that a buckling structure is arranged on one side, far away from the pair of first cylinders (17), of the upper surface of the workbench (12), material plates (14) with mutually vertical two sides and L-shaped cross sections are buckled on the edges of the lower die (5), and the horizontal sides are attached to the upper surface of the lower die (5), The vertical edge is attached to the side surface of the lower die (5) corresponding to the buckling structure, and the buckling structure and the lower die (5) can clamp the vertical edge of the material plate (14); the buckling structure comprises a driving component and a contact component.

2. The clamping device for solar panel frame punching according to claim 1, the driving component comprises a second cylinder (19) horizontally arranged on the edge of the upper surface of the workbench (12), a rack (3) connected with the telescopic end of the second cylinder (19), a gear (18) and a rotating rod (6), a pair of fixing plates (4) are fixedly arranged on the upper surface of the workbench (12) and positioned on one side far away from the pair of first cylinders (17), through holes are horizontally arranged in the pair of fixing plates (4), the rotating rod (6) movably penetrates through the through holes of the pair of fixing plates (4), clamping plates (13) are arranged on the side walls of the two ends of the rotating rod (6), one end of the rotating rod (6), corresponding to the second cylinder (19) and the rack (3), is connected with a gear (18), and the gear (18) is meshed with the rack (3); dwang (6) middle part sets up to hexagonal prism (7) with dwang (6) integrated into one piece, the contact assembly sets up on hexagonal prism (7) of dwang (6).

3. The clamping device for solar panel frame punching according to claim 2, wherein a limiting plate (1) is mounted on the workbench (12) and corresponding to the movable position of the rack (3), a limiting hole (2) is formed in the limiting plate (1), and the rack (3) can be inserted into the limiting hole (2).

4. The clamping device for solar panel frame punching according to claim 2, the contact assembly comprises a rotating plate (10), a connecting rod (24) and a cylindrical extrusion head (9), the side wall of one end of the rotating plate (10) is provided with a hexagonal hole (25) matched with the hexagonal prism (7) of the rotating rod (6), the rotating plate (10) is sleeved in the hexagonal prism (7) through the hexagonal hole (25) so that the rotating plate can only horizontally move, a plurality of threaded holes (20) are uniformly formed in the upper surface of the hexagonal prism (7), the upper surface of the rotating plate (10) is provided with a through hole (26) with the diameter larger than that of the threaded hole (20), the screw (11) penetrates through the through hole (26) and is screwed with the threaded hole (20) of the hexagonal prism (7), the connecting rod (24) is fixedly connected with the front wall of the lower end of the rotating plate (10), and the extrusion head (9) is movably connected with the connecting rod (24).

5. The clamping device for solar panel frame perforating as claimed in claim 4, characterized in that a cavity (23) is provided in the extrusion head (9), an opening smaller than the diameter of the cavity (23) and larger than the diameter of the connecting rod (24) is provided on one side of the cavity (23) corresponding to the connecting rod (24), the connecting rod (24) is inserted into the opening and clamped by a connected chuck (27), and a buffer spring (22) is provided between the extrusion head (9) and the rotating plate (10) and sleeved on the connecting rod (24).

6. The clamping device for solar panel frame perforating as claimed in claim 4, characterized in that the front end of the extrusion head (9) is provided with a rubber pad (21).

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