CN220144930U - Porous tapping clamp for photovoltaic epoxy material - Google Patents

Abstract

The utility model relates to a photovoltaic epoxy material porous position tapping clamp which comprises a workbench connected with a machine tool, wherein at least three rails are arranged on the workbench in a cross shape, a clamp head is movably connected to the rails, a power assembly for driving the clamp head to move along the rails is arranged on the workbench, the clamp head comprises a first positioning block and a second positioning block, the middle point of the first positioning block connected with the second positioning block forms a T-shaped structure pointing to the cross-shaped center, the first positioning block is parallel to the rails and the second positioning block is perpendicular to the rails, and one end of the first positioning block pointing to the cross-shaped center is provided with a first anti-inclined opening. Can press from both sides tight to photovoltaic board through the anchor clamps head that hangs down in the horizon, can carry out the tapping to the side of photovoltaic board, keep the photovoltaic board on the workstation again, can compress tightly the photovoltaic board on the terminal surface of workstation through the anti-bevel connection of anchor clamps head, the center of anchor clamps head to the workstation gathers together the photovoltaic board and presss from both sides tightly simultaneously, the tapping can be realized by a anchor clamps, greatly saves processing cost.

Description

Porous tapping clamp for photovoltaic epoxy material

Technical Field

The utility model relates to the technical field of photovoltaic panel manufacturing, in particular to a photovoltaic epoxy material porous position tapping clamp.

Background

With the increasing prominence of energy shortage and environmental protection problems in the world, the utilization of renewable energy sources attracts wide attention. Photovoltaic power generation is an important renewable energy form, and photovoltaic panels are increasingly used as photovoltaic epoxy materials, such as solar automobiles and solar sailboats; in daily life, the flexible photovoltaic panel can also be used in solar lamps, charging batteries of electronic products and the like.

When the photovoltaic panel is connected with the circuit board, tapping equipment and tapping clamps are needed to open holes on the photovoltaic panel, the existing tapping clamps are usually used for pressing the photovoltaic panel for processing, if the edge of the photovoltaic panel needs to be opened holes, the tapping part can be blocked by the pressing plate, and the side surface of the photovoltaic panel can be continuously tapped only by replacing another clamp, so that the cost is high; secondly, every time the photovoltaic panel is clamped and positioned, the photovoltaic panel is required to be transferred to a workbench for centering, and then mechanical clamping is realized through manual operation, so that the photovoltaic panel is troublesome.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a photovoltaic epoxy material porous tapping clamp, which is characterized in that clamp heads are arranged on a workbench in a cross shape and are of a T-shaped structure, so that two clamp heads on the same horizontal line can rapidly position and clamp a photovoltaic panel, a side surface of the photovoltaic panel is conveniently perforated, and in addition, a first positioning block of the clamp heads is also provided with an anti-inclined opening, so that the photovoltaic panel can be conveniently positioned and clamped after being horizontally placed on the workbench, and the problem that the clamp needs to be replaced and the positioning is inconvenient in the prior art is solved.

In order to solve the problems, the following technical scheme is provided:

the photovoltaic epoxy material porous position tapping clamp comprises a workbench connected with a machine tool, at least three tracks are arranged on the workbench in a cross shape, a clamp head is movably connected to the tracks, a power assembly for driving the clamp head to move along the tracks is arranged on the workbench, the clamp head comprises a first positioning block and a second positioning block, the middle point of the first positioning block connected with the second positioning block forms a T-shaped structure pointing to the cross-shaped center, the first positioning block is parallel to the tracks and the second positioning block is perpendicular to the tracks, and one end of the first positioning block pointing to the cross-shaped center is provided with a first anti-bevel opening.

By adopting the technical scheme: the same horizontal line of the workbench is provided with two clamp heads for positioning one side of the photovoltaic panel, the photovoltaic panel can be clamped through the clamp heads perpendicular to the horizontal line, the side face of the photovoltaic panel can be tapped at the moment, the clamp heads can be further adjusted, the photovoltaic panel can be horizontally placed on the workbench, the photovoltaic panel can be tightly pressed on the end face of the workbench through the anti-bevel of the clamp heads, and meanwhile the clamp heads gather towards the center of the workbench to clamp the photovoltaic panel.

The telescopic device comprises a workbench, and is characterized by further comprising a telescopic device, wherein the center of the workbench is uniformly provided with mounting holes and the periphery close to the center, the telescopic device is perpendicular to the end face of the workbench, the output end of the telescopic device is movably arranged in the mounting holes, and the output end of the telescopic device is provided with a buffer assembly.

By adopting the technical scheme: after the photovoltaic plate is flatly placed on the end face of the workbench and clamped, the periphery of the telescopic device can be started when the central part of the photovoltaic plate needs to be tapped, and the periphery of the photovoltaic plate needs to be tapped, so that the central telescopic device can be started, and impact oscillation in the tapping process can be reduced.

The buffer assembly comprises a buffer sleeve, a limiting block is slidably connected in the buffer sleeve, an opening is formed in one end of the buffer sleeve, the output end of the telescopic device extends into the buffer sleeve from the opening and is fixedly connected with the limiting block, and a buffer spring is arranged in a cavity between the limiting block and the buffer sleeve.

By adopting the technical scheme: because the clamp head is provided with the reverse bevel connection, the edge of the photovoltaic panel is propped against the reverse bevel connection after the telescopic device is extended, the buffer sleeve is propped against the end face of the photovoltaic panel, and meanwhile, the buffer spring is compressed, and when in tapping, the buffer is realized by absorbing impact through the buffer spring.

The photovoltaic panel is characterized by further comprising an auxiliary block, wherein at least two bolt holes are formed in the top of the first positioning block, connecting holes corresponding to the bolt holes are formed in the auxiliary block, a second anti-bevel is formed in one end of the auxiliary block, which points to the photovoltaic panel, and the second anti-bevel is located at the front end of the first anti-bevel.

By adopting the technical scheme: by adding the auxiliary block, the reverse bevel is prevented from losing effect when the thickness of the photovoltaic panel is larger than the height of the reverse bevel.

The power assembly comprises an electric screw rod, a cavity is formed in the workbench, a track is a hollow groove communicated with the cavity, the electric screw rod is arranged in the cavity and corresponds to the track, a nut block is fixedly connected with the bottom end of the clamp head and is in sliding connection with the track, and the electric screw rod is in threaded connection with the nut block.

By adopting the technical scheme: the bottom end of the clamp head is connected with a nut block in threaded connection with the electric screw rod, the nut block is in sliding connection with the track, and the electric screw rod can drive the nut block to move along the track, so that the clamp head can move back and forth along the track.

By adopting the scheme, the method has the following advantages:

the photovoltaic epoxy material porous tapping clamp comprises a workbench, at least three tracks are arranged on the workbench, the tracks are in cross structure arrangement, the clamp heads are movably connected to the tracks, meanwhile, a reverse bevel is arranged on a first positioning block of the clamp heads, a T-shaped structure is formed between the first positioning block and a second positioning block so as to position a photovoltaic panel, the photovoltaic panel can be clamped through the clamp heads perpendicular to a horizontal line, the side surface of the photovoltaic panel can be tapped, the photovoltaic panel is flatly placed on the workbench, the photovoltaic panel can be pressed on the end surface of the workbench through the reverse bevel of the clamp heads, the clamp heads clamp the photovoltaic panel towards the center of the workbench, and tapping can be realized through one clamp, so that the processing cost is greatly saved.

Drawings

FIG. 1 is a schematic view of a photovoltaic epoxy porous bit tapping fixture of the present utility model;

FIG. 2 is a side view of a first positioning block of the present utility model;

FIG. 3 is a schematic diagram of a buffer structure according to the present utility model;

FIG. 4 is a schematic view of the connection structure of the electric screw and nut block of the present utility model;

fig. 5 is a schematic structural diagram of embodiment 2 of the present utility model.

Reference numerals illustrate: 1. a work table; 2. a track; 3. a clamp head; 31. a first positioning block; 311. a first reverse bevel; 32. a second positioning block; 4. a telescopic device; 41. a limiting block; 5. an electric screw rod; 6. a nut block; 7. an auxiliary block; 71. a second reverse bevel; 8. a buffer sleeve; 9. and a buffer spring.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-5.

The embodiment of the utility model discloses a photovoltaic epoxy material porous position tapping clamp.

Example 1:

the photovoltaic epoxy material porous tapping clamp comprises a workbench 1 connected with a machine tool, the top end of the machine tool is connected with tapping equipment, as shown in fig. 1, four tracks 2 are arranged on the end face of the workbench 1 in a cross shape, a clamp head 3 is movably connected to each track 2, a power assembly for driving the clamp head 3 to move along the tracks 2 is arranged on the workbench 1, as shown in fig. 4, the power assembly comprises four groups of electric screw rods 5, a cavity is arranged in the workbench 1 and used for installing the electric screw rods 5, the tracks 2 adopt hollow grooves communicated with the cavity, the electric screw rods 5 are in one-to-one correspondence with the tracks 2 in the cavity, nut blocks 6 which are in sliding connection with the tracks 2 are fixedly connected to the bottom ends of the clamp heads 3, in order to improve the stability of the structure, the vertical parts of the nut blocks 6 are in an inverted T-shaped structure and are in threaded connection with the electric screw rods 5, and the horizontal parts of the nut blocks 6 are used for propping against the inner faces of the tracks 2 to realize limit; therefore, the bottom end of the fixture head 3 is connected with the nut block 6 in threaded connection with the electric screw rod 5, the nut block 6 is in sliding connection with the track 2, and the electric screw rod 5 can drive the nut block 6 to move along the track 2, so that the fixture head 3 can move back and forth along the track 2.

As also shown in fig. 1, the intersection of the rails 2 passes through the center of the table 1. The fixture head 3 comprises a first positioning block 31 and a second positioning block 32, the first positioning block 31 and the second positioning block 32 form a T-shaped structure, meanwhile, the first positioning block 31 is parallel to the track 2 and the second positioning block 32 is perpendicular to the track 2, the first positioning block 31 points to the center of the workbench 1 and is used for propping against the photovoltaic panel, as shown in fig. 2, one end of the first positioning block 31, which points to the cross center, is provided with a first anti-bevel 311, the photovoltaic panel can be tightly pressed on the end face of the workbench 1 by using the anti-bevel as the anti-bevel props against the edge of the photovoltaic panel, and as the two fixture heads 3 are arranged on the same horizontal line of the workbench 1, two feet of the panel can be placed in a right-angle groove formed on the fixture head 3 and used for positioning one side of the photovoltaic panel, and then the photovoltaic panel can be clamped by the fixture head 3 perpendicular to the horizontal line, and at this time, the side face of the photovoltaic panel can be tapped.

Further, through adjusting anchor clamps head 3 can keep the photovoltaic board flat on workstation 1, and the first anti-bevel 311 on the anchor clamps head 3 can compress tightly the photovoltaic board on the terminal surface of workstation 1, and electronic lead screw 5 drive anchor clamps head 3 gathers together in order to press from both sides the photovoltaic board to the center of workstation 1 simultaneously, can tap the terminal surface of photovoltaic board this moment, and from the above, the tapping of photovoltaic board can be realized by a anchor clamps, greatly saves processing cost.

In order to reduce impact vibration in the tapping process, as shown in fig. 1 and 3, mounting holes are uniformly formed in the center of the workbench 1 and around the periphery close to the center, the telescopic device 4 is perpendicular to the end face of the workbench 1, the output end of the telescopic device 4 is movably arranged in the mounting holes, a buffer component is arranged at the output end of the telescopic device 4, the mounting holes are slightly exposed from the output end during normal operation, a photovoltaic panel is horizontally placed on the end face of the workbench 1, after the photovoltaic panel is clamped by the clamp head 3, the buffer component is compressed by the photovoltaic panel, and impact vibration of the photovoltaic panel is absorbed by the buffer component during the tapping process; when the central part of the photovoltaic panel needs to be tapped, the retractors 4 at the periphery can be started, the photovoltaic panel is ensured to be stable all around, and when the retractors 4 at the center need to be tapped all around, the photovoltaic panel is ensured to be stable at the center.

The buffer assembly specifically comprises a buffer sleeve 8, a limiting block 41 is slidably connected in the buffer sleeve 8, an opening is formed in one end of the buffer sleeve 8, the output end of the telescopic device 4 extends into the opening and is fixedly connected with the limiting block 41, and a buffer spring 9 is arranged in a cavity between the limiting block 41 and the buffer sleeve 8. Because the clamp head 3 is provided with the first reverse bevel 311, the edge of the photovoltaic panel is propped against the reverse bevel after the expansion of the expansion device 4, the buffer sleeve 8 is propped against the end face of the photovoltaic panel, and meanwhile, the buffer spring 9 is compressed, and during tapping, impact is absorbed through the buffer spring 9 to realize buffering.

Example 2:

as shown in fig. 5, this embodiment differs from embodiment 1 in that: also comprises an auxiliary block 7; at least two bolt holes are formed in the top of the first positioning block 31, connecting holes corresponding to the bolt holes are formed in the auxiliary block 7, the bolts are inserted into the connecting holes to be connected with the bolt holes, the first positioning block 31 and the auxiliary block 7 are fixedly connected, a second anti-inclined opening 71 is formed in one end of the auxiliary block 7, which points to the photovoltaic panel, the second anti-inclined opening 71 is located at the front end of the first anti-inclined opening 311, when the thickness of the photovoltaic panel is larger than the height of the first anti-inclined opening 311, the clamp head 3 can still be extruded on the edge of the photovoltaic panel by the aid of the first anti-inclined opening 311 and the second anti-inclined opening 71 through the increase of the auxiliary block 7, and the first anti-inclined opening 311 is prevented from losing effect.

While the utility model has been described in connection with specific embodiments, it will be apparent to those skilled in the art that the description is intended to be illustrative and not limiting in scope. Various modifications and alterations of this utility model will occur to those skilled in the art in light of the spirit and principles of this utility model, and such modifications and alterations are also within the scope of this utility model.

Claims (5)

1. The utility model provides a porous position tapping anchor clamps of photovoltaic epoxy, includes workstation (1) of being connected with the lathe, is cross on workstation (1) and arranges at least three track (2), swing joint has anchor clamps head (3) on track (2), be provided with the power pack who is used for driving anchor clamps head (3) and follow track (2) removal on workstation (1), its characterized in that, anchor clamps head (3) include first locating piece (31) and second locating piece (32), the midpoint that second locating piece (32) were connected to first locating piece (31) forms the T shape structure that points to the cross center, and wherein first locating piece (31) are on a parallel with track (2) and second locating piece (32) hang down in track (2) setting, the one end that first locating piece (31) points to the cross center is provided with first anti-bevel connection (311).

2. The photovoltaic epoxy porous tapping clamp according to claim 1, further comprising a telescopic device (4), wherein the center of the workbench (1) and the periphery close to the center are uniformly provided with mounting holes, the telescopic device (4) is perpendicular to the end face of the workbench (1) and the output end of the telescopic device is movably arranged in the mounting holes, and the output end of the telescopic device (4) is provided with a buffer assembly.

3. The photovoltaic epoxy porous tapping clamp according to claim 2, wherein the buffer assembly comprises a buffer sleeve (8), a limiting block (41) is slidably connected in the buffer sleeve (8), an opening is formed in one end of the buffer sleeve (8), an output end of the telescopic device (4) extends into the opening and is fixedly connected with the limiting block (41), and a buffer spring (9) is arranged in a cavity between the limiting block (41) and the buffer sleeve (8).

4. A photovoltaic epoxy porous tapping clamp as claimed in claim 1, 2 or 3, further comprising an auxiliary block (7), wherein at least two bolt holes are formed in the top of the first positioning block (31), connecting holes corresponding to the bolt holes are formed in the auxiliary block (7), a second anti-bevel (71) is formed in one end of the auxiliary block (7) pointing to the center of the workbench (1), and the second anti-bevel (71) is located at the front end of the first anti-bevel (311).

5. The photovoltaic epoxy porous tapping clamp according to claim 4, wherein the power assembly comprises an electric screw rod (5), a cavity is formed in the workbench (1), the rail (2) is a hollow groove communicated with the cavity, the electric screw rod (5) is arranged in the cavity and corresponds to the rail (2), a nut block (6) in sliding connection with the rail (2) is fixedly connected to the bottom end of the clamp head (3), and the electric screw rod (5) is in threaded connection with the nut block (6).