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CN-224226057-U - Position calibration assembly of photovoltaic frame

CN224226057UCN 224226057 UCN224226057 UCN 224226057UCN-224226057-U

Abstract

The utility model discloses a position calibration assembly of a photovoltaic frame, which comprises a left base and a right base which are arranged at intervals, wherein a left push plate and a right push plate are movably arranged on the upper surfaces of the left base and the right base, the left push plate which can move left and right is connected with a piston rod of a left cylinder arranged on the left base, the right base which moves in the opposite direction with the left push plate is connected with a piston rod of a right cylinder arranged on the right push plate, the left cylinder and the right cylinder synchronously stretch, the right end surface of the left push plate extends to the outer side of the left base and is provided with at least one left push block, and the left end surface of the right push plate extends to the outer side of the right base and is provided with at least one right push block corresponding to the left push block. The utility model realizes the centering of the strip-shaped workpiece in the width direction by the synchronous and opposite left and right pushing blocks, thereby realizing the calibration of the workpiece position precision and improving the precision and quality of the subsequent processing of the workpiece.

Inventors

  • HU QING
  • CHEN YUCHEN
  • ZHANG JIE

Assignees

  • 苏州卓旭新能源科技有限公司

Dates

Publication Date
20260512
Application Date
20250612

Claims (7)

  1. 1. The position calibration assembly of the photovoltaic frame comprises left bases (1) and right bases (2) which are arranged at intervals, and is characterized in that a left push plate (31) and a right push plate (32) are movably arranged on the upper surfaces of the left base (1) and the right base (2), the left push plate (31) capable of moving left and right is connected with a piston rod of a left cylinder (51) arranged on the left base (1), the right base (2) capable of moving in the opposite direction to the left push plate (31) is connected with a piston rod of a right cylinder (52) arranged on the right push plate (32), and the left cylinder (51) and the right cylinder (52) synchronously stretch; The right end face of the left push plate (31) extends to the outer side of the left base (1) and is provided with at least one left push block (41), the left end face of the right push plate (32) extends to the outer side of the right base (2) and is provided with at least one right push block (42) corresponding to the left push block (41), and when the left air cylinder (51) and the right air cylinder (52) are switched from a first state to a second state, the left push plate (31) and the right push plate (32) are close to each other until the left push block (41) and the right push block (42) which are correspondingly arranged are in extrusion contact with the end face of the strip-shaped workpiece (100) between the left push block and the right push block.
  2. 2. The position calibration assembly of a photovoltaic frame according to claim 1, wherein the left pushing plate (31) and the right pushing plate (32) are respectively arranged on the left base (1) and the right base (2) through at least one group of sliding rails (61) and sliding blocks (62).
  3. 3. The positional calibration assembly of a photovoltaic bezel of claim 1, wherein said left push block (41) and right push block (42) are flexible push blocks.
  4. 4. The positional calibration assembly of a photovoltaic bezel of claim 1, wherein said left push block (41) and right push block (42) are each a silicone block or a rubber block.
  5. 5. The positional calibration assembly of a photovoltaic bezel of claim 1, wherein 2 push blocks (41) and 2 push blocks (42) are each provided.
  6. 6. The photovoltaic frame position calibration assembly of claim 1, wherein the left cylinder (51) and the right cylinder (52) are respectively arranged on the left side of the left push plate (31) and the right side of the right push plate (32) through a supporting seat (7).
  7. 7. The positional calibration assembly of a photovoltaic bezel of claim 6, wherein a first state of said left (51) and right (52) cylinders is a piston rod contracted state and a second state of said left (51) and right (52) cylinders is a piston rod extended state.

Description

Position calibration assembly of photovoltaic frame Technical Field The utility model relates to the technical field of photovoltaics, in particular to a position calibration assembly of a photovoltaic frame for gluing in a photovoltaic processing production line. Background The photovoltaic module can be processed by a plurality of working procedures in the production process to obtain a finished product, and workpieces are required to be continuously carried among the working procedures. In the prior art, during the process of carrying the workpiece, the position of the workpiece is usually deviated, so that the position accuracy of the workpiece is poor, and if the workpiece carried to a station is not calibrated, the accuracy and quality of the subsequent processing of the workpiece can be affected. Disclosure of utility model The utility model aims to solve the technical problem of providing a position calibration assembly of a photovoltaic frame, which can calibrate the position precision of a workpiece, thereby improving the precision and quality of subsequent processing of the workpiece. The position calibration assembly comprises a left base and a right base which are arranged at intervals, wherein the upper surfaces of the left base and the right base are movably provided with a left push plate and a right push plate, the left push plate which can move left and right is connected with a piston rod of a left cylinder arranged on the left base, the right base which moves in the opposite direction with the left push plate is connected with a piston rod of a right cylinder arranged on the right push plate, and the left cylinder and the right cylinder synchronously stretch; the right end face of the left push plate extends to the outer side of the left base and is provided with at least one left push block, the left end face of the right push plate extends to the outer side of the right base and is provided with at least one right push block corresponding to the left push block, and when the left cylinder and the right cylinder are switched from a first state to a second state, the left push plate and the right push plate are close to each other in opposite directions until the left push block and the right push block which are correspondingly arranged are respectively in extrusion contact with the end face of the strip-shaped workpiece between the left push block and the right push block. The further improved scheme in the technical scheme is as follows: 1. In the scheme, the left push plate and the right push plate are respectively arranged on the left base and the right base through at least one group of sliding rails and sliding blocks. 2. In the scheme, the left pushing block and the right pushing block are flexible pushing blocks. 3. In the scheme, the left pushing block and the right pushing block are both silica gel blocks or rubber blocks. 4. In the scheme, the left pushing block and the right pushing block are respectively provided with 2 pushing blocks. 5. In the scheme, the left cylinder and the right cylinder are respectively arranged on the left side of the left push plate and the right side of the right push plate through a supporting seat. 6. In the above scheme, the first state of the left cylinder and the right cylinder is a piston rod shrinkage state, and the second state of the left cylinder and the right cylinder is a piston rod extension state. Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages: The utility model relates to a position calibration assembly of a photovoltaic frame, which is characterized in that a left push plate capable of moving left and right is connected with a piston rod of a left cylinder arranged on a left base, a right base moving in the opposite direction of the left push plate is connected with a piston rod of a right cylinder arranged on a right push plate, the left cylinder and the right cylinder synchronously stretch, the right end face of the left push plate extends to the outer side of the left base and is provided with at least one left push block, the left end face of the right base extends to the outer side of the right base and is provided with at least one right push block corresponding to the left push block, when the left cylinder and the right cylinder are switched from a first state to a second state, the left push plate and the right push plate are close to each other until the left push block and the right push block which are correspondingly arranged are in extrusion contact with the end face of a strip-shaped workpiece arranged between the left push block and the right push block, and the centering of the strip-shaped workpiece in the width direction is realized through the left push block and the right push block which are close to each other in synchronization, so that the alignment of the position precision of the workpiece is realized, and the precision of the su