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CN-224222043-U - Processing device for section bar

CN224222043UCN 224222043 UCN224222043 UCN 224222043UCN-224222043-U

Abstract

The application relates to a processing device of a section bar, which relates to the technical field of processing of section bars, and comprises a frame and a detection mechanism arranged on the frame, wherein the section bar is arranged on the detection mechanism, the section bar is provided with a first side face and a second side face, the first side face and the second side face are adjacently arranged, the first side face and the second side face extend along the length direction of the section bar, the detection mechanism comprises a first detection component, a turning cylinder and a second detection component, the first detection component is used for detecting the straightness of the section bar in the length direction of the section bar when the first detection component is in a first state, the turning cylinder is used for jacking the section bar upwards from one side where the second side face is located so as to turn the section bar from the first state to the second state, and the second detection component is used for detecting the straightness of the second side face in the length direction of the section bar when the section bar is in the second state.

Inventors

  • ZHANG JIANKAN
  • HUANG JUNJUN
  • ZHAO FENG

Assignees

  • 振石集团华美新材料有限公司

Dates

Publication Date
20260512
Application Date
20250519

Claims (10)

  1. 1. The processing device of the profile is characterized by comprising a frame and a detection mechanism arranged on the frame; The section bar is arranged on the detection mechanism and is provided with a first side face and a second side face, the first side face and the second side face are arranged adjacently, and the first side face and the second side face extend along the length direction of the section bar; The detection mechanism includes: the first detection component is used for detecting the straightness of the first side surface in the length direction of the section bar when the section bar is in a first state; The turning cylinder jacks up the section bar from one side where the second side face is located so as to turn the section bar from the first state to the second state; And the second detection assembly is used for detecting the straightness of the second side surface in the length direction of the section bar when the section bar is in the second state.
  2. 2. The apparatus for processing a profile according to claim 1, wherein, The first detection assembly includes: A first reference pin provided on a side of the first side surface in the first state; The first detection cylinder is arranged on one side of the section bar, which is far away from the first reference pin, and is used for pushing the section bar in the first state so as to enable the first side surface to be abutted against the first reference pin; The first interval detector is arranged on the same side of the section bar with the first reference pin, the first interval detector and the first reference pin are arranged in parallel along the length direction of the section bar, and the first interval detector is used for detecting the interval between the first interval detector and the first side face.
  3. 3. The processing device of the profile according to claim 2, wherein, The second detection assembly includes: the second reference pin is arranged on one side of the section bar, which is away from the first reference pin; The second detection air cylinders are arranged on two sides of the section bar opposite to the second reference pins and are used for pushing the section bar in the second state so as to enable the second side face to be abutted against the second reference pins; The second interval detector is arranged on the same side of the section bar with the second reference pin, the second interval detector and the second reference pin are arranged in parallel along the length direction of the section bar, and the second interval detector is used for detecting the interval between the second interval detector and the second side face.
  4. 4. A processing apparatus for profiled elements as claimed in claim 3, characterized in that, The first and second pitch detectors are provided as laser sensors.
  5. 5. The apparatus for processing a profile according to claim 1, wherein, The detection mechanism further comprises a third detection component, wherein the third detection component is used for detecting the length of the section bar; the third detection assembly includes: A first reference block located at a first end of the profile; The third detection cylinder is positioned at the second end of the section bar and is provided with a fixed end and a driving end, and the driving end moves in a telescopic way relative to the fixed end; the second reference block is arranged at the driving end and drives the second reference block to move, and the second reference block pushes the section bar so as to enable the first end of the section bar to be abutted to the first reference block; and the third interval detector is arranged at the fixed end and is used for detecting the interval between the third interval detector and the second reference block.
  6. 6. The apparatus for processing a profile according to claim 1, wherein, The detection mechanism further comprises a first supporting frame, the first supporting frame is arranged on the frame, and the first detection assembly, the second detection assembly and the turning-over cylinder are arranged on the first supporting frame.
  7. 7. The apparatus for processing a profile according to claim 6, wherein, The first support frame includes first backup pad and second backup pad, first backup pad is connected the frame, the second backup pad is connected first backup pad, first detection subassembly the second detection subassembly with the section bar set up in the top of second backup pad, stand up the cylinder set up in the below of second backup pad.
  8. 8. The apparatus for processing a profile according to claim 7, wherein, The second supporting plate is provided with an air cylinder through hole, and the driving end of the turning-over air cylinder penetrates through the air cylinder through hole to jack up the section bar upwards.
  9. 9. The apparatus for processing a profile according to claim 1, wherein, Still include transport mechanism and letter sorting mechanism, letter sorting mechanism set up in transport mechanism, transport mechanism drives letter sorting mechanism removes, transport mechanism is used for with the section bar transfer to detection mechanism, letter sorting mechanism is used for with the section bar is held up and is put to classification frame.
  10. 10. The apparatus for processing a profile according to claim 9, wherein, The sorting mechanism includes: The sorting cylinder is provided with a fixed end and a driving end, the fixed end of the sorting cylinder is arranged on the conveying mechanism, the driving end of the sorting cylinder moves in a telescopic mode in the vertical direction, and the driving end of the sorting cylinder is used for supporting the section bar; The clamping block is arranged at the driving end of the sorting cylinder and used for limiting the section bar to be separated from the driving end of the sorting cylinder.

Description

Processing device for section bar Technical Field The application relates to the technical field of processing of sectional materials, in particular to a processing device of sectional materials. Background In the photovoltaic industry, profiles are used as important components of photovoltaic modules, the quality of which directly influences the performance and the service life of the photovoltaic modules. Straightness is one of key quality indexes of the profile, and accurate measurement of straightness of two faces of the profile is important for ensuring assembly accuracy and overall performance of the photovoltaic module. At present, the prior art has a plurality of problems in detecting the straightness of the sectional material. On the one hand, the conventional detection method mostly adopts manual measurement, for example, simple tools such as a guiding ruler, a feeler gauge and the like are used for comparison measurement. The method is low in efficiency, the requirement of mass production is difficult to meet, the detection result is greatly influenced by artificial factors, and the measurement accuracy is difficult to guarantee. During manual measurement, the measurement methods and experience differences of different operators can cause larger deviation of measurement data, and the actual straightness of the profile cannot be accurately reflected. On the other hand, some existing automated detection apparatuses, although improving the detection efficiency to some extent, have limitations in detection accuracy and detection range. Some devices can only detect the straightness of a single surface of a section bar, and cannot detect the straightness of two surfaces at the same time. Moreover, the existing automatic detection equipment is often designed aiming at sectional materials with specific specifications, so that the universality is poor, and when the sectional materials with different sizes and models are faced, detection tools are required to be frequently replaced or the equipment is debugged again, so that the operation is complex and the cost is high. Disclosure of utility model In order to overcome the above-mentioned drawbacks of the prior art, the present application aims to provide a processing device for profiles. According to the present application there is provided a processing device for a profile, comprising: The section bar is arranged on the detection mechanism and is provided with a first side face and a second side face, the first side face and the second side face are arranged adjacently, and the first side face and the second side face extend along the length direction of the section bar; The detection mechanism includes: The first detection component is used for detecting the straightness of the first side face in the length direction of the section bar when the section bar is in a first state; The turning cylinder jacks up the section bar from one side where the second side face is located so as to turn the section bar from the first state to the second state; And the second detection assembly is used for detecting the straightness of the second side surface in the length direction of the section bar when the section bar is in the second state. In some possible embodiments, the first detection component includes: A first reference pin provided on a side of the first side surface in the first state; The first detection cylinder is arranged on one side of the section bar, which is far away from the first reference pin, and is used for pushing the section bar in the first state so as to enable the first side surface to be abutted against the first reference pin; The first interval detector is arranged on the same side of the section bar with the first reference pin, the first interval detector and the first reference pin are arranged in parallel along the length direction of the section bar, and the first interval detector is used for detecting the interval between the first interval detector and the first side face. In some possible embodiments, the second detection component includes: the second reference pin is arranged on one side of the section bar, which is away from the first reference pin; The second detection air cylinders are arranged on two sides of the section bar opposite to the second reference pins and are used for pushing the section bar to enable the second side face to be abutted against the second reference pins; The second interval detector is arranged on the same side of the section bar with the second reference pin, the second interval detector and the second reference pin are arranged in parallel along the length direction of the section bar, and the second interval detector is used for detecting the interval between the second interval detector and the second side face. In some possible embodiments, the first pitch detector and the second pitch detector are provided as laser sensors. In some possible embodiments, the profile has a first end and a s