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CN-224224585-U - Acrylic plate heat radiation treatment device

CN224224585UCN 224224585 UCN224224585 UCN 224224585UCN-224224585-U

Abstract

The utility model relates to an acrylic plate heat radiation treatment device which comprises a shell and a first supporting component arranged in the shell, wherein the first supporting component comprises a plurality of first wire bodies paved along the length direction of the shell, the first wire bodies are equidistantly distributed along the thickness direction of the shell to form a first supporting plane, a plurality of second wire bodies are connected between two adjacent first wire bodies, and the second wire bodies are equidistantly distributed along the length direction of the first wire bodies and are matched with the first wire bodies to form a net-shaped supporting surface. The utility model adopts the net-shaped supporting surface composed of the first line bodies which are paved along the length direction of the shell and are equidistantly distributed in the thickness direction and the second line bodies which are connected with the first line bodies and are equidistantly distributed along the length direction of the first line bodies, so that the acrylic plate and the first supporting component of the bearing piece form line contact, the contact area is greatly reduced, the heat conduction is effectively reduced, the temperature reduction and the temperature gradient formation of the contact area of the acrylic plate caused by the heat conduction of the bearing piece are reduced, and the uniform distribution of the heat radiation on the acrylic plate is ensured.

Inventors

  • ZHOU XIAOER
  • WU BO
  • ZHOU DONGTAO
  • DAI FENGFEI

Assignees

  • 安徽新涛光电科技有限公司

Dates

Publication Date
20260512
Application Date
20250527

Claims (8)

  1. 1. The acrylic plate heat radiation treatment device comprises a shell (100) and a first supporting component (200) arranged in the shell (100), and is characterized in that the first supporting component (200) comprises a plurality of first wire bodies (210) paved along the length direction of the shell (100), and the plurality of first wire bodies (210) are equidistantly distributed along the thickness direction of the shell (100) to form a first supporting plane; A plurality of second wire bodies (220) are connected between two adjacent first wire bodies (210), and the plurality of second wire bodies (220) are distributed along the length direction of the first wire bodies (210) at equal intervals and are matched with the first wire bodies (210) to form a net-shaped supporting surface.
  2. 2. The heat radiation treatment device for acrylic plate according to claim 1, wherein a white space for arranging the second wire body (220) is arranged between two adjacent first wire bodies (210), and the second wire bodies (220) between the two adjacent white space are arranged in a staggered manner.
  3. 3. The heat radiation treatment device for acrylic plate according to claim 2, wherein the first wire body (210) and the second wire body (220) are made of metal.
  4. 4. The heat radiation treatment device for acrylic plate of claim 3, wherein one side of the housing (100) is provided with a hook ring (230) corresponding to the first wire body (210), the other side is rotatably provided with a winding drum (240), one end of the first wire body (210) is connected to the hook ring (230), the other end is wound and connected outside the winding drum (240), and the tension of the first wire body (210) can be adjusted when the winding drum (240) is driven to rotate by an external force.
  5. 5. The heat radiation treatment device for acrylic plate according to claim 4, wherein the winding drum (240) is provided with a ring set (241) corresponding to the first wire body (210), and the ring set (241) comprises two baffle plates arranged at two sides of the first wire body (210) at intervals.
  6. 6. The acrylic plate heat radiation treatment device according to claim 5, further comprising a second supporting component (300), wherein the second supporting component (300) comprises a plurality of fixing strips (310) which are horizontally paved, the fixing strips (310) are equidistantly distributed along the thickness direction of the shell (100), a plurality of supporting rods (311) are equidistantly distributed on the fixing strips (310) along the length direction, and the supporting rods (311) on the fixing strips (310) form a second supporting plane.
  7. 7. The heat radiation treatment device for acrylic plates according to claim 6, wherein the support bars (311) on two adjacent fixing bars (310) are staggered.
  8. 8. The heat radiation treatment device for acrylic plate according to claim 6, wherein the support bar (311) and the second wire body (220) are arranged in a staggered manner on a horizontal projection plane.

Description

Acrylic plate heat radiation treatment device Technical Field The utility model belongs to the technical field of acrylic plates, and particularly relates to a heat radiation treatment device for an acrylic plate. Background The acrylic plate is chemically named as polymethyl methacrylate, and has wide application in advertisement display, building decoration, optical instrument, electronic and electric appliance and other fields due to its high transparency, good processing performance, stable chemical property, excellent weather resistance and other advantages. In practical applications, heat radiation treatment is a common and effective means for further optimizing the performance of acrylic plates, such as improving their dimensional stability, eliminating internal stress, improving optical properties, and enhancing mechanical strength. The heat radiation treatment device transmits heat to the acrylic plate in a heat radiation mode, so that the internal microstructure of the acrylic plate is promoted to be changed favorably, and the performance is improved. However, in long-term practice and research, it is found that the supporting portion has a significant influence on the heat treatment effect in the heat radiation treatment process of the acrylic plate. At present, common bearing modes mostly adopt structures such as bearing plates, brackets and the like. When the support members support the acrylic plate, the support members inevitably contact the acrylic plate in a large area. Because of the heat conduction property of the material of the supporting member, heat can be quickly conducted to the supporting member along the contact part, so that the temperature of the contact area of the acrylic plate and the supporting member is lower than that of other areas, and a temperature gradient is formed. The heat radiation treatment effect is greatly reduced due to the fact that the uniform distribution of the heat radiation on the acrylic plate is affected, and quality problems such as deformation and cracking can be caused in the subsequent use process due to uneven internal stress distribution of the acrylic plate. In addition, the bearing piece contacted in a large area can also shield part of heat radiation, so that the area of the acrylic plate receiving the heat radiation is reduced, and particularly, the area covered by the bearing piece cannot be directly acted on by the heat radiation, and the efficiency and the quality of heat radiation treatment are further reduced. Meanwhile, the tight contact state between the supporting piece and the acrylic plate prevents free flow of air around the acrylic plate, heat exchange and uniform distribution are affected, and optimization of heat radiation treatment effect is not facilitated. Disclosure of utility model Aiming at the problems in the prior art, the utility model provides an acrylic plate heat radiation treatment device, which has the following specific technical scheme: The acrylic plate heat radiation treatment device comprises a shell and a first supporting component arranged in the shell, wherein the first supporting component comprises a plurality of first wire bodies paved along the length direction of the shell, and the first wire bodies are equidistantly distributed along the thickness direction of the shell to form a first supporting plane; a plurality of second wire bodies are connected between the adjacent first wire bodies, and the second wire bodies are distributed along the length direction of the first wire bodies at equal intervals and are matched with the first wire bodies to form a net-shaped supporting surface. As a further technical scheme of the utility model, a white-reserving area for arranging the second wire body is arranged between two adjacent first wire bodies, and the second wire bodies between the two adjacent white-reserving areas are arranged in a staggered mode. As a further technical scheme of the utility model, the first wire body and the second wire body are both made of metal materials. As a further technical scheme of the utility model, one side of the shell is provided with the hook ring corresponding to the first wire body, the other side of the shell is rotatably provided with the winding drum, one end of the first wire body is connected to the hook ring, the other end of the first wire body is wound and connected outside the winding drum, and the tension of the first wire body can be adjusted when the winding drum is driven to rotate by an external force. As a further technical scheme of the utility model, the winding drum is provided with a ring group corresponding to the first wire body, and the ring group comprises two baffle sheets which are arranged at two sides of the first wire body at intervals. As a further technical scheme of the utility model, the utility model further comprises a second supporting component, wherein the second supporting component comprises a plurality of fixing strips which are