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CN-121989397-A - Space intensive type multilayer automatic cooling device for continuous production of rubber material

CN121989397ACN 121989397 ACN121989397 ACN 121989397ACN-121989397-A

Abstract

The application discloses a space intensive type multilayer automatic cooling device for continuous production of rubber materials, which belongs to the technical field of rubber product production equipment and comprises a movable frame, wherein the movable frame comprises a plurality of layers of installation frames, the top surfaces of the installation frames are provided with horizontally arranged conveyor belts, the conveying directions of two adjacent conveyor belts are opposite, the discharge ends of the conveyor belts are positioned above the next layer of conveyor belts, the feed end of the conveyor belt at the topmost layer is provided with a feed plate, the discharge end of the conveyor belt at the bottommost layer is provided with a discharge plate, the top end of the movable frame is provided with a plurality of axial flow fans, the axial flow fans are arranged at intervals along the length direction of the conveyor belts at the topmost layer, the side surfaces of the movable frame are provided with a plurality of air conditioners, and the air conditioners are arranged at intervals vertically. The application has the advantages of small occupied area and high heat dissipation efficiency.

Inventors

  • ZHOU LIANXIANG
  • DONG YUTING

Assignees

  • 常州德博新材料科技有限公司

Dates

Publication Date
20260508
Application Date
20260320

Claims (10)

  1. 1. The utility model provides a space intensive multilayer automatic cooling device for rubber material continuous production, includes removes frame (1), remove frame (1) and include a plurality of layers of installing frame (11), the top surface of installing frame (11) is provided with conveyer belt (2) that the level set up, adjacent two the material conveying direction of conveyer belt (2) is opposite, the discharge end of conveyer belt (2) is located next floor the top of conveyer belt (2), the feed end of conveyer belt (2) at the top layer is provided with delivery sheet (12), the bottom the discharge end of conveyer belt (2) is provided with discharge sheet (13), the top of removing frame (1) is provided with a plurality of axial fan (14), a plurality of axial fan (14) are followed the length direction interval setting of conveyer belt (2), axial fan (14) are located the top of top layer conveyer belt (2), the side of removing frame (1) is provided with a plurality of air conditioner (15), a plurality of air conditioner (15) are along vertical interval setting.
  2. 2. The space intensive type multilayer automatic cooling device for continuous production of rubber materials according to claim 1, wherein two fixing plates (21) and two adjusting plates (23) are fixed on the top surface of the mounting frame (11), a driving roller (22) is rotatably installed between the two fixing plates (21), a driven roller (24) is rotatably installed between the two adjusting plates (23), the driving roller (22) and the driven roller (24) are vertically staggered, the conveyor belt (2) is wound on the peripheries of the driving roller (22) and the driven roller (24), and a driving piece for driving the driving roller (22) to rotate is arranged on the moving frame (1).
  3. 3. The space intensive type multi-layer automatic cooling device for continuous production of rubber materials according to claim 2, wherein the driving piece comprises two motors (25) and a plurality of chains (26), a driving gear (251) is coaxially fixed at the output end of each motor (25), a driven gear I (221) and a driven gear II (222) are coaxially fixed at the end part of each driving roller (22), the plurality of chains (26) comprise a driving chain (261) and a transmission chain (262), the driving chain (261) is wound on the periphery of each driving gear (251) and the periphery of each adjacent driven gear I (221), and the transmission chain (262) is wound on the periphery of each driven gear I (221) and the periphery of each adjacent driven gear II (222).
  4. 4. A space intensive type multi-layer automatic cooling device for continuous production of rubber materials according to claim 3, wherein a plurality of tensioning gears (27) are arranged on the movable frame (1), the tensioning gears (27) are in one-to-one correspondence with the transmission chains (262), and the transmission chains (262) are meshed with the corresponding tensioning gears (27).
  5. 5. The space intensive type multilayer automatic cooling device for continuous production of rubber materials, as set forth in claim 2, is characterized in that the regulating piece (23) is located at the feeding end of the conveyor belt (2), a regulating through groove (231) is formed in the side face of the regulating piece (23), regulating blocks (241) are respectively rotatably installed at two ends of the driven roller (24), the regulating blocks (241) are slidably matched with the regulating piece (23) along the length direction of the conveyor belt (2) through the regulating through groove (231), a regulating screw (232) is rotatably installed on the side face of the regulating block (241), a threaded hole (233) communicated with the regulating through groove (231) is formed in the side face of the regulating piece (23), the regulating screw (232) is in threaded connection with the regulating piece (23) through the threaded hole (233), and a tensioning piece for tensioning the conveyor belt (2) is arranged on the mounting frame (11).
  6. 6. The space intensive type multilayer automatic cooling device for continuous production of rubber materials according to claim 5, wherein two control sheets (3) are arranged on the top surface of the mounting frame (11), sliding grooves (31) are respectively formed in the opposite inner sides of the two control sheets (3), sliding blocks (32) are vertically slidably arranged on the control sheets (3) through the sliding grooves (31), the tensioning piece comprises tensioning rollers (33) rotatably arranged between the two sliding blocks (32), and the outer peripheral surfaces of the tensioning rollers (33) can be abutted against the outer peripheral surfaces of adjacent conveying belts (2).
  7. 7. The space intensive type multi-layer automatic cooling device for continuous production of rubber materials according to claim 6, wherein a carry through groove (34) communicated with the sliding groove (31) is formed in the side face of the control sheet (3), a positioning screw rod (35) is arranged in the carry through groove (34) in a penetrating mode, the positioning screw rod (35) is in threaded connection with the sliding block (32), and a nut of the positioning screw rod (35) can be abutted to the side face of the control sheet (3).
  8. 8. The space intensive type multilayer automatic cooling device for continuous production of rubber materials, as set forth in claim 6, is characterized in that a control screw (41) arranged vertically is rotatably installed on the inner bottom surface of the sliding groove (31), a guide block (42) is sleeved on the periphery of the control screw (41), the guide block (42) is in threaded transmission fit with the control screw (41), a guide sleeve (4) is sleeved on the periphery of the guide block (42), the guide sleeve (4) is vertically in sliding fit with the control plate (3) through the sliding groove (31), a spring (43) is fixed on the top surface of the guide block (42), the top end of the spring (43) is fixedly connected with the inner top surface of the guide sleeve (4), and the top surface of the guide sleeve (4) can be abutted to the bottom surface of the sliding block (32).
  9. 9. The space intensive type multi-layer automatic cooling device for continuous production of rubber materials according to claim 8, wherein a worm wheel (44) is sleeved and fixed on the periphery of the control screw (41), a worm (45) is rotatably installed between the two control plates (3), the worm (45) is meshed with the worm wheel (44), and a knob (46) is fixed at one end of the worm (45).
  10. 10. A spatially intensive multilayer automatic cooling device for the continuous production of rubber material according to claim 1, wherein the conveyor belt (2) is a mesh-shaped hard rubber layer.

Description

Space intensive type multilayer automatic cooling device for continuous production of rubber material Technical Field The application relates to the technical field of rubber product production equipment, in particular to a space intensive type multilayer automatic cooling device for continuous production of rubber materials. Background Rubber is an indispensable important material in modern industry and is widely applied to various fields of automobiles, buildings, electronics, medical treatment and the like. With the progress of technology and the continuous increase of market demands, the efficiency and quality requirements of rubber production are also increasing. In the production of rubber products (e.g., sealing strips, conveyor belts, tire components), the materials are usually at a high temperature (e.g., 80-150 ℃) after banburying, extrusion or calendaring, and must be cooled to near room temperature for cutting, rolling or subsequent processing. At present, two cooling modes are commonly adopted in factories, namely a long-distance single-layer cooling line, materials slowly pass through a cooling water tank or a hanging type air cooling line which is as long as tens of meters, the occupied area is large, the cooling efficiency is limited by the effective heat dissipation length, the space utilization rate of a factory is low, and the other multi-layer soaking type water tank saves the plane space, but has the defects that resources and energy consumption are large, rubber materials (especially containing specific auxiliary agents) are easy to pollute water quality or influence the surface by water quality, the water is required to be dried and removed later, the working procedure and the energy consumption are increased, and the method is not applicable to certain processes (such as the surface is required to keep viscosity). Disclosure of Invention In order to solve the problem of low heat dissipation efficiency of rubber products, the application provides a space intensive type multilayer automatic cooling device for continuous production of rubber materials. The application provides a space intensive type multilayer automatic cooling device for continuous production of rubber materials, which adopts the following technical scheme: The utility model provides an automatic heat sink in intensive multilayer in space for rubber material continuous production, includes removes the frame, remove the frame and include a plurality of layers of installing frame, the top surface of installing frame is provided with the conveyer belt that the level set up, adjacent two the conveying direction of conveyer belt is opposite, the discharge end of conveyer belt is located the next floor the top of conveyer belt, the top layer the feed end of conveyer belt is provided with the delivery sheet, the bottom layer the discharge end of conveyer belt is provided with the delivery sheet, the top of removing the frame is provided with a plurality of axial fan, a plurality of axial fan follows the length direction interval setting of conveyer belt, axial fan is located the top of top layer the conveyer belt, the side of removing the frame is provided with a plurality of air conditioner, a plurality of air conditioner is along vertical interval setting. Through the technical scheme, the high-temperature Wen Xiang rubber material is firstly conveyed onto the topmost conveyor belt through the feeding plate and is conveyed forward along with the topmost conveyor belt, cold air output by the axial flow fan is directly blown onto the surface of the high-temperature Wen Xiang rubber material from top to bottom, the most effective initial rapid cooling is carried out, after the high-temperature rubber material is conveyed to the tail end of the topmost conveyor belt, the high-temperature rubber material freely falls onto the conveyor belt of the next layer under the action of self gravity due to loss of support, and is conveyed in the opposite direction, meanwhile, the cold air output by the air conditioner is used for continuously cooling the high-temperature rubber material, the high-temperature Wen Xiang rubber material is directly contacted with the cooled conveyor belt, heat transfer can be realized, the process is repeated layer by layer, the rubber material descends along a continuous zigzag path on the moving frame until the rubber material is output onto the discharging plate from the bottommost conveyor belt, thereby cooling of the high-temperature Wen Xiang rubber material is completed, a horizontal cooling line with the length of tens of meters is integrated into a vertical space through the design of vertical multi-layer zigzag material flow channels, the occupied area is reduced by more than 70%, the method is particularly suitable for the transformation of space limitation or the production line with the top of the factory building, the high-temperature rubber material is cooled down in a new-level, the heat tran