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CN-224226895-U - Cooling device and glass production line

CN224226895UCN 224226895 UCN224226895 UCN 224226895UCN-224226895-U

Abstract

The utility model belongs to the field of glass production equipment, and particularly relates to a cooling device and a glass production line. The cooling device is used for cooling a piece to be cooled, the cooling device comprises an air box with an inner cavity and an air blowing structure communicated with the inner cavity, the air blowing structure is used for blowing air flow towards the inner cavity, the air box is provided with an air outlet face towards the piece to be cooled, the air outlet face is provided with a plurality of air holes communicated with the inner cavity, the air flow is blown towards the piece to be cooled through the air holes, the piece to be cooled is cooled, two air boxes are arranged at intervals, the piece to be cooled is located between the two air boxes, and one air outlet face of the air box corresponds to the air outlet face of the other air box. The utility model can improve the cooling effect and the cooling efficiency of the piece to be cooled.

Inventors

  • LI SHENGGEN
  • YU YUNZHONG
  • GONG SHUYANG

Assignees

  • 信义汽车玻璃(深圳)有限公司

Dates

Publication Date
20260512
Application Date
20250427

Claims (10)

  1. 1. A cooling device for wait to cool off piece (200), characterized in that, cooling device including bellows (10) that have inner chamber (11) and with blow structure (20) of inner chamber (11) intercommunication, blow structure (20) be used for to inner chamber (11) blow the air current, bellows (10) have towards air-out face (12) of waiting to cool off piece (200), air-out face (12) be equipped with a plurality of with wind hole (121) of inner chamber (11) intercommunication, the air current flows through wind hole (121) blow to wait to cool off piece (200) in order to cool off to wait to cool off piece (200), bellows (10) interval sets up two, wait to cool off piece (200) are located two between bellows (10), one of them bellows (10) air-out face (12) with another bellows (10) air-out face (12) corresponds.
  2. 2. The cooling device according to claim 1, wherein each of the air holes (121) is uniformly arranged on the air outlet surface (12).
  3. 3. The cooling device according to claim 1, further comprising a conveying structure (30) for conveying the to-be-cooled member (200) along a predetermined direction, wherein the air blowing structure (20) is disposed on a conveying path of the to-be-cooled member (200), and wherein the conveying structure (30) is disposed between the two air blowing structures (20) in a penetrating manner.
  4. 4. A cooling device according to claim 3, wherein the conveying structure (30) comprises a plurality of conveying rollers (31) rotatably arranged, wherein the conveying rollers (31) are arranged at intervals along the preset direction, the piece (200) to be cooled is contacted with the roller surfaces of the conveying rollers (31), and an air flow channel (33) for passing the air flow blown out by the air outlet surface (12) is formed between two adjacent conveying rollers (31).
  5. 5. The cooling device according to claim 1, further comprising a temperature detection structure (40) in communication with the blowing structure (20), the temperature detection structure (40) being adapted to detect the temperature of the area between the two windboxes (10) and to generate a temperature signal, the blowing structure (20) being adapted to adjust the flow rate of the air flow in dependence of the temperature signal.
  6. 6. The cooling device according to any one of claims 1 to 5, wherein the bellows (10) is provided with an air inlet (13) communicating the inner cavity (11) with the outside air, and the blowing structure (20) comprises a centrifugal fan (21) provided at the air inlet (13), the centrifugal fan (21) being adapted to suck the outside air into the inner cavity (11).
  7. 7. The cooling device according to claim 6, wherein the blowing structure (20) further comprises a filter (22) connected to the centrifugal fan (21), the filter (22) being in communication with the centrifugal fan (21), the filter (22) being adapted to filter the gas entering the centrifugal fan (21).
  8. 8. The cooling device according to any one of claims 1 to 5, further comprising a package cover (50) having a housing cavity (51), wherein the bellows (10) is housed in the housing cavity (51), wherein the package cover (50) is provided with an exhaust port (52) communicating with the housing cavity (51), and wherein the exhaust port (52) is configured to allow the air flow to exit the housing cavity (51).
  9. 9. A cooling device according to claim 8, wherein the inner wall of the package cover (50) is provided with a sound insulation layer (60) for sound insulation.
  10. 10. A glass production line comprising a cooling device according to any one of claims 1 to 9.

Description

Cooling device and glass production line Technical Field The utility model belongs to the technical field of glass production, and particularly relates to a cooling device and a glass production line. Background The black belt pattern at the edge is the most common screen printing pattern form of the automobile glass, is mainly applied to the adhesively mounted automobile glass, and is used for covering and bonding black glue to play an attractive role on one hand and improving the bonding firmness of the glass and the automobile body framework on the other hand. In the process of printing automotive glass, high-temperature curing treatment (drying temperature is usually 150-300 ℃) is usually required to be carried out on printing ink printed on the periphery of the glass. After the printing ink is dried, the temperature of the glass surface is always maintained at 80-120 ℃, so that the temperature of the glass surface needs to be rapidly and greatly reduced through a glass air cooling device, the temperature of the glass surface can meet the requirement of manual sheet unloading, contact scalding of the high temperature of the glass surface to operators is reduced, and the production is convenient. However, most of the existing glass air cooling devices are U-shaped air pipes, the cooling air pressure blown out by the U-shaped air pipes is inconsistent, so that the glass surface is unevenly cooled, the phenomenon that the edges of the printing areas warp and microcracks are bred easily occurs, the cooling area of the U-shaped air pipes is small, and the cooling efficiency is low. Disclosure of utility model The embodiment of the application aims to provide a cooling device, which aims to solve the problem of how to improve the cooling effect and the cooling efficiency of a piece to be cooled. In order to achieve the above purpose, the application adopts the following technical scheme: In a first aspect, a cooling device is provided for cooling a part to be cooled, the cooling device includes a bellows having an inner cavity and a blowing structure communicating with the inner cavity, the blowing structure is used for blowing air flow toward the inner cavity, the bellows has an air outlet face facing the part to be cooled, the air outlet face is provided with a plurality of air holes communicating with the inner cavity, the air flow is blown toward the part to be cooled through the air holes so as to cool the part to be cooled, the bellows are arranged at intervals to be two, the part to be cooled is located between two bellows, and one of the air outlet faces of the bellows corresponds to the other air outlet face of the bellows. In some embodiments, each of the air holes is uniformly arranged on the air outlet surface. In some embodiments, the cooling device further includes a conveying structure for conveying the to-be-cooled member along a preset direction, the air blowing structure is disposed on a conveying path of the to-be-cooled member, and the conveying structure is disposed between the two air blowing structures in a penetrating manner. In some embodiments, the conveying structure includes a plurality of conveying rollers rotatably disposed, the conveying rollers are disposed at intervals along the preset direction, the to-be-cooled member contacts with a roller surface of the conveying rollers, and an air flow channel for passing the air flow blown out by the air outlet surface is formed between two adjacent conveying rollers. In some embodiments, the cooling device further comprises a temperature detection structure in communicative connection with the blowing structure, the temperature detection structure for detecting the temperature of the area between the two windboxes and generating a temperature signal, the blowing structure for adjusting the flow rate of the air flow in dependence on the temperature signal. In some embodiments, the bellows is provided with an air inlet communicating the inner cavity with external air, and the blowing structure includes a centrifugal fan provided at the air inlet, and the centrifugal fan is used for sucking external air into the inner cavity. In some embodiments, the blowing structure further comprises a filter connected to the centrifugal blower, the filter in communication with the centrifugal blower, the filter for filtering gas entering the centrifugal blower. In some embodiments, the cooling device further comprises a packaging cover body with a containing cavity, the bellows is contained in the containing cavity, the packaging cover body is provided with an exhaust port communicated with the containing cavity, and the exhaust port is used for allowing the air flow to be discharged out of the containing cavity. In some embodiments, a sound insulation layer for sound insulation is attached to the inner wall of the packaging cover body. In a second aspect, a glass production line is provided, comprising a cooling device according to the above-mentioned