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CN-224212578-U - Movable cooling conveying mechanism of glass bending device

CN224212578UCN 224212578 UCN224212578 UCN 224212578UCN-224212578-U

Abstract

The utility model provides a glass bending device movable cooling conveying mechanism, includes organism, lower conveying subassembly and goes up conveying subassembly, upward is provided with on the conveying subassembly and is used for to the glass to blow the wind row subassembly of cooling, goes up the conveying subassembly and forms the transportation interval that is used for glass circulation down between the conveying subassembly, is provided with on the organism and is used for driving conveying subassembly removal in order to change the mobile device of wind row subassembly position to make wind row subassembly can blow to the different positions of glass. According to the utility model, the upper conveying component and the air exhaust component are driven to move by the moving device, so that the glass is precisely blown at different positions, the glass is uniformly cooled, the product quality is improved, the limitation of a traditional fixed air outlet air cooling system is solved, the problems of nonuniform cooling, easy initiation of glass deformation, stress concentration or cracking and the like are avoided, and a more optimized cooling solution is provided for a glass bending process.

Inventors

  • WU DAOHUA

Assignees

  • 中山市名玻钢化玻璃有限公司

Dates

Publication Date
20260508
Application Date
20250416

Claims (10)

  1. 1. The movable cooling and conveying mechanism of the glass bending device comprises a machine body (1) and is characterized by further comprising a lower conveying component (2) and an upper conveying component (3), wherein an air exhaust component (7) for blowing and cooling glass (4) is arranged on the upper conveying component (3), a conveying interval (5) for glass (4) circulation is formed between the upper conveying component (3) and the lower conveying component (2), and a moving device (6) for driving the upper conveying component (3) to move so as to change the position of the air exhaust component (7) is arranged on the machine body (1), so that the air exhaust component (7) can blow different positions of the glass (4).
  2. 2. The movable cooling and conveying mechanism of glass bending device according to claim 1, wherein the moving device (6) is in driving connection with the upper conveying assembly (3), and the moving device (6) drives the upper conveying assembly (3) to move forwards and backwards so as to change the front and rear positions of the air exhaust assembly (7).
  3. 3. The movable cooling and conveying mechanism of the glass bending device, as set forth in claim 2, characterized in that the moving device (6) comprises an oil cylinder (8) and a mounting seat (9), one end of the oil cylinder (8) is in driving connection with the upper conveying component (3), the mounting seat (9) is fixed on the machine body (1), the other end of the oil cylinder (8) is in rotating connection with the mounting seat (9), and the oil cylinder (8) swings on the mounting seat (9) when driving the upper conveying component (3) to move forwards and backwards.
  4. 4. A movable cooling and conveying mechanism for a glass bending device according to claim 3, wherein the upper conveying assembly (3) comprises a front conveying section (10) for conveying glass (4) forwards, the front conveying section (10) is horizontally arranged, and the air exhaust assemblies (7) are distributed on the front conveying section (10) front and back.
  5. 5. The movable cooling and conveying mechanism of glass bending device as claimed in claim 4, wherein a lifting device (11) for driving the upper conveying assembly (3) to lift up and down is arranged on the machine body (1), when the lifting device (11) drives the upper conveying assembly (3) to lift up and down, the air exhaust assembly (7) synchronously lifts up and down, and when the lifting device (11) drives the upper conveying assembly (3) to descend, the upper conveying assembly (3) and the lower conveying assembly (2) clamp glass (4).
  6. 6. The movable cooling and conveying mechanism of glass bending devices, as set forth in claim 5, characterized in that the upper conveying assembly (3) further comprises a rear bending section (12) for bending the glass (4), the rear bending section (12) is vertically arranged, the air exhaust assemblies (7) are vertically distributed on the rear bending section (12), and when the upper conveying assembly (3) is lifted up and down, the air exhaust assemblies (7) on the rear bending section (12) change the upper and lower positions.
  7. 7. The movable cooling and conveying mechanism of the glass bending device, as set forth in claim 6, is characterized in that the rear bending section (12) is flexibly arranged, a bending matching component (13) for matching the rear bending section (12) is arranged on the machine body (1), the rear bending section (12) and the bending matching component (13) clamp the glass (4), a driving device is arranged on the machine body (1) and comprises a second oil cylinder (33), a first chain wheel (14) and a first chain (34), the second oil cylinder (33) is in driving connection with one end of the first chain (34), the first chain (34) is wound on the first chain wheel (14), a connecting rod (15) is arranged on the rear bending section (12), the connecting rod (15) is connected with the other end of the first chain (34), and the second oil cylinder (33) drives the rear bending section (12) to swing up and down through the matching of the first chain wheel (14) and the first chain (34).
  8. 8. The movable cooling and conveying mechanism of the glass bending device according to claim 2, wherein the lower conveying assembly (2) comprises a motor (35), a second sprocket (16), a second chain (36), a lower roller shaft (17) and a first mounting frame (18), the motor (35) is in transmission connection with the second sprocket (16), the second chain (36) is wound on the second sprocket (16), one end of the lower roller shaft (17) is connected with the corresponding second sprocket (16), the lower roller shaft (17) is rotatably arranged on the first mounting frame (18), glass (4) is placed on the lower roller shaft (17), and the glass (4) is conveyed forwards when the lower roller shaft (17) rotates.
  9. 9. The movable cooling and conveying mechanism of glass bending device according to claim 8, wherein the upper conveying assembly (3) comprises a second mounting frame (19) and an upper roller shaft (20), the moving device (6) is in driving connection with the second mounting frame (19), the upper roller shaft (20) is rotatably arranged on the second mounting frame (19), and the upper roller shaft (20) and the lower roller shaft (17) clamp glass (4).
  10. 10. The movable cooling and conveying mechanism of the glass bending device, as set forth in claim 9, characterized in that the wind row assembly (7) comprises a wind row (21) and a plurality of wind nozzles (22) arranged on the wind row (21), the wind row (21) is fixed on the second mounting frame (19), a plurality of wind inlets (23) and a plurality of wind outlets (24) for blowing the glass (4) are arranged on the wind row (21), the wind nozzles (22), the wind inlets (23) and the wind outlets (24) are sequentially communicated, and the wind outlets (24) are communicated with the conveying section (5).

Description

Movable cooling conveying mechanism of glass bending device Technical Field The utility model relates to the technical field of glass bending, in particular to a movable cooling and conveying mechanism of a glass bending device. Background In the glass processing industry, glass bending is a common process, and the heated and softened glass is usually pressed into a specific shape through a die, and because the high-temperature glass needs to be rapidly cooled after bending and forming to set and reduce internal stress, the efficient and uniform cooling process is critical to the quality of products. The cooling mode of traditional glass equipment of bending adopts fixed forced air cooling system more, and its air outlet position is fixed, leads to the cooling inhomogeneous, easily causes glass deformation, stress concentration or fracture scheduling problem. Therefore, further improvements are needed. Disclosure of utility model The utility model aims to provide a movable cooling and conveying mechanism of a glass bending device, which has the advantages of simple structure, uniform cooling, stable conveying, high production efficiency and strong practicability, so as to overcome the defects in the prior art. The movable cooling and conveying mechanism of the glass bending device is designed according to the purpose and comprises a machine body and is characterized by further comprising a lower conveying assembly and an upper conveying assembly, wherein the upper conveying assembly is provided with a wind row assembly for blowing and cooling glass, a conveying interval for glass circulation is formed between the upper conveying assembly and the lower conveying assembly, and a moving device for driving the upper conveying assembly to move so as to change the position of the wind row assembly is arranged on the machine body, so that the wind row assembly can blow different positions of the glass. The moving device is connected with the upper conveying assembly in a driving way, and the moving device drives the upper conveying assembly to move forwards and backwards so as to change the front and rear positions of the wind row assembly. The moving device comprises an oil cylinder and a mounting seat, one end of the oil cylinder is in driving connection with the upper conveying assembly, the mounting seat is fixed on the machine body, the other end of the oil cylinder is in rotating connection with the mounting seat, and the upper conveying assembly is driven by the oil cylinder to swing on the mounting seat when moving forwards and backwards. The upper conveying assembly comprises a front conveying section for conveying glass forwards, the front conveying section is horizontally arranged, and the wind row assemblies are distributed on the front conveying section front and back. The machine body is provided with a lifting device for driving the upper conveying assembly to lift up and down, when the lifting device drives the upper conveying assembly to lift up and down, the air exhaust assembly is lifted up and down synchronously, and when the lifting device drives the upper conveying assembly to descend, the upper conveying assembly and the lower conveying assembly clamp glass. The upper conveying assembly further comprises a rear bending section for bending glass, the rear bending section is vertically arranged, the wind row assemblies are vertically distributed on the rear bending section, and when the upper conveying assembly is driven to lift up and down by the lifting device, the wind row assemblies on the rear bending section change the upper position and the lower position. The glass bending machine comprises a machine body, a rear bending section, a driving device, a connecting rod and a rear bending section, wherein the machine body is provided with a bending matching component used for matching the rear bending section, the rear bending section and the bending matching component clamp glass, the machine body is provided with the driving device which comprises a second oil cylinder, a first sprocket and a first chain, the second oil cylinder is in driving connection with one end of the first chain, the first chain is wound on the first sprocket, the rear bending section is provided with the connecting rod, the connecting rod is connected with the other end of the first chain, and the second oil cylinder drives the rear bending section to swing up and down through the matching of the first sprocket and the first chain. The lower conveying assembly comprises a motor, a second sprocket, a second chain, a lower roll shaft and a first mounting frame, the second sprocket is connected with the motor in a transmission mode, the second chain is wound on the second sprocket, one end of the lower roll shaft is connected with the corresponding second sprocket, the lower roll shaft is arranged on the first mounting frame in a rotating mode, glass is placed on the lower roll shaft, and the glass is conveyed forwards