CN-121974555-A - Toughened glass quality improving and energy saving device

Abstract

The invention discloses a toughened glass quality-improving and energy-saving device, which belongs to the technical field of toughened glass cooling and comprises a frame, a lateral heat dissipation mechanism and a wheel type conveying device, wherein both sides of the frame are respectively arranged on conveying mechanisms, the wheel type conveying device is arranged between the conveying mechanisms on both sides of the frame, and the lateral heat dissipation mechanism is arranged on the side of the frame and is used for blowing glass rotated by the wheel type conveying device. According to the invention, the traditional horizontally conveyed cooling path is converted into the circular motion path by adopting the wheel type conveying equipment, so that the residence time of glass in a cooling area is greatly prolonged on the premise of not changing the horizontal conveying occupied area of a production line, the full cooling is realized, the production cost is reduced, the whole cooling process completely adopts a lateral air cooling technology, a water cooling process is abandoned, the surface of the glass does not need to be contacted with an aqueous medium, and the problems of watermarks and water stains caused by water cooling are thoroughly eliminated.

Inventors

• PANG JINGHUA

Assignees

• 佛山市金耀华玻璃新材有限公司

Dates

Publication Date

20260505

Application Date

20260302

Claims (10)

1. 1. The toughened glass quality improving and energy saving device is characterized by comprising a frame (1), wherein both sides of the frame (1) are respectively provided with a conveying mechanism (2), wheel type conveying equipment (3) is arranged between the conveying mechanisms (2) at both sides, and the device further comprises: the lateral heat dissipation mechanism (4) is arranged at the side of the frame (1), and the glass rotated by the wheel type conveying equipment (3) is purged through the lateral heat dissipation mechanism (4); the direction-adjusting components (5) are arranged at two sides of the lateral heat-radiating mechanism (4), and the angle of the lateral heat-radiating mechanism (4) is adjusted through the direction-adjusting components (5); and the sealing component (7) is connected to one side of the frame (1), and the sealing component (7) is close to one side of the wheeled conveying equipment (3).
2. 2. A toughened glass quality improving and energy saving device as claimed in claim 1, wherein said conveying mechanism (2) comprises: The conveying frame (201), the conveying frame (201) is connected to the top of the frame (1), and a plurality of conveying rollers (202) are arranged in the conveying frame (201) in an array manner; And the conveying belt (203) is connected to the stroke end of the conveying frame, and the glass is conveyed and circulated from the inlet and the outlet of the wheel type conveying equipment (3) through the conveying belts (203) at the two sides.
3. 3. A tempered glass upgrading energy saving device according to claim 2, wherein the wheeled transfer device (3) comprises: The rotating wheel (301), the driving shaft (304) is connected to the two sides of the rotating wheel (301) uniformly, the bearing seat is connected to the outside of the driving shaft (304) in a rotating way, and the bearing seat is arranged at the top of the frame (1); The two fixing rings (302) are respectively arranged at two ends of the rotating wheel (301); and a plurality of fork bars (303) which are circumferentially arranged on the outer circumferential side of the fixing ring (302).
4. 4. A tempered glass upgrading energy saving device according to claim 3, wherein the wheeled transfer device (3) further comprises: The driving mechanism (305) is connected with one end of the driving shaft (304), the rotating wheel (301) and the fork bars (303) are driven to rotate through the driving mechanism (305), the fork bars (303) on two sides are positioned at two ends of the inner cavity of the conveying frame, and glass is supported from two sides of the conveying belt (203) through rotation of the fork bars (303).
5. 5. A toughened glass quality improving and energy saving device as claimed in claim 1, wherein said lateral heat dissipating mechanism (4) comprises: A heat dissipation frame (401), wherein the heat dissipation frame (401) is arranged on one side of the frame (1); a plurality of radiating fans (403), wherein the radiating fans (403) are arranged on one side of the radiating frame (401) in an array manner; And the two direction-adjusting shafts (402) are rotatably connected in the heat dissipation frame (401), a plurality of heat dissipation fans (403) in the same row are connected to one side of the direction-adjusting shafts (402), and the blowing direction of the heat dissipation fans (403) is controlled through rotation of the direction-adjusting shafts (402).
6. 6. A toughened glass quality improving and energy saving device as claimed in claim 5, wherein said lateral heat dissipating mechanism (4) further comprises: A drive rod (404) connected to the outside of the steering shaft (402); the movable rod (405) is rotationally connected with one end of a plurality of driving rods (404) far away from the steering shaft (402), the bottom end of the movable rod (405) is rotationally connected with a steering block (406), one side of the steering block (406) is connected with an electric push rod (407), and the electric push rod (407) is installed in the inner cavity of the heat dissipation frame (401).
7. 7. A toughened glass quality improving and energy saving device as claimed in claim 5, wherein said direction-adjusting assembly (5) comprises: The heat dissipation device comprises a heat dissipation frame (401), two direction adjustment seats (501) and a hinge shaft (502), wherein the two direction adjustment seats (501) are respectively connected to two sides of the heat dissipation frame (401), the hinge shaft (502) is rotationally connected with the hinge block (503) outside, the hinge block (503) is connected to one side of the heat dissipation frame (401), and the direction of the heat dissipation frame (401) is controlled through rotation of the hinge blocks (503) on two sides outside the hinge shaft (502).
8. 8. A tempered glass upgrading energy saving device according to claim 1, wherein the closing assembly (7) comprises: The sealing disc (701), the sealing disc (701) is connected to one side of the frame (1), and a heat dissipation groove (702) is formed in one side of the sealing disc (701) along the axis in a surrounding mode.
9. 9. The toughened glass quality improving and energy saving apparatus as claimed in claim 5, further comprising: and the dehumidifying cover (6) is connected to one side of the top of the heat dissipation frame (401).
10. 10. The toughened glass quality improving and energy saving apparatus as claimed in claim 9, further comprising: and the purging cover (8) is connected to one side of the bottom of the heat dissipation frame (401), and moisture is eliminated through convection of the dehumidifying cover (6) and the purging cover (8).

Description

Toughened glass quality improving and energy saving device Technical Field The invention belongs to the technical field of toughened glass cooling, and particularly relates to a toughened glass quality improving and energy saving device. Background In the production process of toughened glass, after the toughened glass is heated to a softening point by a heating furnace, the toughened glass needs to be rapidly and uniformly cooled to form surface compressive stress, and then further cooling is needed to be further carried out to facilitate subsequent sheet taking and stacking. The cooling process at the tail end of the toughened glass production line mainly has the following two ways and the corresponding problems, the continuous cooling mode by using the high-power fan of the air grid of the toughened glass is mature in technology, but has the problems of large occupied space and high energy consumption, and part of the prior art adopts special water cooling equipment, needs to be additionally provided with consumable materials such as sponge rollers, brushes and the like to absorb water on the surface of the glass, needs to be matched with the fan for drying, is easy to leave watermarks or water stains which are difficult to eliminate on the surface of the high-temperature glass, seriously affects the optical performance and the appearance quality of the toughened glass, and has room for improvement. Disclosure of Invention The invention aims to solve the problems of large occupied space and high energy consumption in a continuous cooling mode of a high-power fan although the technology is mature. In order to achieve the above purpose, the present invention adopts the following technical scheme: The toughened glass quality improving and energy saving device comprises a frame, two sides of the frame are respectively provided with a conveying mechanism, wheel type conveying equipment is arranged between the conveying mechanisms at the two sides, and the toughened glass quality improving and energy saving device further comprises: the lateral heat dissipation mechanism is arranged at the side of the frame and is used for blowing the glass rotated by the wheel type conveying equipment; The direction-adjusting components are arranged on two sides of the lateral heat-radiating mechanism, and the angle of the lateral heat-radiating mechanism is adjusted through the direction-adjusting components; and the sealing component is connected to one side of the frame and is close to one side of the wheeled conveying equipment. As a further description of the above technical solution: the conveying mechanism comprises: the conveying frame is connected to the top of the frame, and a plurality of conveying rollers are arranged in the conveying frame in an array manner; And the conveying belt is connected to the stroke end of the conveying frame, and the glass is conveyed and circulated from the inlet and the outlet of the wheel type conveying equipment through the conveying belts at the two sides. As a further description of the above technical solution: The wheeled conveyance apparatus includes: The two sides of the rotating wheel are uniformly connected with a driving shaft, a bearing seat is connected outside the driving shaft in a rotating way, and the bearing seat is arranged at the top of the frame; The two fixing rings are respectively arranged at two ends of the rotating wheel; and a plurality of fork bars are circumferentially arranged on the outer circumferential side of the fixing ring. As a further description of the above technical solution: the wheeled conveyance apparatus further includes: The driving mechanism is used for being connected with one end of the wheel rotating shaft body, driving the wheel and the fork bars to rotate through the driving mechanism, the fork bars on two sides are positioned at two ends of the inner cavity of the conveying frame, and glass is erected from two sides of the conveying belt through rotation of the fork bars. As a further description of the above technical solution: The lateral heat dissipation mechanism includes: The heat dissipation frame is arranged on one side of the frame; The radiating fans are arranged on one side of the radiating frame in an array manner; and the two direction-adjusting shafts are rotatably connected in the heat dissipation frame, a plurality of heat dissipation fans which are in the same row are connected to one side of the direction-adjusting shaft, and the blowing direction of the heat dissipation fans is controlled through the rotation of the direction-adjusting shafts. As a further description of the above technical solution: the lateral heat dissipation mechanism further includes: The driving rod is connected to the outside of the steering shaft; the movable rod is rotationally connected with one end of the plurality of driving rods, which is far away from the steering shaft, the bottom end of the movable rod is rotationally connected with