CN113998877A

CN113998877A - A kind of tempered glass forming auxiliary device

Info

Publication number: CN113998877A
Application number: CN202111400458.2A
Authority: CN
Inventors: 黄国顺; 邵云峰; 何浪; 汤波
Original assignee: Jiangsu Zhongsheng Electronic Technology Co ltd
Current assignee: Jiangsu Zhongsheng Electronic Technology Co ltd
Priority date: 2021-11-24
Filing date: 2021-11-24
Publication date: 2022-02-01
Anticipated expiration: 2041-11-24
Also published as: CN113998877B

Abstract

The invention discloses a toughened glass forming auxiliary device, which belongs to the technical field of toughened glass and comprises front-end conveying rollers, wherein the two sides of the toughened glass are difficult to be uniformly cooled by the conventional cooling, so that the bearing capacity of the toughened glass is influenced; the steel glass body is located cooling chamber department, promotes the layering through the cylinder and drives two top board horizontal relative movement to press the glass body upper end of holding different width, the cylinder links a plurality of holding down plates rebound simultaneously, thereby lift the steel glass body, and cooperate two top boards centre gripping fixed glass body between last calandria and calandria down, thereby realize that steel glass body two sides is by quick even cooling.

Description

Toughened glass shaping auxiliary device

Technical Field

The invention relates to the technical field of toughened glass, in particular to a toughened glass forming auxiliary device.

Background

In order to improve the strength of glass during the production and forming process of toughened glass, glass is generally heated by a physical method and then is cooled and annealed, so that compressive stress can be formed on the surface of the glass, the surface stress is firstly counteracted when the glass bears external force, so that the bearing capacity is improved, the auxiliary device for forming the toughened glass is a cooling device for the toughened glass, the two sides of the toughened glass are blown by the conventional cooling mode, but the blowing of the upper surface and the lower surface is not uniform enough due to the fact that the glass is positioned on the conveying rollers, so that the cooling is not uniform enough, and the bearing capacity of the toughened glass is influenced, so that the auxiliary device for forming the toughened glass is provided for solving the problems.

Disclosure of Invention

The invention aims to provide an auxiliary device for forming tempered glass, which solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a toughened glass forming auxiliary device comprises a front-end conveying roller, wherein a plurality of first guide rollers are rotatably arranged on the inner wall of the front-end conveying roller, one end of the front-end conveying roller is fixedly connected with a heating device, one end of the heating device is fixedly provided with a cooling conveying device, the upper surface of the cooling conveying device is fixedly provided with a cooling chamber, the side surface of the cooling chamber is fixedly provided with a cooling device, the cooling device is fixedly connected with the cooling conveying device, the upper surface of the cooling chamber is fixedly provided with a power device, the upper end of the cooling conveying device is movably provided with a glass body, the bottom end of the power device is attached and connected with the upper surface of the glass body, the power device is fixedly connected with a lifting device, the lifting device is slidably connected with the side surface of the cooling chamber, the upper end of the lifting device is attached and connected with the bottom surface of the glass body, and the lifting device and the power device are movably arranged between the cooling conveying device, the other end of the cooling conveying device is fixedly connected with a rear-end conveying roller.

As a preferred technical scheme, the heating device comprises a toughening furnace body, a material conveying groove is formed in the toughening furnace body, an upper heating plate and a lower heating plate are fixedly mounted on the toughening furnace body, and the upper heating plate and the lower heating plate are respectively arranged at the upper end and the lower end of a first guide roller.

As a preferred technical scheme of the invention, the upper end of the cooling conveying device is rotatably provided with a roller, a driving device of the roller is driven by a synchronous belt, the surface of the cooling conveying device is provided with a plurality of rectangular grooves, the inner walls of the rectangular grooves are provided with mounting through grooves, and the cooling device is fixedly mounted in the mounting through grooves.

As a preferred technical scheme of the present invention, a first side plate and a second side plate are fixedly disposed on two sides of the cooling chamber, cross chutes are disposed at bottom ends of surfaces of the first side plate and the second side plate, the lifting device is slidably engaged in the cross chutes, and a cooling device is fixedly mounted on a side surface of the second side plate.

As a preferred technical solution of the present invention, the installation cooling device is fixedly provided with two air outlet pipes, the two air outlet pipes respectively penetrate through the second side plate, the air outlet pipe at the bottom end is fixedly connected with a plurality of lower rows of pipes, the air outlet pipe at the upper end is fixedly connected with a plurality of upper rows of pipes, the plurality of lower rows of pipes are fixedly arranged in the installation through groove, the plurality of upper rows of pipes are fixedly arranged on the inner walls of the first side plate and the second side plate, and a plurality of air outlets are fixedly arranged at the bottom end of the plurality of upper rows of pipes and the upper end of the plurality of lower rows of pipes.

As a preferred technical scheme of the invention, the power device comprises an air cylinder, the bottom end of the air cylinder is fixedly arranged on the upper surface of the cooling chamber, a piston rod of the air cylinder movably penetrates through the cooling chamber, and is fixedly connected with a pressing bar, the bottom ends of the two ends of the pressing bar are symmetrically and fixedly connected with pressing rods, the bottom ends of the pressing rods are connected with vertical rods in a sliding way, the outer sides of the vertical rods are fixedly arranged on the inner walls of the first side plate and the second side plate, racks are fixedly arranged at the bottom ends of the two ends of the pressing bar, the rack is engaged with a first gear, the outer side of the first gear is fixedly connected with a lifting device, a first screw rod is fixedly connected to the inner side of the first gear, a threaded sleeve is connected to the external thread at the other end of the first screw rod, the other end of the screw sleeve is fixedly connected with an upper pressure plate, the bottom surface of the upper pressure plate is attached to the upper surface of the glass body, the bottom surfaces of the two ends of the upper pressure plate are connected with adjusting blocks in a sliding mode, and the outer sides of the adjusting blocks are fixedly connected with the inner sides of the vertical rods.

According to a preferable technical scheme of the invention, the side surfaces of the vertical rods are respectively provided with a first convex sliding groove, the first convex sliding grooves are slidably clamped with the bottom ends of the pressure rods, the inner top surfaces of the first convex sliding grooves are fixedly provided with springs, the bottom ends of the springs are fixedly connected with the upper surfaces of the bottom ends of the pressure rods, the upper surfaces of the adjusting blocks are provided with second convex sliding grooves, and the second convex sliding grooves are slidably clamped with the bottom ends of the two ends of the upper pressure plate.

As a preferred technical scheme of the present invention, the lifting device includes a rotating shaft, one end of the rotating shaft is fixedly connected to an outer side of the first gear, the other end of the rotating shaft penetrates through the first side plate and the second side plate and is fixedly connected with the second gear, an outer side of the second gear is fixedly connected with the first bevel gear, the first bevel gear is engaged with the second bevel gear, a bottom end of the second bevel gear is fixedly connected with the second lead screw, a bottom end of the second lead screw is threaded through with the i-shaped sliding plate, the i-shaped sliding plate is slidably clamped in the cross sliding groove, an inner side of the i-shaped sliding plate is fixedly connected with a plurality of connecting blocks, an inner side of each connecting block is fixedly provided with the lower pressing plate, a bottom end of the second lead screw is rotatably clamped with the base, and an inner side of the base is fixedly arranged on outer sides of the first side plate and the second side plate.

As a preferred technical scheme of the invention, the lower pressing plate is in an L shape, and the upper surface of the lower pressing plate is attached to and connected with the bottom surface of the glass body.

As a preferable technical scheme of the invention, a plurality of second guide rollers are rotatably arranged on the inner wall of the rear-end conveying roller, and baffles are fixedly arranged at two ends of the upper surface of the rear-end conveying roller.

Compared with the prior art, the invention has the beneficial effects that:

1. after the two surfaces of the glass body are uniformly heated by the toughening furnace body, the glass body is conveyed to a cooling conveying device in a cooling chamber by a front-end conveying roller for rapid cooling, and then is conveyed to a rear-end conveying roller by a plurality of rollers, so that the automation of toughened glass forming is completed;

2. the steel glass body is located cooling chamber department, promotes the layering through the cylinder and drives two top board horizontal relative movement to press the glass body upper end of holding different width, the cylinder links a plurality of holding down plates rebound simultaneously, thereby lift the steel glass body, and cooperate two top boards centre gripping fixed glass body between last calandria and calandria down, thereby realize that steel glass body two sides is by quick even cooling.

Drawings

FIG. 1 is a schematic structural view of the present invention,

figure 2 is a schematic view of a heating device of the present invention,

FIG. 3 is a schematic view of a cooling chamber of the present invention.

Figure 4 is a schematic view of the cooling conveyor of the present invention,

figure 5 is a schematic view of a cooling device of the present invention,

figure 6 is a schematic view of the power unit and the lifting device of the structure of the invention,

FIG. 7 is an enlarged view of the point A in FIG. 6 according to the present invention.

In the figure: 1. a front end conveying roller; 11. a first guide roller; 2. a heating device; 21. a toughening furnace body; 22. a material conveying groove; 23. an upper heating plate; 24. a lower heating plate; 3. a cooling conveyor; 31. a roller; 32. a rectangular groove; 33. installing a through groove; 4. a cooling chamber; 41. a first side plate; 42. a second side plate; 43. a cross-shaped chute; 5. a power plant; 51. a cylinder; 52. layering; 521. a pressure lever; 53. erecting a rod; 531. a first convex chute; 532. a spring; 54. a rack; 55. an adjusting block; 551. a second convex chute; 56. an upper pressure plate; 57. a first gear; 58. a first lead screw; 59. a threaded sleeve; 6. a lifting device; 61. a rotating shaft; 62. a second gear; 63. a first bevel gear; 64. a second bevel gear; 65. a second lead screw; 66. an I-shaped sliding plate; 67. a base; 68. connecting blocks; 69. a lower pressing plate; 7. a cooling device; 71. an air outlet pipe; 72. a plurality of rows of tubes are arranged; 73. a plurality of rows of tubes are arranged; 74. an air outlet; 8. a rear-end conveying roller; 81. a second guide roller; 82. a baffle plate; 9. a glass body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in figures 1-7, the invention provides a toughened glass forming auxiliary device, which comprises a front-end conveying roller 1 for conveying unheated glass, a plurality of first guide rollers 11 are rotatably arranged on the inner wall of the front-end conveying roller 1, one end of the front-end conveying roller 1 is fixedly connected with a heating device 2, the heating device 2 heats the glass, one end of the heating device 2 is fixedly provided with a cooling conveying device 3, the cooling conveying device 3 is used for conveying the cooled toughened glass out, the upper surface of the cooling conveying device 3 is fixedly provided with a cooling chamber 4, so that cooling air can be isolated from the outside, the cooling effect is improved, the side surface of the cooling chamber 4 is fixedly provided with a cooling device 7, the cooling device 7 can rapidly and uniformly cool a glass body 9, the cooling device 7 is fixedly connected with the cooling conveying device 3, the upper surface of the cooling chamber 4 is fixedly provided with a power device 5, the cooling conveying device 3 is movably provided with the glass body 9, the bottom end of the power device 5 is attached to the upper surface of the glass body 9, the power device 5 is fixedly connected with a lifting device 6, the glass body 9 is clamped through the power device 5 and the lifting device 6, the glass body 9 is lifted, the lifting device 6 is in sliding clamping connection with the side surface of the cooling chamber 4, the upper end of the lifting device 6 is attached to the bottom surface of the glass body 9, the lifting device 6 lifts the glass body 9, the lifting device 6 and the power device 5 are movably arranged between the cooling and conveying devices 3, therefore, the lifting device 6 and the power device 5 can clamp and fix the glass body 9, and the other end of the cooling and conveying device 3 is fixedly connected with a rear-end conveying roller 8 for conveying the cooled glass body 9.

Further, heating device 2 has seted up defeated material groove 22 including tempering furnace body 21 in tempering furnace body 21 for glass body 9 can carry smoothly, and tempering furnace body 21 fixed mounting has last hot plate 23, lower hot plate 24, and last hot plate 23 and lower hot plate 24 locate first deflector roll 11 upper and lower extreme department respectively to go up hot plate 23, lower hot plate 24 can carry out the even heating to glass body 9 two sides.

Further, 3 upper ends of cooling conveyor rotate and install gyro wheel 31, and the drive arrangement of gyro wheel 31 is synchronous belt drive, drives hold-in range mechanism through the motor, makes gyro wheel 31 drive, and when glass body 9 needs the cooling, gyro wheel 31 stall, and a plurality of rectangular channels 32 have been seted up on 3 surfaces of cooling conveyor, and the logical groove 33 of installation has been seted up to rectangular channel 32 inner wall, and the interior fixed mounting cooling device 7 of the logical groove 33 of installation, cooling device 7 are by fixed mounting.

Further, the two sides of the cooling chamber 4 are fixedly provided with a first side plate 41 and a second side plate 42, the bottom ends of the surfaces of the first side plate 41 and the second side plate 42 are provided with a cross sliding groove 43, and the lifting device 6 is slidably clamped in the cross sliding groove 43, so that the lifting device 6 can lift the glass body 9, and the side surface of the second side plate 42 is fixedly provided with the cooling device 7.

Further, installation cooling device 7 fixed mounting has two play tuber pipes 71, two play tuber pipes 71 run through second curb plate 42 respectively, it is managed 71 by fixed mounting to go out the tuber pipe, many calandrias 73 under the play tuber pipe 71 fixedly connected with of bottom, many calandrias 72 on the play tuber pipe 71 fixedly connected with of upper end, many calandrias 73 fixed mounting is led to the inslot 33 in the installation down, it fixes and locates first curb plate 41 and second curb plate 42 inner wall to go up many calandrias 72, it has a plurality of air outlets 74 with the equal fixed mounting in many calandrias 73 upper ends down to go up many calandrias 72 bottom and many calandrias 73, thereby can carry out cooling process to glass body 9 fast through a plurality of air outlets 74 of last many calandrias 72 and many calandrias 73 down.

Further, the power device 5 comprises an air cylinder 51, the bottom end of the air cylinder 51 is fixedly arranged on the upper surface of the cooling chamber 4, the air cylinder 51 is fixedly installed, a piston rod of the air cylinder 51 movably penetrates through the cooling chamber 4 and is fixedly connected with a pressing bar 52, the air cylinder 51 pushes the pressing bar 52 to move up and down, the bottom ends of the two ends of the pressing bar 52 are symmetrically and fixedly connected with pressing bars 521, the bottom ends of the pressing bars 521 are slidably connected with upright bars 53, the pressing bar 52 pushes the pressing bars 521 to slide up and down along the upright bars 53, the outer sides of the upright bars 53 are fixedly arranged on the inner walls of the first side plate 41 and the second side plate 42, the bottom ends of the two ends of the pressing bar 52 are fixedly provided with racks 54, the pressing bar 52 pushes the racks 54 to move up and down, the racks 54 are engaged with first gears 57, the first gears 57 are driven to rotate, the outer sides of the first gears 57 are fixedly connected with the lifting device 6, the lifting device 6 is linked, the inner sides of the first gears 57 are fixedly connected with first lead screws 58, the other ends of the first lead screws 58 are externally threaded with screw sleeves 59, the other end of the screw sleeve 59 is fixedly connected with an upper pressure plate 56, so that the first screw rod 58 is in threaded connection with the screw sleeve 59 and can drive the two upper pressure plates 56 to move horizontally relative to each other, so that glass bodies 9 with different widths can be clamped, the bottom surfaces of the upper pressure plates 56 are attached to the upper surface of the glass body 9, the bottom surfaces of the two ends of the upper pressure plates 56 are slidably connected with adjusting blocks 55, the outer sides of the adjusting blocks 55 are fixedly connected with the inner sides of the vertical rods 53, the adjusting blocks 55 are fixedly installed, and the upper pressure plates 56 can move horizontally relative to each other stably.

Further, first convex spout 531 has all been seted up to pole setting 53 side, slip joint depression bar 521 bottom in first convex spout 531, the fixed spring 532 that is equipped with of top surface in first convex spout 531, spring 532 bottom end fixed connection depression bar 521 bottom upper surface, thereby depression bar 521 can follow and carry out the buffer type removal between the pole setting 53, second convex spout 551 has been seted up to regulating block 55 upper surface, slip joint 56 both ends bottom in second convex spout 551, thereby upper pressure plate 56 can the steady movement.

Further, the lifting device 6 comprises a rotating shaft 61, one end of the rotating shaft 61 is fixedly connected with the outer side of the first gear 57, the other end of the rotating shaft 61 penetrates through the first side plate 41 and the second side plate 42 and is fixedly connected with the second gear 62, the rotating shaft 61 is rotatably connected with the first side plate 41 and the second side plate 42 through a bearing, so that the first gear 57 drives the second gear 62 to rotate, the outer side of the second gear 62 is fixedly connected with a first bevel gear 63, the first bevel gear 63 is engaged with a second bevel gear 64, the bottom end of the second bevel gear 64 is fixedly connected with a second lead screw 65, so that the second lead screw 65 is driven by the second gear 62 to rotate, the bottom end of the second lead screw 65 is threaded through with an I-shaped sliding plate 66, the I-shaped sliding plate 66 is slidably clamped in the cross sliding chute 43, the inner side of the I-shaped sliding plate 66 is fixedly connected with a plurality of connecting blocks 68, the inner side of the connecting blocks 68 is fixedly provided with a lower pressing plate 69, the bottom end of the second lead screw 65 is rotatably clamped with a base 67, the inner side of the base 67 is fixedly disposed on the outer sides of the first side plate 41 and the second side plate 42, so that the second screw 65 drives the i-shaped sliding plate 66 and the lower pressing plate 69 to slide up and down along the cross sliding groove 43, thereby lifting the glass body 9.

Further, the lower pressing plate 69 is L-shaped, and the upper surface of the lower pressing plate 69 is attached to the bottom surface of the glass body 9, so that the glass body 9 can be lifted and clamped.

Further, a plurality of second guide rollers 81 are rotatably installed on the inner wall of the rear end conveying roller 8, and baffles 82 are fixedly arranged at two ends of the upper surface of the rear end conveying roller 8, so that the cooled glass body 9 is moved onto the rear end conveying roller 8 through a plurality of rollers 31.

The working principle is as follows: the glass body 9 needs to be heated and cooled and annealed, the glass body 9 enters a toughening furnace body 21 from a material conveying groove 22 through a front end conveying roller 1, then the two sides of the glass body 9 are uniformly heated through an upper heating plate 23 and a lower heating plate 24, the two sides of the glass body 9 are heated and then conveyed to a cooling conveying device 3 in a cooling chamber 4 for rapid cooling, at the moment, a synchronous belt mechanism stops working through closing a motor, so that a roller 31 cannot drive the glass body 9, then, a cylinder 51 pushes a pressing bar 52 to move downwards and pushes the pressing bar 521 to slide up and down along between vertical rods 53, the pressing bar 521 is buffered through the action of a spring 532, the stabilizing effect is achieved, meanwhile, the pressing bar 52 pushes a rack 54 to move downwards and can drive a first gear 57 to rotate, and is in threaded connection with a threaded sleeve 59 through a first screw rod 58, the two upper press plates 56 are horizontally and relatively moved along the second convex sliding chutes 551 arranged on the adjusting blocks 55 so as to clamp the glass bodies 9 with different widths, in addition, the first gear 57 can link the second gear 62 to rotate, and the second lead screw 65 is driven to rotate by the first bevel gear 63 and the second bevel gear 64, the second lead screw 65 drives the I-shaped sliding plate 66 and the lower press plate 69 to upwards slide along the cross sliding chute 43, so as to lift the glass bodies 9, and the two upper press plates 56 are matched to clamp and fix the glass bodies 9 between the upper multi-row pipes 72 and the lower multi-row pipes 73, so that the glass bodies 9 can be rapidly cooled through the plurality of air outlets 74 of the upper multi-row pipes 72 and the lower multi-row pipes 73, and the cooled glass bodies 9 are moved to the rear-end 8 conveying roller through the plurality of rollers 31, thereby completing the automation of the forming of the toughened glass.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a toughened glass shaping auxiliary device, includes front end conveying roller (1), its characterized in that: the inner wall of the front end conveying roller (1) is rotatably provided with a plurality of first guide rollers (11), one end of the front end conveying roller (1) is fixedly connected with a heating device (2), one end of the heating device (2) is fixedly provided with a cooling conveying device (3), the upper surface of the cooling conveying device (3) is fixedly provided with a cooling chamber (4), the side surface of the cooling chamber (4) is fixedly provided with a cooling device (7), the cooling device (7) is fixedly connected with the cooling conveying device (3), the upper surface of the cooling chamber (4) is fixedly provided with a power device (5), the cooling conveying device (3) is movably provided with a glass body (9), the bottom end of the power device (5) is jointed with the upper surface of the glass body (9), the power device (5) is fixedly connected with a lifting device (6), and the lifting device (6) is connected with the side surface of the cooling chamber (4) in a sliding manner, the upper end of the lifting device (6) is attached to the bottom surface of the glass body (9), the lifting device (6) and the power device (5) are movably arranged between the cooling and conveying devices (3), and the other end of the cooling and conveying device (3) is fixedly connected with a rear-end conveying roller (8).

2. The auxiliary device for forming the tempered glass as claimed in claim 1, wherein the heating device (2) comprises a tempering furnace body (21), a material conveying chute (22) is formed in the tempering furnace body (21), an upper heating plate (23) and a lower heating plate (24) are fixedly mounted on the tempering furnace body (21), and the upper heating plate (23) and the lower heating plate (24) are respectively arranged at the upper end and the lower end of the first guide roller (11).

3. The auxiliary device for forming the tempered glass as claimed in claim 1, wherein the upper end of the cooling conveyor (3) is rotatably provided with a roller (31), a driving device of the roller (31) is driven by a synchronous belt, the surface of the cooling conveyor (3) is provided with a plurality of rectangular grooves (32), the inner wall of each rectangular groove (32) is provided with a mounting through groove (33), and the cooling device (7) is fixedly arranged in the mounting through groove (33).

4. The auxiliary device for forming the tempered glass according to claim 1, wherein a first side plate (41) and a second side plate (42) are fixedly arranged at two sides of the cooling chamber (4), cross sliding grooves (43) are formed in the bottom ends of the surfaces of the first side plate (41) and the second side plate (42), the lifting device (6) is slidably clamped in the cross sliding grooves (43), and the cooling device (7) is fixedly arranged at the side surface of the second side plate (42).

5. The auxiliary device for forming the tempered glass according to claim 4, wherein the mounting and cooling device (7) is fixedly provided with two air outlet pipes (71), the two air outlet pipes (71) respectively penetrate through the second side plate (42), the bottom end of the air outlet pipe (71) is fixedly connected with a lower multi-row pipe (73), the upper end of the air outlet pipe (71) is fixedly connected with an upper multi-row pipe (72), the lower multi-row pipe (73) is fixedly arranged in the mounting through groove (33), the upper multi-row pipe (72) is fixedly arranged on the inner walls of the first side plate (41) and the second side plate (42), and the bottom end of the upper multi-row pipe (72) and the upper end of the lower multi-row pipe (73) are both fixedly provided with a plurality of air outlets (74).

6. The auxiliary device for forming the tempered glass according to claim 1, wherein the power device (5) comprises an air cylinder (51), the bottom end of the air cylinder (51) is fixedly arranged on the upper surface of the cooling chamber (4), the piston rod of the air cylinder (51) movably penetrates through the cooling chamber (4) and is fixedly connected with a pressing bar (52), the bottom ends of the two ends of the pressing bar (52) are symmetrically and fixedly connected with pressing bars (521), the bottom end of the pressing bar (521) is slidably connected with a vertical bar (53), the outer side of the vertical bar (53) is fixedly arranged on the inner walls of the first side plate (41) and the second side plate (42), the bottom ends of the two ends of the pressing bar (52) are fixedly provided with racks (54), the racks (54) are engaged and connected with a first gear (57), the outer side of the first gear (57) is fixedly connected with the lifting device (6), and the inner side of the first gear (57) is fixedly connected with a first lead screw (58), the outer thread of the other end of the first screw rod (58) is connected with a threaded sleeve (59), the other end of the threaded sleeve (59) is fixedly connected with an upper pressing plate (56), the bottom surface of the upper pressing plate (56) is attached to the upper surface of the glass body (9), the bottom surfaces of the two ends of the upper pressing plate (56) are connected with adjusting blocks (55) in a sliding mode, and the outer side of each adjusting block (55) is fixedly connected with the inner side of the vertical rod (53).

7. The auxiliary device for forming the tempered glass as claimed in claim 6, wherein the side surfaces of the vertical rod (53) are respectively provided with a first convex sliding groove (531), the bottom end of the pressing rod (521) is clamped in the first convex sliding groove (531) in a sliding manner, the inner top surface of the first convex sliding groove (531) is fixedly provided with a spring (532), the bottom end of the spring (532) is fixedly connected with the upper surface of the bottom end of the pressing rod (521), the upper surface of the adjusting block (55) is provided with a second convex sliding groove (551), and the bottom ends of the two ends of the upper pressing plate (56) are clamped in the second convex sliding groove (551) in a sliding manner.

8. The auxiliary device for forming the tempered glass according to claim 6, wherein the lifting device (6) comprises a rotating shaft (61), one end of the rotating shaft (61) is fixedly connected with the outer side of the first gear (57), the other end of the rotating shaft (61) penetrates through the first side plate (41) and the second side plate (42) and is fixedly connected with the second gear (62), the outer side of the second gear (62) is fixedly connected with the first bevel gear (63), the first bevel gear (63) is engaged with the second bevel gear (64), the bottom end of the second bevel gear (64) is fixedly connected with the second lead screw (65), the bottom end of the second lead screw (65) is threaded through the I-shaped sliding plate (66), the I-shaped sliding plate (66) is slidably clamped in the cross sliding chute (43), and the inner side of the I-shaped sliding plate (66) is fixedly connected with a plurality of connecting blocks (68), connecting block (68) inboard is fixed and is equipped with holding down plate (69), second lead screw (65) bottom rotates the joint and has base (67), first curb plate (41) and second curb plate (42) outside are located to base (67) inboard fixed.

9. A tempered glass forming auxiliary device as claimed in claim 8, wherein the lower pressing plate (69) is L-shaped, and the upper surface of the lower pressing plate (69) is attached to the bottom surface of the glass body (9) in a fitting manner.

10. A tempered glass forming auxiliary device as claimed in claim 1, wherein a plurality of second guide rollers (81) are rotatably installed on the inner wall of the rear end feed roller (8), and stoppers (82) are fixedly installed at both ends of the upper surface of the rear end feed roller (8).