CN109626802B - Stacking system for glass in high-temperature pressing and forming process - Google Patents

Abstract

The invention belongs to the technical field of glass pressing, and particularly relates to a stacking system for a high-temperature pressing and forming process of glass; comprises a working box, a working box door and a controller; the automatic trimming device is characterized in that a first electric hydraulic cylinder is arranged above the inside of the working box, the first electric hydraulic cylinders are symmetrically arranged by taking the central line of the working box as a reference, the adjacent first electric hydraulic cylinders are connected through a communicating vessel, a trimming unit is arranged below the first electric hydraulic cylinders, the trimming unit comprises a trimming plate and a trimming cylinder, and the trimming plate is fixedly connected with the output end of the first electric hydraulic cylinder; a clamping unit is arranged below the fine adjustment cylinder, and the output end of the electric telescopic cylinder penetrates out of the end part of the clamping transverse plate and is fixedly connected with the clamping vertical plate; the bottom of the clamping vertical plate is provided with a laser level meter; a reference table is arranged at the bottom of the working box; the invention has simple structure, can improve the precision of glass press forming and further improve the success rate of glass press forming.

Description

Stacking system for glass in high-temperature pressing and forming process

Technical Field

The invention belongs to the technical field of glass pressing, and particularly relates to a stacking system for a high-temperature pressing and forming process of glass.

Background

As the main production process of glass product molding, press molding is the most effective molding process of glass products due to the characteristics of rapidness, high efficiency, accuracy and the like, and is mainly used for pressing glass melt into a mold cavity by pressure to obtain complex glass products; in the stacking process, the glass can be completely bonded together under a very small error, and the bonding position is flat, so that the quality of glass pressing combination forming can be improved, and if the glass which is mutually pressed and formed can not be completely bonded together, the subsequent utilization of the glass can be greatly influenced, and the production cost of the glass is increased; in the prior art, in the stacking procedure of glass pressing, after the glass is taken out of a die, the glass is simply pressed together, so that the joint of the pressed glass is uneven, the joint surfaces of the mutually pressed glass cannot be completely jointed together, the pressed glass cannot be used, the production finished product of a glass product is definitely increased, and the economic loss of glass production is caused.

Disclosure of Invention

In order to make up the defects of the prior art and solve the problems that in the prior art, when glass is pressed in the glass pressing and stacking process, the joint surface is uneven and the mutually pressed glass cannot be completely jointed together, the invention provides a stacking system for the glass high-temperature pressing and combining forming process.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a stacking system for a glass high-temperature pressing and combining forming process, which comprises a working box, a working box door and a controller; the controller is used for controlling the stacking system of the high-temperature pressing and combining forming process of the glass to work; the upper part inside the working box is provided with a first electric hydraulic cylinder which is symmetrically arranged by taking the central line of the working box as a reference, the cylinder body part of the first electric hydraulic cylinder is fixedly connected with the top of the working box, and the adjacent first electric hydraulic cylinders are connected through a communicating vessel and are electrically connected with a controller; the device comprises a first electric hydraulic cylinder, a fine adjustment unit, a controller and a fine adjustment unit, wherein the fine adjustment unit is arranged below the first electric hydraulic cylinder and used for ensuring the flatness of the joint surface of mutually pressed glass, the fine adjustment unit comprises a fine adjustment plate and a fine adjustment cylinder, the fine adjustment plate is fixedly connected with the output end of the first electric hydraulic cylinder, the cylinder body of the fine adjustment cylinder is fixedly connected below the fine adjustment plate, the number of the fine adjustment cylinders is four, the fine adjustment cylinders are uniformly distributed at four corners of the fine adjustment plate, and the fine adjustment cylinders are electrically connected with the controller; the clamping unit is used for clamping glass to be pressed, the clamping unit comprises a clamping transverse plate and a clamping vertical plate, the upper part of the clamping vertical plate is fixedly connected with the output end of the fine adjustment cylinder, the clamping vertical plate is positioned at the two ends of the clamping transverse plate, an electric telescopic cylinder is arranged in the two ends of the clamping transverse plate, and the output end of the electric telescopic cylinder penetrates out from the end part of the clamping transverse plate and is fixedly connected with the clamping vertical plate; the bottom of the clamping vertical plate is provided with a laser level, the laser level is electrically connected with the controller, and the laser level is used for ensuring that the joint surfaces of the mutually pressed and combined glass are positioned at the same position; a reference table is arranged at the bottom of the working box, a latch is fixedly connected above the reference table, and glass which is required to be pressed and combined is placed between the latch and the clamping unit; the heat-insulating unit is used for insulating the pressed glass, the heat-insulating unit comprises a flame spraying head, a flame spraying pipe is arranged in the flame spraying head, one end of the flame spraying pipe extends out of the flame spraying head and is aligned to the joint of the mutually pressed glass, and a control valve is arranged in the flame spraying head and used for controlling the fire intensity; the control valve consists of a groove and a baffle plate, wherein the baffle plate is positioned in the groove and slides in the groove, one end of the baffle plate is connected with the groove through a spring, an opening is formed in the baffle plate, and one end of the baffle plate, which is contacted with the spring, and the groove form a closed space; two sides of the output end of the first electric hydraulic cylinder are provided with air extraction units, and the air extraction units are used for extracting air in a closed space formed by one end, contacted with the baffle plate and the spring, and the groove so as to drive the baffle plate to move in the groove; the air extraction unit comprises an air extraction cylinder and an air extraction rod, one end of the air extraction rod is fixedly connected with the output end of the first electric hydraulic cylinder, the other end of the air extraction rod extends into the air extraction cylinder, the part of the air extraction rod extending out of the air extraction cylinder is connected with the bottom of the air extraction cylinder through a spring, the bottom of the air extraction cylinder is fixedly connected with the clamping transverse plate, and the top of the air extraction rod is contacted with the first electric hydraulic cylinder; according to the invention, the first electric hydraulic cylinders are used, the adjacent first hydraulic cylinders are communicated through the communicating vessel, the communicating vessel can enable the liquid in the adjacent first electric hydraulic cylinders to circulate, so that the glass on the clamping unit and the glass on the clamping lock are uniformly stressed when being mutually pressed and formed, meanwhile, through the design of the fine adjustment unit and the use of the laser level meter, the glass on the clamping unit and the glass on the clamping lock can be completely bonded without errors when being pressed and formed and combined, the precision of high-temperature pressing and combined forming of the glass is ensured, the quality of high-temperature pressing and combined forming of the glass is improved, and through the design of the heat preservation unit, the bonding surfaces of the glass can be flamed when the glass is completely bonded, the condition that gaps exist between the bonding surfaces due to temperature reduction is prevented, and the effect of high-temperature pressing and combined forming of the glass is ensured.

Preferably, a second electric hydraulic cylinder is arranged below the flame spraying head and is electrically connected with the controller, and the second electric hydraulic cylinder is used for adjusting the position of the flame spraying head; according to the invention, the second electric hydraulic cylinder is used, so that the position of the flame spraying head can be adjusted when the second electric hydraulic cylinder moves, and the applicability of the invention is improved.

Preferably, an air outlet is formed in one side, in contact with the glass, of the clamping transverse plate, and cold air can be blown out of the air outlet to cool the glass in contact with the clamping transverse plate and the clamping vertical plate; according to the invention, the air outlets are arranged on one sides of the clamping transverse plates and the clamping vertical plates for clamping glass, so that the glass in a high-temperature state can be prevented from being adhered to the clamping transverse plates and the clamping vertical plates.

Preferably, a protection box is arranged on the outer side of the laser level, the laser level is placed in the protection box, nano composite ceramic coating is coated on the outer side of the protection box, and the nano composite ceramic coating is used for protecting the laser level.

Preferably, a cavity is formed in the protection box, and ethanol is filled in the cavity; a condensing tube is arranged in the clamping vertical plate and is communicated with the cavity; according to the invention, the cavity is formed in the protection box, the ethanol is arranged in the cavity and is communicated with the condensing tube, the ethanol in the cavity generates gas under the influence of high-temperature glass, and simultaneously, the heat outside the protection box is taken away, so that the use state of the laser level is not influenced by the high-temperature glass, and meanwhile, the ethanol in the gaseous state is changed into a liquid state after entering the condensing tube, so that the ethanol can be re-entered into the cavity, and the repeated utilization of the ethanol is realized.

Placing one glass in a molten state which is required to be pressed and formed on a clamping lock on a reference table for fixing, placing the other glass in the molten state which is required to be pressed and formed between a clamping transverse plate and a clamping vertical plate, starting an electric telescopic rod to enable the clamping vertical plate to be close to the clamping transverse plate, fixing the glass when the clamping vertical plate is close to the clamping transverse plate, starting a first electric hydraulic cylinder, enabling the output end of the first electric hydraulic cylinder to move downwards, at the moment, starting a laser level meter to measure the positions of the two glasses, ensuring that the two glasses can be completely attached together, if the laser level meter shows that the attached positions of the two glasses can be completely attached together, continuing to move downwards, pushing the glass fixed on a clamping unit to be pressed and formed with the glass fixed on the clamping lock when the output end of the first electric hydraulic cylinder moves downwards, when the output end of the first electric hydraulic cylinder moves downwards, if the joint of the glass is in an uneven state, the four fine adjustment cylinders work, the protruding length of the output end of the fine adjustment cylinder is smaller for the concave part of the joint of the glass, and the protruding length of the output end of the fine adjustment cylinder is longer for the convex part of the joint of the glass, so that the joint of the two pieces of glass can be ensured to be in a flat state all the time, the two pieces of glass can be completely pressed and molded together, simultaneously, when the output end of the first electric hydraulic cylinder moves downwards, the air suction cylinder moves downwards, when the air suction cylinder moves downwards, the air in a closed space formed by one end contacted by the partition plate and the spring and the groove moves towards the air suction cylinder, so that the air pressure in the closed space of one end of the partition plate far away from the spring is larger than the air pressure in the closed space of one end contacted by the partition plate and the spring, so that the baffle moves to the left, when the opening on the baffle moves into the fire spraying pipe, the fire spraying pipe is communicated and aligned to spray fire to the joint of the two pieces of glass in compression molding, the glass at the joint is in a high-temperature state, the joint is not easy to generate gaps, and the joint surface between the glass and the glass can be completely flush.

The beneficial effects of the invention are as follows:

1. the stacking system for the high-temperature pressing and combining forming process of the glass has high precision in pressing and forming, and the laser level meter can judge whether the mutually pressed glass is on the same horizontal plane or not through designing the fine adjustment unit and the laser level meter, so that the mutually pressed glass can be completely bonded, the fine adjustment unit can adjust the flatness of the bonding surface of the glass during working, the bonding surfaces of the mutually pressed glass can be completely bonded together, and the success rate of the high-temperature pressing and combining forming of the glass is improved.

2. The stacking system for the high-temperature pressing and combining forming process of the glass has good heat preservation effect, and through the cooperation of the heat preservation unit and the air extraction unit, the fire-spraying head can spray fire on the pressed and formed glass at the moment of pressing and combining forming of the glass, so that the glass at the joint surfaces pressed mutually can be completely adhered together without gaps, and the success rate of pressing and combining forming of the high-temperature glass is further improved.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a front view of the present invention;

FIG. 2 is a view from the direction at A in FIG. 1;

FIG. 3 is a partial enlarged view at B in FIG. 1;

FIG. 4 is an enlarged view of a portion of FIG. 1 at C;

FIG. 5 is a schematic representation of the invention in operation;

FIG. 6 is a partial enlarged view at D in FIG. 5;

in the figure: working box 1, electric hydraulic cylinder number one 2, communicating vessel 3, fine tuning unit 4, fine tuning plate 41, fine tuning cylinder 42, holding unit 5, holding cross plate 51, holding vertical plate 52, electric telescopic rod 53, air outlet 54, laser level 6, protection box 61, cavity 62, condenser tube 63, reference table 7, latch 71, heat preservation unit 8, flame head 81, flame tube 82, control valve 83, groove 831, partition 832, electric hydraulic cylinder number two 84, air extraction unit 9, air extraction cylinder 91, air extraction rod 92.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 6, the stacking system for the glass high-temperature pressing and combining forming process comprises a working box 1, a working box door and a controller; the controller is used for controlling the stacking system of the high-temperature pressing and combining forming process of the glass to work; the upper part inside the working box 1 is provided with a first electric hydraulic cylinder 2, the first electric hydraulic cylinder 2 is symmetrically arranged by taking the central line of the working box 1 as a reference, the cylinder body part of the first electric hydraulic cylinder 2 is fixedly connected with the top of the working box 1, the adjacent first electric hydraulic cylinders 2 are connected through a communicating vessel 3, and the first electric hydraulic cylinder 2 is electrically connected with a controller; the lower part of the first electric hydraulic cylinder 2 is provided with a fine tuning unit 4, the fine tuning unit 4 is used for ensuring that the joint surface of mutually pressed glass is smooth, the fine tuning unit 4 comprises a fine tuning plate 41 and a fine tuning cylinder 42, the fine tuning plate 41 is fixedly connected with the output end of the first electric hydraulic cylinder 2, the cylinder body part of the fine tuning cylinder 42 is fixedly connected below the fine tuning plate 41, the number of the fine tuning cylinders 42 is four, the fine tuning cylinders 42 are uniformly distributed at four corners of the fine tuning plate 41, and the fine tuning cylinders 42 are electrically connected with a controller; the lower part of the fine adjustment cylinder 42 is provided with a clamping unit 5, the clamping unit 5 is used for clamping glass to be pressed, the clamping unit 5 comprises a clamping transverse plate 51 and a clamping vertical plate 52, the upper part of the clamping vertical plate 52 is fixedly connected with the output end of the fine adjustment cylinder 42, the clamping vertical plate 52 is positioned at two ends of the clamping transverse plate 51, electric telescopic rods 53 are arranged in the two ends of the clamping transverse plate 51, and the output end of each electric telescopic rod 53 penetrates out from the end part of the clamping transverse plate 51 and is fixedly connected with the clamping vertical plate 52; the bottom of the clamping vertical plate 52 is provided with a laser level instrument 6, the laser level instrument 6 is electrically connected with the controller, and the laser level instrument 6 is used for ensuring that the joint surfaces of the mutually pressed and combined glass are positioned at the same position; a reference table 7 is arranged at the bottom of the working box 1, a clamping lock 71 is fixedly connected above the reference table 7, and glass which is required to be pressed and combined is placed between the clamping lock 71 and the clamping unit 5; a heat preservation unit 8 is arranged on one side of the lock 71, the heat preservation unit 8 is used for preserving heat of pressed glass, the heat preservation unit 8 comprises a fire-spraying head 81, a fire-spraying pipe 82 is arranged in the fire-spraying head 81, one end of the fire-spraying pipe 82 extends out of the fire-spraying head 81 and is aligned with the joint of the mutually pressed glass, a control valve 83 is arranged in the fire-spraying head 81, and the control valve 83 is used for controlling the fire intensity; the control valve 83 is composed of a groove 831 and a baffle 832, the baffle 832 is positioned in the groove 831 and slides in the groove 831, one end of the baffle 832 is connected with the groove 831 through a spring, an opening is arranged on the baffle 832, and one end of the baffle 832 contacted with the spring forms a closed space with the groove 831; the two sides of the output end of the first electro-hydraulic cylinder 2 are provided with air extraction units 9, and the air extraction units 9 are used for extracting air in a closed space formed by the end, contacted with the partition 832 and the spring, and the recess 831 so as to drive the partition 832 to move in the recess 831; the air extraction unit 9 comprises an air extraction cylinder 91 and an air extraction rod 92, one end of the air extraction rod 92 is fixedly connected with the output end of the first electric hydraulic cylinder 2, the other end of the air extraction rod 92 stretches into the air extraction cylinder 91, the part of the air extraction rod 92 stretching out of the air extraction cylinder 91 is connected with the bottom of the air extraction cylinder 91 through a spring, the bottom of the air extraction cylinder 91 is fixedly connected with the clamping transverse plate 51, and the top of the air extraction rod 92 is contacted with the first electric hydraulic cylinder 2; according to the invention, the first electric hydraulic cylinders 2 are used, the adjacent first hydraulic cylinders are communicated through the communicating vessel 3, the communicating vessel 3 can enable the liquid in the adjacent first electric hydraulic cylinders 2 to circulate, so that the glass on the clamping unit 5 and the glass on the clamping lock 71 are uniformly stressed when being mutually pressed and formed, meanwhile, through the design of the fine adjustment unit 4 and the use of the laser level meter 6, the glass on the clamping unit 5 and the glass on the clamping lock 71 can be completely bonded without errors when being pressed and formed, the precision of high-temperature pressing and bonding forming of the glass is ensured, the quality of the high-temperature pressing and bonding forming of the glass is improved, and through the design of the heat preservation unit 8, the bonding surface of the glass can be flamed when the glass is completely bonded, the condition that gaps appear between the bonding surfaces due to temperature reduction is prevented, and the effect of high-temperature pressing and bonding forming of the glass is ensured.

As a specific embodiment of the present invention, a second electro-hydraulic cylinder 84 is disposed below the flame spraying head 81, the second electro-hydraulic cylinder 84 is electrically connected to the controller, and the second electro-hydraulic cylinder 84 is used for adjusting the position of the flame spraying head 81; the invention improves the applicability of the invention by using the second electro-hydraulic cylinder 84, wherein the second electro-hydraulic cylinder 84 can adjust the position of the flame spraying head 81 when moving.

As a specific embodiment of the present invention, an air outlet 54 is formed on the side of the clamping cross plate 51 contacting with the glass, and cold air can be blown out of the air outlet 54 to cool the glass contacting with the clamping cross plate 51 and the clamping vertical plate 52; the invention can prevent glass from adhering to the clamping transverse plate 51 and the clamping vertical plate 52 in a high temperature state by arranging the air outlet 54 on one side of the clamping transverse plate 51 and the clamping vertical plate 52 for clamping glass.

As a specific embodiment of the present invention, a protection box 61 is disposed at the outer side of the laser level 6, the laser level 6 is placed in the protection box 61, and a nanocomposite ceramic coating is coated on the outer side of the protection box 61, where the nanocomposite ceramic coating is used for protecting the laser level 6.

As a specific embodiment of the present invention, a cavity 62 is formed in the protection case 61, and ethanol is filled in the cavity 62; a condensing tube 63 is arranged in the clamping vertical plate 52, and the condensing tube 63 is communicated with the cavity 62; according to the invention, the cavity 62 is formed in the protection box 61, the ethanol is arranged in the cavity 62, the cavity 62 is communicated with the condensing tube 63, the ethanol in the cavity 62 generates gas under the influence of high-temperature glass, and simultaneously, the heat outside the protection box 61 is taken away, so that the use state of the laser level 6 is not influenced by the high-temperature glass, and meanwhile, the ethanol in a gaseous state is changed into a liquid state after entering the condensing tube 63, so that the ethanol is re-entered into the cavity 62, and the repeated utilization of the ethanol is realized.

During operation, one glass in a molten state needing to be pressed and formed is placed on the clamping lock 71 on the reference table 7 to be fixed, the other glass in the molten state needing to be pressed and formed is placed between the clamping transverse plate 51 and the clamping vertical plate 52, the electric telescopic rod 53 is started to enable the clamping vertical plate 52 to be close to the clamping transverse plate 51, the glass is fixed when the clamping vertical plate 52 is close to the clamping transverse plate 51, the first electric hydraulic cylinder 2 is started, the output end of the first electric hydraulic cylinder 2 starts to move downwards, at the moment, the laser level meter 6 starts to measure the positions of the two glasses, so that the two glasses can be completely attached together, if the laser level meter 6 shows that the attachment positions of the two glasses can be completely matched, the output end of the first hydraulic cylinder continues to move downwards, and when the output end of the first electric hydraulic cylinder 2 moves downwards, the glass fixed on the clamping unit 5 and the glass fixed on the clamping lock 71 are pushed to be pressed and combined to form, while the output end of the first electric hydraulic cylinder 2 moves downwards, if the joint of the glass has the rugged condition, the four fine adjustment cylinders 42 work, the protruding length of the output end of the fine adjustment cylinder 42 is smaller for the concave part of the joint of the glass, the protruding length of the output end of the fine adjustment cylinder 42 is longer for the convex part of the joint of the glass, so that the joint of the two glasses can be ensured to be always in a flat state, the two glasses can be favorably pressed and formed together completely, meanwhile, the output end of the first electric hydraulic cylinder 2 moves downwards, the air suction cylinder 91 moves downwards, when the air suction cylinder 91 moves downwards, the air in a closed space formed by one end contacted by the partition 832 and the spring and the groove 831 forms the air in the air suction cylinder 91, the air pressure in the closed space of the end, far away from the spring, of the partition board 832 is greater than the air pressure in the closed space of the end, contacted with the spring, of the partition board 832, so that the partition board 832 moves leftwards, when an opening on the partition board 832 moves into the fire-spraying pipe 82, the fire-spraying pipe 82 is communicated and aligned to the joint of two pieces of glass pressed and formed, the glass at the joint is enabled to start in a high-temperature state, gaps are not easy to appear at the joint, and the joint surface between the glass and the glass can be completely flush.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. A stacking system for a glass high-temperature pressing and combining forming process is characterized in that: comprises a working box (1), a working box door and a controller; the controller is used for controlling the stacking system of the high-temperature pressing and combining forming process of the glass to work; the upper part inside the working box (1) is provided with a first electric hydraulic cylinder (2), the first electric hydraulic cylinder (2) is symmetrically arranged by taking the central line of the working box (1) as a reference, the cylinder body part of the first electric hydraulic cylinder (2) is fixedly connected with the top of the working box (1), the adjacent first electric hydraulic cylinders (2) are connected through a communicating vessel (3), and the first electric hydraulic cylinder (2) is electrically connected with a controller; the device is characterized in that a fine adjustment unit (4) is arranged below the first electric hydraulic cylinder (2), the fine adjustment unit (4) is used for ensuring that the joint surface of mutually pressed glass is smooth, the fine adjustment unit (4) comprises a fine adjustment plate (41) and a fine adjustment cylinder (42), the fine adjustment plate (41) is fixedly connected with the output end of the first electric hydraulic cylinder (2), the cylinder body of the fine adjustment cylinder (42) is fixedly connected below the fine adjustment plate (41), the number of the fine adjustment cylinders (42) is four, the fine adjustment cylinders (42) are uniformly distributed at four corners of the fine adjustment plate (41), and the fine adjustment cylinders (42) are electrically connected with a controller; the device is characterized in that a clamping unit (5) is arranged below the fine adjustment cylinder (42), the clamping unit (5) is used for clamping glass to be pressed, the clamping unit (5) comprises a clamping transverse plate (51) and a clamping vertical plate (52), the upper part of the clamping vertical plate (52) is fixedly connected with the output end of the fine adjustment cylinder (42), the clamping vertical plate (52) is positioned at two ends of the clamping transverse plate (51), electric telescopic rods (53) are arranged in the two ends of the clamping transverse plate (51), and the output ends of the electric telescopic rods (53) penetrate out from the end parts of the clamping transverse plate (51) and are fixedly connected with the clamping vertical plate (52); the bottom of the clamping vertical plate (52) is provided with a laser level meter (6), the laser level meter (6) is electrically connected with the controller, and the laser level meter (6) is used for ensuring that the joint surfaces of the mutually pressed and combined glass are positioned at the same position; a reference table (7) is arranged at the bottom of the working box (1), a clamping lock (71) is fixedly connected above the reference table (7), and glass which is required to be pressed and combined is placed between the clamping lock (71) and the clamping unit (5); one side of the lock (71) is provided with a heat preservation unit (8), the heat preservation unit (8) is used for preserving heat of pressed glass, the heat preservation unit (8) comprises a fire-spraying head (81), a fire-spraying pipe (82) is arranged in the fire-spraying head (81), one end of the fire-spraying pipe (82) extends out of the fire-spraying head (81) and is aligned to the joint of the mutually pressed glass, a control valve (83) is arranged in the fire-spraying head (81), and the control valve (83) is used for controlling the fire intensity; the control valve (83) consists of a groove (831) and a baffle plate (832), the baffle plate (832) is positioned in the groove (831) and slides in the groove (831), one end of the baffle plate (832) is connected with the groove (831) through a spring, an opening is arranged on the baffle plate (832), and one end of the baffle plate (832) contacted with the spring forms a closed space with the groove (831); two sides of the output end of the first electric hydraulic cylinder (2) are provided with air extraction units (9), and the air extraction units (9) are used for extracting air in a closed space formed by the baffle (832) and the end, which is contacted with the spring, and the groove (831) so as to drive the baffle (832) to move in the groove (831); the air extraction unit (9) comprises an air extraction cylinder (91) and an air extraction rod (92), one end of the air extraction rod (92) is fixedly connected with the output end of the first electric hydraulic cylinder (2), the other end of the air extraction rod extends into the air extraction cylinder (91), the part of the air extraction rod (92) extending out of the air extraction cylinder (91) is connected with the bottom of the air extraction cylinder (91) through a spring, the bottom of the air extraction cylinder (91) is fixedly connected with the clamping transverse plate (51), and the top of the air extraction rod is in contact with the first electric hydraulic cylinder (2).

2. The system for stacking glass in a high-temperature pressing and combining forming process according to claim 1, wherein: and a second electric hydraulic cylinder (84) is arranged below the flame spraying head (81), the second electric hydraulic cylinder (84) is electrically connected with the controller, and the second electric hydraulic cylinder (84) is used for adjusting the position of the flame spraying head (81).

3. The system for stacking glass in a high-temperature pressing and combining forming process according to claim 1, wherein: an air outlet (54) is formed in one side, in contact with the glass, of the clamping transverse plate (51), and cold air can be blown out of the air outlet (54) to cool the glass in contact with the clamping transverse plate (51) and the clamping vertical plate (52).

4. The system for stacking glass in a high-temperature pressing and combining forming process according to claim 1, wherein: the outside of laser level (6) is equipped with guard box (61), and laser level (6) are placed in guard box (61), and the outside of guard box (61) is scribbled nano composite ceramic coating, and nano composite ceramic coating is used for protecting laser level (6).

5. The system for stacking glass in a high-temperature pressing and combining forming process according to claim 4, wherein: a cavity (62) is formed in the protection box (61), and ethanol is filled in the cavity (62); a condensing tube (63) is arranged in the clamping vertical plate (52), and the condensing tube (63) is communicated with the cavity (62).