CN117602379A - Production and lamination device for hollow glass and processing method thereof - Google Patents

Abstract

The invention relates to the technical field of hollow glass processing, in particular to a production and lamination device of hollow glass and a processing method thereof, comprising a horizontal drawing and lamination mechanism, a clamping frame, a sealing mechanism, an inclined conveying frame, an auxiliary supporting mechanism and a jacking mechanism.

Description

Production and lamination device for hollow glass and processing method thereof

Technical Field

The invention relates to the technical field of hollow glass processing, in particular to a production and lamination device of hollow glass and a processing method thereof.

Background

When producing the hollow glass, a worker is required to transport a first glass (glass one) into the sheet folding machine through the inclined conveying frame, then suck the first glass away from the original position through the suction conveying mechanism on the sheet folding machine, and then transport a second glass (glass two) into the sheet folding machine through the inclined conveying frame. Wherein the second glass will have an aluminum frame thereon that will sometimes adhere first. And then pressing the first glass towards the second glass by a laminating machine to form the preformed flat of the hollow glass.

However, in the above prior art, the most critical step of realizing the lamination is how to move the first glass and how to support the first glass during the lamination process, so that the prior art aims at the problem that the surface of the rotating roller on the lamination machine is set to be smooth, so that the bottom of the rotating roller does not generate great friction force when the first glass moves, but the moving position of the glass when the glass is transported into the lamination machine is difficult to control due to the smooth surface of the rotating roller, and the conveying distance is difficult to control.

In order to solve the problem, only a slight rough surface is arranged on the surface of the rotating roller, and after the rough surface is used for a long time and is leveled, the rough surface is replaced or maintained by a worker, so that the equipment is required to be stopped for half a day to one day, the equipment is excessively troublesome, failure products generated when problems are found, workers are required to be sliced, cleaned and transported, the trouble is excessively troublesome, and most importantly, the adhesion between two pieces of glass and an aluminum frame is relatively tight when the laminating machine is used for extrusion, the subsequent slicing and cleaning are difficult, and even after cleaning, the original grade-A glass is required to be degraded and sold.

Therefore, there is a need to design a production laminating device for hollow glass, which can ensure that the surface of the rotating roller is rough, and can also enable the first glass to move, and can support the moved first glass after the first glass moves.

Disclosure of Invention

In view of the above-mentioned technical shortcomings, an object of the present invention is to provide a device for producing and laminating hollow glass and a processing method thereof, which can ensure that the surface of a rotating roller is rough, and can simultaneously support a first glass after moving when the first glass is moving.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the invention provides a production sheet-closing device of hollow glass, which comprises a horizontal pulling and closing mechanism, a clamping frame, a sealing mechanism, an inclined conveying frame, an auxiliary supporting mechanism and a jacking mechanism, wherein the inclined conveying frame comprises an inclined frame and a plurality of rotating rollers, the inclined frame is fixedly arranged on a base, the rotating rollers can be arranged on the inclined frame in a same direction in a rotating way, the clamping frame is positioned at the left side of the inclined frame, the plane of the clamping frame is parallel to the plane of the inclined conveying frame, the clamping frame is arranged on the horizontal pulling and closing mechanism, the horizontal pulling and closing mechanism is fixedly arranged on the base, the horizontal pulling and closing mechanism is used for pulling the clamping frame to be close to or far from the inclined conveying frame, the clamping frame is fixedly provided with a plurality of pulling and closing mechanisms, the jacking mechanism is fixedly arranged on the inclined conveying frame, the jacking mechanism is provided with two jacking plates for jacking the glass I upwards, when the jacking mechanism does not control the jacking plates to lift upwards, each jacking plate is positioned between two rotating rollers, the top of each jacking plate is lower than the top of each rotating roller, when the jacking mechanism controls the jacking plates to lift upwards, the top of each jacking plate is higher than the top of each rotating roller, the top of each jacking plate is smooth, the auxiliary supporting mechanism is fixedly arranged on the inclined conveying frame, an auxiliary supporting surface for carrying out auxiliary supporting on glass I is arranged on the auxiliary supporting mechanism, the top of the auxiliary supporting surface is higher than the top of each rotating roller, a gap is reserved between one side of the auxiliary supporting surface and the inclined conveying frame, the width of the gap is larger than the glass widths of glass I and glass II, after the jacking mechanism controls the jacking plates to lift upwards, the top of each jacking plate is flush with the top of the auxiliary supporting surface, and the sealing mechanism is fixedly arranged on the outer edge of the inclined conveying frame, sealing mechanism fixed mounting is on the slope carriage, and sealing mechanism is used for sealing the clearance between slope carriage and the holder, and the import and the export both sides of slope carriage all are provided with supplementary carriage, and supplementary carriage is used for conveying glass.

Preferably, the jacking mechanism comprises a bottom plate, a transmission plate, a triangular block and two first guide posts, wherein the first guide posts are fixedly arranged at the bottoms of the two jacking plates respectively, the first guide posts are in sliding connection with the inclined conveying frame, the bottom plate is fixedly arranged at the bottoms of the first guide posts, the transmission plate is fixedly arranged at the top of the bottom plate through an extending column, the triangular block is fixedly arranged on the clamping frame, and an inclined surface on the triangular block is in contact with one end of the bottom plate;

when the suction mechanism is in suction contact with the glass, the top of the lifting plate is higher than the top of the rotating roller.

The glass hollow producing and laminating device of claim, wherein the auxiliary supporting mechanism comprises a connecting plate, two guide posts, two guide seats and two abutting springs, the tops of the two guide posts are fixedly connected with the bottoms of the two auxiliary supporting surfaces respectively, the two guide seats are fixedly arranged on the inclined conveying frame, the two guide seats are slidably connected with the two guide posts respectively, the two guide posts are fixedly connected with the connecting plate, the connecting plate is located below the guide seats, and the abutting springs are used for providing vertical upward elastic force for the auxiliary supporting surfaces.

Preferably, the sealing mechanism comprises a top cover plate, a sealing bottom frame and two side sealers, one side of the top cover plate is fixedly arranged at the top of the inclined conveying frame, the other side of the top cover plate is in contact with the top of the clamping frame, one side of the sealing bottom frame is fixedly arranged at the bottom of the inclined conveying frame, the other side of the sealing bottom frame is in contact with the clamping frame, the two side sealers are used for respectively sealing two sides of the clamping frame and the inclined conveying frame, each side sealer comprises a rotating mechanism, a rotating sealing plate and an upper clamping plate, the rotating mechanism is fixedly arranged on the top cover plate, the rotating sealing plate is fixedly arranged on the rotating mechanism and used for driving the rotating sealing plate to rotate, the upper clamping plate is fixedly arranged at the bottom of the top cover plate, when the rotating sealing plate is in a vertical state, the upper clamping plate is used for filling a gap between the rotating sealing plate and the clamping frame and the inclined conveying frame, and the two sides of the sealing bottom frame are respectively provided with a lower clamping plate.

Preferably, the sealed underframe includes left board, right side board and shrouding, the right side board is connected in the inboard of left side board and shrouding, and the middle part card of live-rollers is located in the right side board, form the recess between two live-rollers and the right side board, when the bottom of auxiliary support face and jacking board all with the recess bottom laminating, the top of auxiliary support face and jacking board all is less than the top of live-rollers, the groove of dodging that is used for dodging auxiliary support face and jacking board is offered to the bottom of holder, the bottom of holder is laminated with the top of left side board, when the outside promotion holder of horizontal pull mechanism motion to extreme position, dodge between orthographic projection displacement left side board and the shrouding in groove.

Preferably, the connecting plate is fixedly provided with a contact block, the clamping frame is fixedly provided with a push-down block, the inclined surface of the push-down block is contacted with the bottom of the contact block, when the push-down block moves horizontally, the push-down block pushes the contact block downwards through the inclined surface, and when the push-down block is at an initial position, the top of the auxiliary supporting surface is abutted against the top of the first glass.

Preferably, the lifting device further comprises two auxiliary lifting mechanisms, the two auxiliary lifting mechanisms are used for lifting the lifting plates upwards respectively, each auxiliary lifting mechanism comprises a lifting protrusion, a third guide column, an extension seat, an electric push rod and two guide plates, the lifting protrusions are fixedly mounted at the end parts of the third guide columns, the inclined planes of the lifting protrusions are in contact with one side of the bottom plate, the guide plates are fixedly mounted on the base, the third guide columns are in sliding connection with the guide plates, the extension seat is fixedly connected with one ends of the two third guide columns, the output ends of the electric push rods are fixedly connected with one ends of the extension seat, the electric push rods are in transmission connection with the rotating mechanism, and when the lifting plates are lifted upwards to the highest positions, the rotating mechanism is driven by the electric push rods to enable the rotating mechanism to push the rotating seal plates to rotate and close on the side surfaces of the clamping frames and the inclined conveying frames.

Preferably, each rotating mechanism comprises a rotating seat, an upper belt wheel, a lower belt wheel, a gear and a rack, wherein the rotating seat is fixedly arranged at the bottom of the top cover plate, a rotatable rotating shaft I is arranged on the rotating seat, a rotating sealing plate is fixedly connected with the rotating shaft I through a connecting plate, the upper belt wheel is fixedly connected with the rotating shaft I, the lower belt wheel and the gear are fixedly connected through a rotating shaft II, the rotating shaft II is rotatably arranged on the base through a rotating seat, the rack is fixedly arranged at the output end of the electric push rod, the gear is meshed with the rack, and the lower belt wheel is connected with the upper belt wheel through a belt.

A processing method of a production laminating device for hollow glass comprises the following steps:

step one: inputting the first glass into a sheet combining machine;

firstly, conveying glass I into an inclined conveying frame through an auxiliary conveying frame, then lifting the glass I upwards through a lifting plate, and lifting the top of the lifting plate to be flush with the top of an auxiliary supporting surface;

step two: the glass is sucked and displaced;

then the clamping frame is pulled to be close to the first glass through the horizontal pulling and closing mechanism, so that the first glass is pulled and closed by the pulling and closing mechanism, and then the clamping frame is horizontally pushed away from the inclined conveying frame through the horizontal pulling and closing mechanism, so that the first glass to be pulled slides from the top of the jacking plate to the top of the auxiliary supporting surface;

step three: inputting the second glass into a lamination machine;

then conveying the second glass to the inclined conveying frame through the auxiliary conveying frame, and lifting the second glass upwards through the lifting plate so that the first glass is flush with the four sides of the second glass;

step four: closing the lamination machine and inflating;

then closing and sealing the film by a sealing mechanism, and then introducing required filling gas into the film laminating machine;

step five: pressing the composite sheet;

after the gas is completely filled, the clamping frame is driven by the horizontal drawing and closing mechanism, so that the first glass and the second glass are subjected to sheet closing;

step six: outputting the hollow glass after lamination;

after the glass is combined, the sealing mechanism is opened, the lifting plate descends, the horizontal pulling and combining mechanism drives the clamping frame to be away from the inclined conveying frame, after the clamping frame is away from, the auxiliary supporting surface is extruded downwards through the gravity between the first glass and the second glass, finally the bottoms of the first glass and the second glass are contacted with the top of the rotating roller, and the hollow glass after the glass is combined is conveyed through the rotating roller and is output to the auxiliary conveying frame.

The invention has the beneficial effects that: the hollow glass production and lamination device and the processing method thereof can prevent friction between the hollow glass production and lamination device and the rotating roller when the first glass is displaced, and can support the moved first glass after the first glass is moved.

By the jacking mechanism, when the glass I is sucked, the glass I can be ensured to rise to a set position.

Through auxiliary support mechanism, after glass closes the piece, hollow glass gravity through closing the piece pushes down auxiliary support face for hollow glass bottom after closing the piece can with the top contact of rotor, adopts hollow glass to push down auxiliary support face's mode, can make glass when vertical gliding, can not produce great collision force with the rotor, because slow down and offset partial gravity through elasticity. And the contact block is fixedly arranged on the connecting plate, the pushing block is fixedly arranged on the clamping frame, so that the top of the auxiliary supporting surface is lower than or flush with the top of the lifting plate when the first glass moves from the lifting plate to the auxiliary supporting surface, and the bottom of the first glass can be supported when the first glass moves to the auxiliary supporting surface.

By the sealing mechanism, the lamination machine can seal after inflation. Wherein the sealing bottom frame seals the bottom of the clamping frame and the inclined conveying frame, and enables the auxiliary supporting surface and the jacking plate to be positioned below the rotating roller. And sealing mechanism is connected with supplementary climbing mechanism transmission, has guaranteed that the jacking board moves to final height, and glass two lifts to the position that can be parallel and level with glass one four sides, avoids appearing glass two slope, reduces cracked probability.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic view showing the installation state of the auxiliary supporting mechanism and the jacking mechanism.

Fig. 4 is a schematic view showing an installation state of the auxiliary supporting surface and the jacking plate.

Fig. 5 is a schematic perspective view showing a closed state of the rotary seal plate.

Fig. 6 is a schematic view showing an installation state of the clamping frame and the sealing bottom frame.

Fig. 7 is a partial perspective view of the sealing mechanism.

Fig. 8 is a schematic view showing an installation state of the sealing bottom frame.

Fig. 9 is a schematic view showing an installation state of the auxiliary lifting mechanism.

Fig. 10 is a partial enlarged view at a of fig. 9.

Fig. 11 is a schematic view showing a state before the first glass and the second glass are combined.

Reference numerals illustrate: 1. a horizontal pulling mechanism; 2. a clamping frame; 2a, avoiding grooves; 4. a sealing mechanism; 4a, a rotating mechanism; 4a1, a rotating seat; 4a2, upper belt pulley; 4a3, lower pulleys; 4a4, gears; 4a5, a rack; 4b, rotating the sealing plate; 4c, mounting a clamping plate; 4d, a lower clamping plate; 4e, a top cover plate; 4f, sealing the bottom frame; 4f1, left plate; 4f2, sealing plates; 4f3, right plate; 5. tilting the carriage; 5a, an inclined frame; 5b, rotating the roller; 6. an auxiliary supporting mechanism; 6a, an auxiliary supporting surface; 6b, a second guide post; 6c, a guide seat; 6d, abutting against the spring; 6e, connecting the plates; 6f, a contact block; 6h, pushing down the block; 7. a jacking mechanism; 7a, lifting the plate; 7b, a first guide post; 7c, a bottom plate; 7d, a transmission plate; 7e, triangular blocks; 9. a suction mechanism; 10. a first glass; 11. a second glass; 12. an auxiliary conveying rack; 13. an auxiliary jacking mechanism; 13a, lifting the bulge; 13b, guide plate; 13c, a guide post III; 13d, an extension seat; 13e, electric push rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: the invention provides a device for producing a piece of hollow glass, as shown in figures 1, 2, 3, 4 and 11, the device comprises a horizontal pulling mechanism 1, a clamping frame 2, a sealing mechanism 4, an inclined conveying frame 5, an auxiliary supporting mechanism 6 and a lifting mechanism 7, wherein the inclined conveying frame 5 comprises an inclined frame 5a and a plurality of rotating rollers 5b, the inclined frame 5a is fixedly arranged on a base, the rotating rollers 5b can be rotatably arranged on the inclined frame 5a in the same direction, the rotating rollers 5b are connected through chains and sprockets and are conveyed through a motor, the axes of the rotating rollers 5b are perpendicular to the plane of the inclined frame 5a, the glass can be stably conveyed, the clamping frame 2 is positioned on the left side of the inclined frame 5a, the plane of the clamping frame 2 is parallel to the plane of the inclined conveying frame 5, the clamping frame 2 is arranged on the horizontal pulling mechanism 1, the horizontal pulling mechanism 1 is fixedly arranged on the base, the clamping frame 2 is used for pulling the clamping frame 2 to be close to or far away from the inclined conveying frame 5, the clamping frame 2 is fixedly provided with a plurality of sucking and sucking mechanisms 9, the sucking disc 10 is arranged on the clamping frame 2, the sucking disc 10 is tightly contacted with the top of the glass 5 through a pair of the rotating mechanism 10, the sucking disc 10 is tightly arranged on the top of the glass 5, the glass is tightly contacted with the surface 10, the sucking disc 10 is tightly arranged on the top of the glass, the glass is tightly and the glass is tightly contacted with the surface 10, the glass is tightly and is tightly lifted by the clamping frame 10, the sucking disc is tightly and is tightly contacted with the surface 10, and is tightly contacted with the surface 10, the lifting mechanism 7 is provided with two lifting plates 7a for lifting the glass I10 upwards, when the lifting mechanism 7 does not control the lifting plates 7a to lift upwards, each lifting plate 7a is positioned between two rotating rollers 5b, the top of each lifting plate 7a is lower than the top of each rotating roller 5b, when the lifting mechanism 7 controls the lifting plates 7a to lift upwards, the top of each lifting plate 7a is higher than the top of each rotating roller 5b, at the moment, the lifting plates 7a can lift the glass I10 which is originally attached to the rotating rollers 5b upwards, and the glass I10 can be subjected to suction movement through the cooperation of the suction mechanism 9 and the clamping frame 2, so that the top of the lifting plate 7a is smooth. In order to support the moved glass one 10, the auxiliary supporting mechanism 6 is fixedly mounted on the inclined conveying frame 5, an auxiliary supporting surface 6a for auxiliary supporting the glass one 10 is arranged on the auxiliary supporting mechanism 6, the top of the auxiliary supporting surface 6a is higher than the top of the rotating roller 5b, a gap is reserved between one side of the auxiliary supporting surface 6a and the inclined conveying frame 5, the width of the gap is larger than that of the glass one 10 and the glass two 11, collision between the glass one 10 and the glass two 11 and the auxiliary supporting surface 6a does not occur when the glass one 10 and the glass two 11 horizontally move on the rotating roller 5b, when the jacking mechanism 7 controls the jacking plate 7a to be leveled with the top of the auxiliary supporting surface 6a after the jacking is completed, the sealing mechanism 4 is fixedly mounted on the outer edge of the inclined conveying frame 5, the sealing mechanism 4 is fixedly mounted on the inclined conveying frame 5, the sealing mechanism 4 is used for sealing the gap between the inclined conveying frame 5 and the clamping frame 2, the auxiliary conveying frames 12 are arranged on two sides of the inlet and outlet of the inclined conveying frame 5, and the auxiliary conveying frame 12 are used for enabling the glass to enter the glass sheet and exit the glass sheet to be enabled to enter the machine. When hollow glass is required to be processed, firstly, the first glass 10 is conveyed into the inclined conveying frame 5 through the auxiliary conveying frame 12, then the first glass 10 is lifted upwards through the lifting plate 7a, the top of the lifting plate 7a is lifted to be flush with the top of the auxiliary supporting surface 6a, then the clamping frame 2 is pulled to be close to the first glass 10 through the horizontal pulling and closing mechanism 1, the clamping frame 2 is horizontally pushed away from the inclined conveying frame 5 through the horizontal pulling and closing mechanism 1, the first glass 10 to be pulled slides to the top of the auxiliary supporting surface 6a from the top of the lifting plate 7a, and the first glass 10 is supported in an auxiliary mode through the auxiliary supporting surface 6 a.

Then, the second glass 11 is conveyed to the inclined conveying frame 5 through the auxiliary conveying frame 12, the second glass 11 is lifted upwards through the lifting plate 7a, the first glass 10 is flush with the four sides of the second glass 11, the sealing mechanism 4 is used for closing and sealing, and required filling gas is introduced into the inside of the laminating machine, so that the gas is completely filled. Then the clamping frame 2 is driven by the horizontal drawing mechanism 1, so that the first glass 10 and the second glass 11 are combined. As shown in fig. 11, the state is a state before the first glass 10 and the second glass 11 are ready for lamination.

After the glass sheets are combined, the sealing mechanism 4 is opened, the lifting plate 7a descends, the horizontal pulling and combining mechanism 1 drives the clamping frame 2 to be far away from the inclined conveying frame 5, after the clamping frame 2 is far away from the inclined conveying frame, the auxiliary supporting surface 6a is pressed downwards through the gravity between the first glass 10 and the second glass 11, finally the bottoms of the first glass 10 and the second glass 11 are contacted with the top of the rotating roller 5b, and the hollow glass after the glass sheets are combined is conveyed through the rotating roller 5b, so that the hollow glass sheets are conveyed to the auxiliary conveying frame 12.

By the above means, friction with the rotating roller 5b can be avoided when the first glass 10 is displaced, and the first glass 10 after being moved can be supported.

In order to ensure that the glass 10 can be lifted to a set position when the glass 10 is sucked, the jacking mechanism 7 comprises a bottom plate 7c, a transmission plate 7d, a triangular block 7e and two guide posts 7b, wherein the two guide posts 7b are fixedly arranged at the bottoms of the two jacking plates 7a respectively, the two guide posts 7b are in sliding connection with the inclined conveying frame 5, the bottom plate 7c is fixedly arranged at the bottoms of the two guide posts 7b, the transmission plate 7d is fixedly arranged at the top of the bottom plate 7c through an extension column, the triangular block 7e is fixedly arranged on the clamping frame 2, and an inclined surface on the triangular block 7e is contacted with one end of the bottom plate 7 c;

when the clamping frame 2 needs to suck the first glass 10, the clamping frame 2 is driven by the horizontal pulling and closing mechanism 1, the clamping frame 2 drives the triangular block 7e to push towards the inclined conveying frame 5, the transmission plate 7d drives the lifting plate 7a to move upwards, and the first guide pillar 7b guides and slides the vertical movement of the lifting plate 7 a;

when the suction mechanism 9 is in suction contact with the first glass 10, the top of the lifting plate 7a is higher than the top of the rotating roller 5b, namely, the first glass 10 is lifted, at this time, the top of the lifting plate 7a is flush with the top of the auxiliary supporting surface 6a, so that the first glass 10 can be ensured to be lifted to a set position when the first glass 10 is sucked, the situation that the first glass 10 is pulled without lifting is avoided, and if the situation happens, larger friction force is generated between the bottom of the first glass 10 and the rotating roller 5b, so that the first glass 10 is broken. In this way, the possibility of breakage of the glass 10 by pulling is completely avoided.

In order to realize auxiliary support of the glass I10 and realize that after the glass I10 is combined, the auxiliary support mechanism 6 can be pressed down, so that the glass after the glass I is combined can be horizontally conveyed, therefore, as shown in fig. 3, the auxiliary support mechanism 6 comprises a connecting plate 6e, two guide posts II 6b, two guide seats 6c and two abutting springs 6d, the tops of the two guide posts II 6b are respectively fixedly connected with the bottoms of the two auxiliary support surfaces 6a, the two guide seats 6c are fixedly arranged on the inclined conveying frame 5, the two guide seats 6c are respectively and slidably connected with the two guide posts II 6b, the two guide posts II 6b are fixedly connected with the connecting plate 6e, the connecting plate 6e is positioned below the guide seats 6c, and the abutting springs 6d are used for providing vertical upward elastic force for the auxiliary support surfaces 6 a. The auxiliary support is carried out on the first glass 10 contacted with the auxiliary support surface 6a through the elasticity of the abutting spring 6d, after the glass is combined, the auxiliary support surface 6a is pressed down through the gravity of the hollow glass after the glass is combined, so that the bottom of the hollow glass after the glass is combined can be contacted with the top of the rotating roller 5 b. The bottom of the hollow glass after lamination can be prevented from contacting the auxiliary supporting surface 6a as required, and the length of the auxiliary supporting surface 6a is designed to be shorter. But by pressing the auxiliary supporting surface 6a with the hollow glass, the glass can slide down vertically without generating a large collision force with the rotating roller 5b, because the reduction is performed by the elastic force and part of the gravity is counteracted.

In order to realize that the sealing piece can seal after inflating, for this, as shown in fig. 4, 5, 6 and 7, sealing mechanism 4 includes lamina tecti 4e, sealed underframe 4f and two side sealers, one side fixed mounting of lamina tecti 4e is in the top of tilting carriage 5, the opposite side of lamina tecti 4e contacts with the top of clamping frame 2, can realize the top seal between clamping frame 2 and the tilting carriage 5, one side fixed mounting of sealed underframe 4f is in the bottom of tilting carriage 5, the opposite side of sealed underframe 4f contacts with clamping frame 2, can realize the bottom seal between clamping frame 2 and tilting carriage 5, two side sealers are used for sealing respectively clamping frame 2 and tilting carriage 5's both sides, every side sealers all include rotary mechanism 4a, rotary seal plate 4b and last cardboard 4c, rotary mechanism 4a fixed mounting is on lamina tecti 4e, rotary mechanism 4a is used for driving rotary seal plate 4b and rotates, go up cardboard 4c fixed mounting is in the bottom of lamina tecti 4e, top cardboard 4b is in the bottom of tilting carriage 4b when vertical clamping frame 4b is in the bottom of tilting carriage 4b, top cardboard 4d is provided with the top of the vertical clamping frame 4d, top clamping plate 4d is set up under the vertical clamping frame 4d, and sealing plate 4d is in the state is in the top of the top clamping frame 4d is down, top clamping plate 4d is used for sealing down. The upper and lower sides of the holding frame 2 and the inclined carriage 5 are sealed by the top cover plate 4e and the lower clamping plate 4 d. After the first glass 10 and the second glass 11 enter between the clamping frame 2 and the inclined conveying frame 5, the rotary sealing plate 4b can be driven to rotate by the rotary mechanism 4a, so that the gap on the side face of the rotary sealing plate 4b is sealed, and a sealed area can be formed between the clamping frame 2 and the inclined conveying frame 5. Wherein, the bleeder vent has been seted up at top of lamina tecti 4e, through setting up the bleeder vent, and the air in the sealed region originally can be extruded by other gases that charge, because the gaseous molecular mass that charges is greater than the mass of most other gases in the air. When the sheet is subsequently combined, the clamping frame 2 can slide in contact with the rotary sealing plate 4b, the top cover plate 4e and the sealing bottom frame 4 f.

As shown in fig. 8, in order to achieve bottom sealing of the holding frame 2 and the inclined carriage 5, and in order to enable the auxiliary supporting surface 6a and the jacking plate 7a to be located under the rotating roller 5b, for this purpose, the sealing bottom frame 4f includes a left plate 4f1, a right plate 4f3, and a sealing plate 4f2, the right plate 4f3 is connected to the inner sides of the left plate 4f1 and the sealing plate 4f2, and the middle part of the rotating roller 5b is clamped in the right plate 4f3, grooves are formed between the two rotating rollers 5b and the right plate 4f3, and when the bottoms of the auxiliary supporting surface 6a and the jacking plate 7a are both adhered to the bottoms of the grooves, the tops of the auxiliary supporting surface 6a and the jacking plate 7a are both lower than the tops of the rotating roller 5 b. When the lifting plate 7a or the auxiliary supporting surface 6a descends, the lifting plate can be buried in the groove, so that the bottoms of the first glass 10 or the second glass 11 can be attached to the rotating roller 5b, and the device can be horizontally conveyed. As shown in fig. 6, the bottom of the clamping frame 2 is provided with an avoidance groove 2a for avoiding the auxiliary supporting surface 6a and the jacking plate 7a, and the avoidance groove 2a is provided, so that the bottom of the clamping frame 2 cannot collide with the auxiliary supporting surface 6a and the jacking plate 7a when the clamping frame 2 moves forwards. The bottom of clamping frame 2 is laminated with the top of left board 4f1, and when horizontal pull closes mechanism 1 outwards promotes clamping frame 2 and moves to extreme position, dodge between left board 4f1 and the shrouding 4f2 of orthographic projection displacement of groove 2a for the gaseous that dashes in can not discharge outside along dodging groove 2a, guaranteed the bottom seal of clamping frame 2 and slope carriage 5.

In order to enable the bottom of the glass 10 to smoothly slide onto the auxiliary supporting surface 6a from the jacking plate 7a, therefore, when the glass 10 is transferred, the top of the auxiliary supporting surface 6a needs to be lower than or flush with the top of the jacking plate 7a, and when the auxiliary supporting surface 6a supports the bottom of the glass 10, the top of the auxiliary supporting surface 6a needs to be in contact with the bottom of the glass 10, and for this purpose, as shown in fig. 3, a contact block 6f is fixedly arranged on the connecting plate 6e, a push-down block 6h is fixedly arranged on the clamping frame 2, the inclined surface of the push-down block 6h is in contact with the bottom of the contact block 6f, and when the push-down block 6h moves horizontally, the push-down block 6h pushes the contact block 6f downwards through the inclined surface, so that when the glass 10 is transferred onto the auxiliary supporting surface 6a from the jacking plate 7a, the top of the auxiliary supporting surface 6a is lower than or flush with the top of the jacking plate 7 a. When the pushing block 6h is at the initial position, the top of the auxiliary supporting surface 6a is abutted against the top of the first glass 10, i.e. the auxiliary supporting surface 6a can be pushed upwards, and only the first glass 10 is contacted, so that the auxiliary supporting surface 6a cannot move upwards continuously, and the bottom of the first glass 10 can be supported.

Since the horizontal pulling and closing mechanism 1 is required to pull the clamping frame 2 to move to the position where the pulling and closing mechanism 9 is attached to the glass one 10 to enable the jacking plate 7a to lift the glass one 10 to the highest position when the glass one 10 is sucked and fixed, but when the glass one 10 is closed, the jacking plate 7a cannot move to the final height due to the reduced distance moved by the clamping frame 2, which results in that the glass two 11 cannot lift to the position where the glass one 10 is leveled, and therefore, as shown in fig. 9 and 7, the horizontal pulling and closing mechanism further comprises two auxiliary jacking mechanisms 13, wherein the two auxiliary jacking mechanisms 13 are used for respectively lifting the jacking plate 7a upwards, the auxiliary jacking mechanisms 13 comprise jacking protrusions 13a, a guide post three 13c, an extension seat 13d, an electric push rod 13e and two guide plates 13b, the jacking protrusions 13a are fixedly arranged at the end parts of the guide post three 13c, the inclined surfaces of the jacking protrusions 13a are abutted against one side of the bottom plate 7c, the guide plates 13b are fixedly arranged on the base, the guide post three 13c are in sliding connection with the guide plates 13b, and the two ends of the extension seat 13d are fixedly connected with one end of the extension seat 13 d. By controlling the electric push rod 13e to work, the electric push rod 13e pushes the guide post III 13c to horizontally slide along the guide plate 13 b. The lifting protrusion 13a can lift the bottom plate 7c upwards through the inclined plane, and the bottom plate 7c can push the lifting plate 7a upwards to move, so that the lifting plate 7a lifts the second glass 11. The electric push rod 13e is in transmission connection with the rotating mechanism 4a, and when the jacking plate 7a is lifted up to the highest position, the electric push rod 13e drives the rotating mechanism 4a, so that the rotating mechanism 4a pushes the rotating sealing plate 4b to rotate and close on the side surfaces of the clamping frame 2 and the inclined conveying frame 5. If the jacking plate 7a does not enter the inside of the lamination machine for lifting, the second glass 11 will be lifted by the jacking plate 7a, so that the bottom end of the side, contacted by the jacking plate 7a, of the second glass 11 is lifted forward, and the other end of the second glass 11 is clamped into the device, which will cause rigid contact of the bottom of the glass, and the possibility of fracture occurs. The second glass 11 can be lifted by the lifting plate 7a when the rotary seal plate 4b is closed. Therefore, only when the second glass 11 enters the inside of the sheet combining machine, lifting can be performed, and tilting of the second glass 11 is avoided.

In order to realize that when the second glass 11 enters the inside of the lamination machine, lifting is performed, as shown in fig. 7 and 10, each rotating mechanism 4a comprises a rotating seat 4a1, an upper belt pulley 4a2, a lower belt pulley 4a3, a gear 4a4 and a rack 4a5, the rotating seat 4a1 is fixedly installed at the bottom of a top cover plate 4e, a rotatable first rotating shaft is arranged on the rotating seat 4a1, a rotating sealing plate 4b is fixedly connected with the first rotating shaft through a connecting plate, the upper belt pulley 4a2 is fixedly connected with the first rotating shaft, and the rotating sealing plate 4b can be driven to rotate by rotating through the upper belt pulley 4a 2. The lower belt pulley 4a3 and the gear 4a4 are fixedly connected through a second rotating shaft, the second rotating shaft is rotatably arranged on the base through a rotating seat, the rack 4a5 is fixedly arranged at the output end of the electric push rod 13e, and the gear 4a4 is meshed with the rack 4a 5. By controlling the electric push rod 13e to work, the electric push rod 13e pushes the rack 4a5 to horizontally move, the rack 4a5 drives the gear 4a4 to rotate through meshing, the lower belt pulley 4a3 is connected with the upper belt pulley 4a2 through a belt, and when the lower belt pulley 4a3 rotates, the upper belt pulley 4a2 can be driven to rotate through the belt. By pushing the rack 4a5 forward, the rotary sealing plate 4b can be rotated from top to bottom, the jacking plate 7a is pushed upward by the jacking protrusions 13a to move to the highest position, and the rotary sealing plate 4b is closed between the inclined conveyor frame 5 and the clamping frame 2.

A processing method of a production laminating device for hollow glass comprises the following steps:

step one: inputting first glass 10 into a sheet combining machine;

firstly, conveying glass I10 into an inclined conveying frame 5 through an auxiliary conveying frame 12, and then lifting the glass I10 upwards through a lifting plate 7a, wherein the top of the lifting plate 7a is lifted to be level with the top of an auxiliary supporting surface 6 a;

step two: the first glass is subjected to 10-degree suction displacement;

then the clamping frame 2 is pulled to be close to the first glass 10 by the horizontal pulling and closing mechanism 1, so that the first glass 10 is pulled and closed by the pulling and closing mechanism 9, and then the clamping frame 2 is pushed to be away from the inclined conveying frame 5 by the horizontal pulling and closing mechanism 1, so that the first glass 10 to be pulled slides from the top of the jacking plate 7a to the top of the auxiliary supporting surface 6 a;

step three: inputting the second glass 11 into a laminating machine;

then, conveying the second glass 11 to the inclined conveying frame 5 through the auxiliary conveying frame 12, and lifting the second glass 11 upwards through the lifting plate 7a so that the first glass 10 is flush with four sides of the second glass 11;

step four: closing the lamination machine and inflating;

then the sealing mechanism 4 is used for closing and sealing, and then the required filling gas is introduced into the inside of the lamination machine;

step five: pressing the composite sheet;

after the gas is completely filled, the clamping frame 2 is driven by the horizontal drawing and closing mechanism 1, so that the first glass 10 and the second glass 11 are combined;

step six: outputting the hollow glass after lamination;

after the glass sheets are combined, the sealing mechanism 4 is opened, the lifting plate 7a descends, the horizontal pulling and combining mechanism 1 drives the clamping frame 2 to be far away from the inclined conveying frame 5, after the clamping frame 2 is far away from the inclined conveying frame, the auxiliary supporting surface 6a is pressed downwards through the gravity between the first glass 10 and the second glass 11, finally the bottoms of the first glass 10 and the second glass 11 are contacted with the top of the rotating roller 5b, and the hollow glass after the glass sheets are combined is conveyed through the rotating roller 5b, so that the hollow glass sheets are conveyed to the auxiliary conveying frame 12.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (9)

1. The utility model provides a hollow glass's production closes piece device, a serial communication port, including horizontal pull close mechanism (1), clamping frame (2), sealing mechanism (4), slope carriage (5), auxiliary support mechanism (6) and climbing mechanism (7), slope carriage (5) are including slope carriage (5 a) and a plurality of live-rollers (5 b), slope carriage (5 a) fixed mounting is on the base, a plurality of live-rollers (5 b) can the same direction rotatory install in slope carriage (5 a) and rise, clamping frame (2) are located the left side of slope carriage (5 a), the plane of clamping frame (2) is parallel to the plane of slope carriage (5), clamping frame (2) are installed in horizontal pull close mechanism (1) and are gone up, horizontal pull close mechanism (1) are used for pulling clamping frame (2) are close to or keep away from slope carriage (5), clamping frame (2) are gone up and are provided with a plurality of actuation mechanism (9), a plurality of actuation mechanism (9) are used for carrying out tight mechanism (10) to slope carriage (5) and rise, climbing mechanism (7) are used for carrying out climbing mechanism (7) and are not used for lifting up (7) and are arranged in climbing mechanism (7) and are not used for lifting up (7) and are arranged on lifting mechanism (7), each lifting plate (7 a) is positioned between two rotating rollers (5 b), the top of each lifting plate (7 a) is lower than the top of each rotating roller (5 b), after the lifting mechanism (7) controls the lifting plate (7 a) to lift upwards, the top of the lifting plate (7 a) is higher than the top of the rotating rollers (5 b), the top of the lifting plate (7 a) is smooth, the auxiliary supporting mechanism (6) is fixedly arranged on the inclined conveying frame (5), the auxiliary supporting mechanism (6) is provided with an auxiliary supporting surface (6 a) for carrying out auxiliary supporting on the first glass (10), the top of the auxiliary supporting surface (6 a) is higher than the top of the rotating rollers (5 b), a gap is reserved between one side of the auxiliary supporting surface (6 a) and the inclined conveying frame (5), the width of the gap is larger than the glass width of the first glass (10) and the second glass (11), after the lifting mechanism (7) controls the lifting plate (7 a) to lift upwards, the top of the lifting plate (7 a) and the auxiliary supporting mechanism (6 a) are arranged on the inclined conveying frame (5), the top of the lifting plate (7 a) and the auxiliary supporting mechanism (6 a) and the auxiliary supporting mechanism (4) are arranged on the inclined conveying frame (4) in a sealing mode, the sealing mode is carried out between the top of the inclined conveying frame (4) and the inclined conveying frame (5) and the sealing frame (4) is arranged on the outer edge of the inclined conveying frame (5), auxiliary conveying frames (12) are arranged on both sides of an inlet and an outlet of the inclined conveying frame (5), and the auxiliary conveying frames (12) are used for conveying glass.

2. The device for producing and laminating hollow glass according to claim 1, wherein the jacking mechanism (7) comprises a bottom plate (7 c), a transmission plate (7 d), a triangular block (7 e) and two first guide posts (7 b), the two first guide posts (7 b) are fixedly arranged at the bottoms of the two jacking plates (7 a) respectively, the two first guide posts (7 b) are in sliding connection with the inclined conveying frame (5), the bottom plate (7 c) is fixedly arranged at the bottoms of the two first guide posts (7 b), the transmission plate (7 d) is fixedly arranged at the top of the bottom plate (7 c) through an extension column, the triangular block (7 e) is fixedly arranged on the clamping frame (2), and the inclined surface on the triangular block (7 e) is in contact with one end of the bottom plate (7 c);

when the suction mechanism (9) is in suction contact with the first glass (10), the top of the lifting plate (7 a) is higher than the top of the rotating roller (5 b).

3. The device for producing and laminating hollow glass according to claim 2, wherein the auxiliary supporting mechanism (6) comprises a connecting plate (6 e), two guide post pairs (6 b), two guide seats (6 c) and two abutting springs (6 d), the tops of the two guide post pairs (6 b) are fixedly connected with the bottoms of the two auxiliary supporting surfaces (6 a) respectively, the two guide seats (6 c) are fixedly mounted on the inclined conveying frame (5), the two guide posts (6 c) are slidably connected with the two guide post pairs (6 b) respectively, the two guide post pairs (6 b) are fixedly connected with the connecting plate (6 e), the connecting plate (6 e) is located below the guide seats (6 c), and the abutting springs (6 d) are used for providing vertical upward elastic force for the auxiliary supporting surfaces (6 a).

4. A production laminating apparatus for hollow glass as claimed in claim 3, wherein the sealing mechanism (4) comprises a top cover plate (4 e), a sealing bottom frame (4 f) and two side sealers, one side of the top cover plate (4 e) is fixedly mounted on the top of the inclined conveying frame (5), the other side of the top cover plate (4 e) is in contact with the top of the clamping frame (2), one side of the sealing bottom frame (4 f) is fixedly mounted on the bottom of the inclined conveying frame (5), the other side of the sealing bottom frame (4 f) is in contact with the clamping frame (2), the two side sealers are used for sealing the two sides of the clamping frame (2) and the inclined conveying frame (5) respectively, each side sealer comprises a rotating mechanism (4 a), a rotary sealing plate (4 b) and an upper clamping plate (4 c), the rotating mechanism (4 a) is fixedly mounted on the top cover plate (4 e), the rotary sealing plate (4 b) is fixedly mounted on the rotating mechanism (4 a), the rotating mechanism (4 a) is used for driving the rotary sealing plate (4 b) to rotate, the upper clamping plate (4 c) is fixedly mounted on the bottom of the inclined conveying frame (4 b) and the upper clamping plate (4 c) is used for filling a gap between the two sides (4 d) of the sealing plate (4 c) and the upper clamping frame (4 b) when the two sides are arranged, when the rotary sealing plate (4 b) is in a vertical state, the bottom of the rotary sealing plate (4 b) is in contact with the top of the lower clamping plate (4 d).

5. The production laminating device for hollow glass as claimed in claim 4, wherein the sealing bottom frame (4 f) comprises a left plate (4 f 1), a right plate (4 f 3) and a sealing plate (4 f 2), the right plate (4 f 3) is connected to the inner sides of the left plate (4 f 1) and the sealing plate (4 f 2), the middle part of the rotating roller (5 b) is clamped in the right plate (4 f 3), grooves are formed between the two rotating rollers (5 b) and the right plate (4 f 3), when the bottoms of the auxiliary supporting surface (6 a) and the jacking plate (7 a) are respectively bonded with the bottoms of the grooves, the tops of the auxiliary supporting surface (6 a) and the jacking plate (7 a) are respectively lower than the tops of the rotating roller (5 b), the bottoms of the clamping frames (2) are respectively provided with an avoidance groove (2 a) for avoiding the auxiliary supporting surface (6 a) and the jacking plate (7 a), and when the horizontal pulling and sealing mechanism (1) is pushed to move outwards to the positions between the two sides of the left plate (4 f 1) and the front projection grooves (2 f).

6. The device for producing and laminating hollow glass according to claim 5, wherein a contact block (6 f) is fixedly arranged on the connecting plate (6 e), a push-down block (6 h) is fixedly arranged on the clamping frame (2), an inclined surface of the push-down block (6 h) is in contact with the bottom of the contact block (6 f), the push-down block (6 h) pushes the contact block (6 f) downwards through the inclined surface when the push-down block (6 h) moves horizontally, and the top of the auxiliary supporting surface (6 a) is abutted against the top of the glass I (10) when the push-down block (6 h) is in the initial position.

7. The device for producing the laminated glass according to claim 6, further comprising two auxiliary jacking mechanisms (13), wherein the two auxiliary jacking mechanisms (13) are used for respectively jacking the jacking plates (7 a) upwards, the auxiliary jacking mechanisms (13) comprise jacking bosses (13 a), three guide posts (13 c), an extension seat (13 d), an electric push rod (13 e) and two guide plates (13 b), the jacking bosses (13 a) are fixedly installed at the end parts of the three guide posts (13 c), the inclined surfaces of the jacking bosses (13 a) are abutted against one side of the bottom plate (7 c), the guide plates (13 b) are fixedly installed on the base, the three guide posts (13 c) are connected with the guide plates (13 b) in a sliding mode, the extension seat (13 d) is fixedly connected with one end of the two three guide posts (13 c), the output end of the electric push rod (13 e) is fixedly connected with one end of the extension seat (13 d), the electric push rod (13 e) is in transmission connection with the rotating mechanism (4 a), and when the jacking plates (7 a) are lifted to the highest position, the electric push rod (4 a) pushes the rotating mechanism (4 a) to rotate, and the rotating frame (4 a) is enabled to rotate, and the rotating frame (4) is clamped by the rotating frame (4) and the rotating frame (2).

8. The device for producing and laminating hollow glass according to claim 7, wherein each rotating mechanism (4 a) comprises a rotating seat (4 a 1), an upper belt wheel (4 a 2), a lower belt wheel (4 a 3), a gear (4 a 4) and a rack (4 a 5), the rotating seat (4 a 1) is fixedly arranged at the bottom of the top cover plate (4 e), the rotating seat (4 a 1) is provided with a rotatable rotating shaft I, a rotating sealing plate (4 b) is fixedly connected with the rotating shaft I through a connecting plate, the upper belt wheel (4 a 2) is fixedly connected with the rotating shaft I, the lower belt wheel (4 a 3) and the gear (4 a 4) are fixedly connected with the rotating shaft II, the rotating shaft I is rotatably arranged on the base through a rotating seat, the rack (4 a 5) is fixedly arranged at the output end of the electric push rod (13 e), the gear (4 a 4) is meshed with the rack (4 a 5), and the lower belt wheel (4 a 3) is connected with the upper belt wheel (4 a 2) through a belt.

9. A method for processing a device for producing a laminated glass sheet based on the hollow glass of claim 8, comprising the steps of:

step one: inputting the first glass (10) into a sheet combining machine;

firstly, conveying glass I (10) into an inclined conveying frame (5) through an auxiliary conveying frame (12), then lifting the glass I (10) upwards through a lifting plate (7 a), and lifting the top of the lifting plate (7 a) to be flush with the top of an auxiliary supporting surface (6 a);

step two: the first glass (10) is sucked and displaced;

then the clamping frame (2) is pulled to be close to the first glass (10) through the horizontal pulling and closing mechanism (1), so that the first glass (10) is pulled by the pulling and closing mechanism (9), and then the clamping frame (2) is horizontally pushed away from the inclined conveying frame (5) through the horizontal pulling and closing mechanism (1), so that the pulled first glass (10) slides from the top of the jacking plate (7 a) to the top of the auxiliary supporting surface (6 a);

step three: inputting the second glass (11) into a laminating machine;

then conveying the glass II (11) to the inclined conveying frame (5) through the auxiliary conveying frame (12), and lifting the glass II (11) upwards through the lifting plate (7 a) so that the glass I (10) is level with four sides of the glass II (11);

step four: closing the lamination machine and inflating;

then closing and sealing are carried out through a sealing mechanism (4), and then required filling gas is introduced into the inside of the lamination machine;

step five: pressing the composite sheet;

after the gas is completely filled, the clamping frame (2) is driven by the horizontal drawing and closing mechanism (1), so that the first glass (10) and the second glass (11) are subjected to sheet combination;

step six: outputting the hollow glass after lamination;

after the sheet is closed, the sealing mechanism (4) is opened, the lifting plate (7 a) descends, the horizontal pulling and closing mechanism (1) drives the clamping frame (2) to be away from the inclined conveying frame (5), after the clamping frame is away from, the auxiliary supporting surface (6 a) is extruded downwards through the gravity between the first glass (10) and the second glass (11), finally the bottoms of the first glass (10) and the second glass (11) are contacted with the top of the rotating roller (5 b), and the hollow glass after the sheet is closed is conveyed through the rotating roller (5 b) to be output to the auxiliary conveying frame (12).