CN208577634U - A kind of sandwich glass production line - Google Patents

Abstract

The utility model discloses a kind of sandwich glass production lines, it include: to stack station, intermediate coat unwinding device, rolling heating device, blanking device and oven device along feeding device, cleaning blow-dry device, the guide locating device provided, glass that glass conveying direction is set gradually, each device is all configured with corresponding conveying roller group, and guide locating device provided top, which is additionally provided with the glass on will be guide locating device provided and is delivered to glass, stacks glass conveyer device on station；The sandwich glass production line of the above structure is rationally distributed, and structure is simple, simplifies the production process of laminated glass, and production line is low in cost, production efficiency is higher；Further, it is guide locating device provided to be equipped with the third conveying roller for driving glass to move while being fed forward towards third rack side, and be correspondingly arranged on side for glass against side against mechanism and for glass front end face against end face against mechanism, guide-localization process is easy, installation cost is cheap, guide-localization ultrahigh in efficiency.

Description

A kind of sandwich glass production line

Technical field

The utility model relates to production line technology fields, particularly relate to a kind of sandwich glass production line.

Background technique

Laminated glass is by having pressed from both sides one or more layers organic polymer intermediate coat between two panels or divided glass, and process is special High temperature precompressed and high-temperature high-pressure craft processing after, the compound glass product that is integrated glass and intermediate coat permanent adhesive.

Laminated glass production needs to use production line to achieve the purpose that quickly to produce, traditional sandwich glass production line cloth Office and structure is complicated, manufacturing cost is high, it is longer that glass processing manufactures duration；The guide-localization of traditional sandwich glass production line fills Set is that glass of the cleaning after air-dried is individually resisted against leaning on for side by two groups of orthogonal moving assemblies of the direction of motion Wheel and end face block piece on, structure is complicated for device, and the process for needing to position is more so that the duration of guide-localization compared with It is long；The rolling heating device of conventional interlayer glass production line cannot neatly adjust the distance of its pushing according to the thickness of glass, When adjustment need shut down after re-measure and position, it is cumbersome, be unfavorable for flexibility production, and roll heating device into Mouthful and outlet heat dissipation it is very fast, rolling heating device internal insulation effect is bad, influences the hot melt effect of intermediate coat.

Utility model content

For overcome the deficiencies in the prior art, the utility model provide a kind of of simple structure and low cost, production efficiency compared with High sandwich glass production line.

The technical scheme adopted by the utility model to solve the technical problem is as follows:

A kind of sandwich glass production line, comprising: feeding device, the cleaning drying dress set gradually along glass conveying direction Set, be guide locating device provided, glass stacks station, intermediate coat unwinding device, rolling heating device, blanking device and oven device, The cleaning blow-dry device, guide locating device provided, glass stack station, intermediate coat unwinding device, rolling heating device and blanking Device is all configured with corresponding conveying roller group, and the guide locating device provided top is additionally provided with one for will be guide locating device provided On glass be delivered to glass and stack glass conveyer device on station.

It is described it is guide locating device provided include third rack, equably rotated along conveying direction in third rack be provided with it is several Third conveying roller, the third conveying roller are equipped with several runners that glass is conveyed with rotating with it, the third conveying roller It is inclined to drive glass to move while being fed forward towards the side of third rack in third rack, third rack On be correspondingly arranged on side for glass against side against mechanism, the third rack is set along the end activity of conveying direction The end face that can be resisted against on the front end face of glass is equipped with against mechanism.

The side includes several sides for being rotatably arranged on third rack and along the conveying side of third rack against mechanism To equally distributed roller.

The end face includes that third rack diameter in the rotation axis of the end of conveying direction, rotation axis is arranged in against mechanism To multiple blocking portions are provided with, the rotation axis is connected with driving, and it is rotated being flipped up blocking portion to be resisted against glass On front end face or the turnover driving mechanism that downwardly turns over to allow glass to pass through.

The cleaning blow-dry device includes the second rack, and the second rack is arranged at intervals with several second conveyings along conveying direction Roller, the second rack are equipped at least one set of brush cylinder group between two neighboring second conveying roller, the brush cylinder Group includes two rollers of the surface rotated towards each other with hairbrush, has between two rollers and makes way for the gap that glass passes through, institute It states and is respectively arranged with a sparge pipe above and below brush cylinder group, two sparge pipes are sprayed water in opposite directions to rinse glass, described Air-dried mechanism is provided in front of brush cylinder group.

The air-dried mechanism includes an air blower, and air blower is connected with multiple air knives by pipeline.

The glass conveyer device includes the 4th rack for being set to the top that guide locating device provided and glass stacks station, Sliding is provided with one and activity can be arranged along the sliding rack of conveying direction front-rear reciprocation movement, the sliding rack in 4th rack There is the crane of its opposite elevating movement, is provided with Pneumatic suction cup on the crane.

The rolling heating device includes the 7th rack, and conveying direction is provided with several seven in the 7th rack and conveys Roller, the 7th rack are disposed with preheating section along the conveying direction of several 7th conveying rollers, once roll section, bringing-up section and two Secondary rolling section, the primary rolling section and secondary rolled section all include being arranged between two adjacent the 7th conveying rollers and phase Determine roller to rotation and push roller, it is described determine roller and be used to be connected to the lower surface of glass, it is connected on the pushing roller Having driving, it is pushed to be close to the pushing driver of glass top surface.

The regulating mechanism for limiting the depression distance for pushing driver is additionally provided in 7th rack.

The pushing driver is the 7th cylinder, and the output shaft of the 7th cylinder is connected with for being rotatablely installed the lower press rolls The roller seat of cylinder, the top of the output shaft of the 7th cylinder forms a protrusion, is movably installed with one on the output shaft of the 7th cylinder It can be connected to the screw rod of the lower end surface of the protrusion, the outside of the screw rod is bolted with the 7th follow bevel gear, and the 7th is driven Helical gear is coupled by one the 7th gear shaft, and the 7th gear shaft is connected with the rotary driver of its rotation of driving.

The beneficial effects of the utility model are: a kind of sandwich glass production line, comprising: set gradually along glass conveying direction Feeding device, cleaning blow-dry device, guide locating device provided, glass stack station, intermediate coat unwinding device, rolling heating dress Set, blanking device and oven device, each device are all configured with corresponding conveying roller group, guide locating device provided top is additionally provided with One, which is delivered to glass for the glass on will be guide locating device provided, stacks glass conveyer device on station；The interlayer of the above structure Glass production line is rationally distributed, and structure is simple, simplifies the production process of laminated glass, and production line is low in cost, production efficiency It is higher；Further, guide locating device provided be equipped with drives glass while being fed forward towards the movement of third rack side Third conveying roller, and be correspondingly arranged on side for glass against side against mechanism and for glass front end face against end Face is against mechanism, and guide-localization process is easy, and installation cost is cheap, guide-localization ultrahigh in efficiency.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings and examples:

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of feeding device in Fig. 1 embodiment；

Fig. 3 is the structural schematic diagram for cleaning blow-dry device；

Fig. 4 is the partial enlarged view in the portion A in Fig. 3；

Fig. 5 is the structural schematic diagram for cleaning another visual angle of blow-dry device；

Fig. 6 is guide locating device provided structural schematic diagram；

Fig. 7 is the partial enlarged view in the portion B in Fig. 6；

Fig. 8 is the structural schematic diagram of glass conveyer device；

Fig. 9 is the structural schematic diagram for rolling heating device；

Figure 10 is the structural schematic diagram of primary rolling section or secondary rolled section；

Figure 11 is the structural schematic diagram of preheating section；

Figure 12 is the structural schematic diagram of blanking device.

Specific embodiment

Utility model will be further described in detail below with reference to the attached drawings and specific embodiments, however, it is desirable to say Bright, the explanation to following implementation is schematically, not constitute the specific restriction to the utility model.

Referring to figs. 1 to Figure 12, a kind of sandwich glass production line, comprising: the feeding dress set gradually along glass conveying direction Set 1, cleaning blow-dry device 2, guide locating device provided 3, glass stack station 5, intermediate coat unwinding device 6, rolling heating device 7, Blanking device 8 and oven device 9, the cleaning blow-dry device 2, guide locating device provided 3, glass stacks station 5, intermediate coat unreels Device 6, rolling heating device 7 and blanking device 8 are all configured with corresponding conveying roller group, guide locating device provided 3 top It is additionally provided with one and stacks glass conveyer device 4 on station 5 for the glass on guide locating device provided 3 to be delivered to glass.With The sandwich glass production line of upper structure is rationally distributed, and structure is simple, simplifies the production process of laminated glass, and production line is at low cost It is honest and clean, production efficiency is higher.

Referring to Fig. 2, the feeding device 1 includes the first rack 101, and setting is articulated with a horse in the first rack 101 102, the horse 102 can be towards a side to overturn of the first rack 101, consequently facilitating glass feeding, on the horse 102 also Several universal wheels 103 are provided with, universal wheel 103 is conducive to adjust the position of glass.

Referring to Fig. 3 and Fig. 4, the cleaning blow-dry device 2 includes the second rack 201, and the second rack 201 is between conveying direction Every being provided with several second conveying rollers 202, a follow bevel gear, all second conveying rollers are all provided on the second conveying roller 202 Follow bevel gear on 202 all couples with a gear shaft, and gear shaft is equipped with and the follow bevel gear phase on the second conveying roller 202 Matched drive bevel gear, gear shaft drive with a motor and reduction gearbox, and second rack 201 is equipped at least one set Brush cylinder group 203 between two neighboring second conveying roller 202, the brush cylinder group 203 include two opposite turn Roller of the dynamic surface with hairbrush has between two rollers and makes way for the gap that glass passes through, and two rollers are by belt knot Structure 206 is connected to drive its rotation, tensioning wheel 207 is additionally provided on the belt composition 206, to prevent belt slippage；It is described A sparge pipe 204 is respectively arranged with above and below brush cylinder group, if the surface of sparge pipe 204 offers along its length The dry hole for water spraying towards glass surface, water spray is in opposite directions to rinse glass for two sparge pipes 204, referring to Fig. 5, is provided on ground Water tank 208, water tank 208 are connect by water pump 209 with the sparge pipe 204, it is preferable that it is additionally provided with filter in water tank 208, The dirt for helping to clean glass generation adsorbs, and prevents secondary pollution；Air-dry machine is provided in front of the brush cylinder group Structure 205, in the present embodiment, the air-dried mechanism 205 include an air blower 2051, and air blower 2051 is connected with more by pipeline A air knife 2052, the glass conveyed from feeding device 1 are clear by the stain of glass surface after over cleaning blow-dry device 2 Except clean, hence into subsequent processing.

Referring to figure 6 and figure 7, described guide locating device provided 3 include third rack 301, along conveying direction in third rack 301 Equably rotation is provided with several third conveying rollers 302, and the third conveying roller 302 is equipped with several with rotating with it to convey The runner 303 of glass, the third conveying roller 302 are obliquely arranged in third rack 301 to drive glass being fed forward While moved towards the side of third rack 301, be correspondingly arranged in third rack 301 side for glass against side Against mechanism 304, the third rack 301 is movably set on the front end face that can be resisted against glass along the end of conveying direction End face against mechanism 305.In the present embodiment, third conveying roller 302 inclines with respect to the conveying direction of glass towards left side Rake angle is 3 °, and runner 303 has component of the conveying direction of opposite glass towards left side to glass, therefore glass is fed forward When can be resisted against side automatically in mechanism 304 so that guide-localization process is easy, installation cost is cheap, guiding Location efficiency is high.

In the present embodiment, the side against mechanism 304 include several sides for being rotatably arranged on third rack 301 simultaneously Along the equally distributed roller 3041 of the conveying direction of third rack 301, several rollers 3041 are all arranged on a railing 3042, should Railing 3042 is connected by a cylinder, which is fixedly mounted in third rack 301, pushes railing 3042 by the Telescopic-cylinder Movement is to adjust roller 3041 with respect to the position in the width direction of third rack 301, thus according to the glass tune of different in width It is whole this guide locating device provided 3, enhance the versatility of the device.

In the present embodiment, the end face includes that third rack 301 is arranged in along the end of conveying direction against mechanism 305 Rotation axis 3051, be arranged radially multiple blocking portions 3052 in rotation axis 3051, the rotation axis 3051 be connected with driving its Blocking portion 3052 to be flipped up to be resisted against on the front end face of glass or downwardly turn over to allow glass to pass through by rotation Turnover driving mechanism 3053.Herein, the turnover driving mechanism 3053 includes one stretching out direction cylinder upward, on the cylinder It is articulated with a connecting rod, the other end of the connecting rod is articulated with a connection piece, and the connector and the rotation axis 3051 are fixedly installed, and leads to The cylinder of overdriving is released blocking portion 3052 can be made to turn to horizontal position upwards, so that glass be allowed to pass through, driving should Cylinder retracted downward may make blocking portion 3052 to turn to vertical position, so that glass be stopped to be fed forward.

As the preferred embodiment of the utility model, the glass conveyer device 4 includes being set to guide locating device provided 3 Stack the 4th rack 401 of the top of station 5 with glass, in the 4th rack 401 sliding be provided with one can be before conveying direction The sliding rack 402 moved back and forth afterwards, tensioning is provided with a synchronous belt 405 along its length in the 4th rack 401, described The synchronizing wheel 406 matched with the synchronous belt 405 is provided on sliding rack 402, which is mounted in a shaft 407, The driving motor 408 for drive shaft rotation is provided on sliding rack 402, driving motor 408 is stepper motor, stepper motor It rotates forward or inverts under the control of the industrial personal computer of the production line, so that sliding rack 402 be driven to slide back and forth, it is preferable that described It is additionally provided with the tensioning wheel positioned at the two sides of synchronizing wheel 406 on sliding rack 402, for compressing the synchronous belt 405, prevents from synchronizing It skids between band 405 and synchronizing wheel 406；Further preferably, it is additionally provided with auxiliary pulley 409 on the sliding rack 402, the 4th The upper surface of rack 401 offers the sliding rail for the guiding sliding of the auxiliary pulley 409, so that the sliding of sliding rack 402 It is more steady；Being movably set on the sliding rack 402 can be with respect to the crane 403 of its elevating movement, the crane 403 There are four guide plate 4031, four guide plates 4031 form a rectangles for upper setting, the lower end of the sliding rack 402 be provided with one with The vertical guide that guide plate 4031 matches, the rotation of sliding rack 402 are provided with and the one-to-one rotating member of guide plate 4031 410, the rotating member 410 is pivotally connected by a connecting rod and guide plate 4031, drives guide plate by connecting rod after the rotation of rotating member 410 4031 elevating movements, in the present embodiment, the driver that driving rotating member 410 rotates are the gas being articulated on sliding rack 402 The extension end of cylinder, the cylinder is connect with rotating member 410；The Pneumatic suction cup for adsorbing glass is provided on the crane 403 404, by glass since crane 403 rises after 404 air-breathing glass of Pneumatic suction cup, sliding rack 402 is fed forward on crane 403 Glass, when sliding rack 402, which is moved to glass, stacks the surface of station 5, crane 403 decline, Pneumatic suction cup 404 disconnect The gas source connecting with the external world, glass pieces are just placed in glass and stack on station 5, and subsequent intermediate coat unwinding device 6 equals PVC film It is layered on the surface of the glass and cuts off PVC film, another glass pieces are overlayed first block of glass by subsequent glass conveyer device 4 On, to complete the process that glass stacks.

Wherein, glass stack station 5 include the 5th rack, several the 5th conveying rollers being rotatably arranged in the 5th rack with And the 5th driving mechanism of control the 5th conveying roller work, after two pieces of glass completions stack process, the 5th driving mechanism is driven Glass assembly after stacking is fed forward into rolling heating device 7 by dynamic 5th conveying roller.Intermediate coat unwinding device 6 includes the Six racks are provided in the 6th rack and unreel roller, unreel winding on roller and are provided with PVC film, the lower section of the 6th rack It is provided with the transition span line that station 5 and rolling heating device 7 are stacked for docking glass.

Referring to Fig. 9 and Figure 10, the rolling heating device 7 includes the 7th rack 701, edge conveying side in the 7th rack 701 To several 7th conveying rollers 702 are provided with, the 7th rack 701 is set gradually along the conveying direction of several 7th conveying rollers 702 There are preheating section 710, primary rolling section 720, bringing-up section 730 and secondary rolled section 740, wherein once rolling section 720 and secondary rolling Press the structure of section 740 identical, the primary rolling section 720 and secondary rolled section 740 all include that adjacent two the 7th are arranged in Between conveying roller 702 and rotate towards each other determine roller 703 and push roller 704, it is described determine roller 703 be used for be connected to glass Lower surface, described push be connected with driving it pushed to be close to the pushing driver 750 of glass top surface on roller 704.

As the further improvement of the utility model, it is additionally provided in the 7th rack 701 and pushes driver for limiting The regulating mechanism 760 of 750 depression distance, thus realize the adjusting determined roller 703 and push axial line distance between roller 704, The distance between and then roller 703 is determined according to the adjusting of the thickness of glass and pushes roller 704.

The pushing driver 750 be the 7th cylinder, the output shaft of the 7th cylinder be connected with for be rotatablely installed it is described under The roller seat of pressure roller 704, the top of the output shaft of the 7th cylinder form a protrusion 705, live on the output shaft of the 7th cylinder The dynamic screw rod 706 for being set with the lower end surface that one can be connected to the protrusion 705, the outside of the screw rod 706 be bolted with the 7th from Dynamic helical gear 707, the 7th follow bevel gear 707 are coupled by the 7th gear shaft 708, and the 7th gear shaft 708 is connected with driving Its rotate rotary driver 709, the rotary driver 709 include can positive and negative rotation motor and reduction gearbox, motor driven slow down Case drives the rotation of the 7th gear shaft 708 in turn, and the 7th follow bevel gear 707 rotates that screw rod 706 is driven to move up and down, due to When 7th cylinder pushes, the protrusion 705 is resisted against on the upper surface of screw rod 706, is pushed to limit the 7th cylinder and drive The stroke that roller 704 pushes.The rotary driver 709, the 7th gear shaft 708, the 7th follow bevel gear 707,706 and of screw rod Protrusion 705 collectively forms the regulating mechanism 760.When screw rod 706 moves up, it can increase and push roller 704 and fixed rolling Clearance distance between cylinder 703, when screw rod 706 moves down, can subtract so that the glass rolling for being adapted to larger thickness passes through The small pushing roller 704 and determine the clearance distance between roller 703, passes through to be adapted to relatively thin glass rolling.Above only For one embodiment of regulating mechanism 760, in other embodiments, regulating mechanism 760 can also be drivingly connected one for a cylinder Baffle oscilaltion campaign, thus the stroke for stopping the protrusion 705 to move downward.

The preheating section 710 includes several 7th conveying rollers 702, and preheating section 710 is equipped with preheating cabinet body 711, in advance Heating tube is equipped with inside hot cabinet body 711, and the inner wall of the preheating cabinet body 711 is provided with heat-preservation cotton, to reduce dissipating for heat It loses, the both ends of the preheating cabinet body 711 are respectively provided with the inlet and outlet of glass disengaging, distinguish in the inlet and outlet It is hung with an insulating curtain 712, further prevents heat to external diffusion, improves the utilization efficiency of thermal energy.

The bringing-up section 730 includes heating cabinet body, and heating interior of the cabinet is equipped with heating tube, and the inner wall of the heating cabinet body It is provided with heat-preservation cotton, to reduce scattering and disappearing for heat, the both ends of the heating cabinet body are respectively provided with the import of glass disengaging And outlet, it heats and is hung with second insulating curtain in the inlet and outlet of cabinet body respectively, further prevent heat to external diffusion, Improve the utilization efficiency of thermal energy.

When the glass to come from a upper process passes through preheating section 710, preheating 711 internal temperature range of cabinet body is taken the photograph for 80 to 90 Family name's degree, the PVC film inside laminated glass are softened, and are then rolled by primary rolling section 720, so that PVC be discharged Bubble in film, then laminated glass enters in bringing-up section 730 and further heats, so that PVC film reaches molten condition, interlayer glass Glass leaves bringing-up section 730, under air-cooled operating condition, completes rolling into secondary rolled section 740 and fixes.

In the present embodiment, the blanking device 8 includes the 8th rack 801, and the 8th rack 801 is provided with along conveying direction Several 8th conveying rollers 802 are movably set with the 8th crane 803 in the 8th rack 801, set on the 8th crane 803 It is equipped with several universal wheels, universal wheel follows the 8th crane 803 to rise and stretches out in the surface of the 8th conveying roller 802, and described the Eight racks 801 are articulated with a rotating arm 804 on the left of glass conveying direction, and the pivot points of the rotating arm 804 are equipped with the Eight rollers 8041, after rolling heating device 7 enters the 8th conveying roller 802, the 8th conveying roller 802 stops rolling laminated glass, 8th crane 803 rises, and laminated glass is moved to 8041 position of the 8th roller of flip-arm 804, the 8th crane by manpower 803 declines, flip-arm 804 turn over laminated glass, laminated glass are carried by manpower or other devices, finally by interlayer glass Glass is put into oven device 9 and heats, and in the present embodiment, oven device 9 is an autoclave.

The preferred embodiments of the present invention have been specifically described above, certainly, the utility model can also using with The different form of above embodiment, those skilled in the art are made without departing from the spirit of the present invention Equivalent transformation or corresponding modification, all should belong in the protection scope of the utility model.

Claims (10)

1. a kind of sandwich glass production line characterized by comprising the feeding device that is set gradually along glass conveying direction, clear Wash blow-dry device, guide locating device provided, glass stacks station, intermediate coat unwinding device, rolls heating device, blanking device and bakes Case apparatus, the cleaning blow-dry device, guide locating device provided, glass stack station, intermediate coat unwinding device, rolling heating device Corresponding conveying roller group is all configured with blanking device, it is fixed for that will be oriented to that the guide locating device provided top is additionally provided with one Glass on the device of position is delivered to glass and stacks glass conveyer device on station.

2. a kind of sandwich glass production line as described in claim 1, it is characterised in that:

It is described it is guide locating device provided include third rack, equably rotated along conveying direction in third rack and be provided with several thirds Conveying roller, the third conveying roller are equipped with several runners that glass is conveyed with rotating with it, the third conveying roller inclination It is arranged in drive glass to move while being fed forward towards the side of third rack in third rack, it is right in third rack Should be provided with side for glass against side against mechanism, the third rack is movably set with along the end of conveying direction The end face on the front end face of glass can be resisted against against mechanism.

3. a kind of sandwich glass production line as claimed in claim 2, it is characterised in that:

The side against mechanism include several sides for being rotatably arranged on third rack and along the conveying direction of third rack it is equal The roller of even distribution.

4. a kind of sandwich glass production line as claimed in claim 2, it is characterised in that:

The end face includes third rack being arranged in the rotation axis of the end of conveying direction, rotation axis radially to set against mechanism Multiple blocking portions are equipped with, the rotation axis is connected with driving, and it is rotated to be flipped up blocking portion to be resisted against the front end of glass On face or the turnover driving mechanism that downwardly turns over to allow glass to pass through.

5. a kind of sandwich glass production line as described in claim 1, it is characterised in that:

The cleaning blow-dry device includes the second rack, and the second rack is arranged at intervals with several second conveying rollers along conveying direction, Second rack is equipped at least one set of brush cylinder group between two neighboring second conveying roller, the brush cylinder group packet Roller of the surface with hairbrush that two rotate towards each other is included, has between two rollers and makes way for the gap that glass passes through, the hair A sparge pipe is respectively arranged with above and below brush roller group, two sparge pipes are sprayed water in opposite directions to rinse glass, the hairbrush Air-dried mechanism is provided in front of roller group.

6. a kind of sandwich glass production line as claimed in claim 5, it is characterised in that:

The air-dried mechanism includes an air blower, and air blower is connected with multiple air knives by pipeline.

7. a kind of sandwich glass production line as described in claim 1, it is characterised in that:

The glass conveyer device includes the 4th rack for being set to the top that guide locating device provided and glass stacks station, and the 4th Sliding, which is provided with one, in rack to be movably set with phase on the sliding rack of conveying direction front-rear reciprocation movement, the sliding rack To the crane of its elevating movement, Pneumatic suction cup is provided on the crane.

8. a kind of sandwich glass production line as described in claim 1, it is characterised in that:

The rolling heating device includes the 7th rack, and conveying direction is provided with several 7th conveying rollers in the 7th rack, the Seven racks are disposed with preheating section along the conveying direction of several 7th conveying rollers, once roll section, bringing-up section and secondary rolling Section is pressed, the primary rolling section and secondary rolled section all include being arranged between two adjacent the 7th conveying rollers and turning in opposite directions Dynamic to determine roller and push roller, the lower surface determine roller and be used to be connected to glass is connected with drive on the pushing roller It is moved to push to be close to the pushing driver of glass top surface.

9. a kind of sandwich glass production line as claimed in claim 8, it is characterised in that:

The regulating mechanism for limiting the depression distance for pushing driver is additionally provided in 7th rack.

10. a kind of sandwich glass production line as claimed in claim 9, it is characterised in that:

The pushing driver is the 7th cylinder, and the output shaft of the 7th cylinder is connected with for being rotatablely installed the pushing roller Roller seat, the top of the output shaft of the 7th cylinder form a protrusion, and being movably installed with one on the output shaft of the 7th cylinder can It is connected to the screw rod of the lower end surface of the protrusion, the outside of the screw rod is bolted with the 7th follow bevel gear, the 7th driven helical teeth Wheel is coupled by one the 7th gear shaft, and the 7th gear shaft is connected with the rotary driver of its rotation of driving.