CN206124404U - Dual glass assembly two -chamber laminator - Google Patents

Abstract

The utility model relates to a dual glass assembly two -chamber laminator, including input transmission area, lamination device, solidification equipment and output transmission area, the output in input transmission area with the input cooperation of lamination device, the output of solidification equipment with the input cooperation in output transmission area, the output of lamination device with the input of solidification equipment is connected, seted up a plurality of centre holes on the first hot pressboard of lamination device, every a thimble has all been buried in the centre hole underground, thimble device's power pack is the cylinder. The setting of thimble conveys the lamination device back that targets in place at the subassembly, and the thimble was in the state of jack -up this moment, and the thimble just can the jack -up drive belt, thus this moment first hot pressboard with the upper band separation of conveyer belt, and then can guarantee the subassembly and the separation of first hot pressboard on the first hot pressboard, therefore the heat that the subassembly received this moment is comparatively limited, just can prevent that the glued membrane in the subassembly is heated and melts.

Description

A kind of solar double-glass assemblies two-chamber laminating machine

Technical field

This utility model is related to a kind of solar double-glass assemblies two-chamber laminating machine, is mainly used in photovoltaic industry.

Background technology

When existing laminating machine works, heating platen is constantly in heated condition, to ensure work efficiency, but consequently also brings Certain trouble, because heating plate is constantly in heated condition, thus when component enters within the chamber, heating plate is just in all the time The condition of high temperature is heated immediately to component, and now the glued membrane in component will be heated thawing, and now not vertical in cavity Vacuum state is reached, thus glued membrane very likely produces bubble in component after melting, affect yields.

Utility model content

In order to solve the problems, such as prior art, this utility model provides a kind of solar double-glass assemblies two-chamber laminating machine, leads to Cross and thimble is set on the first heating platen, when component enters into laminater, it is ensured that component is in the first heating platen and separates State, just can ensure that the glued membrane in component is not melted by heated fast and produces bubble, so as to solve what bubble in component was produced Problem.

The technical scheme that this utility model is adopted for：

A kind of solar double-glass assemblies two-chamber laminating machine, including entrance conveyor, laminater, solidification equipment and exit conveyor, The outfan of input transmission belt coordinates with the input of the laminater, and the outfan of the solidification equipment is defeated with described The input for going out conveyer belt coordinates, and the outfan of the laminater is connected with the input of the solidification equipment；

First cavity of resorption of the laminater including upward opening and cover on first cavity of resorption first on cover, institute It is the first downwardly open epicoele to state lid on first, is sealed by high-temperature-resisting silicon rubber plate at the opening of first epicoele；

Second cavity of resorption of the solidification equipment including upward opening and cover on second cavity of resorption second on cover, institute It is the second downwardly open epicoele to state lid on second, and activity chain is connected to the second auxiliary heating platen at the opening of second epicoele；

First cavity of resorption and second cavity of resorption inside connect, and also including conveyer belt, the conveyer belt runs through described the One cavity of resorption and second cavity of resorption；

The first heating platen and the second heating platen are fixed with the conveyer belt, and first heating platen is located at described first Lower intracavity, second heating platen is located at second time intracavity, and the upside of first heating platen is upper with the transmission belt The downside laminating of band, the upside of second heating platen is fitted with the downside of the upper band of the conveyer belt；

Multiple centre holes are offered on first heating platen, in each described centre hole a thimble, institute are embedded with Thimble power unit is stated for cylinder.

Further technical scheme is：The piston rod of the cylinder is connected with the bottom of the thimble.

Further technical scheme is：Intracavity is provided with auxiliary heating plate on described first.

Further technical scheme is：The plurality of centre hole is evenly distributed on first heating platen.

Further technical scheme is：Multiple thimbles are divided into 3 groups, and per group of the thimble shares a cylinder Piston rod at the top of be fixed with connecting plate, the bottom of same group of the thimble is fixed on the connecting plate.

Further technical scheme is：Intracavity is provided with auxiliary conveyor belt on described first, resistance at first epicoele High temperature silicone rubber plate is located in the auxiliary conveyor belt.

Further technical scheme is：This utility model also includes pressue device, the intracavity on described first, the resistance to height The top of warm silicane rubber plate is malleation space, and the pressue device is connected with the malleation space.

The beneficial effects of the utility model：

The setting of thimble, now thimble is in the state of jack-up after component is sent to laminater in place, and thimble will Jack-up transmission belt, thus now the first heating platen is separated with the upper band of conveyer belt, and then can ensure that the group on the first heating platen Part is separated with the first heating platen, thus the heat now suffered by component is relatively limited, and the glued membrane prevented from component is quick It is heated and melts, and after evacuation is finished, thimble is packed up, thus the upper band of conveyer belt will fit with the first heating platen, first Heat on heating platen directly will pass to component by conveyer belt, so as to melt glued membrane, realize the integral heat pressure to component.

Description of the drawings

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

Fig. 2 is schematic diagram of the present utility model two；

Fig. 3 is the schematic diagram of laminater and solidification equipment.

Wherein：1st, entrance conveyor；2nd, laminater；3rd, solidification equipment；4th, exit conveyor；21st, conveyer belt；22nd, One heating platen；23rd, thimble；24th, high-temperature-resisting silicon rubber plate；25th, auxiliary conveyor belt；31st, the second heating platen.

Specific embodiment

Referring to Fig. 1-Fig. 3, this utility model provides a kind of solar double-glass assemblies two-chamber laminating machine, including entrance conveyor 1, layer Pressure device 2, solidification equipment 3 and exit conveyor 4, the outfan of the input transmission belt and the input of the laminater 2 Coordinate, the outfan of the solidification equipment 3 coordinates with the input of the exit conveyor 4, the outfan of the laminater 2 It is connected with the input of the solidification equipment 3；First cavity of resorption of the laminater 2 including upward opening and cover described the Cover on one cavity of resorption first, lid is the first downwardly open epicoele on described first, is passed through at the opening of first epicoele High-temperature-resisting silicon rubber plate 24 is sealed；The solidification equipment 3 includes the second cavity of resorption of upward opening and covers in second cavity of resorption On second on cover, on described second lid be the second downwardly open epicoele, be connected with the opening of second epicoele Second auxiliary heating platen；First cavity of resorption is connected with second cavity of resorption inside, also including conveyer belt 21, the conveyer belt 21 Through first cavity of resorption and second cavity of resorption；The first heating platen 22 and the second heating platen are fixed with the conveyer belt 21 31, and first heating platen 22 is located at first time intracavity, second heating platen 31 is located at second time intracavity, institute The upside for stating the first heating platen 22 is fitted with the downside of the upper band of the transmission belt, the upside of second heating platen 31 with it is described The downside laminating of the upper band of conveyer belt 21；Multiple centre holes are offered on first heating platen 22, in each described centre hole A thimble 23 is embedded with, the power unit of the thimble 23 is cylinder.

The course of work of the present utility model is, staff by the component for stacking (be followed successively by up and down glass plate, glued membrane, Cell panel, glued membrane, glass plate) it is placed in entrance conveyor 1, the work moving assembly of entrance conveyor 1, now on first at lid In open mode, conveyer belt 21 is rotated, and conveyer belt 21 and entrance conveyor 1 are in same level, thus component can be smooth Be transitioned on conveyer belt 21, when component is fully located in laminater 2, conveyer belt 21 stops operating, the jack-up (gas of thimble 23 Cylinder inflation is risen), thimble 23 pushes the upper band of conveyer belt 21, and component is separated with the first heating platen 22, while resistance to for upper intracavity Space evacuation more than super heated rubber plate, closes after covering on lower first, to the space between high-temperature resistant rubber plate and conveyer belt 21 Evacuation is carried out, (after vacuum state is reached, thimble 23 is packed up, and component is by the upper band of conveyer belt 21 and the first heating platen 22 Laminating, the first heating platen 22 is heated after glued membrane is melted completely, and space more than upper intracavity high-temperature resistant rubber plate is filled Gas, because component is under vacuum state, high-temperature resistant rubber plate compression assemblies in the presence of the pressure reduction of both sides, due in true Dummy status, thus will not remain bubble in the glued membrane for melting, it is ensured that yields；After a period of time, on first on lid and second Lid is opened simultaneously, and conveyer belt 21 is rotated further, moves the assembly in solidification equipment 3, and at the same time a new component is simultaneously Move in laminater 2, lid is closed on lid and second on first simultaneously under, component carries out solidification heating in solidification equipment 3, and New component repeats previous step action (solidification equipment 3 is identical with the processing duration of laminater 2) in laminater 2, completes Afterwards, lid is opened simultaneously on lid and second on first, and conveyer belt 21 is rotated and for the component in solidification equipment 3 to be sent to exit conveyor At 4, while conveyer belt 21 is sent to the component in laminater 2 in solidification equipment 3.

This utility model is uniformly intensively distributed with a cylinder as 23 push pin device of power unit using multiple thimbles, Mainly there is the consideration of following several respects：

1st, the uniform dense distribution of multiple thimbles, the so position for component in laminater are unrestricted, can be random Put, can guarantee that by thimble jack-up.

2nd, multiple thimbles are by a cylinder jack-up, it is to avoid one thimble of a cylinder jack-up is asynchronous, and causes component quilt Jack-up is to incline.

3rd, situation about holding up relative to complete spring force, cylinder can be controlled completely, without the need for considering spring bullet during experiment Power considers problem.

It should be noted that in solidification equipment, after covering lower on second, the second auxiliary heating plate directly bears against component Upper (weight of the second auxiliary heating plate is acted on completely on component), in addition the weight of the second auxiliary heating plate itself is larger (extremely It is less 1 ton), thus after closing and covering on second, the second heating platen aids in heating plate to clamp component with second, can prevent component Bending in cure stage (because high-temperature-resisting silicon rubber plate is soft materials, when it pressurizes to component, can cause component Local buckling), even if in the case that in addition component bends in laminater, also can be by component school in solidification equipment Directly.

The piston rod of the cylinder is connected with the bottom of the thimble.

Specifically, it is exactly that the piston rod of cylinder can pump, so as to drive thimble to pump.

Intracavity is provided with auxiliary heating plate on described first.

The setting of auxiliary heating plate, is not to rely solely on the first heating platen when laminater 2 is heated to component 22 heat from the bottom to top to component, aid in top of the heating plate in component, and its heat radiation can be effectively to component from upper Carry out radiant heating under, it is ensured that especially glued membrane is heated evenly component, improves the yields of the efficiency of heating surface and processing.

The plurality of centre hole is evenly distributed on first heating platen 22.23 points of multiple thimbles are 3 groups, Per group of the thimble to be shared and be fixed with connecting plate at the top of the piston rod of a cylinder, under same group of the thimble Portion is fixed on the connecting plate.

One cylinder can simultaneously drive multiple thimbles to move up and down.

Intracavity is provided with auxiliary conveyor belt 25 on described first, and the high-temperature-resisting silicon rubber plate 24 at first epicoele is located at In the auxiliary conveyor belt 25.

The setting of auxiliary conveyor belt 25, when glued membrane is heated, glued membrane can melt, and now glued membrane is in fluid state, because And understand some glued membranes and overflow contamination on high-temperature-resisting silicon rubber sealing plate, and auxiliary conveyor belt 25 will be effectively protected it is resistance to High temperature silicon offset plate is infected with.

Also including pressue device, the intracavity on described first, the top of the high-temperature-resisting silicon rubber plate is this utility model Malleation space, the pressue device is connected with the malleation space.

Malleation space can be inflated (fill compressed air) by pressue device, so as to increase high-temperature-resisting silicon rubber plate Pressure to component, prevents the generation of bubble in component.

Claims (7)

1. a kind of solar double-glass assemblies two-chamber laminating machine, it is characterised in that：Including entrance conveyor, laminater, solidification equipment and defeated Go out conveyer belt, the outfan of the input transmission belt coordinates with the input of the laminater, the output of the solidification equipment Hold and coordinate with the input of the exit conveyor, the outfan of the laminater connects with the input of the solidification equipment Connect；

First cavity of resorption of the laminater including upward opening and cover on first cavity of resorption first on cover, described the Lid is the first downwardly open epicoele on one, is sealed by high-temperature-resisting silicon rubber plate at the opening of first epicoele；

Second cavity of resorption of the solidification equipment including upward opening and cover on second cavity of resorption second on cover, described the Lid is the second downwardly open epicoele on two, and the second auxiliary heating platen is connected with the opening of second epicoele；

First cavity of resorption is connected with second cavity of resorption inside, and also including conveyer belt, the conveyer belt is under described first Chamber and second cavity of resorption；

The first heating platen and the second heating platen are fixed with the conveyer belt, and first heating platen is located at first cavity of resorption Interior, second heating platen is located at second time intracavity, upside and the upper band of the transmission belt of first heating platen Downside laminating, the upside of second heating platen is fitted with the downside of the upper band of the conveyer belt；

Multiple centre holes are offered on first heating platen, in each described centre hole a thimble, the top are embedded with The power unit of pin is cylinder.

2. a kind of solar double-glass assemblies two-chamber laminating machine according to claim 1, it is characterised in that：The piston rod of the cylinder with The bottom connection of the thimble.

3. a kind of solar double-glass assemblies two-chamber laminating machine according to claim 1, it is characterised in that：Intracavity is installed on described first There is auxiliary heating plate.

4. a kind of solar double-glass assemblies two-chamber laminating machine according to claim 2, it is characterised in that：The plurality of centre hole It is evenly distributed on first heating platen.

5. a kind of solar double-glass assemblies two-chamber laminating machine according to claim 4, it is characterised in that：Multiple thimbles are divided into 3 Group, per group of the thimble to be shared and be fixed with connecting plate, same group of the thimble at the top of the piston rod of a cylinder Bottom be fixed on the connecting plate.

6. a kind of solar double-glass assemblies two-chamber laminating machine according to claim 1, it is characterised in that：Install on first epicoele There is auxiliary conveyor belt, the high-temperature-resisting silicon rubber plate at first epicoele is located in the auxiliary conveyor belt.

7. a kind of solar double-glass assemblies two-chamber laminating machine according to claim 1, it is characterised in that：Also include pressue device, Intracavity on described first, the top of the high-temperature-resisting silicon rubber plate is malleation space, the pressue device and the malleation space Connection.