CN210590925U - Production equipment of high-brightness low-friction solar film - Google Patents

Abstract

The utility model discloses a production facility of high light, low friction solar film, including wear-resisting tunic production facility, wear-resisting tunic conveyor, metallic film conveyor, prevent dazzling tunic production facility, prevent dazzling tunic conveyor, laminating machine, coiling mechanism, the output that grinds tunic production facility links to each other with wear-resisting tunic conveyor's input, prevents dazzling tunic production facility's output and prevents dazzling tunic conveyor's input and link to each other, prevent dazzling tunic conveyor's output, metallic film conveyor's output, prevent dazzling tunic conveyor's output and all link to each other with the input of laminating machine, and the coiling mechanism links to each other with the output of laminating machine. The utility model provides a production facility of high-brightness and low-friction solar film, which has scientific distribution, can improve the production efficiency and promote the quality of products.

Description

Production equipment of high-brightness low-friction solar film

Technical Field

The utility model relates to a production facility of high light, low friction solar film belongs to polyester film equipment technical field.

Background

In the modern solar film production technology, metals such as aluminum, gold, copper, silver and the like are often made into a multi-layer to dense high-heat-insulation metal film layer through vacuum spraying or magnetron sputtering technology, and other functional layer films are coated on two sides of the metal film layer.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a production facility of high light, low friction solar film is provided, its membrane at various functional layers just carries out the tectorial membrane with the metal film layer after production is accomplished, can improve production efficiency, promotes the quality of product, can solve prior art not enough.

The technical scheme of the utility model is that: the utility model provides a production facility of high light, low friction solar film, includes abrasion-resistant tunic production facility, abrasion-resistant tunic conveyor, metallic film conveyor, prevents dazzling tunic production facility, prevents dazzling tunic conveyor, laminating machine, coiling mechanism, abrasion-resistant tunic production facility's output links to each other with abrasion-resistant tunic conveyor's input, prevents dazzling tunic production facility's output and prevents dazzling tunic conveyor's input and link to each other, prevent dazzling tunic conveyor's output, metallic film conveyor's output, prevent dazzling tunic conveyor's output and all link to each other with the input of laminating machine, and the coiling mechanism links to each other with the output of laminating machine. Wear-resisting tunic that wear-resisting tunic production facility generated passes through wear-resisting tunic conveyor and carries, the tunic that dazzles that prevents that tunic production facility generated is carried through preventing dazzling tunic conveyor, the metallic film passes through metallic film conveyor and carries, three kinds of membranes are carried to the laminating machine respectively, wherein the metallic film is located in the middle of, wear-resisting tunic and anti-dazzling level in both sides generate solar membrane through the laminating machine tectorial membrane, the wear-resisting tunic that generates with prevent dazzling the tunic and directly carry out the tectorial membrane and roll through the coiling mechanism with metallic film, reduce production processes, the production efficiency is improved, the quality of the product is promoted.

The production equipment of the wear-resistant layer film further comprises a first extruder, a metering pump, a first casting device and a first shaping machine which are sequentially connected, wherein the output end of the first shaping machine is connected with the input end of the wear-resistant layer film conveying device. And forming a melt by the master batch slice for generating the wear-resistant layer film through a first extruder, extruding, conveying to a first casting device through a metering pump to form a casting sheet, and stretching by a first forming machine to form the wear-resistant layer film.

The first sheet casting device further comprises a first die head, a quenching roller and an electrostatic adsorption device. The melt is conveyed to a chill roll through a first die head under the action of an electrostatic adsorption device to form a cast sheet.

Further, prevent dazzling tunic production facility includes that second extruder, third extruder, second cast piece device, second forming machine, second extruder, third extruder are continuous with the input of second cast piece device through the measuring pump respectively, and the output of second cast piece device links to each other with the input of second forming machine. The fuse-element that the second extruder was extruded is for preventing dazzling the layer of the rete, and the fuse-element that the third extruder was extruded is for preventing dazzling the antiseized layer of rete, and both form bilayer structure's the layer of preventing dazzling through the second casting device.

The second sheet casting device comprises a second die head, a quenching roller and an electrostatic adsorption device, wherein the second die head is a double-layer co-extrusion die head, and a melt distributor is arranged above the second die head. And the melt extruded by the second extruder and the melt extruded by the third extruder are conveyed to a chill roll through a second die head under the action of an electrostatic adsorption device to form a double-layer casting sheet.

Further, a first melt filter is arranged between the first extruder and the first casting sheet device. Removing impurities, gel particles, fish eyes and other conductors existing in the melt.

And a second melt filter is arranged between the second extruder and the second sheet casting device, and a third melt filter is arranged between the third extruder and the second sheet casting device. Removing impurities, gel particles, fish eyes and other conductors existing in the melt.

The wear-resistant layer film conveying device and the anti-glare layer film conveying device both comprise a plurality of conveying rollers, the conveying rollers are of hollow structures, and heating devices are installed on the inner walls of the conveying rollers. The wear-resistant layer film and the anti-glare layer film are kept at certain temperature and dried, so that film covering is facilitated.

And dust suction devices are arranged above the wear-resistant layer film conveying device and the anti-glare layer film conveying device. When the wear-resistant layer film and the anti-glare layer film are conveyed, dust particles on the wear-resistant layer film and the anti-glare layer film are removed through the dust suction device, and the quality of a product is improved.

To sum up, the utility model provides a production facility of high-brightness, low-friction solar film which has scientific distribution, can improve the production efficiency and promote the quality of products.

Drawings

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

fig. 2 is a schematic view of an anti-glare layer film conveying device or a wear layer film conveying device and a dust suction device.

Shown in the figure: a wear-resistant layer film conveying device 1; a metal film conveying device 2; an anti-glare layer film conveying device 3; a film laminating machine 4; a winding device 5; a first extruder 6; a first sheet casting device 7; a metering pump 8; a first form maker 9; a first melt filter 10; a first die 11; a chill roll 12; an electrostatic adsorption device 13; a second extruder 14; a third extruder 15; a second sheet casting device 16; a second setting machine 17; a second melt filter 18; a third melt filter 19; a dust suction device 21; a second die 22; a conveyance roller 23; a motor 24; and a dust suction device 25.

Detailed Description

The embodiment of the utility model provides a: as shown in fig. 1, a production facility of high-brightness low-friction solar film, including wear-resistant layer film production facility, wear-resistant layer film conveyor 1, metal film conveyor 2, prevent dazzling the layer film production facility, prevent dazzling layer film conveyor 3, laminating machine 4, coiling mechanism 5, the output of wear-resistant layer film production facility links to each other with wear-resistant layer film conveyor 1's input, the output of preventing dazzling the layer film production facility links to each other with the input of preventing dazzling layer film conveyor 3, prevent dazzling the output of layer film conveyor 1, the output of metal film conveyor 2, prevent dazzling the output of layer film conveyor 3 and all link to each other with laminating machine 4's input, coiling mechanism 5 links to each other with laminating machine 4's output.

The during operation, the wear-resisting tunic that wear-resisting tunic production facility generated is carried through wear-resisting tunic conveyor 1, the anti-dazzle tunic that anti-dazzle tunic production facility generated is carried through anti-dazzle tunic conveyor 3, the metal film passes through metal film conveyor 2 and carries, three kinds of membranes are carried to laminating machine 4 respectively, wherein the metal film is located the centre, wear-resisting tunic and anti-dazzle layer bit in both sides generate solar membrane through laminating machine 4 heating, the solar membrane that generates carries out the rolling through coiling mechanism 5, it also pulls three kinds of membranes when the rolling, the wear-resisting tunic that generates with prevent dazzling the tunic and directly carry out the tectorial membrane with the metal film, reduce production processes, and the production efficiency is improved, the quality of promotion product.

The preferential wear-resistant layer film production equipment of the embodiment comprises a first extruder 6, a metering pump 8, a first casting sheet device 7 and a first shaping machine 9 which are connected in sequence, wherein the output end of the first shaping machine 9 is connected with the input end of a wear-resistant layer film conveying device 1. The master batch slices for generating the wear-resistant layer film are subjected to melt extrusion through a first extruder 6, conveyed to a first casting sheet device 7 through a metering pump 8 to form a casting sheet, and then stretched through a first forming machine 9 to form the wear-resistant layer film.

The first sheet casting device 7 preferred in this embodiment comprises a first die 11, a chill roll 12, and an electrostatic adsorption device 13. The melt is transferred to a chill roll 12 through a first die 11 under the action of an electrostatic adsorption device 13 to form a cast slab.

The preferred anti-glare film production equipment of this embodiment includes a second extruder 14, a third extruder 15, a second sheet casting device 16, and a second setting machine 17, where the second extruder 14 and the third extruder 15 are respectively connected to an input end of the second sheet casting device 16 through a metering pump, and an output end of the second sheet casting device 16 is connected to an input end of the second setting machine 17. The fuse-element that second extruder 14 was extruded is for preventing dazzling the layer of preventing dazzling the rete, and the fuse-element that third extruder 15 was extruded is for preventing dazzling the antiseized layer of rete, and both form bilayer structure's the layer of preventing dazzling through second casting piece device 16.

The second casting device 16 of the preferred embodiment includes a second die 22, a chill roll, and an electrostatic adsorption device, where the second die 22 is a double-layer co-extrusion die and a melt distributor is disposed above the double-layer co-extrusion die. The melt extruded by the second extruder 14 and the melt extruded by the third extruder 15 are distributed by a melt distributor and then conveyed to a chill roll under the action of an electrostatic adsorption device through a second die head 22 to form a cast sheet with a double-layer structure.

A first melt filter 10 is preferably arranged between the first extruder 6 and the first casting device 7. The melt extruded from the first extruder 6 is passed through a first melt filter 10 to remove impurities, gel particles, fish eyes and the like.

In the preferred embodiment, a second melt filter 18 is disposed between the second extruder 14 and the second sheet casting device 16, and a third melt filter 19 is disposed between the third extruder 15 and the second sheet casting device 16. The function is the same as above, and impurities, gel particles, fish eyes and other conductors existing in the melt are removed.

In the preferred embodiment, as shown in fig. 2, the wear-resistant layer film conveying device 1 and the anti-glare layer film conveying device 3 both include a plurality of conveying rollers 23, the conveying rollers 23 are hollow, and heating devices are installed on the inner walls of the conveying rollers 23. The electric 24 drives the transmission roller 23 to rotate, the heating device on the inner wall of the transmission roller 23 heats the transmission roller 23, the wear-resistant layer film and the anti-glare layer film are kept at certain temperatures, and the wear-resistant layer film and the anti-glare layer film are dried and are also conveniently heated and coated in the film coating machine 4.

Dust suction devices 25 are arranged above the wear-resistant layer film conveying device 1 and the anti-glare layer film conveying device 3 which are preferred in the embodiment. When the wear-resistant layer film and the anti-glare layer film are conveyed, dust particles on the wear-resistant layer film and the anti-glare layer film are removed through the dust suction device 25, and the quality of a product is improved.

Claims (9)

1. The utility model provides a production facility of high light, low friction solar film which characterized in that: including wear-resisting tunic production facility, wear-resisting tunic conveyor, metallic film conveyor, prevent dazzling tunic production facility, prevent dazzling tunic conveyor, laminating machine, coiling mechanism, the output of grinding tunic production facility links to each other with wear-resisting tunic conveyor's input, prevents dazzling tunic production facility's output and prevents dazzling tunic conveyor's input and link to each other, prevent dazzling tunic conveyor's output, metallic film conveyor's output, prevent dazzling tunic conveyor's output and all link to each other with the input of laminating machine, and the coiling mechanism links to each other with the output of laminating machine.

2. The apparatus for producing a high-brightness low-friction solar film according to claim 1, wherein: the production equipment of the wear-resistant layer film comprises a first extruder, a metering pump, a first casting device and a first shaping machine which are sequentially connected, wherein the output end of the first shaping machine is connected with the input end of a wear-resistant layer film conveying device.

3. The apparatus for producing a high-brightness, low-friction solar film according to claim 2, wherein: the first casting device comprises a first die head, a quenching roller and an electrostatic adsorption device.

4. The apparatus for producing a high-brightness low-friction solar film according to claim 1, wherein: the anti-glare layer film production equipment comprises a second extruder, a third extruder, a second casting device and a second setting machine, wherein the second extruder and the third extruder are respectively connected with the input end of the second casting device through a metering pump, and the output end of the second casting device is connected with the input end of the second setting machine.

5. The apparatus for producing a high-brightness low-friction solar film according to claim 4, wherein: the second sheet casting device comprises a second die head, a quenching roller and an electrostatic adsorption device, wherein the second die head is a double-layer co-extrusion die head, and a melt distributor is arranged above the second die head.

6. The apparatus for producing a high-brightness, low-friction solar film according to claim 2, wherein: and a first melt filter is arranged between the first extruder and the first casting sheet device.

7. The apparatus for producing a high-brightness low-friction solar film according to claim 4, wherein: and a second melt filter is arranged between the second extruder and the second sheet casting device, and a third melt filter is arranged between the third extruder and the second sheet casting device.

8. The apparatus for producing a high-brightness low-friction solar film according to claim 1, wherein: the wear-resistant layer film conveying device and the anti-glare layer film conveying device both comprise a plurality of conveying rollers, the conveying rollers are of hollow structures, and heating devices are installed on the inner walls of the conveying rollers.

9. The apparatus for producing a high-brightness low-friction solar film according to claim 8, wherein: dust suction devices are arranged above the wear-resistant layer film conveying device and the anti-dazzle layer film conveying device.

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