CN211031284U - Hydrogel thickness adjusting mechanism for production of heat dissipation quick-cooling paste and production equipment - Google Patents

Abstract

A hydrogel thickness adjusting mechanism for production of a heat dissipation quick-cooling paste comprises an adjusting piece, an adjusting bolt, a pressure gauge and an elastic piece; the adjusting piece comprises an adjusting part, a lifting part and a connecting part; one end of the adjusting part is connected to the left upper side of the lifting part, and one end of the connecting part is connected to the right lower side of the lifting part; the adjusting part is provided with a first mounting hole, the lifting part is provided with a second mounting hole, and the connecting part is provided with a third mounting hole; a production apparatus; the hydrogel thickness adjusting device comprises a first material roller, a second material roller, a third material roller, a hopper, a material receiving plate, a first guide roller, a second guide roller, a third guide roller, a forming device, a longitudinal cutter device, a transverse cutter device and a hydrogel thickness adjusting mechanism; the utility model provides a heat dissipation subsides hydrogel thickness guiding mechanism and production facility that fast subsides of heating produced according to above-mentioned content, can change the thickness of the subsides normal hydrogel layer of heating, and can produce the subsides of heating that have double-deck hydrogel layer, heat dissipation are fast of different batch thickness.

Description

Hydrogel thickness adjusting mechanism for production of heat dissipation quick-cooling paste and production equipment

Technical Field

The utility model relates to an subsides production facility field of bringing down a fever especially relates to a hydrogel thickness guiding mechanism and production facility of production are pasted to heat dissipation bringing down a fever soon.

Background

The existing defervescence patch product is accepted by more and more people in China by virtue of practicability and convenience. The cooling paste plays a role in cooling, and mainly has the advantages that the cooling paste contains high-molecular hydrogel, heat can be concentrated into jelly by using a physical principle, and the heat in the body is taken away through rapid evaporation of water in the gel.

However, among the equipment of the existing production subsides of bringing down a fever, every equipment can only produce the subsides of bringing down a fever of same thickness to, in the subsides of bringing down a fever of existing, all only the individual layer hydrogel layer, the hydrogel layer is being clad by the backing layer, the unable direct contact air of hydrogel layer, therefore the heat dissipation of hydrogel layer is obstructed, the heat can't be discharged fast, lead to the radiating effect general, hydrogel layer is dry and dry very fast, make the effective action of bringing down a fever subsides long for a short time.

Therefore, an equipment capable of producing double hydrogel layers with different batch thicknesses and quickly radiating the heat of the cooling paste is urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a aquogel thickness guiding mechanism and production facility that heat dissipation was fast subsides production of heating can change the thickness that heats up and paste the aquogel layer, and can produce the subsides of heating that have double-deck aquogel layer, heat dissipation are fast of different batch thickness.

To achieve the purpose, the utility model adopts the following technical proposal:

a hydrogel thickness adjusting mechanism for production of a heat dissipation quick-cooling paste comprises an adjusting piece, an adjusting bolt, a pressure gauge and an elastic piece;

the adjusting piece comprises an adjusting part, a lifting part and a connecting part;

one end of the adjusting part is connected to the left upper side of the lifting part, and one end of the connecting part is connected to the right lower side of the lifting part;

the adjusting part is provided with a first mounting hole, the lifting part is provided with a second mounting hole, and the connecting part is provided with a third mounting hole;

one end of the adjusting bolt is abutted against the top surface of the other end of the adjusting part, one end of the pressure gauge is abutted against the top surface of the lifting part, and the top surface of the elastic part is abutted against the bottom surface of the adjusting part.

The production equipment of the hydrogel thickness adjusting mechanism produced by the heat dissipation quick-cooling paste is used;

the hydrogel thickness adjusting device comprises a first material roller, a second material roller, a third material roller, a hopper, a material receiving plate, a first guide roller, a second guide roller, a third guide roller, a forming device, a longitudinal cutter device, a transverse cutter device and a hydrogel thickness adjusting mechanism;

the first material roller is coiled with an upper layer film, the second material roller is coiled with a middle layer mesh cloth, and the third material roller is coiled with a lower layer film;

the first material roller is positioned on the left side of the second material roller;

the first guide roller and the second guide roller are arranged side by side, the first guide roller and the second guide roller are both positioned at the right lower part of the second material roller, and the third guide roller is positioned under the second material roller;

the hydrogel thickness adjusting mechanisms are two in number and are respectively arranged on the racks on the front side and the rear side of the production equipment;

two ends of the first guide roller are respectively and rotatably arranged in the first mounting holes of the adjusting parts of the two sets of hydrogel thickness adjusting mechanisms, and two ends of the second guide roller are respectively and rotatably arranged in the second mounting holes of the lifting parts of the two sets of hydrogel thickness adjusting mechanisms; a third mounting hole arranged on the connecting part is fixed on a rack of the production equipment through a screw;

the material receiving plate is obliquely arranged, one end of the material receiving plate is in contact with the upper surface of a lower layer film which is pulled out from the third material roller and wound on the third guide roller, the hopper is positioned above the material receiving plate, and hydrogel is loaded in the hopper;

the forming device is located on the left side of the first guide roller, the longitudinal cutter device is located on the left side of the forming device, and the transverse cutter device is located on the left side of the longitudinal cutter device.

Further, the forming device comprises a forming roller, a forming support roller and a forming roller driving device;

the forming roller driving device is positioned above the forming roller;

the number of the forming roller driving devices is two, and the two forming roller driving devices are respectively connected to two ends of the forming roller;

the forming support roller is positioned right below the forming roller.

Further, the longitudinal cutter device comprises a plurality of cutters arranged side by side and a longitudinal cutter supporting roller, and the longitudinal cutter supporting roller is positioned below the plurality of cutters.

Further, the device also comprises a first reversing roller and a second reversing roller;

the first reversing roller is positioned on the left side of the longitudinal cutter supporting roller, and the second reversing roller is positioned on the left lower side of the first reversing roller.

Further, the transverse cutter device comprises a transverse cutter which is close to the second reversing roller.

Further, the device also comprises a discharge conveyer belt which is positioned below the transverse cutter device.

Further, still include the fourth guide roll, it is located the left side of third material roller, the fourth guide roll still is located the below of third guide roll.

Further, the upper layer film is a transparent plastic film, and the lower layer film is a transparent plastic film.

Further, the upper surface and the lower surface of the upper layer film are both embossed, and the upper surface and the lower surface of the lower layer film are both embossed.

The utility model provides a heat dissipation subsides hydrogel thickness guiding mechanism and production facility that fast subsides of heating produced according to above-mentioned content, can change the thickness of the subsides normal hydrogel layer of heating, and can produce the subsides of heating that have double-deck hydrogel layer, heat dissipation are fast of different batch thickness.

Drawings

Fig. 1 is a schematic view of a partial structure of a hydrogel thickness adjusting mechanism disposed on a frame according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a heat dissipation and quick-cooling patch with a double-layer hydrogel;

FIG. 3 is a schematic side view of one embodiment of the present invention;

fig. 4 is a schematic view of the process steps of forming, longitudinally cutting and transversely cutting in the production of the heat dissipation quick cooling paste by the production equipment of one embodiment of the present invention.

Wherein: an adjusting piece A1, an adjusting bolt A2, a pressure gauge A3, an elastic piece A4, an adjusting part A11, an elevating part A12, a connecting part A13, a first mounting hole A111, a second mounting hole A121, a third mounting hole A131, a first mounting hole A, a second mounting hole A2, a first mounting hole A, a second mounting hole A, a third mounting hole A3526, a first,

The device comprises a first material roller 11, an upper layer film 111, a second material roller 12, a middle layer mesh cloth 121, a third material roller 13, a lower layer film 131, a hopper 21, hydrogel 211, a material receiving plate 22, a hydrogel accumulation space 201, a first guide roller 31, a second guide roller 32, a third guide roller 33, a fourth guide roller 34, a forming device 4, a forming roller 41, a forming support roller 42, a forming roller driving device 43, a longitudinal cutter device 5, a cutter 51, a longitudinal cutter support roller 52, a transverse cutter device 6, a transverse cutter 61, a first reversing roller 71, a second reversing roller 72, a discharging conveyer belt 8, a heat-removing paste structure 91, a strip-shaped heat-removing paste structure 92 and a heat-dissipating quick-heat-removing paste 93.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 4, reference directions of up, down, left, and right are shown in fig. 3 for convenience of description.

A hydrogel thickness adjusting mechanism for producing a heat dissipation quick-cooling paste comprises an adjusting piece A1, an adjusting bolt A2, a pressure gauge A3 and an elastic piece A4;

the adjusting piece A1 comprises an adjusting part A11, a lifting part A12 and a connecting part A13;

one end of the adjusting part a11 is connected to the upper left side of the lifting part a12, and one end of the connecting part a13 is connected to the lower right side of the lifting part a 12;

the adjusting part A11 is provided with a first mounting hole A111, the lifting part A12 is provided with a second mounting hole A121, and the connecting part A13 is provided with a third mounting hole A131;

one end of the adjusting bolt A2 is propped against the top surface of the other end of the adjusting part A11, one end of the pressure gauge A3 is propped against the top surface of the lifting part A12, and the top surface of the elastic part A4 is propped against the bottom surface of the adjusting part A11.

The hydrogel thickness adjusting mechanism produced by the heat dissipation quick-cooling paste is specifically applied to a rack A5 of production equipment of the heat dissipation quick-cooling paste, two sets of hydrogel thickness adjusting mechanisms are respectively arranged at the front side and the rear side of the production equipment, then two ends of a first guide roller 31 are respectively and rotatably arranged in a first mounting hole A111 of an adjusting part A11 of the two sets of hydrogel thickness adjusting mechanisms, and two ends of a second guide roller 32 are respectively and rotatably arranged in a second mounting hole A121 of a lifting part A12 of the two sets of hydrogel thickness adjusting mechanisms; the connecting part A13 is provided with a third mounting hole A131 which can be fixed on a frame A5 of the production equipment through screws.

Since one end of the adjusting bolt a2 passes through the frame a5 of the production equipment and abuts against the top surface of the other end of the adjusting part a11, the top surface of the elastic part a4 (in this embodiment, the elastic part a4 is a spring) abuts against the bottom surface of the adjusting part a11, and the other end of the elastic part a4 abuts against the frame a5 of the production equipment, by twisting the adjusting bolt a2, the whole adjusting part a1 rotates along the other end of the connecting part a13, and the elastic part a4 is compressed during the rotation process, so that the lifting part a12 is lifted, thereby changing the distance between the second guide roller 32 and the third guide roller 33 located right below the second guide roller 32, and finally changing the thickness of the hydrogel passing between the second guide roller 32 and the third guide roller 33, so that the production equipment can produce heat dissipation quick-cooling pastes with different thicknesses.

When the lifting part A12 rises, because one end of the pressure gauge A3 supports against the top surface of the lifting part A12, the pressure value of the pressure gauge A3 can be changed, and the pressure values of the pressure gauges A3 of the hydrogel thickness adjusting mechanisms are kept consistent only by keeping two sets, so that the rising heights of the two ends of the second guide roller 32 are enabled to be consistent accurately, and the thicknesses of the heat dissipation quick-cooling pastes produced by the production equipment in the same batch are enabled to be consistent.

As shown in fig. 1-4, a production device of a hydrogel thickness adjusting mechanism produced by using the heat dissipation quick-cooling heat patch;

the hydrogel thickness adjusting device comprises a first material roller 11, a second material roller 12, a third material roller 13, a hopper 21, a material receiving plate 22, a first guide roller 31, a second guide roller 32, a third guide roller 33, a forming device 4, a longitudinal cutter device 5, a transverse cutter device 6 and a hydrogel thickness adjusting mechanism;

the first material roller 11 is wound with an upper layer film 111, the second material roller 12 is wound with a middle layer mesh cloth 121, and the third material roller 13 is wound with a lower layer film 131;

the first material roller 11 is positioned at the left side of the second material roller 12;

the first guide roller 31 and the second guide roller 32 are arranged side by side, the first guide roller 31 and the second guide roller 32 are both positioned at the lower right of the second material roller 12, and the third guide roller 33 is positioned right below the second material roller 12;

the hydrogel thickness adjusting mechanisms are two in number and are respectively arranged on the racks A5 on the front side and the rear side of the production equipment;

both ends of the first guide roller 31 are rotatably mounted in first mounting holes a111 of the adjusting parts a11 of the two sets of hydrogel thickness adjusting mechanisms, respectively, and both ends of the second guide roller 32 are rotatably mounted in second mounting holes a121 of the lifting parts a12 of the two sets of hydrogel thickness adjusting mechanisms, respectively; the third mounting hole a131 provided in the connecting portion a13 is fixed to the frame a5 of the production apparatus by screws.

The material receiving plate 22 is obliquely arranged, one end of the material receiving plate 22 is in contact with the upper surface of the lower layer film 131 which is pulled out from the third material roller 13 and wound around the third guide roller 33, the hopper 21 is positioned above the material receiving plate 22, and hydrogel 211 is loaded in the hopper 21;

the forming device 4 is positioned on the left side of the first guide roller 31, the longitudinal cutter device 5 is positioned on the left side of the forming device 4, and the transverse cutter device 6 is positioned on the left side of the longitudinal cutter device 5.

The heat dissipation subsides 93 that fast move back that have double-deck aquogel as shown in fig. 2 is through the utility model discloses a production facility production that heat dissipation fast moves back that heat is pasted, can see from fig. 2, heat dissipation fast moves back that heat pastes 93 includes double-deck aquogel 211, and double-deck aquogel 211 is bonded by middle level screen cloth 121 fixity, and double-deck aquogel 211's surface is strippable formula respectively and is pasted and have upper strata membrane 111 and lower floor's membrane 131.

Since the frame a5 of fig. 1 shields a part of the structures of the first guide roller 31, the second guide roller 32, and the third guide roller 33, the frame a5 and the hydrogel thickness adjusting mechanism are not shown in fig. 3, and the positional relationship among the first guide roller 31, the second guide roller 32, and the third guide roller 33 is clearly shown.

Before the production of the heat dissipation quick-cooling patch 93, the hydrogel thickness adjusting mechanism is used to adjust the distance between the second guide roller 32 and the third guide roller 33 located right below the second guide roller 32 so as to be suitable for the thickness required by the current production batch.

Through twisting adjusting bolt A2, adjusting part A1 wholly can rotate along the other end of connecting portion A13, and pivoted process can compress elastic component A4, makes lift portion A12 rises to change the distance between second guide roll 32 and the third guide roll 33 that is located directly below second guide roll 32, finally can change the thickness through the aquogel between second guide roll 32 and the third guide roll 33, thereby the order give birth to equipment can produce the heat dissipation of different thickness and fast heat subsides.

After the hydrogel thickness adjusting mechanism is adjusted, the process of producing the heat dissipation quick-cooling patch 93 is carried out:

the upper film 111 and the middle layer mesh cloth 121 are pulled out from the first material roller 11 and the second material roller 12 and then sequentially wound around the first guide roller 31 and the second guide roller 32, and the winding direction may be determined according to the actual situation, for example, in this embodiment, the upper film 111 and the middle layer mesh cloth 121 are wound around the first guide roller 31 counterclockwise, the upper film 111 and the middle layer mesh cloth 121 are wound around the second guide roller 32 clockwise, and then the lower film 131 is pulled out from the third material roller 13 and then wound around the third guide roller 33 counterclockwise. The first guide roll 31, the second guide roll 32, and the third guide roll 33 are provided to have an advantage of guiding and supporting the upper film 111, the middle mesh 121, and the lower film 131, respectively.

The three layers of the upper film 111, the middle mesh cloth 121, and the lower film 131 are stacked from above and below and then conveyed to the forming device 4 from between the second guide roller 32 and the third guide roller 33, and then the next step of the annealing and pasting forming process is performed.

The receiving plate 22 is obliquely arranged, one end of the receiving plate 22 contacts with the upper surface of the lower film 131 which is pulled out from the third material roller 13 and wound around the third guide roller 33, the hopper 21 is located above the receiving plate 22, hydrogel 211 is loaded in the hopper 21, a discharging hole is formed in the bottom of the hopper 21, the hydrogel 211 falls from the hopper 21 to the receiving plate 22 and flows to the other end of the receiving plate 22 through one end of the receiving plate 22, and finally the hydrogel 211 is accumulated in a hydrogel accumulation space 201 formed between the upper surface of the lower film 131 wound around the third guide roller 33 and the bottom end of the receiving plate 22.

With the gradual transportation of the upper film 111, the middle mesh cloth 121, and the lower film 131 to the forming device 4, the lower film 131 drives the hydrogel 211 accumulated in the hydrogel accumulation space 201 to enter between the middle mesh cloth 121 and the lower film 13.

When the upper layer film 111, the middle layer mesh cloth 121 and the lower layer film 131 enter the forming device 4, the forming device 4 can press the upper layer film 111, the middle layer mesh cloth 121 and the lower layer film 131 together, and the middle layer mesh cloth 121 has mesh holes, so that the hydrogel 211 can penetrate to the top surface of the middle layer mesh cloth 121 from the bottom surface of the middle layer mesh cloth 121 in the pressing process, and then the double-layer hydrogel 211 is respectively distributed on the upper surface and the lower surface of the middle layer mesh cloth 121.

Then, through the longitudinal cutting operation of the longitudinal cutter device 5 and the transverse cutting operation of the transverse cutter device 6, a plurality of heat dissipation quick-cooling pastes 93 with the double-layer hydrogel 211 can be efficiently produced.

Further, the molding device 4 includes a molding roller 41, a molding backup roller 42, and a molding roller driving device 43;

the forming roller driving device 43 is positioned above the forming roller 41;

the number of the forming roller driving devices 43 is two, and the two forming roller driving devices 43 are respectively connected to two ends of the forming roller 41;

the forming support roller 42 is located directly below the forming roller 41.

Since the forming roller 41 has a plurality of cavities uniformly formed on the surface thereof, when the three of the upper film 111, the middle mesh cloth 121 and the lower film 131 enter between the forming roller 41 and the forming support roller 42 of the forming device 4, the forming roller 41 rotates to press the upper film 111, the middle mesh cloth 121 and the lower film 131 together in the process, and a plurality of heat-releasing adhesive structures 91 with double-layer hydrogel 211 as shown in fig. 4 can be pressed through the cavities.

And the forming roller driving means 43 is for adjusting the height of the forming support roller 42, and the forming roller driving means 43 may be an air cylinder.

Further, the longitudinal cutter device 5 comprises a plurality of cutters 51 and longitudinal cutter supporting rollers 52 arranged side by side, and the longitudinal cutter supporting rollers 52 are located below the plurality of cutters 51.

Through the cooperation of the cutters 51 arranged side by side and the longitudinal cutter supporting rollers 52, the heat-removing tape structure 91 pressed by the forming device 4 can be cut into a plurality of strip-shaped heat-removing tape structures 92 as shown in fig. 4.

Further, a first reversing roller 71 and a second reversing roller 72 are also included;

the first reversing roller 71 is positioned on the left side of the longitudinal cutter supporting roller 52, and the second reversing roller 72 is positioned on the lower left side of the first reversing roller 71.

The strip-shaped heat-removing paste structure 92 processed by the longitudinal cutter device 5 passes through the first reversing roller 71 and the second reversing roller 72 in sequence, so that the conveying direction of the strip-shaped heat-removing paste structure 92 is changed from horizontal to vertical, and the strip-shaped heat-removing paste structure 92 is more beneficial to transverse cutting in the follow-up process.

Further, the transverse cutter device 6 comprises a transverse cutter 61, and the transverse cutter 61 is close to the second reversing roller 72.

Through the transverse cutter 61, the strip-shaped annealing paste structures 92 can be transversely cut, and finally, a plurality of heat dissipation quick-annealing pastes 93 with the double-layer hydrogel 211 shown in fig. 4 are produced.

Further, a discharging conveyer belt 8 is also included and is positioned below the transverse cutter device 6.

The produced multiple heat dissipation quick-cooling pastes 93 with the double-layer hydrogel 211 can be effectively conveyed to the discharge end.

Further, a fourth guide roller 34 is further included, and is located on the left side of the third material roller 13, and the fourth guide roller 34 is also located below the third guide roller 33.

By providing the fourth guide roll 34, the lower film 131 on the third material roll 13 can be effectively guided and supported.

Further, the upper film 111 is a transparent plastic film, and the lower film 131 is a transparent plastic film.

The plastic film can play the protection roles of dust prevention, corrosion prevention and the like.

Further, both upper and lower surfaces of the upper film 111 are embossed, and both upper and lower surfaces of the lower film 131 are embossed.

The upper membrane 111 and the lower membrane 131 adopt double-sided embossing, the outer surface embossing can improve the friction force so that a patient can take the antipyretic patch, the inner surface embossing stuck with the hydrogel 211 enables the contact surface between the upper membrane 111 and the lower membrane 131 and the hydrogel layer 211 to form concave-convex textures, air entering is facilitated, and therefore the upper membrane 111 and the lower membrane 131 are easier to be stripped from the hydrogel layer 211, and the upper membrane 111 and the lower membrane 131 are prevented from being adhered to the hydrogel layer 211.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides a hydrogel thickness guiding mechanism that heat dissipation fast annealing pasted production which characterized in that: comprises an adjusting piece, an adjusting bolt, a pressure gauge and an elastic piece;

the adjusting piece comprises an adjusting part, a lifting part and a connecting part;

one end of the adjusting part is connected to the left upper side of the lifting part, and one end of the connecting part is connected to the right lower side of the lifting part;

the adjusting part is provided with a first mounting hole, the lifting part is provided with a second mounting hole, and the connecting part is provided with a third mounting hole;

one end of the adjusting bolt is abutted against the top surface of the other end of the adjusting part, one end of the pressure gauge is abutted against the top surface of the lifting part, and the top surface of the elastic part is abutted against the bottom surface of the adjusting part.

2. Production equipment of a hydrogel thickness adjusting mechanism produced by using the heat dissipation quick-cooling paste as claimed in claim 1;

the method is characterized in that: the hydrogel thickness adjusting device comprises a first material roller, a second material roller, a third material roller, a hopper, a material receiving plate, a first guide roller, a second guide roller, a third guide roller, a forming device, a longitudinal cutter device, a transverse cutter device and a hydrogel thickness adjusting mechanism;

the first material roller is coiled with an upper layer film, the second material roller is coiled with a middle layer mesh cloth, and the third material roller is coiled with a lower layer film;

the first material roller is positioned on the left side of the second material roller;

the first guide roller and the second guide roller are arranged side by side, the first guide roller and the second guide roller are both positioned at the right lower part of the second material roller, and the third guide roller is positioned under the second material roller;

the hydrogel thickness adjusting mechanisms are two in number and are respectively arranged on the racks on the front side and the rear side of the production equipment;

two ends of the first guide roller are respectively and rotatably arranged in the first mounting holes of the adjusting parts of the two sets of hydrogel thickness adjusting mechanisms, and two ends of the second guide roller are respectively and rotatably arranged in the second mounting holes of the lifting parts of the two sets of hydrogel thickness adjusting mechanisms; a third mounting hole arranged on the connecting part is fixed on a rack of the production equipment through a screw;

the material receiving plate is obliquely arranged, one end of the material receiving plate is in contact with the upper surface of a lower layer film which is pulled out from the third material roller and wound on the third guide roller, the hopper is positioned above the material receiving plate, and hydrogel is loaded in the hopper;

the forming device is located on the left side of the first guide roller, the longitudinal cutter device is located on the left side of the forming device, and the transverse cutter device is located on the left side of the longitudinal cutter device.

3. A production plant according to claim 2, characterized in that: the forming device comprises a forming roller, a forming supporting roller and a forming roller driving device;

the forming roller driving device is positioned above the forming roller;

the number of the forming roller driving devices is two, and the two forming roller driving devices are respectively connected to two ends of the forming roller;

the forming support roller is positioned right below the forming roller.

4. A production plant according to claim 2, characterized in that: the longitudinal cutter device comprises a plurality of cutters arranged side by side and a longitudinal cutter supporting roller, and the longitudinal cutter supporting roller is positioned below the plurality of cutters.

5. A production plant according to claim 4, characterized in that: the device also comprises a first reversing roller and a second reversing roller;

the first reversing roller is positioned on the left side of the longitudinal cutter supporting roller, and the second reversing roller is positioned on the left lower side of the first reversing roller.

6. A production plant according to claim 5, characterized in that: the transverse cutter device comprises a transverse cutter which is close to the second reversing roller.

7. A production plant according to claim 2, characterized in that: the discharging conveyer belt is positioned below the transverse cutter device.

8. A production plant according to claim 2, characterized in that: the material feeding device is characterized by further comprising a fourth guide roller, wherein the fourth guide roller is located on the left side of the third material roller and is also located below the third guide roller.

9. A production plant according to claim 2, characterized in that: the upper layer film is a transparent plastic film, and the lower layer film is a transparent plastic film.

10. A production plant according to claim 9, characterized in that: the upper surface and the lower surface of the upper layer film are both embossed, and the upper surface and the lower surface of the lower layer film are both embossed.

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