CN117585506A - Reflecting layer and reflecting layer bottom die composite device and application method thereof - Google Patents

Abstract

The invention discloses a reflecting layer and reflecting layer bottom die compounding device and a using method thereof, belonging to the reflecting layer compounding field. According to the reflecting layer and reflecting layer bottom die compounding device and the using method thereof, the width of the compound pressing plate is larger than the widths of the reflecting layer and the reflecting layer bottom die through the compound members, so that the reflecting layer and the reflecting layer bottom die are covered in a whole surface mode and are attached to the reflecting layer and the reflecting layer bottom die, the first driving motor is started, the output end of the first driving motor is enabled to output, and the ball base is driven to slide along the left-right direction, so that the reflecting layer and the reflecting layer bottom die are compounded; the finished products of the reflecting layer and the bottom die of the reflecting layer after being compounded are subjected to secondary discharging lamination through the distributed discharging lamination components, so that the degree of automation is high, and the labor intensity of workers is reduced.

Description

Reflecting layer and reflecting layer bottom die composite device and application method thereof

Technical Field

The invention belongs to the field of reflecting layer compounding, and particularly relates to a reflecting layer and reflecting layer bottom die compounding device and a using method thereof.

Background

During the production process of the heat-insulating pipe, the submodule core pipe in the produced heat-insulating pipe is sleeved on the working pipe, and the reflecting layer is sleeved on the produced core pipe so as to finish the production of heat-insulating pipes of different types;

in the prior art, in the process of compounding the reflecting layer and the reflecting layer bottom die, a worker often sleeves a roll of coiled tape of the reflecting layer on one group of guide shafts, sleeves a roll of coiled tape of the other group of guide shafts, and pulls the reflecting layer and the reflecting layer bottom die to be attached to each other, and the reflecting layer bottom die are compounded by using an electric pressurizing tool in a pressurizing manner, and then the reflecting layer and the reflecting layer bottom die compounded by being pressurized by using an electric traction tool in a rolling manner;

but in the process that the worker carries out compound pressurization reflection stratum and reflection stratum die block, inefficiency can't lead to the tight in-process that carries out the ejection of compact to reflection stratum and reflection stratum die block, be difficult to rectify the reflection stratum and prevent the skew in the in-process of compounding, there is compound dead angle between compound in-process reflection stratum and reflection stratum die block, can't carry out the direction pressfitting of secondary to reflection stratum and reflection stratum die block that the compounding was accomplished before rolling traction after the compounding is accomplished simultaneously, need to improve this.

The present invention seeks to mitigate or at least alleviate such problems or disadvantages by providing a new or otherwise improved reflective layer composition.

Disclosure of Invention

Aiming at one or more of the defects or improvement demands in the prior art, the invention provides a reflecting layer and reflecting layer bottom die compounding device and a using method thereof, which have the advantages that the compounding efficiency is improved, the reflecting layer and the reflecting layer bottom die can be guided and tightened in the discharging process, the reflecting layer can be rectified and prevented from being offset in the compounding process, the frequency of compounding dead angles between the reflecting layer and the reflecting layer bottom die is reduced in the compounding process, and the reflecting layer bottom die after compounding is completed and before rolling and traction can be guided and pressed for the second time.

In order to achieve the above-mentioned purpose, the present invention provides a composite device for a reflective layer and a bottom mold of the reflective layer, which comprises a machine, a composite board on the machine, wherein the composite board has a composite working surface, a plurality of groups of first guiding rotating shafts are rotatably arranged in the composite board, and each group of first guiding rotating shafts is provided with a first guiding roller for guiding the reflective layer, and a plurality of groups of first guiding rollers are arranged at a preset interval;

The first discharging component is detachably arranged on the machine table and is used for supporting and conveying the reflecting layers in the first discharging component, and the reflecting layers in the first discharging component sequentially pass through a plurality of groups of first guide rollers;

the deviation rectifying component is arranged on the machine table and positioned at one side of the first discharging component and is used for rectifying deviation of the reflecting layer passing through the deviation rectifying component;

the limiting anti-offset component is detachably arranged in the machine and is used for limiting and anti-offset the reflecting layer passing through the limiting anti-offset component;

the second discharging component is detachably arranged on the machine and is used for supporting and conveying the reflective layer bottom die in the machine, and the reflective layer bottom die in the machine is positioned above the reflective layer;

the composite member is detachably arranged on the machine table, is positioned above the reflecting layer, the reflecting layer bottom die and the composite working surface and is used for compositing the reflecting layer and the reflecting layer bottom die which pass through the composite member;

the discharging pressing component is detachably arranged on the machine and is used for performing discharging pressing and guiding on the reflecting layer and the bottom die of the reflecting layer which are compounded; and

the material receiving component is detachably arranged on the machine and positioned at one end of the material discharging pressing component and is used for rolling the reflecting layer and the reflecting layer bottom die which are compounded;

The reflecting layer bottom die in the second discharging member sequentially passes through the composite member and the discharging pressing member; when the reflecting layer and the bottom die of the reflecting layer pass through the composite working surface, the reflecting layer and the bottom die of the reflecting layer are composited by the composite member.

As a further development of the invention, the first tapping member comprises

The first connecting base is detachably arranged on the machine;

the first discharging rotating shaft is rotatably arranged in the first connecting base, and a first discharging roller for winding the reflecting layer is integrally formed on the first discharging rotating shaft;

the guide rod is detachably arranged on the first connecting base, and forms a preset included angle with the first connecting base;

two groups of second guide rotating shafts are rotatably arranged on the guide rod, and one group of second guide rotating shafts is positioned above the other group of second guide rotating shafts; and

the two groups of second guide rollers are respectively and correspondingly arranged on the two groups of second guide rotating shafts;

the first discharging roller is positioned below the second guiding rollers, and the reflecting layer on the first discharging roller sequentially passes through the two groups of second guiding rollers.

As a further improvement of the invention, the deviation rectifying component comprises

The guide rod is detachably arranged on the machine and is positioned at one side of the first discharging component;

the first sliding rod is detachably arranged on the guide rod, and a connecting rod is removably arranged in the first sliding rod;

the deviation correcting plate is detachably arranged on the connecting rod; and

two groups of deviation rectifying clamping jaws are uniformly and integrally arranged on the deviation rectifying plate, and a limiting gap for the reflecting layer to pass through is formed between the two groups of deviation rectifying clamping jaws;

the reflecting layer is contacted with the two groups of limiting gaps, and the two groups of limiting gaps are used for correcting the deviation of the reflecting layer passing through the reflecting layer.

As a further improvement of the present invention, the limit deviation preventing member comprises

The anti-offset base is detachably arranged on the machine;

the third guide rotating shaft is rotatably arranged in the anti-deflection base, and a third guide roller is integrally formed on the third guide rotating shaft;

the connecting substrate is detachably arranged on the machine, a first electric cylinder is detachably arranged on the connecting substrate, and the output end of the first electric cylinder passes through the connecting substrate;

the anti-deviation sliding block is slidably arranged in the machine table, a locking base is arranged on the anti-deviation sliding block, and the locking base is detachably connected with the output end of the first electric cylinder; and

The fourth guide rotating shaft is rotatably arranged in the anti-deviation sliding block, and a fourth guide roller is integrally formed on the fourth guide rotating shaft;

the fourth guide roller and the third guide roller are positioned on the same vertical surface, a gap through which the reflecting layer can pass is formed between the fourth guide roller and the third guide roller, and the gap is used for limiting and preventing the reflecting layer passing through the gap;

when the output end of the first electric cylinder outputs, the anti-deviation sliding block is driven to ascend or descend along the longitudinal direction so as to change the gap between the fourth guide roller and the third guide roller.

As a further improvement of the invention, the second discharging member comprises

The second connecting base is detachably arranged on the machine;

the second discharging rotating shaft is rotatably arranged on the second connecting base; and

the second discharging roller is integrally formed and is arranged on the second discharging rotating shaft and used for supporting and conveying the reflective layer bottom die in the second discharging roller, and the reflective layer bottom die in the second discharging roller is positioned above the reflective layer.

As a further improvement of the present invention, the composite member includes

The vertical plate is detachably arranged on the machine table and is positioned above the reflecting layer, the reflecting layer bottom die and the composite working surface;

The second slide bar is integrally formed and is arranged on the vertical plate;

the sliding baffle is slidably arranged in the second sliding rod, and a clamping block is detachably arranged on the sliding baffle;

the composite connecting plate is detachably arranged on the clamping block;

the support frame is detachably arranged on the composite connecting plate, a cavity is formed in the support frame, a second electric cylinder is detachably arranged on the support frame, the output end of the second electric cylinder extends into the cavity, and a first coupler is detachably arranged on the output end of the second electric cylinder;

the composite pressing plate is arranged below the composite connecting plate, a top shaft is detachably arranged on the composite pressing plate, the top shaft penetrates through the composite connecting plate, and the top shaft is detachably connected with the first coupling; and

the reciprocating driving component is detachably arranged on the machine table and is detachably connected with the sliding baffle;

the width of the composite pressing plate is larger than that of the reflecting layer and the reflecting layer bottom die so as to fully cover the reflecting layer and the reflecting layer bottom die, when the output end of the second electric cylinder moves, the composite pressing plate is driven to move towards the reflecting layer and the reflecting layer bottom die so as to be attached to the reflecting layer and the reflecting layer bottom die, and when the output end of the reciprocating driving member outputs, the composite pressing plate is driven to slide along the left and right directions so as to compound the reflecting layer and the reflecting layer bottom die.

As a further improvement of the present invention, the reciprocating driving member includes

The chassis is detachably arranged on the machine table;

the machine frame is integrally formed and arranged on the chassis and is communicated with the chassis;

the screw rod is rotatably arranged in the chassis and penetrates into the frame;

the first driving motor is detachably arranged on the machine frame, the output end of the first driving motor penetrates into the machine frame, a second coupler is detachably arranged on the output end of the first driving motor, and the second coupler is detachably connected with the screw rod;

the ball base is slidably arranged in the chassis and is penetrated by the screw rod;

the buffer rod is detachably arranged in the chassis and penetrates through the screw rod; and

the connecting strip is detachably arranged on the ball base and is detachably connected with the sliding baffle;

when the output end of the first driving motor outputs, the ball base is used for driving the ball base to slide along the left-right direction so as to drive the composite pressing plate to slide along the left-right direction.

As a further improvement of the invention, the discharging pressing component comprises

The discharging pressing base is detachably arranged on the machine, an ear plate is detachably arranged on the discharging pressing base, and a threaded hole is arranged in the ear plate;

The moving block is slidably arranged in the discharging pressing base;

the limiting screw rod is detachably penetrated into the threaded hole and penetrates into the moving block;

the pressing roller is rotatably arranged in the moving block and is used for pressing the reflecting layer and the bottom die of the reflecting layer which are compounded; and

the pressing plate is integrally formed and arranged on the discharging pressing base, and a pressing notch for guiding the reflecting layer and the bottom die of the reflecting layer which are compounded is formed at the bottom of the pressing plate;

when the limit screw is rotated, the limit screw is used for driving the moving block to ascend or descend along the longitudinal direction so as to change the distance from the pressing roller to the reflecting layer and the bottom die of the reflecting layer which are compounded.

As a further improvement of the invention, the material receiving member comprises

The receiving connecting base is detachably arranged on the machine and is positioned at one end of the discharging pressing component;

the material receiving connecting vertical plate is integrally formed and is arranged on the material receiving connecting base;

the material receiving guide shaft is rotatably arranged on the material receiving connecting vertical plate;

the material receiving guide roller is integrally formed and is arranged on the material receiving guide shaft; and

the second driving motor is detachably arranged on the receiving connecting vertical plate, and the output end of the second driving motor is detachably connected with one end of the receiving guide shaft;

When the output end of the second driving motor outputs, the second driving motor is used for driving the material receiving guide shaft to rotate so as to roll the reflecting layer and the reflecting layer bottom die which are compounded.

Another technical problem to be solved by the invention is a method for using the reflecting layer and reflecting layer bottom die composite device,

s1, inserting and placing the reflecting layer: the reflection layer on the first discharging roller is pulled to pass through one group of second guide rollers, then pass through the other group of second guide rollers and then pass through the plurality of groups of first guide rollers so as to enable the reflection layer to be in a tightening state, then pass through the limit notch and contact with the limit notch to conduct primary deviation correcting guide on the reflection layer, then pass through gaps of the fourth guide roller and the third guide roller so as to enable the reflection layer to contact with the fourth guide roller and the third guide roller, then pass through the reflection layer from the composite pressing plate and then pass through the reflection layer from the composite working face;

s2, inserting and placing the bottom die of the reflecting layer: pulling the bottom die of the reflecting layer to pass through the composite working surface, and enabling the bottom die of the reflecting layer to be positioned above the reflecting layer so as to enable the edge of the bottom die of the reflecting layer to be attached to the edge of the reflecting layer relatively to the edge of the reflecting layer;

S3, limiting and anti-offset of the reflecting layer: in the process of passing the reflecting layer through gaps of the fourth guide roller and the third guide roller, limiting and anti-shifting the reflecting layer, starting the first electric cylinder to enable the output end of the first electric cylinder to be output, and driving the anti-shifting sliding block to ascend or descend along the longitudinal direction so as to change the size of the gap between the fourth guide roller and the third guide roller, so that limiting and anti-shifting of the reflecting layer with different thickness can be controlled;

s4, attaching the reflecting layer and the bottom die of the reflecting layer: placing the reflecting layer and the reflecting layer bottom die on the composite working surface, and enabling the width of the composite pressing plate to be larger than the width of the reflecting layer and the reflecting layer bottom die so as to fully cover the reflecting layer and the reflecting layer bottom die, and starting the second electric cylinder so that when the output end of the second electric cylinder moves, the second electric cylinder is used for driving the composite pressing plate to move towards the reflecting layer and the reflecting layer bottom die so as to be attached to the reflecting layer and the reflecting layer bottom die;

s5, compounding the reflecting layer and the bottom die of the reflecting layer: starting a first driving motor to enable an output end of the first driving motor to output, and driving the ball base to slide along a left-right direction so as to drive the composite pressing plate to slide along the left-right direction, so that the reflecting layer and the bottom die of the reflecting layer are composited;

S6, discharging and pressing after the reflection layer and the bottom die of the reflection layer are compounded: when the finished product compounded by a section of reflecting layer and the reflecting layer bottom die on the compound working surface passes through the bottom of the laminating roller and the laminating gap, laminating before rolling and discharging is carried out, and rotating a limit screw rod for driving a moving block to ascend or descend along the longitudinal direction so as to change the distance from the laminating roller to the reflecting layer and the reflecting layer bottom die which are compounded, so that the use of the reflecting layer and the reflecting layer bottom die with different thicknesses after compounding is adapted;

s7, winding after the compounding of the reflecting layer and the bottom die of the reflecting layer is completed: installing a finished product compounded by a section of reflecting layer and a reflecting layer bottom die on a compound working surface on a material receiving guide roller, starting a second driving motor to enable the second driving motor to drive a material receiving guide shaft to rotate so as to wind the finished product compounded by the reflecting layer and the reflecting layer bottom die on the material receiving guide roller;

s8, continuously and intermittently compounding the reflecting layer and the bottom die of the reflecting layer: after the second driving motor is started to roll the finished product compounded by the reflecting layer and the reflecting layer bottom die at one end arranged on the compound working surface, the second driving motor is stopped to work, and meanwhile, the reflecting layer and the reflecting layer bottom die which are not compounded are pulled out to move to the compound working surface, and the steps S5, S6 and S7 are repeated again, and the like.

In general, the above technical solutions conceived by the present invention have the beneficial effects compared with the prior art including:

the invention relates to a reflecting layer and reflecting layer bottom die compound device and a using method thereof, wherein a reflecting layer on a first discharging roller is pulled through a machine table, a first discharging member and a deviation rectifying member which are arranged, so that the reflecting layer sequentially passes through a second guiding roller and then passes through a plurality of groups of first guiding rollers, so that the reflecting layer is in a tightening state, passes through a limit notch and contacts with the limit notch to conduct primary deviation rectifying and guiding on the reflecting layer, the reflecting layer passes through gaps of a fourth guiding roller and a third guiding roller through a limit deviation preventing member which is arranged, so as to conduct limit deviation preventing on the reflecting layer, a first electric cylinder is started, and the output end of the first electric cylinder is output, the method comprises the steps of driving an anti-offset sliding block to ascend or descend along a longitudinal direction so as to change the size of a gap between a fourth guide roller and a third guide roller, controlling the limiting anti-offset of reflecting layers with different thicknesses, enabling the width of a composite pressing plate to be larger than the width of a reflecting layer and a reflecting layer bottom die through a distributed composite member, enabling the reflecting layer and the reflecting layer bottom die to be covered on the whole surface, starting a second electric cylinder so that when the output end of the second electric cylinder moves, driving the composite pressing plate to move towards the reflecting layer and the reflecting layer bottom die so as to be attached to the reflecting layer and the reflecting layer bottom die, starting a first driving motor so that the output end of the first driving motor slides along the left-right direction, and driving the composite pressing plate to slide along the left-right direction so as to compound the reflecting layer and the reflecting layer bottom die; the finished products of the reflecting layer and the bottom die of the reflecting layer after being compounded are subjected to secondary discharging lamination through the distributed discharging lamination components, so that the degree of automation is high, and the labor intensity of workers is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a reflective layer and reflective layer bottom mold composite device of the present invention;

FIG. 2 is a schematic view of a device for combining a reflective layer and a bottom mold of a reflective layer according to another aspect of the present invention;

FIG. 3 is a schematic view of the whole structure of the machine of the present invention;

FIG. 4 is a schematic view of the overall structure of the first discharging member of the present invention;

FIG. 5 is a schematic view of the entire structure of the discharging member from another angle;

FIG. 6 is a schematic view of the overall structure of the rectification member of the present invention;

FIG. 7 is a schematic view of the overall structure of the spacing anti-migration element of the present invention;

FIG. 8 is a schematic view of the overall structure of the first discharging member of the present invention;

FIG. 9 is a schematic view of the overall structure of the composite member of the present invention;

FIG. 10 is a schematic view of the composite member as a whole from another perspective in accordance with the present invention;

FIG. 11 is a schematic view of the overall structure of the reciprocating drive member of the present invention;

FIG. 12 is a schematic view of the whole structure of the discharge pressing member of the present invention;

fig. 13 is a schematic structural view of the whole material receiving member of the present invention.

Like reference numerals denote like technical features throughout the drawings, in particular: 1. a machine table; 11. a composite board; 12. a first guide rotating shaft; 13. a first guide roller; 2. a first discharge member; 21. a first connection base; 22. a first discharging rotating shaft; 23. a first discharge roller; 24. a guide rod; 25. a second guide rotating shaft; 26. a second guide roller; 3. a deviation rectifying component; 31. a guide rod; 32. a first slide bar; 33. a connecting rod; 34. a deviation correcting plate; 35. deviation rectifying clamping jaws; 36. limiting notch; 4. a limit anti-shift member; 41. an anti-offset base; 42. a third guide rotating shaft; 43. a third guide roller; 44. a connection substrate; 45. a first electric cylinder; 46. an anti-offset slider; 47. locking the base; 48. a fourth guide rotating shaft; 49. a fourth guide roller; 5. a second discharge member; 51. a second connection base; 52. a second discharging rotating shaft; 53. a second discharge roller; 6. a composite member; 61. a vertical plate; 62. a second slide bar; 63. a sliding baffle; 64. a clamping block; 65. a composite connecting plate; 66. a support frame; 67. a second electric cylinder; 671. a first coupling; 68. a composite pressing plate; 681. a top shaft; 69. a reciprocating driving member; 691. a chassis; 692. a frame; 693. a screw rod; 694. a first driving motor; 695. a second coupling; 696. a ball base; 697. a buffer rod; 698. a connecting strip; 7. a discharging pressing component; 71. discharging pressing base; 72. ear plates; 73. a moving block; 74. a limit screw; 75. a pressing roller; 76. pressing the plate; 77. pressing the notch; 8. a receiving member; 81. receiving a material connecting base; 82. receiving a material and connecting with a vertical plate; 83. a material receiving guide shaft; 84. a material receiving guide roller; 85. and a second driving motor.

Detailed Description

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

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The terms "comprises," "comprising," and/or the like, as used herein, specify the presence of stated features, steps, operations, and/or components, but do not preclude the presence or addition of one or more other features, steps, operations, or components.

All terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. It should be noted that the terms used herein should be construed to have meanings consistent with the context of the present specification and should not be construed in an idealized or overly formal manner.

In the embodiment, fig. 1-13 show a reflecting layer and reflecting layer bottom die composite device, wherein fig. 1 is a schematic structural diagram of the whole reflecting layer and reflecting layer bottom die composite device according to the present invention; FIG. 2 is a schematic view of a device for combining a reflective layer and a bottom mold of a reflective layer according to another aspect of the present invention; FIG. 3 is a schematic view of the whole structure of the machine of the present invention; FIG. 4 is a schematic view of the overall structure of the first discharging member of the present invention; FIG. 5 is a schematic view of the entire structure of the discharging member from another angle; FIG. 6 is a schematic view of the overall structure of the rectification member of the present invention; FIG. 7 is a schematic view of the overall structure of the spacing anti-migration element of the present invention; FIG. 8 is a schematic view of the overall structure of the first discharging member of the present invention; FIG. 9 is a schematic view of the overall structure of the composite member of the present invention; FIG. 10 is a schematic view of the composite member as a whole from another perspective in accordance with the present invention; FIG. 11 is a schematic view of the overall structure of the reciprocating drive member of the present invention; FIG. 12 is a schematic view of the whole structure of the discharge pressing member of the present invention; fig. 13 is a schematic structural view of the whole material receiving member of the present invention, which includes a machine 1 having a composite board 11 thereon, wherein the composite board 11 has a composite working surface, a plurality of sets of first guiding shafts 12 are rotatably disposed therein, and each set of first guiding shafts 12 has a first guiding roller 13 for guiding a reflective layer thereon, and the plurality of sets of first guiding rollers 13 are disposed at predetermined intervals; the first discharging component 2 is detachably arranged on the machine table 1 and is used for supporting and conveying the reflecting layers in the first discharging component, and the reflecting layers in the first discharging component sequentially pass through a plurality of groups of first guide rollers 13; the deviation rectifying component 3 is arranged on the machine table 1 and positioned at one side of the first discharging component 2 and is used for rectifying deviation of the reflecting layer passing through the deviation rectifying component; the limiting anti-offset component 4 is detachably arranged in the machine table 1 and is used for limiting and anti-offset the reflecting layer passing through the limiting anti-offset component; the second discharging component 5 is detachably arranged on the machine table 1 and is used for supporting and conveying the reflective layer bottom die in the second discharging component, and the reflective layer bottom die in the second discharging component is positioned above the reflective layer; the composite member 6 is detachably arranged on the machine table 1 and is positioned above the reflecting layer, the reflecting layer bottom die and the composite working surface and used for compositing the reflecting layer and the reflecting layer bottom die which pass through the composite member; the discharging pressing component 7 is detachably arranged on the machine table 1 and is used for performing discharging pressing and guiding on the reflecting layer and the bottom die of the reflecting layer which are compounded; the material receiving component 8 is detachably arranged on the machine table 1 and is positioned at one end of the material discharging pressing component 7 and is used for rolling the reflecting layer and the reflecting layer bottom die which are compounded; the reflecting layer in the first discharging component 2 sequentially passes through the deviation rectifying component 3, the limiting anti-deviation component 4, the second discharging component 5, the composite component 6 and the discharging pressing component 7, and the reflecting layer bottom die in the second discharging component 5 sequentially passes through the composite component 6 and the discharging pressing component 7; when the reflective layer and the reflective layer bottom die pass through the composite working surface, the reflective layer and the reflective layer bottom die are composited by the composite member 6.

The invention is based on an integral thought that, through a process of arranging a machine table 1, a first discharging member 2 and a deviation rectifying member 3, a reflecting layer on a first discharging roller 23 is pulled, so that the reflecting layer sequentially passes through a second guiding roller 26 and then penetrates into a plurality of groups of first guiding rollers 13, so that the reflecting layer is in a tight state, then passes through a limit notch 36 and contacts with the limit notch 36 to carry out primary deviation rectifying and guiding on the reflecting layer, through a process of arranging a limit deviation preventing member 4, the reflecting layer passes through gaps between a fourth guiding roller 49 and a third guiding roller 43, so that the reflecting layer is limited and prevented from deviating, a first electric cylinder 45 is started, so that the output end of the first electric cylinder 45 is output, so that the size of a gap between the fourth guiding roller 49 and the third guiding roller 43 is changed, the limiting deviation preventing layer is controlled, through a compound member 6 arranged, so that the width of a compound pressing plate 68 is larger than the width of the reflecting layer 697 is larger than that the bottom die 68 is driven by a compound pressing plate, and the bottom die 68 is driven by a motor, so that the bottom die 68 is driven by the bottom die 68 and the bottom die is driven to move along the direction, and the bottom die 68 is driven by the bottom die 68 and the direction is driven to move along the direction, and the bottom die 68 is driven to move along the direction, and the bottom die is driven by the bottom die 68 and the bottom die is driven to move along the direction; and the finished products of the reflecting layer and the bottom die of the reflecting layer after being compounded are subjected to secondary discharging lamination through the distributed discharging lamination components 7, so that the degree of automation is high, and the labor intensity of workers is reduced.

In some embodiments, the number of the first guiding shafts 12 may be arranged according to actual use requirements, so that the number of the first guiding rollers 13 is adapted to the number of the first guiding shafts 12, and the intervals between the plurality of groups of the first guiding rollers 13 may be arranged according to actual use requirements, so as to adapt to the composite production of the reflective layers with different thickness types.

Next, a more specific structure and construction will be further explained for the whole of the first discharging member 2, wherein the first discharging member 2 includes a first connection base 21 detachably mounted on the machine 1; a first discharging shaft 22 rotatably disposed in the first connection base 21, and having a first discharging roller 23 integrally formed thereon for winding the reflective layer; the guide rod 24 is detachably arranged on the first connection base 21, and is arranged at a preset included angle with the first connection base 21; two groups of second guide rotating shafts 25 are rotatably arranged on the guide rod 24, and one group of second guide rotating shafts 25 is positioned above the other group of second guide rotating shafts 25; and two sets of second guide rollers 26 respectively and correspondingly arranged on the two sets of second guide rotating shafts 25;

It should be further noted that, the first discharging roller 23 is located below the second guiding rollers 26, and the reflective layer on the first discharging roller 23 sequentially passes through the two sets of second guiding rollers 26, which has the advantages that the reflective layer on the second guiding rollers 26 can be stretched tightly to prevent the reflective layer from wrinkling, thereby affecting the compounding effect;

of course, the predetermined angle formed between the guide rod 24 and the first connection base 21 may be arranged according to practical use requirements, and may be between thirty degrees and sixty degrees, or may be other acute angles, without specific limitation.

Next, giving a more specific structure and construction to the whole deviation rectifying component 3, the deviation rectifying component 3 comprises a guide rod 31 which is detachably arranged on the machine table 1 and is positioned at one side of the first discharging component 2; a first slide bar 32 detachably arranged on the guide bar 31, and a connecting rod 33 is removably arranged in the first slide bar; the deviation correcting plate 34 is detachably arranged on the connecting rod 33; the two groups of deviation rectifying clamping jaws 35 are uniformly and integrally arranged on the deviation rectifying plate 34, and a limiting gap 36 for the reflecting layer to pass through is formed between the two groups of deviation rectifying clamping jaws 35;

Then, the whole deviation rectifying component 3 is described, the reflecting layer is contacted with two groups of limiting notches 36, the two groups of limiting notches 36 are used for rectifying deviation of the reflecting layer passing through the reflecting layer, the caliber of the limiting notch 36 can be distributed according to actual use requirements, the distance between the two groups of limiting notches 36 can be adjusted and distributed through the distance between the two groups of first sliding rods 32, and only the first sliding rods 32 need to be stirred.

Next, a more specific structure and construction are given to the whole of the limiting anti-shifting member 4 for further explanation, and the limiting anti-shifting member 4 includes an anti-shifting base 41 detachably arranged on the machine 1; a third guiding shaft 42 rotatably disposed in the anti-deviation base 41, on which a third guiding roller 43 is integrally disposed; the connection base plate 44 is detachably arranged on the machine 1, a first electric cylinder 45 is detachably arranged on the connection base plate, and the output end of the first electric cylinder 45 passes through the connection base plate 44; the anti-deviation sliding block 46 is slidably arranged in the machine table 1, a locking base 47 is arranged on the anti-deviation sliding block, and the locking base 47 is detachably connected with the output end of the first electric cylinder 45; and a fourth guide shaft 48 rotatably disposed in the anti-deviation slider 46, on which a fourth guide roller 49 is integrally formed;

Next, the use principle of the whole limiting anti-deflection component 4 is further explained, the fourth guide roller 49 and the third guide roller 43 are positioned on the same vertical surface, a gap for the reflective layer to pass through is formed between the fourth guide roller 49 and the third guide roller 43, and the gap is used for limiting and anti-deflection of the reflective layer passing through;

after the first electric cylinder 45 is opened by a worker, the output end of the first electric cylinder 45 is output to drive the anti-offset slider 46 to rise or fall along the longitudinal direction so as to change the gap between the fourth guide roller 49 and the third guide roller 43, so that the anti-offset device is suitable for the use of reflection layers with different thicknesses, is easy to adjust and use, and is easy to limit and prevent offset for different reflection layers.

Next, a more specific structure and construction will be further explained for the second discharging member 5 as a whole, and the second discharging member 5 includes a second connection base 51 detachably mounted on the machine 1; the second discharging rotating shaft 52 is rotatably arranged on the second connecting base 51; the second discharging roller 53 is integrally arranged on the second discharging rotating shaft 52 and is used for supporting and conveying the reflective layer bottom die in the second discharging roller, and the reflective layer bottom die in the second discharging roller is positioned above the reflective layer;

Secondly, the thickness and width of the second discharging roller 53 can be arranged according to practical use requirements.

Next, a more specific structure and construction will be further explained for the composite member 6 as a whole, wherein the composite member 6 includes a vertical plate 61 detachably arranged on the machine table 1 and located above the reflective layer, the bottom die of the reflective layer and the composite working surface; the second slide bar 62 is integrally formed and arranged on the vertical plate 61; a sliding baffle 63 slidably disposed in the second sliding rod 62, on which a clamping block 64 is detachably disposed; a composite connection plate 65 detachably mounted on the fixture block 64; the support frame 66 is detachably mounted on the composite connecting plate 65, a cavity is formed in the support frame, a second electric cylinder 67 is detachably arranged on the support frame, the output end of the second electric cylinder 67 extends into the cavity, and a first coupling 671 is detachably mounted on the output end of the second electric cylinder 67; a composite pressing plate 68 disposed below the composite connection plate 65, on which a top shaft 681 is detachably disposed, and the top shaft 681 is penetrated through the composite connection plate 65, and the top shaft 681 is detachably connected with the first coupling 671; and a reciprocating drive member 69 detachably mounted on the machine 1 and detachably connected to the slide shutter 63;

Next, the use principle of the whole composite member 6 is further explained, and the width of the composite pressing plate 68 is larger than the widths of the reflecting layer and the reflecting layer bottom die so as to cover the reflecting layer and the reflecting layer bottom die in a whole surface;

the worker turns on the switch of the second electric cylinder 67 to make the output end of the second electric cylinder 67 move to drive the composite pressing plate 68 to move towards the direction of the reflective layer and the reflective layer bottom die, to be attached to the reflective layer and the reflective layer bottom die, and starts the reciprocating driving member 69 to make the output end of the reciprocating driving member 69 output to drive the composite pressing plate 68 to slide along the left-right direction so as to composite the reflective layer and the reflective layer bottom die.

Next, a more specific structure and construction will be further explained for the entirety of the reciprocating drive member 69, the reciprocating drive member 69 including a chassis 691 detachably mounted to the machine 1; a frame 692 integrally formed with the chassis 691 and communicated with the chassis 691; a screw 693 rotatably disposed in the chassis 691 and penetrating into the frame 692; the first driving motor 694 is detachably mounted on the frame 692, the output end of the first driving motor 694 penetrates into the frame 692, the output end of the first driving motor 694 is detachably mounted with a second coupling 695, and the second coupling 695 is detachably connected with the screw rod 693; a ball base 696 slidably disposed in the chassis 691 and penetrated by the screw rod 693; a buffer rod 697 detachably installed in the chassis 691 and penetrating through the screw rod 693; and a connecting bar 698 detachably mounted on the ball base 696 and detachably connected with the sliding shutter 63;

Next, the overall principle of the reciprocating driving member 69 will be further explained, and the worker turns on the switch of the first driving motor 694, so that the output end of the first driving motor 694 outputs, so as to drive the ball base 696 to slide along the left-right direction, so as to drive the composite pressing plate 68 to slide along the left-right direction.

Next, a more specific structure and construction will be further explained for the whole of the discharge pressing member 7, wherein the discharge pressing member 7 includes a discharge pressing base 71 detachably arranged on the machine 1, on which an ear plate 72 is detachably mounted, and a threaded hole is arranged in the ear plate 72; a moving block 73 slidably disposed in the discharge pressing base 71; the limit screw 74 is detachably arranged in the threaded hole in a penetrating manner and penetrates into the moving block 73; a pressing roller 75 rotatably disposed in the moving block 73, for pressing the reflecting layer and the bottom mold of the reflecting layer after the compounding; the lamination plate 76 is integrally arranged on the discharging lamination base 71, and is provided with a lamination notch 77 at the bottom for guiding the composite reflecting layer and the bottom die of the reflecting layer;

The worker rotates the limit screw 74 to drive the moving block 73 to rise or fall along the longitudinal direction, so as to change the distance from the pressing roller 75 to the composite reflective layer and the reflective layer bottom die, so as to adapt to the use of the composite reflective layer and the reflective layer bottom die with different thicknesses.

Next, a more specific structure and construction will be further explained for the whole material receiving member 8, wherein the material receiving member 8 includes a material receiving connection base 81 detachably arranged on the machine 1 and located at one end of the material discharging pressing member 7; the material receiving connecting vertical plate 82 is integrally formed and is arranged on the material receiving connecting base 81; a receiving guide shaft 83 rotatably disposed on the receiving connecting vertical plate 82; a material receiving guide roller 84 integrally formed with the material receiving guide shaft 83; the second driving motor 85 is detachably mounted on the receiving connecting vertical plate 82, and the output end of the second driving motor is detachably connected with one end of the receiving guide shaft 83;

next, further explaining the overall use principle of the material receiving member 8, the worker turns on the switch of the second driving motor 85, so that the output end of the second driving motor 85 outputs, so as to drive the material receiving guide shaft 83 to rotate, and wind up the composite reflective layer and the reflective layer bottom die.

Another technical problem to be solved by the invention is a method for using the reflecting layer and reflecting layer bottom die composite device,

s1, inserting and placing the reflecting layer: the reflection layer on the first discharging roller 23 is pulled to pass through one group of second guide rollers 26, then pass through the other group of second guide rollers 26, then pass through the plurality of groups of first guide rollers 13 so as to enable the reflection layer to be in a tight state, then pass through the limit notch 36 and contact with the limit notch 36, so as to conduct primary deviation rectifying guide on the reflection layer, then pass through gaps of the fourth guide roller 49 and the third guide roller 43 so as to enable the reflection layer to contact with the fourth guide roller 49 and the third guide roller 43, then pass through the reflection layer from the composite pressing plate 68, and then pass through the reflection layer from the composite working surface;

s2, inserting and placing the bottom die of the reflecting layer: pulling the bottom die of the reflecting layer to pass through the composite working surface, and enabling the bottom die of the reflecting layer to be positioned above the reflecting layer so as to enable the edge of the bottom die of the reflecting layer to be attached to the edge of the reflecting layer relatively to the edge of the reflecting layer;

s3, limiting and anti-offset of the reflecting layer: in the process of passing the reflecting layer through the gaps of the fourth guide roller 49 and the third guide roller 43, limiting and anti-shifting the reflecting layer, starting the first electric cylinder 45 to enable the output end of the first electric cylinder 45 to output so as to drive the anti-shifting slider 46 to ascend or descend along the longitudinal direction to change the size of the gap between the fourth guide roller 49 and the third guide roller 43, so as to control limiting and anti-shifting of the reflecting layer with different thickness;

S4, attaching the reflecting layer and the bottom die of the reflecting layer: placing the reflecting layer and the reflecting layer bottom die on the composite working surface, and enabling the width of the composite pressing plate 68 to be larger than the width of the reflecting layer and the reflecting layer bottom die so as to fully cover the reflecting layer and the reflecting layer bottom die, and starting the second electric cylinder 67 so that when the output end of the second electric cylinder 67 moves, the composite pressing plate 68 is driven to move towards the reflecting layer and the reflecting layer bottom die so as to be attached to the reflecting layer and the reflecting layer bottom die;

s5, compounding the reflecting layer and the bottom die of the reflecting layer: starting the first driving motor 694 to enable the output end of the first driving motor 694 to output, so as to drive the ball base 696 to slide along the left-right direction, so as to drive the composite pressing plate 68 to slide along the left-right direction, and to composite the reflecting layer and the bottom die of the reflecting layer;

s6, discharging and pressing after the reflection layer and the bottom die of the reflection layer are compounded: when the finished product compounded by a section of reflecting layer and the reflecting layer bottom die on the compound working surface passes through the bottom of the laminating roller 75 and the laminating notch 77, laminating before rolling and discharging is performed, and rotating the limit screw 74 to drive the moving block 73 to ascend or descend along the longitudinal direction so as to change the distance from the laminating roller 75 to the finished reflecting layer and the reflecting layer bottom die, so that the use of the compounded reflecting layer and reflecting layer bottom die with different thicknesses is adapted;

S7, winding after the compounding of the reflecting layer and the bottom die of the reflecting layer is completed: mounting a finished product compounded by a section of reflecting layer and a reflecting layer bottom die on a compound working surface on a material receiving guide roller 84, starting a second driving motor 85 so that the second driving motor 85 drives a material receiving guide shaft 83 to rotate, and rolling the finished product compounded by the reflecting layer and the reflecting layer bottom die on the material receiving guide roller 84;

s8, continuously and intermittently compounding the reflecting layer and the bottom die of the reflecting layer: after the second driving motor 85 is started to roll the finished product compounded by the reflecting layer and the reflecting layer bottom die at one end arranged on the compound working surface, the second driving motor 85 is stopped to work, and at the same time, the reflecting layer and the reflecting layer bottom die which are not compounded are pulled out to move to the compound working surface, and the steps S5, S6 and S7 are repeated again, and the like.

In summary, through the arranged machine table 1, the first discharging member 2 and the deviation rectifying member 3, the reflecting layer on the first discharging roller 23 is pulled, so that the reflecting layer sequentially passes through the second guiding rollers 26 and then passes into the plurality of groups of first guiding rollers 13, so that the reflecting layer is in a tight state, then passes through the limit notch 36 and contacts with the limit notch 36, so as to conduct primary deviation rectifying guiding on the reflecting layer, through the arranged limit deviation preventing member 4, the reflecting layer passes through the gaps of the fourth guiding rollers 49 and the third guiding rollers 43, so as to conduct limit deviation preventing on the reflecting layer, the first electric cylinder 45 is started so that the output end of the first electric cylinder 45 is driven to be output, so that the deviation preventing sliding block 46 is driven to ascend or descend along the longitudinal direction, the gap between the fourth guiding rollers 49 and the third guiding rollers 43 is changed, the width of the composite pressing plate 68 is enabled to be larger than that of the reflecting layer and the reflecting layer is enabled to conduct primary deviation preventing on the basis of the contact with the limit notch 36, through the arranged limit deviation preventing member 4, the reflecting layer is driven to conduct total deviation preventing on the reflecting layer is driven by the electric motor 696, the bottom die 67 is driven to conduct total-motion on the reflecting layer and the reflecting layer to be driven to conduct total-motion along the left-side and right direction of the counter die 68, and the counter die 68 is driven by the counter die 68, and the counter die is driven to conduct total-die motion along the direction is driven by the direction to conduct counter die 67, so that the counter die is driven to conduct total-die motion along the direction and the direction is driven to conduct counter die motion to the counter die 68; and the finished products of the reflecting layer and the bottom die of the reflecting layer after being compounded are subjected to secondary discharging lamination through the distributed discharging lamination components 7, so that the degree of automation is high, and the labor intensity of workers is reduced.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A reflecting layer and reflecting layer bottom die compounding device is characterized by comprising

The machine table (1) is provided with a composite board (11), the composite board (11) is provided with a composite working surface, a plurality of groups of first guide rotating shafts (12) are rotatably arranged in the composite working surface, each group of first guide rotating shafts (12) is provided with a first guide roller (13) for guiding the reflecting layer, and a plurality of groups of first guide rollers (13) are arranged at preset intervals;

the first discharging component (2) is detachably arranged on the machine table (1) and is used for supporting and conveying the reflecting layers in the machine table, and the reflecting layers in the machine table sequentially pass through a plurality of groups of first guide rollers (13);

the deviation correcting component (3) is arranged on the machine table (1) and is positioned at one side of the first discharging component (2) and is used for correcting the deviation of the reflecting layer passing through the deviation correcting component;

The limiting anti-offset component (4) is detachably arranged in the machine table (1) and is used for limiting and anti-offset the reflecting layer passing through the limiting anti-offset component;

the second discharging component (5) is detachably arranged on the machine table (1) and is used for supporting and conveying the reflective layer bottom die in the machine table, and the reflective layer bottom die in the machine table is positioned above the reflective layer;

the composite member (6) is detachably arranged on the machine table (1) and is positioned above the reflecting layer, the reflecting layer bottom die and the composite working surface and used for compositing the reflecting layer and the reflecting layer bottom die which pass through the composite member;

the discharging pressing component (7) is detachably arranged on the machine table (1) and is used for performing discharging pressing and guiding on the reflecting layer and the bottom die of the reflecting layer which are compounded; and

the material receiving component (8) is detachably arranged on the machine table (1) and is positioned at one end of the material discharging pressing component (7) and is used for rolling the reflecting layer and the reflecting layer bottom die which are compounded;

the reflecting layer in the first discharging component (2) sequentially passes through the deviation rectifying component (3), the limiting anti-deviation component (4), the second discharging component (5), the composite component (6) and the discharging pressing component (7), and the reflecting layer bottom die in the second discharging component (5) sequentially passes through the composite component (6) and the discharging pressing component (7); when the reflecting layer and the bottom die of the reflecting layer pass through the composite working surface, the reflecting layer and the bottom die of the reflecting layer are composited by the composite member (6).

2. The device for combining a reflecting layer with a bottom die of a reflecting layer according to claim 1, characterized in that the first discharge member (2) comprises

A first connection base (21) detachably mounted on the machine (1);

the first discharging rotating shaft (22) is rotatably arranged in the first connecting base (21), and a first discharging roller (23) for winding the reflecting layer is integrally formed on the first discharging rotating shaft;

the guide rod (24) is detachably arranged on the first connecting base (21) and forms a preset included angle with the first connecting base (21);

two groups of second guide rotating shafts (25) are rotatably arranged on the guide rod (24), and one group of second guide rotating shafts (25) is positioned above the other group of second guide rotating shafts (25); and

two groups of second guide rollers (26) are respectively and correspondingly arranged on the two groups of second guide rotating shafts (25);

the first discharging roller (23) is positioned below the second guiding rollers (26), and the reflecting layer on the first discharging roller (23) sequentially passes through the two groups of the second guiding rollers (26).

3. The reflective layer and reflective layer counter mold composite device according to claim 2, characterized in that the deviation rectifying means (3) comprises

The guide rod (31) is detachably arranged on the machine table (1) and is positioned at one side of the first discharging component (2);

a first slide bar (32) detachably arranged on the guide bar (31), and a connecting bar (33) is removably arranged in the first slide bar;

the deviation correcting plate (34) is detachably arranged on the connecting rod (33); and

two groups of deviation rectifying clamping jaws (35) are uniformly and integrally arranged on the deviation rectifying plate (34), and a limiting gap (36) for a reflecting layer to pass through is formed between the two groups of deviation rectifying clamping jaws (35);

the reflecting layer is contacted with two groups of limiting gaps (36), and the two groups of limiting gaps (36) are used for correcting the deviation of the reflecting layer passing through the reflecting layer.

4. A reflective layer and reflective layer counter mold composite device according to claim 3, characterized in that the limit anti-deflection member (4) comprises

An anti-offset base (41) detachably arranged on the machine table (1);

a third guiding rotating shaft (42) rotatably arranged in the anti-deflection base (41), and a third guiding roller (43) integrally formed thereon;

a connection substrate (44) detachably arranged on the machine (1), on which a first electric cylinder (45) is detachably arranged, and the output end of the first electric cylinder (45) passes through the connection substrate (44);

The anti-offset sliding block (46) is slidably arranged in the machine table (1), a locking base (47) is arranged on the anti-offset sliding block, and the locking base (47) is detachably connected with the output end of the first electric cylinder (45); and

a fourth guiding rotating shaft (48) rotatably arranged in the anti-deviation sliding block (46), and a fourth guiding roller (49) integrally formed thereon;

the fourth guide roller (49) and the third guide roller (43) are positioned on the same vertical surface, a gap through which the reflecting layer can pass is formed between the fourth guide roller (49) and the third guide roller (43), and the gap is used for limiting and preventing the reflecting layer passing through the gap;

when the output end of the first electric cylinder (45) outputs, the anti-deviation sliding block (46) is driven to ascend or descend along the longitudinal direction so as to change the gap size between the fourth guide roller (49) and the third guide roller (43).

5. The device for combining a reflecting layer with a bottom die for a reflecting layer according to claim 4, wherein the second discharging member (5) comprises

A second connection base (51) detachably mounted on the machine (1);

The second discharging rotating shaft (52) is rotatably arranged on the second connecting base (51); and

and the second discharging roller (53) is integrally formed and arranged on the second discharging rotating shaft (52) and is used for supporting and conveying the reflective layer bottom die in the second discharging roller, and the reflective layer bottom die in the second discharging roller is positioned above the reflective layer.

6. The reflective layer and reflective layer counter mold composite device according to claim 5, characterized in that the composite member (6) comprises

The vertical plate (61) is detachably arranged on the machine table (1) and is positioned above the reflecting layer, the bottom die of the reflecting layer and the composite working surface;

the second sliding rod (62) is integrally formed and is arranged on the vertical plate (61);

a sliding baffle (63) which is slidably arranged in the second sliding rod (62) and is detachably provided with a clamping block (64);

a composite connection plate (65) detachably mounted on the clamping block (64);

the support frame (66) is detachably arranged on the composite connecting plate (65), a cavity is formed in the support frame, a second electric cylinder (67) is detachably arranged on the support frame, the output end of the second electric cylinder (67) extends into the cavity, and a first coupler (671) is detachably arranged on the output end of the second electric cylinder (67);

A composite pressing plate (68) which is arranged below the composite connecting plate (65), on which a top shaft (681) is detachably arranged, and the top shaft (681) passes through the composite connecting plate (65), and the top shaft (681) is detachably connected with the first coupling (671); and

a reciprocating drive member (69) detachably mounted on the machine (1) and detachably connected with the slide shutter (63);

the width of the composite pressing plate (68) is larger than that of the reflecting layer and the reflecting layer bottom die so as to fully cover the reflecting layer and the reflecting layer bottom die, when the output end of the second electric cylinder (67) moves, the composite pressing plate (68) is driven to move towards the reflecting layer and the reflecting layer bottom die so as to be attached to the reflecting layer and the reflecting layer bottom die, and when the output end of the reciprocating driving member (69) outputs, the composite pressing plate (68) is driven to slide along the left and right directions so as to compound the reflecting layer and the reflecting layer bottom die.

7. The reflective layer and reflective layer counter mold composite device according to claim 6, characterized in that the reciprocating drive member (69) comprises

The chassis (691) is detachably arranged on the machine table (1);

The machine frame (692) is integrally arranged on the chassis (691) and is communicated with the chassis (691);

the screw rod (693) is rotatably arranged in the chassis (691) and penetrates into the frame (692);

the first driving motor (694) is detachably arranged on the machine frame (692), the output end of the first driving motor penetrates into the machine frame (692), the output end of the first driving motor is detachably provided with a second coupling (695), and the second coupling (695) is detachably connected with the screw rod (693);

a ball base (696) slidably disposed in the chassis (691) and penetrated by the screw (693);

a buffer rod (697) detachably installed in the chassis (691) and penetrating through the screw rod (693); and

a connecting bar (698) detachably mounted on the ball base (696) and detachably connected with the sliding baffle (63);

when the output end of the first driving motor (694) outputs, the ball base (696) is driven to slide along the left-right direction, so as to drive the composite pressing plate (68) to slide along the left-right direction.

8. The device for combining a reflecting layer and a bottom die of a reflecting layer according to claim 7, wherein the discharging pressing member (7) comprises

The discharging pressing base (71) is detachably arranged on the machine table (1), an ear plate (72) is detachably arranged on the discharging pressing base, and a threaded hole is arranged in the ear plate (72);

a moving block (73) which is slidably arranged in the discharging pressing base (71);

the limit screw rod (74) is detachably penetrated into the threaded hole and penetrates into the moving block (73);

the pressing roller (75) is rotatably arranged in the moving block (73) and is used for pressing the reflecting layer and the bottom die of the reflecting layer which are compounded; and

the pressing plate (76) is integrally arranged on the discharging pressing base (71), and the bottom of the pressing plate is provided with a pressing notch (77) for guiding the reflecting layer and the bottom die of the reflecting layer which are compounded;

when the limit screw (74) is rotated, the limit screw is used for driving the moving block (73) to ascend or descend along the longitudinal direction so as to change the distance between the pressing roller (75) and the reflecting layer and the bottom die of the reflecting layer which are compounded.

9. The device for combining a reflecting layer and a bottom die of a reflecting layer according to claim 8, wherein the receiving member (8) comprises

The receiving connecting base (81) is detachably arranged on the machine table (1) and is positioned at one end of the discharging pressing component (7);

the material receiving connecting vertical plate (82) is integrally formed and is arranged on the material receiving connecting base (81);

a receiving guide shaft (83) which is rotatably arranged on the receiving connecting vertical plate (82);

a material receiving guide roller (84) which is integrally formed and is arranged on the material receiving guide shaft (83); and

the second driving motor (85) is detachably arranged on the receiving connecting vertical plate (82), and the output end of the second driving motor is detachably connected with one end of the receiving guide shaft (83);

when the output end of the second driving motor (85) outputs, the second driving motor is used for driving the material receiving guide shaft (83) to rotate so as to roll the reflecting layer and the reflecting layer bottom die which are compounded.

10. The method of claim 9, wherein the reflecting layer and bottom mold assembly is used,

s1, inserting and placing the reflecting layer: pulling the reflecting layer on the first discharging roller (23) to enable the reflecting layer to sequentially pass through one group of second guide rollers (26), pass through the other group of second guide rollers (26), pass through the plurality of groups of first guide rollers (13) to enable the reflecting layer to be in a tightening state, pass through the limit notch (36) and contact with the limit notch (36) so as to conduct primary deviation correcting guide on the reflecting layer, pass through gaps of the fourth guide roller (49) and the third guide roller (43) so as to enable the reflecting layer to contact with the fourth guide roller (49) and the third guide roller (43), pass through the composite pressing plate (68) and pass through the reflecting layer from the composite working face;

S2, inserting and placing the bottom die of the reflecting layer: pulling the bottom die of the reflecting layer to pass through the composite working surface, and enabling the bottom die of the reflecting layer to be positioned above the reflecting layer so as to enable the edge of the bottom die of the reflecting layer to be attached to the edge of the reflecting layer relatively to the edge of the reflecting layer;

s3, limiting and anti-offset of the reflecting layer: in the process of passing the reflecting layer through gaps of the fourth guide roller (49) and the third guide roller (43), limiting and anti-deflection are carried out on the reflecting layer, the first electric cylinder (45) is started to enable the output end of the first electric cylinder (45) to be output, and the first electric cylinder is used for driving the anti-deflection sliding block (46) to ascend or descend along the longitudinal direction so as to change the size of the gap between the fourth guide roller (49) and the third guide roller (43), so that limiting and anti-deflection are carried out on the reflecting layer with different thickness;

s4, attaching the reflecting layer and the bottom die of the reflecting layer: placing the reflecting layer and the reflecting layer bottom die on a composite working surface, and enabling the width of a composite pressing plate (68) to be larger than the width of the reflecting layer and the reflecting layer bottom die so as to fully cover the reflecting layer and the reflecting layer bottom die, and starting a second electric cylinder (67) so that when the output end of the second electric cylinder (67) moves, the composite pressing plate (68) is driven to move towards the reflecting layer and the reflecting layer bottom die so as to be attached to the reflecting layer and the reflecting layer bottom die;

S5, compounding the reflecting layer and the bottom die of the reflecting layer: starting the first driving motor (694) so that the output end of the first driving motor (694) outputs so as to drive the ball base (696) to slide along the left-right direction, and driving the composite pressing plate (68) to slide along the left-right direction so as to composite the reflecting layer and the bottom die of the reflecting layer;

s6, discharging and pressing after the reflection layer and the bottom die of the reflection layer are compounded: when a finished product compounded by a section of reflecting layer on the compound working surface and the reflecting layer bottom die passes through the bottom of the laminating roller (75) and the laminating notch (77), laminating before rolling and discharging is carried out, and rotating the limiting screw (74) to drive the moving block (73) to ascend or descend along the longitudinal direction so as to change the distance from the laminating roller (75) to the reflecting layer and the reflecting layer bottom die which are compounded, so that the use of the reflecting layer and the reflecting layer bottom die which are compounded with different thicknesses is adapted;

s7, winding after the compounding of the reflecting layer and the bottom die of the reflecting layer is completed: mounting a finished product compounded by a section of reflecting layer and a reflecting layer bottom die on a compound working surface on a receiving guide roller (84), starting a second driving motor (85) so that the second driving motor (85) drives a receiving guide shaft (83) to rotate, and winding the finished product compounded by the reflecting layer and the reflecting layer bottom die on the receiving guide roller (84);

S8, continuously and intermittently compounding the reflecting layer and the bottom die of the reflecting layer: after the second driving motor (85) is started to roll the finished product compounded by the reflecting layer at one end and the reflecting layer bottom die arranged on the compound working surface, the second driving motor (85) is stopped to work, and meanwhile, the reflecting layer and the reflecting layer bottom die which are not compounded are pulled out to move to the compound working surface, and S5, S6 and S7 are repeated again, and so on.