CN212910235U

CN212910235U - Full-automatic two-sided laminating equipment

Info

Publication number: CN212910235U
Application number: CN202021209956.XU
Authority: CN
Inventors: 刘云东
Original assignee: Zhuhai Qichuan Precision Equipment Co ltd
Current assignee: Zhuhai Qichuan Precision Equipment Co ltd
Priority date: 2020-03-16
Filing date: 2020-06-23
Publication date: 2021-04-06
Anticipated expiration: 2030-06-23
Also published as: CN111675009B; CN113056111A; CN111675009A; CN111683466A; CN111683465A

Abstract

The utility model relates to a full-automatic two-sided laminating equipment, including the frame and install the laminating piece supply piece on the frame, by laminating piece supply piece and laminating device, its characterized in that, laminating device is arranged along the both sides by laminating piece, and laminating piece supply piece is from the both sides by laminating piece respectively to the laminating device supply laminating piece that corresponds, compare in current laminating equipment, the utility model relates to a full-automatic two-sided laminating equipment shared area is littleer, and laminating efficiency is higher, and more difficult make the dust be infected with by laminating piece surface.

Description

Full-automatic two-sided laminating equipment

Technical Field

The utility model relates to a FPC board laminating field especially relates to a full-automatic two-sided laminating equipment.

Background

A Flexible Printed Circuit (FPC) has the characteristics of high wiring density, light weight, thin thickness, good flexibility and the like, and is widely used in electronic components.

The existing equipment for laminating the flexible circuit board is horizontally arranged, one surface of the flexible circuit board is firstly laminated, and then the other surface of the flexible circuit board is laminated, so that the laminating mode is low in efficiency and large in occupied area, and the surface of the flexible circuit board is very easy to be stained with dust.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high efficiency, area occupied are little, and the laminating machine that is difficult for being stained with the dust on the flexible circuit board surface.

The utility model provides a full-automatic two-sided laminating equipment, includes the frame and installs laminating piece supply member, by laminating piece supply member and laminating device on the frame, laminating device arranges along the both sides by laminating piece, and laminating piece supply member supplies laminating piece to the laminating device that corresponds respectively from the both sides by laminating piece.

The attaching device is vertically arranged in the up-down direction with respect to the attached member supply member, or the attaching device is horizontally arranged in the left-right direction with respect to the attached member supply member, or the attaching device is obliquely arranged with respect to both the up-down direction and the left-right direction.

The abutment member supply members are located on the left and right outer sides of the frame as viewed in a direction perpendicular to the left and right directions of the apparatus.

The equipment also comprises a pressing assembly, and after the attaching piece and the attached piece are attached, the pressing device further presses the attaching piece and the attached piece.

The pressfitting subassembly adopts the mode of a pair of heating impression roller to carry out the pressfitting to laminating piece and by laminating piece, also can adopt the mode of heating concora crush to carry out the pressfitting to laminating piece and by laminating piece.

When the laminating piece and the laminated piece are pressed in a heating and flat pressing mode, the equipment further comprises a rubberizing feeding mechanism for gluing the adhesive tapes on two side surfaces of the laminated piece.

Preferably, the equipment further comprises a cutting assembly for cutting the attaching member.

Compare in current laminating equipment, the utility model relates to a full-automatic two-sided laminating equipment shared area is littleer, and laminating efficiency is higher, and more difficult make the dust be infected with on by laminating surface.

Drawings

Fig. 1 is a perspective view of a laminating machine according to an embodiment of the present invention.

Fig. 2 is a side view of the laminating machine according to the first embodiment of the present invention, as viewed from the rear to the front.

Fig. 3A is a perspective view of a feeder stripper assembly in a laminating machine according to an embodiment of the present invention.

Fig. 3B is a side view of the stripping assembly of the laminating machine according to the first embodiment of the present invention, as viewed from the rear to the front.

Fig. 4 is a perspective view of a placement head assembly in a laminating machine according to an embodiment of the present invention.

Fig. 5 is a perspective view of a rolling assembly in a laminating machine according to an embodiment of the present invention.

Fig. 6A is a perspective view of a laminating machine according to a second embodiment of the present invention.

Fig. 6B is a side view of the laminating machine according to the second embodiment of the present invention, as viewed from the rear to the front.

Fig. 7 is a perspective view of a cutting and turning assembly according to a second embodiment of the present invention.

Fig. 8 is a perspective view of a mounted product feeding assembly according to the second embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example one

Fig. 1 is a perspective view of a laminating machine according to an embodiment of the present invention; fig. 2 is a side view of the laminating machine according to the first embodiment of the present invention, as viewed from the rear to the front.

As shown in the drawings, the laminator 10 includes a frame 1, and a feeding mechanism 2, a laminating mechanism 3, and a finished product recovering mechanism 4 installed in the frame 1, and for convenience of description, front, rear, left, right, upper, and lower directions shown in fig. 1 are defined with respect to a spatial orientation of an operator when operating the laminator 10; feeding mechanism 2 and laminating mechanism 3 are arranged along upper and lower direction, therefore, when laminating, FPC is vertical placing, and rigging machine 10 can realize the laminating to FPC in upper and lower direction (vertical direction), and is further, and rigging machine 10 can laminate FPC's two sides simultaneously, has not only improved laminating efficiency, still can effectively prevent that the FPC surface from being infected with the dust.

During operation, the feeding mechanism 2 supplies the inner copper and the covering films attached to the two side faces of the inner copper to the attaching mechanism 3, and the finished products are formed after the attaching mechanism 3 attaches the covering films and then are recovered by the finished product recovering mechanism 4. As described above, the cover film and the inner layer copper are vertically attached, and the attaching mechanism 3 can attach two sides of the inner layer copper to the cover film at the same time, specifically, the feeding mechanism 2 includes the first cover film feeding portion 2a and the second cover film feeding portion 2b which are oppositely arranged in the left-right direction, and the inner layer copper feeding portion 2c which is located between the first cover film feeding portion 2a and the second cover film feeding portion 2b in the left-right direction, and therefore, the cover film is more efficiently supplied, and simultaneously, the cover film is supplied in the left-right direction, which is also beneficial to the attaching mechanism 3 to attach both sides of the inner layer copper at the same time.

The first cover film supplying part 2a and the second cover film supplying part 2b have the same structure, and the first cover film supplying part 2a located on the left side is described as an example.

The first coverfilm supply section 2a includes a coverfilm supply member 21, a coverfilm waste recovery member 22, a coverfilm cleaning static electricity removing assembly 23, and a flight stripper assembly 24. When viewed in the up-down direction or the front-back direction, the mulch film supply 21 and the mulch film waste recovery 22 are located outside the frame 1 for easy changeover, and are arranged horizontally relative to each other; the cover film feeding member 21 and the cover film waste recycling member 22 are not disposed opposite to each other in the up-down direction and the left-right direction, or are disposed in a staggered manner, so that interference between the two members is reduced; further, along the left-right direction, the laminating mechanism 3 does not exceed the range of the feeding mechanism 2, and specifically, the laminating mechanism 3 is positioned between a first covering film feeding part 2a and a second covering film feeding part 2b which are arranged on the left side and the right side; further, the mulch film supply 21 is located outermost in the left-right direction, i.e., the mulch film supply 21 is farther from the frame 1 than the mulch film waste recovery member 22, or the mulch film waste recovery member 22 is located outermost, i.e., the mulch film waste recovery member 22 is farther from the frame 1 than the mulch film supply member 21, so that the dimension of the vertical roller press type double-sided laminating machine 10 in the left-right direction can be controlled.

The cover film supplied from the cover film supply member 21 is carried on the PET film, and the cover film is located above the PET film; the cover film static electricity removing assembly 23 comprises a pair of ion wind rods arranged above the cover film, an air exhausting piece arranged between the two ion wind rods, and the same ion wind rods and air exhausting piece arranged below the PET film, wherein the air exhausting piece is used for exhausting the ion wind blown out by the ion wind rods. The PET film bearing the cover film firstly passes through the cover film cleaning static removing assembly 23 to remove static on the surfaces of the cover film and the PET film, and then the PET film bearing the cover film enters the fly-to stripping assembly 24.

Fig. 3A is a perspective view of a feeder stripper assembly in the vertical rolling type double-sided laminating machine according to the present invention; fig. 3B is a side view of the stripping assembly of the vertical rolling type double-sided laminating machine according to the present invention, as viewed from the rear and the front.

As shown, the fedak stripper assembly 24 includes a first support 241 and a second support 242 connected to each other, an upper roll 243 and a lower roll 244 mounted on the first support 241, a clamping puller 245 mounted on the second support 242; the first and

second brackets

241 and 242 are arranged in an L-shape, and the upper and

lower rollers

243 and 244 are rotatably mounted on the first bracket 241 to be opposite and spaced apart in an up-down direction, so that the upper and

lower rollers

243 and 244 do not generate a frictional force therebetween when they operate. The clamping pulling member 245 is used for tensioning the PET film stripped from the cover film so that the PET film can be smoothly conveyed to the cover film waste recycling member 22, preferably, the feeder stripping assembly 24 further comprises a power transmission rod 246 mounted on the second bracket 242, the clamping pulling member 245 is driven by the power transmission rod 246 to move in the left-right direction, and more preferably, the power transmission rod 246 is a screw rod, so that the stroke of the PET film is accurately controlled.

The cover film flies to reach and peels off the material subassembly 24 and is carried to laminating mechanism 3 after peeling off from the PET membrane, as shown in fig. 2, laminating mechanism 3 includes first subassembly 31 of subsides and rolling press assembly 32, and the first subassembly 31 of subsides is whole can remove in left and right sides direction, and when the first subassembly 31 of subsides of the left and right sides moved in opposite directions, the cover film is laminated to the both sides of inlayer copper in advance, then the cover film after the laminating and inlayer copper are carried to rolling press assembly 32 for the cover film closely laminates with inlayer copper.

Fig. 4 is a perspective view of a mounting head assembly in a vertical rolling type double-sided laminating machine according to the present invention; fig. 5 is a perspective view of a roll press assembly in a vertical roll type double-sided laminating machine according to the present invention.

The mounting head assembly 31 comprises a main body 311, a slide rail 312 arranged along the main body 311 in the up-down direction, and a mounting head 313 and a visual positioning element 314 which can slide along the slide rail 312 in the up-down direction, preferably, the slide rail 312 is a high-precision heavy-duty linear slide rail, so as to improve the structural strength and the fitting precision of the mounting assembly 31; the visual positioning member 314 and the mounting head 313 are relatively stationary, and thus, the mounting head 313 and the cover film can be precisely positioned by the visual positioning member 314.

In operation, the mounting head 313 moves down along the slide rail 312 to the fly stripping assembly 24, after the mounting head 313 and the cover film are positioned, the cover film is adsorbed to the mounting head 313 by forming a vacuum on the opposite side of the mounting head 313 from the side opposite to the cover film, and then the mounting head 313 moves up along the slide rail 312 to the position opposite to the inner copper, and the mounting head 313 attaches the cover film to the surface of the inner copper along with the movement of the mounting head assembly 31 to the left or the right.

The rolling assembly 32 includes a mounting frame 321, and a pair of heating and pressing rollers 322 rotatably disposed in a left-right direction, and before the inner copper with the coating film attached thereto reaches the rolling assembly 32, the heating and pressing rollers 322 are preheated to achieve close contact between the coating film and the side of the inner copper. As shown in fig. 2, the inner copper supply part 2c includes an inner copper supply member 26 and a cleaning member 25 which are disposed opposite to each other in the vertical direction, and the cleaning member 25 removes static electricity and dust from the surface of the inner copper by using an ion wind bar and a dust-sticking roller, respectively, to ensure that the surface of the inner copper is free from static electricity and dust before being attached to the cover film.

The copper of the inner layer to which the coverlay is applied passes through the rolling assembly 32 to form a finished product, and then is recovered by the finished product recovery mechanism 4, preferably, at least a part of the finished product recovery mechanism 4 is located outside the frame 1 in the left-right direction, and more preferably, the finished product recovery mechanism 4 located outside the frame 1 does not exceed the range of the coverlay feeding member 21 or the coverlay scrap recovery member 22, so as to ensure that the size of the laminator 10 in the left-right direction can be effectively controlled.

Further, in order to prevent the cover film from being damaged, generally, when the inner layer copper pre-attached with the cover film passes through the rolling mechanism 3, the outer surface of the cover film is further covered with a layer of tape guide film, as shown in fig. 2, the attaching machine 10 further includes a tape guide film feeding member 5 disposed adjacent to the rolling mechanism 3, similarly, along the left and right direction, two opposite tape guide film feeding members 5 are disposed opposite to each other, and the tape guide film is attached to the outer surface of the cover film when passing through the rolling mechanism 3.

The above has described the embodiment that laminating mechanism 3 is located 2 tops of feed mechanism, however, the basis the utility model discloses a structural configuration of rigging machine 10, when laminating mechanism 3 is located feed mechanism 2 below, still can realize laminating inner copper and cover membrane simultaneously in the vertical direction, at this moment, except that need with laminating mechanism 3 and feed mechanism 2 exchange the position, finished product recovery mechanism 4 also can be according to the overall configuration needs of rigging machine 10 and readjust the position.

As a conversion, in consideration of not considering the occupied area of the laminating machine 10, but only from the perspective of improving the efficiency of laminating the inner layer copper (a member to be laminated) and the cover film (a member to be laminated) with each other, the laminating mechanism 3 and the feeding mechanism 2 may also be arranged in the left-right direction, at this time, the inner layer copper and the cover film are not laminated in the vertical direction any more, but are laminated in the horizontal direction, but the laminating mechanism 3 still laminates two surfaces of the inner layer copper with the corresponding cover film at the same time; further, the laminating mechanism 3 and the feeding mechanism 2 may be arranged at an angle relative to the left-right direction, that is, the laminating mechanism 3 and the feeding mechanism 2 are arranged in a direction parallel to the left-right direction and a direction parallel to the up-down direction, and at this time, the laminating mechanism 3 and the feeding mechanism 2 may be arranged according to the specific area of the laminating machine 10.

As described above, the laminator 10 is used for laminating the cover film on both sides of the inner copper layer, and is required to undergo the steps of cover film feeding, cleaning and static electricity removal, peeling, laminating, rolling, finished product recovery, and the like, wherein in the laminating step, the laminating heads 313 respectively located on both sides of the inner copper layer simultaneously laminate the cover film to the surface of the inner copper layer; in the rolling step, the cover film and the inner layer copper are heated and pressed simultaneously by a pair of heating and pressing rollers 322, and finally, the cover film and the inner layer copper side are tightly attached.

It can be known to combine above-mentioned description and fig. 2, the embodiment of the utility model provides an inner copper is carried in upper and lower direction for two sides of inner copper are respectively towards the left and right-hand, and the cover membrane that is located two sides of inner copper is laminated with inner copper simultaneously, not only can prevent effectively that the dust from being stained with on the inner copper surface, and laminating efficiency also effectively promotes, compares in current rigging machine, the utility model relates to an area that rigging machine 10 is shared is also littleer.

Example two

Fig. 6A is a perspective view of a laminating machine according to a second embodiment of the present invention; fig. 6B is a side view of the laminating machine according to the second embodiment of the present invention, as viewed from the rear to the front.

The laminator 20 according to the present embodiment is also used for bonding an FPC, and preferably, the laminator 20 also employs a vertical bonding method. In practice, the laminator 20 is used to further process the finished product output by the laminator 10 of the first embodiment, and specifically, the laminator 20 is used to laminate a copper foil on the outer surface of the finished product output by the laminator 10.

As shown in the figure, the laminating machine 20 includes a frame 1, and a copper foil supply mechanism 6, a cutting and turning mechanism 7, a rubberizing supply mechanism 8, a laminating mechanism 3, and a recycling and cutting mechanism 9 installed on the frame 1, where the copper foil supply mechanism 6 is used to supply a copper foil, and the rubberizing supply mechanism 8 is used to supply a finished product output by the laminating machine 10 according to the first embodiment as a raw material.

Similarly, area position when using operating personnel to operate rigging machine 20 is accurate, rigging machine 20 has the place ahead as shown in the figure, the back, the left, it is right-hand, top and below, along left and right sides direction, be provided with copper foil supply mechanism 6 respectively in the left and right sides of frame 1, when observing along with upper and lower direction vertically, it arranges from top to bottom to laminate mechanism 3 and copper foil supply mechanism 6 present, laminate mechanism 3 also arranges from top to bottom with rubberizing feeding mechanism 8, and observe along with left and right direction vertically, copper foil supply mechanism 6, rubberizing feeding mechanism 8 and recovery cutting mechanism 9 all are located the outside of frame 1, in order to make things convenient for material change and receipts material.

For convenience of description, the finished product output by the laminator 10 of the first embodiment is referred to as a to-be-bonded piece (a mounted product), and as described above, the outermost side of the to-be-bonded piece is the tape guide film, and before the to-be-bonded piece is bonded, the tape guide film needs to be peeled off so that the cover films on both sides of the inner layer copper are exposed, the laminator 20 bonds the copper foil on the exposed cover film, and the to-be-bonded piece from which the tape guide film is peeled off is referred to as a to-be-bonded piece.

When the laminating machine 20 operates, the copper foil and the workpiece to be processed are supplied in two paths and are finally collected to the laminating mechanism 3, and the supply of the copper foil and the workpiece to be processed is described below with reference to the drawings.

In the copper foil supply mechanism 6, the copper foil 61 is supplied in a curled manner, and generally, the FPC exists in a sheet shape, so that the copper foil 61 also needs to be cut into a sheet shape, as shown in the figure, the copper foil 61 is cut into a sheet shape along a cutting line 62 by a subsequent cutting and reversing device.

As shown in fig. 6A and 6B, the cutting and turning mechanism 7 is located between the two copper foil supply mechanisms 6 in the left-right direction, and is configured to cut and turn the copper foil supplied from the copper foil supply mechanism 6, so that the pasting mechanism 3 can adsorb the cut copper foil.

As shown in fig. 7, the cutting and overturning mechanism 7 comprises a cutting assembly 71 and an overturning assembly 72 which are adjacently arranged, the cutting assembly 71 comprises a static removing part 711 and a cutting part 712, the static removing part 711 is used for cleaning the surface of the copper foil 61, the cutting part 712 is a rolling cutter 712 arranged along two sides of the copper foil 61, compared with a traditional cutting mode, the cutting cutter 712 generates less scraps when cutting the copper foil 61, and further, the cutting assembly 71 further comprises an air exhausting part arranged near the rolling cutter 712 and used for exhausting the scraps.

The cut copper foil 61 enters the turnover assembly 72, is adsorbed and carried by the turnover assembly 72, and is supplied to the attaching mechanism 3, and for the copper foil supply mechanisms 6 respectively located at the left side and the right side of the frame 1, the cutting turnover mechanisms 7 are also set to be two opposite left and right sides, each cutting turnover mechanism 7 corresponds to one copper foil supply mechanism 6, so that the copper foils 6 supplied from the left side and the right side can be processed simultaneously, and a guarantee is provided for the subsequent attaching mechanism 3 to attach the two sides of the piece to be attached simultaneously.

As described above, the copper foil and the workpiece to be processed are supplied in two paths, the workpiece to be processed is supplied by the rubberizing feeding mechanism 8 while the copper foil 61 is supplied and processed, and before the application, the tape guide film on the outer side of the workpiece to be processed needs to be peeled off, so that the workpiece to be processed becomes the workpiece to be applied.

In embodiment one, the conduction band membrane is laminated at the surface of covering the membrane with the mode of a slice, for promoting the efficiency of peeling off the conduction band membrane, the utility model provides a method does, links up adjacent conduction band membrane before peeling off the conduction band membrane, specifically is, pastes the clearance department between adjacent conduction band membrane with the sticky tape.

As shown in fig. 6B and 8, the rubberizing feeding mechanism 8 includes a receiving platform 81, a rubberizing assembly 82, a tape guide film stripping member 84, and a tape guide film recycling member 85, where the receiving platform 81 and the rubberizing assembly 82 are located outside the frame 1, the tape guide film stripping member 84 and the tape guide film recycling member 85 are located inside the frame 1, and the tape guide film stripping member 84 and the tape guide film recycling member 85 are both arranged in the up-down direction with the attaching mechanism 3, and the to-be-attached member to which the tape guide film is stripped is supplied to the attaching mechanism 3 in the up-down direction, so that the attaching mechanism 3 can attach the to both sides of the to-be-attached member vertically.

As shown in fig. 8, the rubberizing module 82 is disposed adjacent to the material receiving platform 81, two opposing rubberizing members 821/822 are disposed at intervals on the rubberizing module 82, when the tape splicing device works, two rubberizing members 821/822 are respectively rubberized on two sides of a workpiece to be processed, so that the tape guides on two sides of the workpiece to be processed are respectively connected to the respective adjacent tape guides, and the tape guides on two sides of the workpiece to be processed are simultaneously peeled off by the tape guides peeling member 84 to form the workpiece to be bonded.

Next, the piece to be bonded and the copper foil are simultaneously supplied to the bonding mechanism 3 for bonding, so that in this embodiment, the bonding piece is a copper foil, and the piece to be bonded is the piece to be bonded. The attaching mechanism 3 includes a pair of attaching head assemblies 31 arranged oppositely, and along the conveying direction of the attaching piece, a pressing assembly 33 located at the downstream of the attaching head assembly 31, the attaching head assembly 31 attaches the copper foil located in the turnover mechanism 72 to both sides of the attaching piece at the same time after being adsorbed, then, the attached attaching piece enters the pressing assembly 33, in the embodiment, the pressing assembly 33 adopts a heating flat pressing mode to attach the attaching piece and the copper foil more tightly, so as to finally form a finished product with three layers of copper foils and two layers of covering films.

Similarly, in this embodiment, laminating mechanism 3 is treated laminating piece and copper foil in upper and lower direction (vertical direction) and is laminated, has not only promoted laminating efficiency, and the shared area of rigging machine 20 reduces, has effectively reduced the dust moreover and has attached the possibility on treating laminating piece or copper foil surface to promote off-the-shelf yields by a wide margin. The finished products attached by the attaching mechanism 3 are conveyed to the sheet cutting mechanism 9 for sheet cutting and material receiving, so that the next operation is convenient. Further, when only the bonding efficiency is considered, the bonding mechanism 3 and the copper foil supply mechanism 6 do not necessarily need to be vertically arranged in the up-down direction, for example, the bonding mechanism 3 may also be horizontally arranged in the left-right direction with the copper foil supply mechanism 6 or the bonding mechanism 3 may be obliquely arranged with respect to both the up-down direction and the left-right direction.

As can be seen from the above description, when the laminator 20 of the present embodiment operates, the steps of connecting and stripping the tape guide film to the workpiece, and the steps of removing static electricity, cleaning, rolling, cutting, adsorbing and turning over are required for the copper foil, and then the workpiece to be processed after stripping the tape guide film and the adsorbed copper foil are simultaneously bonded, heated and pressed, and finally the finished product is formed.

Generally speaking, the utility model provides a vertical double-sided laminating method, which comprises a step of supplying laminating pieces from two sides of a piece to be laminated; a step of vertically arranging the attached piece; and simultaneously attaching the attaching pieces to the attached pieces by using the attaching devices on two sides of the attached pieces respectively. After the laminating, a laminating device is needed to laminate the laminating piece and the piece to be laminated, so that the laminating piece and the piece to be laminated are combined more tightly, and the laminating mode can be a heating rolling mode recorded in the first embodiment or a heating flat pressing mode recorded in the second embodiment. Meanwhile, the mode of vertical double-sided laminating is not only favorable for reducing the occupied area of the laminating machine, but also favorable for improving the laminating efficiency and preventing the surface of the laminated piece from being stained with dust.

Claims

1. The utility model provides a full-automatic two-sided laminating equipment, includes the frame and installs laminating piece supply member on the frame, by laminating piece supply member and laminating device, its characterized in that, laminating device arranges along the both sides by laminating piece, and laminating piece supply member supplies laminating piece to the laminating device that corresponds respectively from the both sides by laminating piece.

2. The full-automatic double-sided attaching apparatus according to claim 1, wherein the attaching device is vertically arranged in an up-down direction with respect to the supplied member.

3. The full-automatic double-sided attaching apparatus according to claim 1, wherein the attaching device is horizontally arranged in a left-right direction with respect to the supplied member to be attached.

4. The full-automatic double-sided attaching apparatus according to claim 1, wherein the attaching means is arranged obliquely with respect to both of the up-down direction and the left-right direction.

5. The full-automatic double-sided laminating apparatus according to any one of claims 1 to 4, wherein the laminating member supply members are located on left and right outer sides of the frame as viewed in a direction perpendicular to a left-right direction of the apparatus.

6. The full-automatic double-sided laminating device of claim 5, further comprising a laminating assembly, wherein after the laminating member and the adhered member are laminated, the laminating device further laminates the laminating member and the adhered member.

7. The full-automatic double-sided laminating device of claim 6, wherein the laminating assembly adopts a pair of heating and pressing rollers to laminate the laminating member and the laminated member.

8. The full-automatic double-sided laminating equipment according to claim 6, wherein the laminating assembly adopts a heating and flat pressing mode to laminate the laminating piece and the part to be laminated.

9. The apparatus of claim 8, further comprising a tape supply mechanism for applying a tape to both sides of the member to be applied.

10. The apparatus of claim 8 further comprising a cutting assembly for cutting the abutted component.