CN112916320B

CN112916320B - Copper foil gluing and rolling integrated equipment and implementation mode

Info

Publication number: CN112916320B
Application number: CN202110226399.5A
Authority: CN
Inventors: 陆峰; 刘磊; 周席; 黎少华; 李彦坤; 胡华发
Original assignee: Ganzhou Yihao New Material Co ltd
Current assignee: Ganzhou Yihao New Material Co ltd
Priority date: 2021-03-02
Filing date: 2021-03-02
Publication date: 2021-11-16
Anticipated expiration: 2041-03-02
Also published as: CN112916320A

Abstract

The invention discloses a copper foil gluing and rolling integrated device, which comprises a gluing mechanism and a rolling mechanism, wherein the rolling mechanism is arranged on one side of the gluing mechanism, an encapsulation layer is arranged on the surface of the filling layer, isolation blocks are arranged on two sides of the bottom surface of the filling layer, a filling cavity is formed in the filling layer, glue is arranged in the filling cavity, the encapsulation layer and the filling layer are both members made of paper materials, anti-sticking coatings are arranged on the surfaces of the encapsulation layer and the filling layer, the traditional coating process of barreled glue is replaced, when the bottom of the filling layer is scratched by a cutter head in the process of rolling the copper foil, the glue in the filling cavity flows to the surface of a copper foil roll through a discharge port, the coating operation is carried out by matching with a brush head, the sealing and rolling are synchronously carried out by matching with a colloid component, the drying process in the rolling process is simplified, when the copper foil is rolled into a rolling bin, the cavity and the communicated cavity can be heated by matching with a hot air fan, the winding and drying are carried out synchronously, and the winding efficiency of the copper foil is improved.

Description

Copper foil gluing and rolling integrated equipment and implementation mode

Technical Field

The invention relates to the technical field of copper foil gluing and rolling, in particular to copper foil gluing and rolling integrated equipment and an implementation mode.

Background

The copper foil has low surface oxygen characteristic, can be attached to various different base materials such as metal, insulating materials and the like, has a wide temperature use range, is mainly applied to electromagnetic shielding and antistatic, is combined with a metal base material by arranging the conductive copper foil on the substrate surface, has excellent conductivity and provides an electromagnetic shielding effect. The method can be divided into the following steps: the self-adhesive copper foil, the double-conductive copper foil, the single-conductive copper foil and the like are adopted, the electronic grade copper foil is one of basic materials of the electronic industry, the electronic information industry is rapidly developed, the using amount of the electronic grade copper foil is increased, the product is widely applied to the industrial calculated copper foil, has low surface oxygen characteristic, can be attached to various different base materials such as metal, insulating materials and the like, has a wide temperature using range, is mainly applied to electromagnetic shielding and antistatic, is combined with the metal base material by placing the conductive copper foil on the bottom surface of a substrate, has excellent conductivity, and provides an electromagnetic shielding effect.

The current copper foil gluing and winding equipment has the advantages that after the gluing is finished, the drying operation of glue bodies is carried out, if the phenomenon of uneven painting is caused during the gluing, the gluing of one or more parts cannot be timely dried, the production quality of the copper foil is affected, and the problem that the glue bodies drip when the gluing is too thick due to the fact that the copper foil is of a planar structure is solved.

To above problem, improve current device, provided an integrative equipment of copper foil rubber coating rolling and implementation mode.

Disclosure of Invention

The invention aims to provide a copper foil gluing and rolling integrated device and an implementation mode, wherein an encapsulation layer is arranged on the surface of a filling layer, isolation blocks are arranged on two sides of the bottom surface of the filling layer, a filling cavity is formed in the filling layer, glue is arranged in the filling cavity, the encapsulation layer and the filling layer are both members made of paper materials, the isolation blocks are members made of rubber materials, anti-sticking coatings are arranged on the surfaces of the encapsulation layer and the filling layer, the traditional barrel glue coating process is replaced, when the bottom of the filling layer is scratched by a cutter head in the copper foil rolling process, the glue in the filling cavity flows to the surface of a copper foil roll through a feed opening, the brush head is matched for coating operation, the colloid component is matched for synchronous sealing and rolling, the drying flow in the rolling process is simplified, when the copper foil is rolled into the rolling bin, the cavity and the communicated cavity can be matched and heated by a hot air fan, the winding and drying are carried out synchronously, the winding efficiency of the copper foil is improved, and the problem in the background technology is solved.

In order to achieve the purpose, the invention provides the following technical scheme: a copper foil gluing and winding integrated device comprises a gluing mechanism and a winding mechanism, wherein the winding mechanism is arranged on one side of the gluing mechanism, the gluing mechanism comprises a box body, a copper foil component, a colloid component and a brushing component, the copper foil component and the colloid component are arranged on one side of an inner cavity of the box body, the copper foil component is positioned below the colloid component, the brushing component is arranged in the inner cavity of the box body, and the brushing component is positioned below the colloid component;

the winding mechanism comprises a winding bin, a winding component, a guide roller set, a sealing component and a hot air fan, the winding component and the guide roller set are arranged in an inner cavity of the winding bin, the sealing component is mounted on the outer circumferential surface of the winding bin, and the hot air fan is arranged on the side surface of the sealing component.

Further, the box includes first shell, the centre gripping telescopic link, first guide roller, the second guide roller, double compression roller group and second shell, the inner wall of first shell and second shell all sets up the centre gripping telescopic link, the inner wall of first shell sets up first guide roller, and first guide roller laminates with the surface of colloid subassembly mutually, the inner wall of first shell sets up the second guide roller, and the surface of second guide roller and copper foil subassembly laminates mutually, the inner wall of first shell sets up double compression roller group, and double compression roller group is located the one side of applying paint the subassembly with a brush.

Furthermore, the copper foil assembly comprises a copper foil roll, a connecting column and a connecting ring, the connecting ring is arranged on the outer circumferential surface of the connecting column, the copper foil roll is arranged on the outer circumferential surface of the connecting ring, and two ends of the connecting column are matched with one end of the clamping telescopic rod.

Further, the colloid subassembly includes encapsulated layer, filling layer and spacing block, and the surface of filling layer sets up the encapsulated layer, and the bottom surface both sides of filling layer set up the spacing block, and the colloid subassembly still includes spliced pole and links up the ring.

Further, the filling cavity has been seted up to the inside of filling layer, and the inside of filling the cavity sets up glue, and packaging layer and filling layer are the component that a paper material was made, and the spacer block is the component that a rubber material was made, and the surface of packaging layer and filling layer sets up anti-sticking coating.

Furthermore, the brushing assembly comprises a bearing block, a brush head, a blocking block and a drawing and scratching piece, wherein the drawing and scratching piece is arranged on the surface side of the bearing block, the brush head is arranged on the bottom surface of the bearing block, the blocking blocks are arranged at the two ends of the brush head, and the blocking blocks are attached to the two sides of the copper foil roll.

Further, the bearing piece includes bearing district, unloading district and feed opening, and the surface of bearing piece sets up bearing district and unloading district, and the horizontal length in bearing district is unanimous with the horizontal length of filling the cavity, and the feed opening has been seted up to the bottom in unloading district, draws the piece of drawing to include installation piece, tool bit and electric telescopic handle, and the installation piece passes through electric telescopic handle to be installed in the bottom in unloading district, and the surface of installation piece sets up the tool bit.

Furthermore, the winding bin comprises a winding opening, a communicating cavity and a heat radiating opening, the winding opening is formed in the outer circumferential surface of the winding bin, the communicating cavity and the heat radiating opening are formed in the inner wall of the winding bin, the sealing assembly comprises a sealing plate, an isolating plate and a connecting block, the isolating plate is installed on the inner wall of the sealing plate through the connecting block, the sealing plate and the isolating plate are matched to form a heating cavity, and the heating cavity is communicated with the communicating cavity.

Further, the winding assembly comprises a motor, a winding shaft, a traction block and a connecting shaft, the motor is installed on the back of the winding bin, the winding shaft is arranged at one end of the motor, a clamping groove is formed in the winding shaft, the traction block is movably connected in a rotating mode through the connecting shaft, a clamping groove is formed in the traction block in a matching mode, the traction block is matched with the clamping groove, and one end of the traction block is of an inclined structure.

The invention provides another technical scheme that: the embodiment of the copper foil gluing and rolling integrated equipment comprises the following steps:

s1: fixing a copper foil component and a colloid component on one side of an inner cavity of a box body through a clamping telescopic rod, clamping wound ports of the copper foil component and the colloid component through a traction block, guiding the copper foil component and the colloid component through a second guide roller wheel and a first guide roller wheel respectively in the clamping and traction processes, and enabling the copper foil component to be kept in a horizontal state and the colloid component to be kept in an inclined state by matching with a re-pressing roller set;

s2: the bottom surface of the filling layer is attached to the surface of the bearing block while the colloid component keeps an inclined state, the electric telescopic rod is controlled to drive the tool bit to ascend, the tool bit is attached to the bottom surface of the filling layer, the filling layer is driven by the traction block to move continuously, the tool bit breaks the bottom of the filling layer, and the traction block is finally manually moved to the clamping groove to be clamped and matched with the motor to be wound;

s3: when the tool bit lacerated the bottom of filling layer, the glue inside the filling cavity flowed to the surface of copper foil roll through the feed opening, and the brush head was used for the work of applying paint with a brush, so far, accomplished all implementation steps.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a copper foil gluing and rolling integrated device and an implementation mode, wherein an encapsulation layer is arranged on the surface of a filling layer, isolation blocks are arranged on two sides of the bottom surface of the filling layer, a filling cavity is formed in the filling layer, glue is arranged in the filling cavity, the encapsulation layer and the filling layer are both members made of paper materials, the isolation blocks are members made of rubber materials, anti-sticking coatings are arranged on the surfaces of the encapsulation layer and the filling layer, the traditional coating process of barreled glue is replaced, when the bottom of the filling layer is scratched by a tool bit in the process of rolling the copper foil, the glue in the filling cavity flows to the surface of a copper foil roll through a discharge port, the coating operation is carried out by matching with a brush head, the sealing and rolling are synchronously carried out by matching with a colloid component, the drying process in the rolling process is simplified, when the copper foil is rolled into a rolling bin, the cavity and the communicated cavity can be heated by matching with a hot air fan, the winding and drying are carried out synchronously, and the winding efficiency of the copper foil is improved.

2. The invention provides a copper foil gluing and rolling integrated device and an implementation mode, when one surface of a copper foil is coated, the isolating block is matched with the copper foil roll and the filling layer to seal under the clamping and rolling of the re-pressing roller set, so that the drying process of the colloid is facilitated, the dripping phenomenon of the colloid is prevented, the two ends of the brush head are provided with the blocking blocks which are attached to the two sides of the copper foil roll, so that the phenomenon that the two sides of the colloid phase overflow when brushing is carried out is avoided, the supporting area is arranged on the surface of the supporting block, the transverse length of the supporting area is consistent with that of the filling cavity, the phenomenon that the bottom of the filling layer falls down due to the gravity of the glue is avoided, when the bottom of filling layer breaks away from the bearing zone time, can in time scratch the filling layer through the tool bit, avoid appearing because of the tenesmus phenomenon causes the phenomenon of scratching of encapsulation layer, the regional leakproofness is applied paint with a brush to the guarantee.

3. The invention provides a copper foil gluing and winding integrated device and an implementation mode, wherein traction blocks are movably and rotatably connected through a connecting shaft, a clamping groove is formed by matching the traction blocks, the traction blocks are matched with a clamping groove, one end of each traction block is of an inclined structure, the two traction blocks are used for closing and clamping ports for winding a copper foil component and a colloid component through the connecting shaft, after clamping is finished, one ends of the two traction blocks are of a triangular structure, in the process of traction of the copper foil component and the colloid component, the traction blocks can penetrate through the clamping positions of a re-pressing roller set through the tail ends of the triangular structure to be temporarily clamped and fixed, an electric telescopic rod is controlled to drive a tool bit to ascend, the tool bit is attached to the bottom surface of a filling layer, the traction blocks are moved to be pulled and clamped, and waste of raw materials of the copper foil component and the colloid component is reduced, the utilization rate is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the copper foil gluing and rolling integrated device of the invention;

FIG. 2 is a schematic view of the overall internal structure of the copper foil gluing and winding integrated device of the invention;

FIG. 3 is a schematic structural view of a box body of the copper foil gluing and winding integrated equipment;

FIG. 4 is a schematic structural view of a copper foil coating and winding integrated device painting assembly of the present invention;

FIG. 5 is an enlarged schematic structural view of the position A of the copper foil gluing and rolling integrated device of the invention;

FIG. 6 is a schematic diagram of a colloid component structure of the copper foil gluing and winding integrated device of the invention;

FIG. 7 is a schematic view of a winding bin structure of the copper foil gluing and winding integrated device of the invention;

FIG. 8 is a schematic structural view of a sealing assembly of the copper foil gluing and winding integrated device of the invention;

fig. 9 is a schematic structural view of a winding assembly of the copper foil gluing and winding integrated device.

In the figure: 1. a gluing mechanism; 11. a box body; 111. a first housing; 112. clamping the telescopic rod; 113. a first guide roller; 114. a second guide roller; 115. a roller set is pressed again; 116. a second housing; 12. a copper foil assembly; 121. copper foil rolls; 122. connecting columns; 123. an adaptor ring; 13. a gel component; 131. a packaging layer; 132. a filling layer; 1321. filling the cavity; 133. an isolation block; 14. brushing the component; 141. a bearing block; 1411. a support area; 1412. a blanking area; 1413. a feeding port; 142. a brush head; 143. a barrier block; 144. drawing the scribing piece; 1441. mounting blocks; 1442. a cutter head; 1443. an electric telescopic rod; 2. a winding mechanism; 21. a winding bin; 211. a rolling opening; 212. the cavity is communicated; 213. a heat dissipation port; 22. a winding component; 221. a motor; 222. a winding shaft; 2221. a card slot; 223. a traction block; 2231. a clamping groove; 224. a connecting shaft; 23. a guide roller set; 24. a seal assembly; 241. a sealing plate; 2411. heating the cavity; 242. a separator plate; 243. connecting blocks; 25. a hot air fan.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 7-9, a copper foil gluing and winding integrated device comprises a gluing mechanism 1 and a winding mechanism 2, wherein the winding mechanism 2 is arranged on one side of the gluing mechanism 1, the gluing mechanism 1 comprises a box body 11, a copper foil component 12, a colloid component 13 and a brushing component 14, the copper foil component 12 and the colloid component 13 are arranged on one side of an inner cavity of the box body 11, the copper foil component 12 is positioned below the colloid component 13, the brushing component 14 is arranged in the inner cavity of the box body 11, the brushing component 14 is positioned below the colloid component 13, the winding mechanism 2 comprises a winding bin 21, a winding component 22, a guide roller set 23, a sealing component 24 and a hot air fan 25, the winding bin 21 is provided with the winding component 22 and the guide roller set 23 in the inner cavity, the sealing component 24 is arranged on the outer circumferential surface of the winding bin 21, the hot air fan 25 is arranged on the side surface of the sealing component 24, the winding bin 21 comprises a winding opening 211, a communicating cavity 212 and a heat dissipation opening 213, the outer circumferential surface of the winding bin 21 is provided with a winding opening 211, the inner wall of the winding bin 21 is provided with a communicating cavity 212 and a heat radiating opening 213, the sealing assembly 24 comprises a sealing plate 241, a partition plate 242 and a connecting block 243, the partition plate 242 is mounted on the inner wall of the sealing plate 241 through the connecting block 243, the sealing plate 241 and the partition plate 242 are matched to form a heating cavity 2411, the heating cavity 2411 is communicated with the communicating cavity 212, the winding assembly 22 comprises a motor 221, a winding shaft 222, a traction block 223 and a connecting shaft 224, the motor 221 is mounted on the back surface of the winding bin 21, one end of the motor 221 is provided with the winding shaft 222, the winding shaft 222 is internally provided with a clamping groove 2221, the traction block 223 is movably and rotatably connected through the connecting shaft 224, a clamping groove 2231 is formed between the traction blocks 223, the traction blocks 223 are matched with the clamping groove 2221, and one end of the traction block 223 is in an inclined structure, the traction blocks 223 form movable rotary connection through the connecting shaft 224, the traction blocks 223 form a clamping groove 2231 in a matching mode, the traction blocks 223 are matched with the clamping groove 2221 in a matching mode, one end of each traction block 223 is of an inclined structure, the two traction blocks 223 carry out closed clamping on ports wound by the copper foil assembly 12 and the colloid assembly 13 through the connecting shaft 224, after clamping is finished, one ends of the two traction blocks 223 are of a triangular structure, in the process of traction of the copper foil assembly 12 and the colloid assembly 13, the traction blocks 223 can penetrate through the tail ends of the triangular structure to carry out temporary clamping and fixing on the clamping position of the double-pressing roller set 115, the electric telescopic rod 1443 is controlled to drive the tool bit 1442 to ascend, the tool bit 1442 is attached to the bottom surface of the filling layer 132, the traction blocks 223 are moved to carry out traction clamping, and waste of raw materials of the copper foil assembly 12 and the colloid assembly 13 is reduced, the utilization rate is improved.

Referring to fig. 2-4, a copper foil gluing and winding integrated device, a box 11 includes a first housing 111, a clamping telescopic rod 112, a first guide roller 113, a second guide roller 114, a re-pressing roller set 115 and a second housing 116, the inner walls of the first housing 111 and the second housing 116 are both provided with the clamping telescopic rod 112, the inner wall of the first housing 111 is provided with the first guide roller 113, the first guide roller 113 is attached to the surface of a colloid component 13, the inner wall of the first housing 111 is provided with the second guide roller 114, the second guide roller 114 is attached to the surface of a copper foil component 12, the inner wall of the first housing 111 is provided with the re-pressing roller set 115, the re-pressing roller set 115 is located at one side of a brushing component 14, the copper foil component 12 includes a copper foil roll 121, a connecting column 122 and a connecting ring 123, the outer circumferential surface of the connecting column 122 is provided with the connecting ring 123, and the outer circumferential surface of the copper foil connecting ring 121 is provided with the copper foil roll, the two ends of the connecting column 122 are matched with one end of the clamping telescopic rod 112, the colloid component 13 comprises an encapsulating layer 131, a filling layer 132 and an isolating block 133, the surface of the filling layer 132 is provided with the encapsulating layer 131, two sides of the bottom surface of the filling layer 132 are provided with the isolating block 133, the colloid component 13 further comprises the connecting column 122 and a connecting ring 123, the inside of the filling layer 132 is provided with a filling cavity 1321, the inside of the filling cavity 1321 is provided with glue, the encapsulating layer 131 and the filling layer 132 are both members made of paper materials, the isolating block 133 is a member made of rubber materials, the surfaces of the encapsulating layer 131 and the filling layer 132 are provided with anti-sticking coatings, when the bottom of the filling layer 132 is scratched through a cutter head 1442 in the winding process, the glue in the filling cavity 1321 flows to the surface of the copper foil 121 through a feed opening 1413, the brush head 142 is matched for coating operation, the colloid component 13 is matched for synchronous sealing and winding, the drying process in the winding process is simplified, when the copper foil is wound into the winding bin 21, the heating cavity 2411 and the communication cavity 212 can be matched through the hot air fan 25, so that the winding and the drying are carried out synchronously, and the winding efficiency of the copper foil is improved.

Referring to fig. 4-6, a copper foil gluing and rolling integrated device, a painting component 14 includes a bearing block 141, a brush head 142, a blocking block 143 and a drawing and scribing block 144, the drawing and scribing block 144 is disposed on the surface side of the bearing block 141, the brush head 142 is disposed on the bottom surface of the bearing block 141, the blocking blocks 143 are disposed at two ends of the brush head 142, the blocking blocks 143 are attached to two sides of a copper foil roll 121, the bearing block 141 includes a bearing area 1411, a blanking area 1412 and a blanking port 1413, the bearing area 1411 and the blanking area 1412 are disposed on the surface of the bearing block 141, the transverse length of the bearing area 1411 is consistent with the transverse length of a filling cavity 1321, the blanking port 1413 is disposed at the bottom of the blanking area 1412, the drawing and scribing block 144 includes a mounting block 1441, a cutter head 1442 and an electric expansion rod 1443, the mounting block 1441 is mounted at the bottom of the blanking area 1412 through the electric expansion rod 1443, the cutter head 1442 is disposed on the surface of the mounting block 1441, after one side of the copper foil is painted, the copper foil is finished, the copper foil roll 121 and the filling layer 132 are clamped by a re-pressing roller 115 to perform a re-pressing roller to perform a re-sealing process Seal, be convenient for the stoving flow of colloid and prevent that the colloid from appearing the drippage phenomenon, both ends through brush head 142 set up separation block 143, separation block 143 laminates with the both sides of copper foil book 121 mutually, avoid when applying paint with a brush, the excessive phenomenon in colloid both sides appears, surface through bearing block 141 sets up bearing district 1411, bearing district 1411's horizontal length is unanimous with the horizontal length of filling cavity 1321, avoid making the phenomenon that tenesmus appear in the bottom of filling layer 132 because of the gravity of glue self, when the bottom of filling layer 132 breaks away from bearing district 1411, can in time pass through tool bit 1442 and tear filling layer 132, avoid appearing causing the phenomenon of tearing of encapsulation layer 131 because of the phenomenon of tenesmus, the regional leakproofness is applied paint with a brush in the guarantee.

In order to better explain the above embodiments, the present invention further provides an implementation manner, and the implementation manner of the integrated apparatus for copper foil gluing and rolling includes the following steps:

the method comprises the following steps: fixing the copper foil component 12 and the colloid component 13 at one side of the inner cavity of the box body 11 through a clamping telescopic rod 112, clamping the wound port parts of the copper foil component 12 and the colloid component 13 through a traction block 223, guiding the copper foil component 12 and the colloid component 13 through a second guide roller 114 and a first guide roller 113 respectively in the clamping and traction process, and matching with a re-pressing roller set 115 to keep the copper foil component 12 in a horizontal state and keep the colloid component 13 in an inclined state;

step two: while the colloid component 13 keeps an inclined state, the bottom surface of the filling layer 132 is attached to the surface of the bearing block 141, the electric telescopic rod 1443 is controlled to drive the tool bit 1442 to ascend, the tool bit 1442 is attached to the bottom surface of the filling layer 132, the filling layer 132 is driven to move continuously through the traction block 223, the tool bit 1442 cuts the bottom of the filling layer 132, and the traction block 223 is finally manually moved to the clamping groove 2221 to be clamped and matched with the motor 221 to be wound;

step three: when the tool bit 1442 cuts the bottom of the filling layer 132, the glue inside the filling cavity 1321 flows to the surface of the copper foil coil 121 through the feed opening 1413, and is coated by the brush head 142, so that all implementation steps are completed.

In summary, the following steps: the invention provides a copper foil gluing and rolling integrated device and an implementation mode, wherein a rolling mechanism 2 is arranged at one side of a gluing mechanism 1, a packaging layer 131 is arranged on the surface of a filling layer 132, isolating blocks 133 are arranged at two sides of the bottom surface of the filling layer 132, a filling cavity 1321 is arranged inside the filling layer 132, glue is arranged inside the filling cavity 1321, the packaging layer 131 and the filling layer 132 are both members made of paper materials, the isolating blocks 133 are members made of rubber materials, anti-sticking coatings are arranged on the surfaces of the packaging layer 131 and the filling layer 132, the traditional coating process of barreled glue is replaced, when the bottom of the filling layer 132 is scratched by a cutter head 1442 in the rolling process of a copper foil, the glue in the filling cavity 1321 flows to the surface of a copper foil coil 121 through a blanking port 1413, the coating operation is carried out by matching with a brush head 142, the sealing and rolling are synchronously carried out by matching with a colloid component 13, the drying process in the winding process is simplified, when the copper foil is wound into the winding bin 21, the winding and the drying can be synchronously carried out by matching the heating cavity 2411 and the communicating cavity 212 through the hot air fan 25, the winding efficiency of the copper foil is improved, after one surface of the copper foil is coated, the copper foil roll 121 and the filling layer 132 are matched through the isolating block 133 to be sealed under the clamping rolling of the re-pressing roller set 115, the drying process of colloid is convenient, the dripping phenomenon of the colloid is prevented, the blocking blocks 143 are arranged at the two ends of the brush head 142, the blocking blocks 143 are attached to the two sides of the copper foil roll 121, the phenomenon that the two sides of the colloid overflow when coating is carried out is avoided, the bearing zone 1411 is arranged on the surface of the bearing block 141, the transverse length of the bearing zone 1411 is consistent with the transverse length of the filling cavity 1321, and the phenomenon that the bottom of the filling layer 132 falls down due to the gravity of the colloid is avoided, when the bottom of the filling layer 132 is separated from the bearing area 1411, the filling layer 132 can be timely scratched through the tool bit 1442, the scratching phenomenon of the packaging layer 131 caused by the falling phenomenon is avoided, the sealing performance of the painting area is ensured, the traction blocks 223 form movable rotary connection through the connecting shaft 224, the traction blocks 223 form the clamping groove 2231 in a matching mode, the traction blocks 223 are matched with the clamping groove 2221 in a matching mode, one end of each traction block 223 is of an inclined structure, the two traction blocks 223 close and clamp ports where the copper foil assembly 12 and the colloid assembly 13 are wound through the connecting shaft 224, after clamping is completed, one end of each traction block 223 is of a triangular structure, in the process of dragging the copper foil assembly 12 and the colloid assembly 13, the traction blocks 223 can penetrate through the tail end of the triangular structure to temporarily clamp and fix the clamping position of the re-pressing roller 115, the electric telescopic rod 1443 is controlled to drive the tool bit 1442 to ascend, tool bit 1442 and the bottom surface of filling layer 132 are laminated mutually, remove the block 223 of pulling again and pull the block, reduce the waste of the raw and other materials of copper foil subassembly 12 and colloid subassembly 13, improve the utilization ratio.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides an integrative equipment of copper foil rubber coating rolling, includes rubber coating mechanism (1) and winding mechanism (2), and winding mechanism (2) set up in one side of rubber coating mechanism (1), its characterized in that: the glue coating mechanism (1) comprises a box body (11), a copper foil component (12), a colloid component (13) and a coating component (14), wherein the copper foil component (12) and the colloid component (13) are arranged on one side of an inner cavity of the box body (11), the copper foil component (12) is positioned below the colloid component (13), the coating component (14) is arranged in the inner cavity of the box body (11), and the coating component (14) is positioned below the colloid component (13);

the winding mechanism (2) comprises a winding bin (21), a winding component (22), a guide roller set (23), a sealing component (24) and a hot air fan (25), the winding component (22) and the guide roller set (23) are arranged in an inner cavity of the winding bin (21), the sealing component (24) is installed on the outer circumferential surface of the winding bin (21), and the hot air fan (25) is arranged on the side surface of the sealing component (24);

the box body (11) comprises a first shell (111), a clamping telescopic rod (112), a first guide roller wheel (113), a second guide roller wheel (114), a re-pressing roller wheel set (115) and a second shell (116), the inner walls of the first shell (111) and the second shell (116) are respectively provided with the clamping telescopic rod (112), the inner wall of the first shell (111) is provided with the first guide roller wheel (113), the first guide roller wheel (113) is attached to the surface of the colloid component (13), the inner wall of the first shell (111) is provided with the second guide roller wheel (114), the second guide roller wheel (114) is attached to the surface of the copper foil component (12), the inner wall of the first shell (111) is provided with the re-pressing roller wheel set (115), and the re-pressing roller wheel set (115) is positioned on one side of the painting component (14);

the copper foil assembly (12) comprises a copper foil roll (121), a connecting column (122) and a connecting ring (123), the connecting ring (123) is arranged on the outer circumferential surface of the connecting column (122), the copper foil roll (121) is arranged on the outer circumferential surface of the connecting ring (123), and two ends of the connecting column (122) are matched with one end of the clamping telescopic rod (112);

the colloid component (13) comprises a packaging layer (131), a filling layer (132) and isolating blocks (133), wherein the packaging layer (131) is arranged on the surface of the filling layer (132), the isolating blocks (133) are arranged on two sides of the bottom surface of the filling layer (132), and the colloid component (13) further comprises a connecting column (122) and a connecting ring (123);

a filling cavity (1321) is formed in the filling layer (132), glue is arranged in the filling cavity (1321), the packaging layer (131) and the filling layer (132) are both members made of paper materials, the isolation block (133) is a member made of rubber materials, and anti-sticking coatings are arranged on the surfaces of the packaging layer (131) and the filling layer (132);

the brushing assembly (14) comprises a bearing block (141), a brush head (142), a blocking block (143) and a drawing and scratching piece (144), wherein the drawing and scratching piece (144) is arranged on the surface side of the bearing block (141), the brush head (142) is arranged on the bottom surface of the bearing block (141), the blocking blocks (143) are arranged at the two ends of the brush head (142), and the blocking blocks (143) are attached to the two sides of the copper foil roll (121);

the bearing block (141) comprises a bearing area (1411), a blanking area (1412) and a blanking port (1413), the surface of the bearing block (141) is provided with the bearing area (1411) and the blanking area (1412), the transverse length of the bearing area (1411) is consistent with that of the filling cavity (1321), the blanking port (1413) is formed in the bottom of the blanking area (1412), the drawing piece (144) comprises an installation block (1441), a tool bit (1442) and an electric telescopic rod (1443), the installation block (1441) is installed at the bottom of the blanking area (1412) through the electric telescopic rod (1443), and the tool bit (1442) is arranged on the surface of the installation block (1441).

2. The copper foil gluing and rolling integrated device as claimed in claim 1, wherein: the winding bin (21) comprises a winding opening (211), a communicating cavity (212) and a heat dissipation opening (213), the winding opening (211) is formed in the outer circumferential surface of the winding bin (21), the communicating cavity (212) and the heat dissipation opening (213) are formed in the inner wall of the winding bin (21), the sealing assembly (24) comprises a sealing plate (241), an isolation plate (242) and a connecting block (243), the isolation plate (242) is installed on the inner wall of the sealing plate (241) through the connecting block (243), the sealing plate (241) and the isolation plate (242) are matched to form a heating cavity (2411), and the heating cavity (2411) is communicated with the communicating cavity (212).

3. The copper foil gluing and rolling integrated device as claimed in claim 1, wherein: coiling subassembly (22) include motor (221), rolling axle (222), traction block (223) and connecting axle (224), the back in rolling storehouse (21) is installed in motor (221), and the one end of motor (221) sets up rolling axle (222), draw-in groove (2221) have been seted up to the inside of rolling axle (222), constitute the activity through connecting axle (224) between traction block (223) and rotate the connection, the cooperation constitutes centre gripping groove (2231) between traction block (223), the cooperation and draw-in groove (2221) phase-match between traction block (223), and the one end of traction block (223) is an inclined column structure.

4. An embodiment of the copper foil gluing and rolling integrated device according to claim 3, wherein: the method comprises the following steps:

s1: fixing a copper foil component (12) and a colloid component (13) at one side of an inner cavity of a box body (11) through a clamping telescopic rod (112), clamping wound port parts of the copper foil component (12) and the colloid component (13) through a traction block (223), guiding the copper foil component (12) and the colloid component (13) through a second guide roller (114) and a first guide roller (113) respectively in the clamping and traction process, and matching with a re-pressing roller set (115), so that the copper foil component (12) is kept in a horizontal state, and the colloid component (13) is kept in an inclined state;

s2: when the colloid component (13) keeps an inclined state, the bottom surface of the filling layer (132) is attached to the surface of the bearing block (141), the electric telescopic rod (1443) is controlled to drive the tool bit (1442) to ascend, the tool bit (1442) is attached to the bottom surface of the filling layer (132), the filling layer (132) is driven to move continuously through the traction block (223), the tool bit (1442) breaks the bottom of the filling layer (132), the traction block (223) finally moves manually to the clamping groove (2221) to be clamped, and the colloid component is matched with the motor (221) to be wound;

s3: when the tool bit (1442) cuts the bottom of the filling layer (132), glue inside the filling cavity (1321) flows to the surface of the copper foil roll (121) through the feed opening (1413) and is matched with the brush head (142) for brushing, and all implementation steps are completed.