CN118062641A

CN118062641A - But raw foil machine wind-up roll of adaptation regulation

Info

Publication number: CN118062641A
Application number: CN202410501185.8A
Authority: CN
Inventors: 李伟; 崔凤梅; 赵辉; 宋继东; 郑武杰
Original assignee: Shandong Hesheng Copper Co ltd
Current assignee: Shandong Hesheng Copper Co ltd
Priority date: 2024-04-25
Filing date: 2024-04-25
Publication date: 2024-05-24
Anticipated expiration: 2044-04-25
Also published as: CN118062641B

Abstract

The invention relates to the technical field of foil producing machines, in particular to an adaptively adjustable winding roller of a foil producing machine, which comprises a supporting frame body, a winding group frame arranged on the supporting frame body and a supporting group frame arranged on the top of the supporting frame body; the feeding support frame is arranged at the receiving end of the support frame, a feeding bearing component is arranged in the feeding support frame, a turning support component is arranged on the support frame, and the turning support component is arranged behind the feeding bearing component; the bottom of the support group frame is also provided with a guide component, the guide component is positioned below the turning support component, and the winding group frame is provided with a winding roller and a winding support component arranged at the material receiving end of the winding roller. The invention can tighten the whole copper foil, maintain the tension of the copper foil, and maintain enough tension between the copper foil coil and the continuously wound copper foil, thereby tightly attaching each interlayer of the copper foil coil.

Description

But raw foil machine wind-up roll of adaptation regulation

Technical Field

The invention relates to the technical field of foil producing machines, in particular to an adaptively adjustable winding roller of a foil producing machine.

Background

The electrolytic copper foil is a metal copper foil produced by an electrolytic method using a copper material as a main raw material. In the processing process, firstly, copper materials are dissolved to prepare copper sulfate solution, then, the copper sulfate solution is electrodeposited in special electrolysis equipment through direct current to prepare foil, and then, a series of treatments such as surface roughening, antioxidation and the like are carried out on the formed copper foil, and finally, a finished product is prepared after slitting and detection; the winding mechanism of the raw foil machine is used as a tail end mechanism of copper foil production equipment, plays a vital role in the whole copper foil production process, but the thinner the electrolytic copper foil is, the more difficult the quality control is, the technical problems of scale marks, loose winding and the like in the winding process of the copper foil can occur, and the quality of the copper foil is seriously restricted.

The winding roller of the foil producing machine in the prior art generally comprises a frame, wherein the winding roller is arranged on the frame along the horizontal direction, guide posts are arranged on the frame at the outer sides of two ends of the winding roller, lifting seats are respectively sleeved on the two guide posts, positioning notches matched with rotating shafts at two ends of the winding roller are oppositely arranged on the two lifting seats, and the winding roller is erected in the positioning notches of the two lifting seats; however, the implementation structure also has certain defects that the rolling tension of the copper foil is smaller, the interlayer pressure of the copper foil coil is smaller, the interlayer is not tight and tight, air is easy to enter, the excircle of the copper foil coil is irregular, and the contact tangent line of the copper foil and the copper foil coil is uneven, so that the phenomenon of metal buckling exists.

Disclosure of Invention

The invention aims to provide an adaptively adjustable winding roller of a foil producing machine, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The winding roller of the foil producing machine comprises a supporting frame body, a winding group frame arranged on the supporting frame body and a supporting group frame arranged on the top of the supporting frame body; the feeding device comprises a supporting group frame, a feeding bearing component, a turning supporting component, a feeding bearing component and a feeding bearing component, wherein the feeding group frame is arranged on the supporting group frame, the feeding bearing component is arranged at the material receiving end of the supporting group frame, and the feeding bearing component is arranged in the frame of the feeding group frame; the bottom of the support group frame is also provided with a guide component, the guide component is positioned below the direction-changing support component, and the winding group frame is provided with a winding roller and a winding support component arranged at the material receiving end of the winding roller; the support frame is internally provided with a foil edge correction assembly, and the pressing end of the foil edge correction assembly is close to the guide assembly.

As a further scheme of the invention: the feeding group frame comprises feeding frame plates, two feeding frame plates are arranged and are respectively arranged on two side frame walls of the supporting group frame, frame plate fixing blocks are arranged on the inner side frame walls of the feeding frame plates, adjusting slide bars are arranged between the frame plate fixing blocks, and adjusting blocks are arranged on the adjusting slide bars in a sliding mode; the feeding bearing assembly comprises a supporting plate body arranged on the adjusting block and a secondary guide-in roller arranged between the supporting plate bodies at two sides.

As a further scheme of the invention: the feeding bearing assembly comprises an extension frame plate arranged at the front edge of the feeding frame plate, a plurality of guiding-in roll shafts are arranged in the frame of the extension frame plate, and primary guiding-in rolls are arranged on the guiding-in roll shafts.

As a further scheme of the invention: the main part of a support group frame is a support frame, the diversion support assembly comprises a primary diversion roller and a secondary diversion roller, the primary diversion roller and the secondary diversion roller are all installed in an inner section of the support frame, the primary diversion roller is in butt joint with a secondary guide-in roller, the secondary diversion roller is located obliquely below the rear side of the primary diversion roller, the primary diversion roller is movably installed, and a movable assembly for driving the primary diversion roller is arranged on the side edge of the support frame.

As a further scheme of the invention: the movable assembly comprises an inner edge support shaft, a driving wheel and gear teeth, wherein the inner edge support shaft is coaxially connected with the primary turning roller, the driving wheel is arranged on the inner edge support shaft, the gear teeth are arranged on the guide wire grooves, the guide wire grooves are formed in two side frame walls of the supporting frame, the inner edge support shaft is limited in the guide wire grooves, a force supporting plate is arranged below the guide wire grooves, a tooth pattern surface is arranged on the force supporting plate, and the gear teeth are erected on the tooth pattern surface and meshed with the tooth pattern surface.

As a further scheme of the invention: the guide assembly comprises a frame plate, a guide support plate and a guide support roller, wherein the frame plate, the guide support plate and the guide support roller are arranged below the support frame body, and the frame plate is provided with a blank holder;

As a further scheme of the invention: the foil edge correction assembly comprises a fixed substrate arranged on the frame wall of the supporting frame, and a first tape loading disc and a second tape loading disc which are arranged on the upper fixed substrate, wherein a pressing tape surface is arranged between the first tape loading disc and the second tape loading disc, a third positioning tape roller, a second positioning tape roller and a first positioning tape roller are further arranged on the surface of the fixed substrate, and the pressing tape surface is connected to the second tape loading disc after passing through the first positioning tape roller, the second positioning tape roller and the first positioning tape roller in turn by using the first tape loading disc as a starting end.

As a further scheme of the invention: the edge pressing piece is provided with an edge pressing plate and a foil pressing surface arranged on the edge pressing plate, the foil pressing surface is close to the pressing belt surface and forms a foil penetrating gap with the pressing belt surface, the guide support plate is positioned below the fixed substrate and is provided with a smooth support surface, the smooth support surface is positioned right below the foil penetrating gap, and the guide support roller is arranged below the guide support plate.

As still further aspects of the invention: the winding roller comprises a mounting notch arranged on a winding frame body, a roller support shaft arranged between the mounting notches and a main roller body arranged on the roller support shaft, the winding support assembly comprises a first mounting shaft and a second mounting shaft arranged between the winding frame and the feeding frame, and a support frame leading-in roller and a winding frame leading-in roller are respectively arranged on the first mounting shaft and the second mounting shaft.

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

1. The feeding bearing component is used as a supporting structure for copper foil input and is used for being arranged on a bottom plane of the copper foil in a cushioning mode, a supporting effect is formed from bottom to top, the copper foil is guided into the supporting frame, the supporting frame is provided with a turning supporting component, the turning supporting component is used as a turnover structure for guiding the copper foil to the position of the winding frame through the guiding component after turning, the winding frame is a storage frame body of the copper foil, the winding roller is used as a storage tool, the copper foil is wound on the winding roller, the guide component is matched with the turning support component to tighten the whole copper foil, the tension of the copper foil is kept, the copper foil is output from the guide component and then is backwards guided to the winding roller through the winding support component, so that enough tension is formed between the copper foil winding and the copper foil which is continuously wound, each interlayer of the copper foil winding is tightly attached, gaps of the winding layers are reduced, and the phenomenon of loosening between the copper foil winding layers is avoided.

2. The foil edge correction assembly is arranged in the inner frame of the support group frame, is arranged on two sides of the inner frame area of the support group frame and is matched with the guide assembly, and small-amplitude pressing treatment is formed on the edge position of the copper foil in the copper foil transmission process, so that the edge of the copper foil is straightened in an auxiliary mode, and the bending phenomenon of lotus leaf edges is avoided on the edge of the copper foil.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application. Meanwhile, these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to specific embodiments.

Fig. 1 is a schematic diagram of the overall structure of a winding roller of a foil producing machine capable of being adjusted in an adaptive manner.

Fig. 2 is a schematic structural diagram of a feeding frame according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a bracket assembly frame according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a bracket assembly frame according to an embodiment of the present invention.

Fig. 5 is a schematic structural view of the area a in fig. 4 according to the present invention.

Fig. 6 is a schematic structural diagram of a foil edge correction assembly according to an embodiment of the invention.

Fig. 7 is a schematic structural diagram of a winding support assembly according to an embodiment of the present invention.

In the figure: 11. feeding and framing; 12. supporting the group frame; 13. a support frame body; 14. winding and framing; 15. a feeding bearing assembly; 16. a direction-changing support component; 17. a guide assembly; 18. a foil edge correction assembly; 19. a winding support assembly; 10. a wind-up roll; 21. a feeding frame plate; 22. a frame plate fixing block; 23. adjusting the slide bar; 24. an adjusting block; 25. a support plate body; 26. a secondary introduction roller; 27. an extension frame plate; 28. a guiding roll shaft; 29. a first stage introducing roller; 31. a support frame; 32. a frame plate; 33. edge pressing pieces; 35. a first-stage turning roller; 36. a second-stage turning roller; 37. a guide support plate; 38. guiding out a supporting roller; 39. a movable assembly; 41. an inner edge fulcrum; 42. a guide wire slot; 43. a driving wheel; 44. gear teeth; 45. a force support plate; 46. a toothed surface; 51. a blank holder; 52. foil pressing surface; 61. fixing the substrate; 62. a first loading reel; 63. a second loading reel; 64. a third positioning belt roller; 65. a second positioning belt roller; 66. a first positioning belt roller; 67. a belt surface is pressed; 68. foil penetration gap; 69. smooth supporting surface; 71. a mounting notch; 72. a roller support shaft; 73. a main roller body; 74. a first mounting shaft; 75. a second mounting shaft; 76. a support frame leading-in roller; 77. and a winding frame guiding roller.

Detailed Description

The technical solutions according to the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings, examples of which are shown in the accompanying drawings. When the following description refers to the accompanying drawings, like numerals in the various drawings refer to like or similar elements, unless otherwise specified.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. 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.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

In one embodiment, referring to fig. 1, an adaptively adjustable winding roller of a foil machine is provided, which includes a supporting frame 13, a winding frame 14 disposed on the supporting frame 13, and a supporting frame 12 mounted on the top of the supporting frame 13; the feeding group frame 11 is arranged on the supporting group frame 12, the feeding group frame 11 is arranged at the material receiving end of the supporting group frame 12, a feeding bearing component 15 is arranged in the feeding group frame 11, a turning supporting component 16 is arranged on the supporting group frame 12, and the turning supporting component 16 is arranged behind the feeding bearing component 15; the bottom of the support group frame 12 is also provided with a guide component 17, the guide component 17 is positioned below the direction-changing support component 16, and the winding group frame 14 is provided with a winding roller 10 and a winding support component 19 arranged at the material receiving end of the winding roller 10; a foil edge correction assembly 18 is further arranged in the support frame 12, and a pressing surface of the foil edge correction assembly 18 is close to the guide assembly 17.

In the embodiment, the copper foil is wound to be implemented, the supporting frame body 13 is a supporting structure and is erected on a winding station of the copper foil to be vertically supported; the copper foil is input from the feeding group frame 11, the feeding bearing component 15 is a supporting structure for copper foil input and is used for being arranged on the bottom plane of the copper foil in a cushioning mode, a supporting effect is formed from bottom to top, the copper foil is led into the position of the supporting group frame 12, the turning supporting component 16 is arranged on the supporting group frame 12, the turning supporting component 16 is a turnover structure and is used for turning the copper foil, the copper foil passes through the guiding component 17 and is guided to the position where the winding group frame 14 is located, the winding group frame 14 is a storage frame body of the copper foil, the winding roller 10 is used as a storage tool, the copper foil is wound on the winding roller 10, the guiding component 17 is matched with the turning supporting component 16 to tighten the whole copper foil, tension of the copper foil is kept, the copper foil is led back to the winding roller 10 through the winding supporting component 19 after being output from the guiding component 17, and sufficient tension is formed between the copper foil winding and the continuously wound copper foil, and each interlayer of the copper foil winding is tightly attached, gaps of the winding layers are reduced, and the phenomenon of loose copper foil is avoided.

Meanwhile, in this embodiment, a foil edge correction assembly 18 is further disposed in the inner frame of the support frame 12, the foil edge correction assemblies 18 are disposed on two sides of the inner frame region of the support frame 12, and are matched with the guide assemblies 17, so that a small-amplitude lamination process is formed on the edge position of the copper foil in the copper foil transmission process, thereby assisting in straightening the edge of the copper foil, and avoiding the bending phenomenon of "lotus edges" on the edge of the copper foil.

In one embodiment, referring to fig. 1 and 2, this embodiment is further optimized as the above embodiment, and on the basis thereof, for the specific implementation structure of the feeding group frame 11 and the feeding bearing assembly 15, this embodiment is designed as follows:

The feeding group frame 11 comprises feeding frame plates 21, wherein the feeding frame plates 21 are provided with two frame walls which are respectively arranged on two side frame walls of the supporting group frame 12, frame plate fixing blocks 22 are arranged on the inner side frame walls of the feeding frame plates 21, adjusting slide bars 23 are arranged between the frame plate fixing blocks 22, and adjusting blocks 24 are slidably arranged on the adjusting slide bars 23; the feeding bearing assembly 15 comprises a supporting plate body 25 arranged on the adjusting block 24 and a secondary guide roller 26 arranged between the supporting plate bodies 25 at two sides. The feeding bearing assembly 15 comprises an extending frame plate 27 arranged at the front edge of the feeding frame plate 21, a plurality of guiding roll shafts 28 are arranged in the frame of the extending frame plate 27, and primary guiding rolls 29 are arranged on the guiding roll shafts 28.

When the copper foil is input, the first-stage guide roller 29 is used as a supporting component of an input end, and is supported by the first-stage guide roller 29 and then is guided to the second-stage guide roller 26 to form a certain supporting force, so that the copper foil is guided into a frame body area of the supporting group frame 12; the extending frame plate 27 can adjust the inclination angle relative to the feeding frame plate 21, thereby adjusting the support inclination of the primary introducing roller 29; the secondary lead-in roller 26 can slide along the adjusting slide bar 23 through the adjusting block 24 at the side, so that the position of the secondary lead-in roller 26 is adjusted, and then the distance between the secondary lead-in roller 26 and the primary lead-in roller 29 is adjusted, namely the supporting point of the copper foil feeding end is adjusted, so that the copper foil processing line body is suitable for different types of copper foil processing line bodies.

In one embodiment, referring to fig. 1, 3 and 4, as a further optimization of the above embodiment, the following is a specific implementation structure of the support bracket assembly 12 and the direction-changing support bracket assembly 16:

The main part of a support group frame 12 is a support frame 31, the turning support assembly 16 comprises a primary turning roller 35 and a secondary turning roller 36, the primary turning roller 35 and the secondary turning roller 36 are all arranged in an inner section of the support frame 31, the primary turning roller 35 is in butt joint with the secondary leading-in roller 26, the secondary turning roller 36 is positioned at the inclined lower part of the rear side of the primary turning roller 35, the primary turning roller 35 is movably arranged, and a movable assembly 39 for driving the primary turning roller 35 is arranged at the side edge of the support frame 31. The copper foil is led into the first-stage turning roll 35 from the second-stage leading-in roll 26, and is led into the second-stage turning roll 36 from the first-stage turning roll 35, in the guiding process, the second-stage turning roll 36 and the first-stage turning roll 35 are turning points, the copper foil is gradually inclined downwards, and supporting force is formed, so that the second-stage turning roll 36 and the first-stage turning roll 35 are used as supporting components, the material surface of the whole copper foil is tightened, enough tension is formed, and the problem that the copper foil is fluffy and bent is avoided.

The primary direction-changing roller 35 is movably installed, so that the operation position of the primary direction-changing roller 35 can be adjusted, and then the direction-changing initial position of the copper foil is adjusted, namely, the direction-changing initial stress coordinate of the copper foil is adjusted, please refer to fig. 4 and 5, an adjusting implementation is provided in this embodiment, the movable component 39 includes an inner edge support shaft 41 coaxially connected with the primary direction-changing roller 35, a driving wheel 43 arranged on the inner edge support shaft 41, and gear teeth 44 installed on the guiding wire groove 42, the guiding wire groove 42 is formed on both side frame walls of the support frame 31, the inner edge support shaft 41 is limited in the guiding wire groove 42, a force support plate 45 is arranged below the guiding wire groove 42, and a toothed surface 46 is arranged on the force support plate 45, and the gear teeth 44 are framed on the toothed surface 46 and meshed with the toothed surface 46.

In this embodiment, an inner edge support shaft 41 is externally connected to the outer end of the primary turning roller 35, a micro motor is externally connected to the inner edge support shaft 41 as a power source to drive the inner edge support shaft 41 to rotate, a driving wheel 43 moves, a gear tooth 44 on the driving wheel 43 is meshed with a toothed surface 46, a force supporting plate 45 is fixedly installed to provide a reverse acting force, so that the inner edge support shaft 41 and the primary turning roller 35 installed on the inner edge support shaft 41 roll along the toothed surface 46, meanwhile, the inner edge support shaft 41 is limited to a guide wire groove 42, the movement track of the inner edge support shaft 41 is limited, and the rolling distance of the inner edge support shaft 41 takes the toothed distance on the toothed surface 46 as a unit to ensure the adjustment precision.

In one embodiment, referring to fig. 1, 3 and 6, as a further optimization of the above embodiment, the following is designed for the specific implementation structure of the guide assembly 17 and the foil edge correction assembly 18:

The guide assembly 17 comprises a frame plate 32, a guide support plate 37 and a guide support roller 38 which are arranged below the frame body of the support frame 31, and the frame plate 32 is provided with a blank holder 33; the copper foil is guided downwards along the inner layer of the edge pressing piece 33 after being guided out by the direction change of the secondary direction change roller 36 and then attached to the surface of the guide support plate 37, so that the guide support roller 38 is used as a support point at the bottom to change the direction, and the copper foil is guided into the winding frame 14 after being changed and tightened again.

The foil edge correction assembly 18 comprises a fixed substrate 61 arranged on the frame wall of the supporting frame 31, and a first tape loading disc 62 and a second tape loading disc 63 arranged on the upper fixed substrate 61, a pressing tape surface 67 is arranged between the first tape loading disc 62 and the second tape loading disc 63, a third positioning tape roller 64, a second positioning tape roller 65 and a first positioning tape roller 66 are further arranged on the surface of the fixed substrate 61, and the pressing tape surface 67 sequentially passes through the first positioning tape roller 66, the second positioning tape roller 65 and the first positioning tape roller 66 to be turned and then is connected to the second tape loading disc 63.

The edge pressing piece 33 is provided with an edge pressing plate 51 and a foil pressing surface 52 mounted on the edge pressing plate 51, the foil pressing surface 52 is close to the pressing belt surface 67 and forms a foil penetrating gap 68 with the pressing belt surface 67, the guide support plate 37 is located below the fixed substrate 61 and is provided with a smooth support surface 69, the smooth support surface 69 is located right below the foil penetrating gap 68, and the guide support roller 38 is arranged below the guide support plate 37.

The fixed base plates 61 are respectively arranged on the inner wall of the frame body of the supporting frame 31, the first tape loading disc 62 is a winding start end of a pressing tape surface 67, the pressing tape surface 67 is sequentially turned back through the first positioning tape roller 66, the second positioning tape roller 65 and the third positioning tape roller 64 and then connected to the second tape loading disc 63 for tightly pressing the tape surface 67, and the pressing tape surface 67 forms a tape surface for correcting the edge of the copper foil between the third positioning tape roller 64 and the second positioning tape roller 65; the inner side of the edge pressing piece 33 is provided with an edge pressing plate 51, the inner surface of the edge pressing plate 51 is provided with a foil pressing surface 52, the foil pressing surface 52 is made of smooth materials, the surface of the copper foil, which is attached to the foil pressing surface 52, penetrates out of the gap of the foil penetrating gap 68, namely, the copper foil is extruded between the pressing belt surface 67 and the foil pressing surface 52, and if a 'lotus leaf edge' phenomenon exists at the edge of the copper foil, the bending surface of the copper foil is necessarily contacted with the pressing belt surface 67 or the foil pressing surface 52, so that the effect of flattening edge wrinkles is achieved.

In one case of this embodiment, the second tape loading disc 63 may be further externally connected with a micro-adjustment motor for periodically turning, so as to drive the second tape loading disc 63 to make small-amplitude reciprocating swing, and the disc shaft of the first tape loading disc 62 is mounted and connected by a torsion spring, so that the tension force on the pressing tape surface 67 is always kept, and then the pressing tape surface 67 is driven to be in small-amplitude reciprocating pulling trend, the pressing tape surface 67 itself adopts a smooth material and a tape surface with hardness lower than that of the copper foil, such small-amplitude dynamic collision trend does not affect the movement of the copper foil, and can change the problem of edge wrinkles of the copper foil in a "smooth" state, so as to improve the operation effect.

In one embodiment, referring to fig. 1 and 7, as a further optimization of the above embodiment, the embodiment is designed as follows, and regarding the specific implementation structure of the guide assembly 17 and the foil edge correction assembly 18, the wind-up roller 10 includes a mounting notch 71 mounted on the frame body of the wind-up frame 14, a roller support shaft 72 disposed between the mounting notches 71, and a main roller body 73 mounted on the roller support shaft 72, the wind-up support assembly 19 includes a first mounting shaft 74 and a second mounting shaft 75 mounted between the wind-up frame 14 and the feeding frame 11, and a support frame introducing roller 76 and a wind-up frame introducing roller 77 are disposed on the first mounting shaft 74 and the second mounting shaft 75, respectively.

In this embodiment, the main body of the winding support bracket assembly 19 is a support frame lead-in roller 76 and a winding frame lead-in roller 77, which are respectively arranged at the joint of the feeding frame 11 and the winding frame 14, the support frame lead-in roller 76 is used for butt-jointing the copper foil conveyed from the lead-out support roller 38, the second mounting shaft 75 is used for supporting the copper foil in an auxiliary manner, guiding the copper foil to the main roller 73, and forming sufficient tension between the copper foil coil wound on the main roller 73 and the copper foil continuously wound, so that each interlayer of the copper foil coil is tightly attached, and the gap of the winding layer is reduced. The main body of the wind-up roll 10 is a main roll body 73, and the main roll body 73 is erected on the mounting notch 71 through a roll fulcrum shaft 72 and is detachably mounted; after each winding, the roll support shaft 72 can be detached from the mounting notch 71, and the next main roll 73 can be replaced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The winding roller of the foil producing machine comprises a supporting frame body (13), a winding group frame (14) arranged on the supporting frame body (13) and a supporting group frame (12) arranged on the top of the supporting frame body (13); it is characterized in that the method comprises the steps of,

The feeding device is characterized in that a feeding group frame (11) is arranged on the supporting group frame (12), the feeding group frame (11) is arranged at a receiving end of the supporting group frame (12), a feeding bearing component (15) is arranged in the feeding group frame (11), a turning supporting component (16) is arranged on the supporting group frame (12), and the turning supporting component (16) is arranged behind the feeding bearing component (15); the bottom of the support group frame (12) is also provided with a guide component (17), the guide component (17) is positioned below the turning support component (16), the winding group frame (14) is provided with a winding roller (10) and a winding support component (19) arranged at the material receiving end of the winding roller (10);

a foil edge correction assembly (18) is further arranged in the support frame (12), and the pressing end of the foil edge correction assembly (18) is close to the guide assembly (17).

2. The winding roll of the foil machine capable of being adjusted in an adapting mode according to claim 1, wherein the feeding group frame (11) comprises feeding frame plates (21), the feeding frame plates (21) are provided with two and are respectively arranged on two side frame walls of the supporting group frame (12), frame plate fixing blocks (22) are arranged on the inner side frame walls of the feeding frame plates (21), adjusting sliding rods (23) are arranged between the frame plate fixing blocks (22), and adjusting blocks (24) are arranged on the adjusting sliding rods (23) in a sliding mode;

the feeding bearing assembly (15) comprises a supporting plate body (25) arranged on the adjusting block (24) and a secondary guide-in roller (26) arranged between the supporting plate bodies (25) at two sides.

3. The winding roller of the foil machine capable of being adjusted in an adapting mode according to claim 2, wherein the feeding bearing assembly (15) comprises an extending frame plate (27) arranged on the front edge of the feeding frame plate (21), a plurality of guiding roll shafts (28) are arranged in the frame of the extending frame plate (27), and primary guiding rolls (29) are arranged on the guiding roll shafts (28).

4. A wind-up roll of a foil machine according to claim 3, wherein the main body of the supporting frame (12) is a supporting frame (31), the turning supporting component (16) comprises a primary turning roll (35) and a secondary turning roll (36), the primary turning roll (35) and the secondary turning roll (36) are both arranged in an inner section of the supporting frame (31), the primary turning roll (35) is in butt joint with the secondary leading-in roll (26), the secondary turning roll (36) is positioned below the rear side of the primary turning roll (35), the primary turning roll (35) is movably arranged, and a movable component (39) for driving the primary turning roll (35) is arranged at the side edge of the supporting frame (31).

5. The winding roller of the foil machine capable of being adjusted according to claim 4, wherein the movable assembly (39) comprises an inner edge support shaft (41) coaxially connected with the primary turning roller (35), a driving wheel (43) arranged on the inner edge support shaft (41) and gear teeth (44) arranged on the guide wire groove (42), the guide wire groove (42) is formed in two side frame walls of the support frame (31), the inner edge support shaft (41) is limited in the guide wire groove (42), a force support plate (45) is arranged below the guide wire groove (42), a toothed surface (46) is arranged on the force support plate (45), and the gear teeth (44) are bridged on the toothed surface (46) and meshed with the toothed surface (46).

6. The adaptively adjustable winding roller of a foil machine according to claim 5, wherein the guide assembly (17) comprises a frame plate (32) arranged below a frame body of the supporting frame (31), a guide support plate (37) and a guiding support roller (38), and a blank holder (33) is arranged on the frame plate (32).

7. The winding roll of the foil machine capable of being adjusted according to claim 6, wherein the foil edge correction assembly (18) comprises a fixed base plate (61) arranged on a frame wall of the supporting frame (31), a first loading disc (62) and a second loading disc (63) arranged on the upper fixed base plate (61), a pressing belt surface (67) is arranged between the first loading disc (62) and the second loading disc (63), a third positioning belt roller (64), a second positioning belt roller (65) and a first positioning belt roller (66) are further arranged on the surface of the fixed base plate (61), and the pressing belt surface (67) sequentially passes through the first positioning belt roller (66), the second positioning belt roller (65) and the first positioning belt roller (66) to be connected into the second loading disc (63) in a direction-changing mode.

8. The adaptively adjustable winding roll of a foil machine according to claim 7, wherein a blank holder (51) and a foil pressing surface (52) mounted on the blank holder (51) are arranged on the blank holder (33), the foil pressing surface (52) is close to the pressing belt surface (67) and forms a foil passing gap (68) with the pressing belt surface (67), the guide support plate (37) is located below the fixed substrate (61) and is provided with a smooth support surface (69), the smooth support surface (69) is located right below the foil passing gap (68), and the guide support roller (38) is arranged below the guide support plate (37).

9. The adaptively adjustable winding roll of a foil machine according to claim 8, wherein the winding roll (10) comprises a mounting notch (71) mounted on a frame body of the winding frame (14), a roll support shaft (72) arranged between the mounting notches (71) and a main roll body (73) mounted on the roll support shaft (72), the winding support assembly (19) comprises a first mounting shaft (74) and a second mounting shaft (75) mounted between the winding frame (14) and the feeding frame (11), and a support frame leading-in roll (76) and a winding frame leading-in roll (77) are respectively arranged on the first mounting shaft (74) and the second mounting shaft (75).