CN214934457U - Carbon fiber recovery roller mechanism for high-viscosity self-adhesive film - Google Patents

Abstract

The utility model relates to a high viscosity is carbon fiber recovery roller mechanism for self-adhesive film, its characterized in that: the device comprises a recovery frame, a first roller piece, a second roller piece, a third roller piece, a frame body and a first power device, wherein the first roller piece is arranged on the recovery frame in a parallel rotating mode, the second roller piece pulls the high-viscosity self-adhesive film, the third roller piece recovers the high-viscosity self-adhesive film, the frame body is used for placing the third roller piece, and the first power device drives the second roller piece to rotate; the high-viscosity self-adhesive film is wound on the first roller piece, the second roller piece and the third roller piece in sequence; the second roll piece abuts against the third roll piece to form a high-viscosity self-adhesive film; the frame body is arranged on the recovery frame in a swinging mode; the first power device is arranged on the recovery frame. The problem of retrieve the roller rotation among the current scheme and carry out the rolling, lead to high viscosity self-adhesive film rolling quality relatively poor, retrieve roller weight simultaneously heavier, the rotatory operation of retrieving the roller is slower, influences the rolling efficiency of high viscosity self-adhesive film is solved.

Description

Carbon fiber recovery roller mechanism for high-viscosity self-adhesive film

Technical Field

The utility model relates to a film production field especially relates to a carbon fiber recovery roller mechanism for high viscosity self-adhesive film.

Background

The self-adhesive film is also called as a self-adhesive protective film, has the advantages of easy attachment and easy uncovering, and has no residual adhesive substance on the surface of an object after being uncovered, and is widely applied to the surface protection of electrical and electronic equipment such as mobile phones, computers and the like and objects such as plastics, glass, building materials and the like.

The existing scheme adopts a rotatably arranged recovery roller to recover the high-viscosity self-adhesive film. But such scheme leads to high viscosity self-adhesive film rolling quality relatively poor because the recovery roller is rotatory to be carried out the rolling, and recovery roller weight is heavier simultaneously, and the rotatory operation of recovery roller is slower, influences the rolling efficiency of high viscosity self-adhesive film. How to solve this problem becomes crucial.

Disclosure of Invention

To the shortcoming of above-mentioned prior art, the utility model aims at providing a high viscosity is carbon fiber recovery roller mechanism for self-adhesive film to solve among the prior art that the recovery roller is rotatory to carry out the rolling, lead to high viscosity self-adhesive film rolling quality relatively poor, the recovery roller weight is heavier simultaneously, and the rotatory operation of recovery roller is slower, influences the problem of the rolling efficiency of high viscosity self-adhesive film.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

carbon fiber recovery roller mechanism for high-viscosity self-adhesive film

The device comprises a recovery frame, a first roller piece, a second roller piece, a third roller piece, a frame body and a first power device, wherein the first roller piece is arranged on the recovery frame in a parallel rotating mode, the second roller piece pulls the high-viscosity self-adhesive film, the third roller piece recovers the high-viscosity self-adhesive film, the frame body is used for placing the third roller piece, and the first power device drives the second roller piece to rotate; the high-viscosity self-adhesive film is wound on the first roller piece, the second roller piece and the third roller piece in sequence; the second roll piece abuts against the third roll piece to form a high-viscosity self-adhesive film; the frame body is arranged on the recovery frame in a swinging mode; the first power device is arranged on the recovery frame.

The further technical scheme is as follows: the first roller piece is spirally wound with a rough surface; the matte surface contacts the high-viscosity self-adhesive film.

The further technical scheme is as follows: a speed reducer is arranged on the recovery frame; the input end of the speed reducer is connected with the first power device; and the output end of the speed reducer is connected with the second roller.

The further technical scheme is as follows: the third roll piece comprises a shaft piece, an outer cylinder for recovering the high-viscosity self-adhesive film, a support piece for externally supporting the outer cylinder and a fixing piece for fixing the outer cylinder; the supporting piece is arranged on the shaft piece in a sliding mode; the fixing member is threadedly disposed on the shaft member.

The further technical scheme is as follows: shaft grooves are formed around two ends of the shaft piece; the shaft groove gradually extends from inside to outside; the frame body is embedded in the shaft groove.

The further technical scheme is as follows: the first roller piece is made of carbon fiber; the outer barrel is made of carbon fiber.

The further technical scheme is as follows: the frame body is provided with a placing groove; the recovery frame is provided with a second power device for driving the frame body to swing; the third roller piece is placed in the placing groove in a rolling mode; the second power device is connected with one end of the rack body, which is far away from the placing groove.

The further technical scheme is as follows: a roller for rolling and supporting the third roller piece is rotationally arranged in the placing groove; the third roller piece is arranged between the adjacent rollers.

The further technical scheme is as follows: a pressing piece for pressing the third roller piece is rotationally arranged in the placing groove; the pressing piece comprises a rotating shaft which is rotatably arranged on the frame body, a pressing plate which presses the third roller piece and an elastic device which pushes the pressing plate to be close to the third roller piece; the elastic device is sleeved on the rotating shaft; the pressing plates are arranged around the rotating shaft in parallel; one end of the elastic device props against the frame body; the other end of the elastic device props against the pressing plate.

The further technical scheme is as follows: a guide wheel is rotatably arranged on the recovery frame; the frame body is provided with an arc hole; a conical groove is formed around the guide wheel; bevel teeth are arranged around the circular arc hole; the guide wheel rolls along the arc hole; the bevel teeth are embedded in the bevel grooves.

Compared with the prior art, the utility model discloses a beneficial technological effect as follows: (1) when the high-viscosity self-adhesive film moves, the first roller rotates, the rough surface cleans impurities on the surface of the high-viscosity self-adhesive film, and the quality of the high-viscosity self-adhesive film is improved; (2) the first roller piece and the outer barrel are made of carbon fibers, so that the effect of reducing weight is achieved, the running speed of the recovery roller mechanism is improved, and the efficiency is improved; (3) when the third roller piece is arranged in the placing groove, the elastic device pushes the pressing plate to tightly press the third roller piece, so that the third roller piece is prevented from rotating and jumping in the placing groove, the third roller piece can stably rotate to recover the high-viscosity self-adhesive film, and the quality of the high-viscosity self-adhesive film is improved; (4) when the frame body swings, the guide wheels roll along the arc holes, the bevel teeth are embedded into the bevel grooves, and the guide wheels play a role in limiting the frame body, so that the frame body can swing smoothly; (5) the outer barrel can be conveniently disassembled and assembled by sliding the supporting piece along the shaft piece.

Drawings

Fig. 1 shows the utility model discloses high viscosity is from carbon fiber recovery roller mechanism for adhesive film's structural schematic diagram.

Fig. 2 shows a side view structural diagram of the first roller member according to the embodiment of the present invention.

Fig. 3 shows a side view structural diagram of a third roller member according to an embodiment of the present invention.

Fig. 4 shows a schematic structural diagram of a frame body according to an embodiment of the present invention.

Fig. 5 shows an enlarged structural view at a in fig. 4.

Fig. 6 shows an enlarged structural view at B in fig. 4.

In the drawings, the reference numbers: 1. a recycling rack; 11. a second power unit; 12. a guide wheel; 13. a conical groove; 2. a first roller member; 21. rough surface; 3. a second roll member; 4. a third roll member; 41. a shaft member; 42. an outer cylinder; 43. a support member; 44. a fixing member; 45. a shaft groove; 5. a frame body; 51. a placement groove; 52. a roller; 53. a circular arc hole; 54. conical teeth; 6. a first power unit; 7. a compression member; 71. a rotating shaft; 72. pressing a plate; 73. an elastic device; 8. and a speed reducer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following device of the present invention will be described in detail with reference to the accompanying drawings and specific embodiments. The advantages and features of the present invention will become more apparent from the following description. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention. To make the objects, features and advantages of the present invention more comprehensible, please refer to the attached drawings. It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limitation of the implementation of the present invention, so that the present invention does not have the essential significance in the technology, and any modification of the structure, change of the ratio relationship or adjustment of the size should still fall within the scope of the technical content disclosed in the present invention without affecting the function and the achievable purpose of the present invention.

Fig. 1 shows the utility model discloses high viscosity is from carbon fiber recovery roller mechanism for adhesive film's structural schematic diagram. Fig. 2 shows a side view structural diagram of the first roller member according to the embodiment of the present invention. Fig. 3 shows a side view structural diagram of a third roller member according to an embodiment of the present invention. Fig. 4 shows a schematic structural diagram of a frame body according to an embodiment of the present invention. Fig. 5 shows an enlarged structural view at a in fig. 4. Fig. 6 shows an enlarged structural view at B in fig. 4. With reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the utility model discloses a carbon fiber recovery roller mechanism for high-viscosity self-adhesive film. The direction of X in the figure does the utility model discloses structure schematic's upper end, the direction of Y in the figure does the utility model discloses structure schematic's right-hand member.

The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film comprises a recovery frame 1, a first roller piece 2 arranged on the recovery frame 1 in a parallel rotating mode, a second roller piece 3 for pulling the high-viscosity self-adhesive film, a third roller piece 4 for recovering the high-viscosity self-adhesive film, a frame body 5 for placing the third roller piece 4 and a first power device 6 for driving the second roller piece 3 to rotate. The high-viscosity self-adhesive film is wound on the first roller member 2, the second roller member 3 and the third roller member 4 in sequence. The second roll member 3 is highly adhesive self-adhesive film against the third roll member 4. The frame body 5 is arranged on the recovery frame 1 in a swinging way. The first power device 6 is arranged on the recovery frame 1.

The first roller member 2 is spirally wound with a roughened surface 21. The matte surface 21 contacts the high-tack self-adhesive film.

Preferably, the first roller member 2 is provided in a plurality. The first roller members 2 are rotatably arranged in parallel in the front-rear direction at the left end of the recovery frame 1. The roughened surface 21 is spirally wound around the outer surface of the first roller member 2.

The recovery frame 1 is provided with a speed reducer 8. The input end of the speed reducer 8 is connected with the first power device 6. The output end of the speed reducer 8 is connected with the second roller 3.

Preferably, the first power device 6 is an electric motor. The second roller member 3 is rotatably provided in the front-rear direction on the collecting frame 1. The first power unit 6 drives the second roller 3 to rotate through the speed reducer 8.

The third roller 4 includes a shaft 41, an outer cylinder 42 for recovering the high-viscosity self-adhesive film, a supporter 43 for supporting the outer cylinder 42, and a fixing member 44 for fixing the outer cylinder 42. The stay 43 is slidably disposed on the shaft 41. The fixing member 44 is threadedly provided on the shaft member 41.

Shaft grooves 45 are formed at both ends of the shaft member 41. The shaft groove 45 extends gradually from the inside to the outside. The frame body 5 is inserted into the shaft groove 45.

Preferably, the material of the first roller member 2 is carbon fiber. Preferably, the outer cylinder 42 material is carbon fiber.

The shaft 41 is disposed in the front-rear direction. The stay 43 slides along the shaft 41 in the front-rear direction. The stay 43 is slidably disposed around the shaft 41. The outer surface of the stay 43 conforms to the inner surface of the outer cylinder 42. The fixing members 44 are screw-provided at the front and rear ends of the shaft member 41. When the fixing member 44 is tightened, the fixing member 44 abuts against the supporting member 43, and the fixing member 44 firmly fixes the supporting member 43.

The shaft groove 45 is opened around both front and rear ends of the outer surface of the shaft member 41.

The high-viscosity self-adhesive film is wound on the first roller piece 2 in the vertical direction, wound on the second roller piece 3 in the left-right direction and wound on the third roller piece 4 in the left-right direction.

When the high-viscosity self-adhesive film moves, the first roller piece 2 rotates, the rough surface 21 cleans impurities on the surface of the high-viscosity self-adhesive film, and the quality of the high-viscosity self-adhesive film is improved.

The second roll member 3 abuts against the high-viscosity self-adhesive film on the third roll member 4, so that the second roll member 3 clamps the third roll member 4 tightly, and the first power device 6 drives the second roll member 3 to rotate through the speed reducer 8, so that the high-viscosity self-adhesive film can be wound on the third roll member 4 to complete recovery.

The outer cylinder 42 is easily disassembled and assembled by sliding the supporter 43 along the shaft 41.

The material of the first roller member 2 and the material of the outer cylinder 42 are both carbon fibers, so that the weight reduction effect is achieved, the running speed of the recovery roller mechanism is improved, and the efficiency is improved.

The shelf body 5 is provided with a placing groove 51. The recovery frame 1 is provided with a second power device 11 for driving the frame body 5 to swing. The third roller 4 is placed in the placement groove 51 in a rolling manner. The second power unit 11 is connected to an end of the frame body 5 away from the placing groove 51.

Preferably, the second power means 11 is a cylinder. Preferably, the placement groove 51 is U-shaped. The placing groove 51 is opened at the upper end of the frame body 5. The second power device 11 is arranged on the recovery frame 1 in the left-right direction. The driving end of the second power device 11 is connected with the lower end of the frame body 5.

When the driving end of the second power device 11 extends out, the lower end of the frame body 5 swings to the right, the upper end of the frame body 5 swings to the left, the frame body 5 drives the third roller piece 4 to be close to the second roller piece 3, and the second roller piece 3 abuts against the third roller piece 4 to complete recovery.

When the third roll member 4 is rolled to complete the high-viscosity self-adhesive film, the driving end of the second power device 11 is contracted, the lower end of the frame body 5 swings leftwards, the upper end of the frame body 5 swings rightwards, and the frame body 5 drives the third roll member 4 to be far away from the second roll member 3, so that the third roll member 4 is taken down.

The placing groove 51 is rotatably provided with a roller 52 that rollingly supports the third roller 4. The third roller 4 is interposed between the adjacent rollers 52.

The roller 52 is rotatably provided at the lower end in the placement groove 51. The adjacent roller 52 supports the third roller 4. The roller 52 is inserted into the shaft groove 45, and the roller 52 rolls along the shaft groove 45.

The placing groove 51 is provided with a pressing member 7 for pressing the third roller 4 in a rotating manner. The pressing member 7 includes a rotating shaft 71 rotatably disposed on the frame body 5, a pressing plate 72 pressing the third roller 4, and an elastic device 73 pushing the pressing plate 72 close to the third roller 4. The elastic device 73 is sleeved on the rotating shaft 71. The pressing plates 72 are juxtaposed around the rotating shaft 71. One end of the elastic device 73 is pressed against the frame body 5. The other end of the elastic device 73 is pressed against the pressing plate 72.

The pressing members 7 are rotatably provided in the placing groove 51 on both left and right sides of the third roller 4. The rotating shaft 71 is disposed on the frame body 5 in a front-rear direction, and the pressing plate 72 is disposed around an outer surface of the rotating shaft 71. The elastic device 73 is sleeved on the outer surface of the rotating shaft 71 in the front-back direction. One end of the elastic means 73 is an upper end of the elastic means 73. The other end of the elastic means 73 is the lower end of the elastic means 73.

When the third roller 4 is placed in the placing groove 51, the elastic device 73 pushes the pressing plate 72 to compress the third roller 4, so that the third roller 4 is prevented from rotating and jumping in the placing groove 51, the third roller 4 can stably rotate to recover the high-viscosity self-adhesive film, and the quality of the high-viscosity self-adhesive film is improved.

The recycling bin 1 is rotatably provided with a guide wheel 12. The frame body 5 is provided with an arc hole 53. A tapered groove 13 is opened around the guide wheel 12. Around the circular arc hole 53 is provided a conical tooth 54. The guide wheel 12 rolls along the circular hole 53. The bevel teeth 54 engage the bevel grooves 13.

The guide wheels 12 are rotatably provided at the front and rear ends of the recovery frame 1. The arc holes 53 are formed at the front and rear ends of the frame body 5. A tapered groove 13 is provided around the outer surface of the guide wheel 12. The conical teeth 54 are disposed around the inner surface of the circular arc hole 53.

When the frame body 5 swings, the guide wheel 12 rolls along the arc hole 53, the bevel teeth 54 are embedded into the bevel grooves 13, and the guide wheel 12 limits the frame body 5, so that the frame body 5 can swing smoothly.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a high viscosity is carbon fiber recovery roller mechanism for self-adhesive film which characterized in that: the device comprises a recovery frame, a first roller piece, a second roller piece, a third roller piece, a frame body and a first power device, wherein the first roller piece is arranged on the recovery frame in a parallel rotating mode, the second roller piece pulls the high-viscosity self-adhesive film, the third roller piece recovers the high-viscosity self-adhesive film, the frame body is used for placing the third roller piece, and the first power device drives the second roller piece to rotate; the high-viscosity self-adhesive film is wound on the first roller piece, the second roller piece and the third roller piece in sequence; the second roll piece abuts against the third roll piece to form a high-viscosity self-adhesive film; the frame body is arranged on the recovery frame in a swinging mode; the first power device is arranged on the recovery frame.

2. The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film according to claim 1, characterized in that: the first roller piece is spirally wound with a rough surface; the matte surface contacts the high-viscosity self-adhesive film.

3. The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film according to claim 1, characterized in that: a speed reducer is arranged on the recovery frame; the input end of the speed reducer is connected with the first power device; and the output end of the speed reducer is connected with the second roller.

4. The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film according to claim 1, characterized in that: the third roll piece comprises a shaft piece, an outer cylinder for recovering the high-viscosity self-adhesive film, a support piece for externally supporting the outer cylinder and a fixing piece for fixing the outer cylinder; the supporting piece is arranged on the shaft piece in a sliding mode; the fixing member is threadedly disposed on the shaft member.

5. The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film according to claim 4, wherein: shaft grooves are formed around two ends of the shaft piece; the shaft groove gradually extends from inside to outside; the frame body is embedded in the shaft groove.

6. The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film according to claim 5, wherein: the first roller piece is made of carbon fiber; the outer barrel is made of carbon fiber.

7. The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film according to claim 1, characterized in that: the frame body is provided with a placing groove; the recovery frame is provided with a second power device for driving the frame body to swing; the third roller piece is placed in the placing groove in a rolling mode; the second power device is connected with one end of the rack body, which is far away from the placing groove.

8. The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film according to claim 7, wherein: a roller for rolling and supporting the third roller piece is rotationally arranged in the placing groove; the third roller piece is arranged between the adjacent rollers.

9. The carbon fiber recovery roller mechanism for the high-viscosity self-adhesive film according to claim 8, wherein: a pressing piece for pressing the third roller piece is rotationally arranged in the placing groove; the pressing piece comprises a rotating shaft which is rotatably arranged on the frame body, a pressing plate which presses the third roller piece and an elastic device which pushes the pressing plate to be close to the third roller piece; the elastic device is sleeved on the rotating shaft; the pressing plates are arranged around the rotating shaft in parallel; one end of the elastic device props against the frame body; the other end of the elastic device props against the pressing plate.

10. The carbon fiber recovery roller mechanism for high-viscosity self-adhesive films according to claim 9, characterized in that: a guide wheel is rotatably arranged on the recovery frame; the frame body is provided with an arc hole; a conical groove is formed around the guide wheel; bevel teeth are arranged around the circular arc hole; the guide wheel rolls along the arc hole; the bevel teeth are embedded in the bevel grooves.

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