CN219303392U - Carbon fiber harness gumming device - Google Patents

Abstract

The utility model relates to the technical field of wire harness processing, in particular to a carbon fiber wire harness gumming device which can automatically pass a carbon fiber wire harness through a wire pressing wheel, greatly lightens the operation steps of operators and is more convenient to use; comprises a sizing pool and a wire pressing wheel; the device also comprises a first sliding block sliding in the gluing pool, a second sliding block sliding on the first sliding block, and a clamp fixed on the second sliding block.

Description

Carbon fiber harness gumming device

Technical Field

The utility model relates to the technical field of wire harness processing, in particular to a carbon fiber wire harness gumming device.

Background

Carbon fiber is a special fiber, has the characteristics of small density, small specific strength and high specific modulus, and is increasingly applied as a new material.

The application number is: 202122113770.5 a coiling apparatus of an automatic carbon fiber dipping system is provided, which is used for coiling and rectifying a carbon fiber bundle after glue extrusion, and the coiling apparatus of the automatic carbon fiber dipping system comprises: the winding seat is arranged on the mounting surface of the workbench; the wire spool is sleeved on a motor shaft of the winding motor, and the carbon fiber wire bundles after glue extrusion are wound on a spool of the wire spool; the winding motor is arranged on the winding seat and used for driving the winding disc to rotate so as to collect and integrate the carbon fiber wire bundles after glue extrusion; and the coiling control device is electrically connected with the coiling motor and used for controlling the coiling motor to start or close. The utility model also provides an automatic carbon fiber dipping system, which reduces the workload and labor intensity of workers, improves the working efficiency and solves the problems of large workload, low efficiency and harm to the health of the workers in the process of manually coiling the dipped carbon fiber bundles in the prior art by a coiling device of the automatic carbon fiber dipping system and the automatic carbon fiber dipping system.

The above device has the following problems: the line ball wheel is impressed the carbon fiber pencil inside the rubberizing pond, makes the pencil remove in the rubberizing pond to accomplish the gum dipping, but because the roller footpath of line ball wheel is great, and partial line ball wheel is in the glue solution, leads to needing to pass the carbon fiber pencil from line ball wheel bottom manually, has brought inconvenience for the user.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the carbon fiber wire harness gumming device which has a simple structure, can automatically pass the carbon fiber wire harness through the wire pressing wheel, greatly lightens the operation steps of operators, and is more convenient to use.

The carbon fiber harness gumming device comprises a gumming pool and a line pressing wheel; the device also comprises a first sliding block sliding in the gluing pool, a second sliding block sliding on the first sliding block, and a clamp fixed on the second sliding block.

Preferably, the glue applying device further comprises a first guide rail fixed in the glue applying pond, a guide hole is formed in the first guide rail, and a guide shaft extending into the guide hole is fixed on the second slider.

Preferably, the first sliding block slides on the second guide rail fixedly connected with the rubberizing pond, the third guide rail is fixed on the first sliding block, and the second sliding block slides on the third guide rail.

Preferably, the fixture comprises a support plate fixed on the second slider, a clamping plate sliding on the second slider, a connecting plate fixed on the clamping plate, an inclined hole and a vertical hole which are communicated with each other are formed in the connecting plate, and a driving shaft penetrating through the inclined hole is fixed on the third guide rail.

Preferably, the clamp further comprises four fixing columns fixedly connected with the clamping plates, and the four fixing columns are in sliding fit with the supporting plates.

Preferably, a translation mechanism is arranged on the rubberizing pool, and the output end of the translation mechanism is connected with the first slide block.

Preferably, the translation mechanism comprises a screw rod rotationally connected with the rubberizing pool, a threaded sleeve fixedly connected with the sliding block I is connected to the screw rod in a threaded manner, and the threaded sleeve is in sliding fit with the rubberizing pool.

Preferably, a motor is mounted at the end of the screw.

Preferably, the threaded sleeve slides on a guide rail IV fixedly connected with the rubberizing pool.

Preferably, two ends of the clamping plate slide on a guide rail five fixedly connected with the sliding block II.

Compared with the prior art, the utility model has the beneficial effects that: the glue solution is filled in the glue solution tank, the part of the wire pressing wheel is immersed in the glue solution, the clamp is positioned above the glue solution liquid level when being positioned at the parking position, the clamp is positioned on the projection surface of the wire pressing wheel, the carbon fiber wire harness is prevented from moving to the side surface of the wire pressing wheel when moving, when the carbon fiber wire harness needs to pass through the wire pressing wheel, the end part of the carbon fiber wire harness is fixed on the clamp, then the first operating slide block moves along the travelling direction of the carbon fiber wire harness, meanwhile, the second slide block moves along with the first slide block, in the moving process of the second slide block, the second slide block moves vertically downwards, the clamp moves to the lower side of the wire pressing wheel, then the second slide block moves horizontally with the clamp, and then moves vertically upwards again until the clamp moves to the upper side of the glue solution liquid level, and then the carbon fiber wire harness is manually taken down.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an exploded view of FIG. 1;

fig. 3 is a partial enlarged view of a portion a in fig. 2;

FIG. 4 is an exploded view of the screw, first rail, first slider, second slider, drive shaft, etc.;

FIG. 5 is an exploded view of FIG. 4;

the reference numerals in the drawings: 1. a sizing pool; 2. a wire pressing wheel; 3. a first sliding block; 4. a second slide block; 5. a first guide rail; 6. a guide shaft; 7. an inclined section I; 8. a horizontal section; 9. an inclined section II; 10. a second guide rail; 11. a guide rail III; 12. a support plate; 13. a clamping plate; 14. inclined holes; 15. a vertical hole; 16. a drive shaft; 17. fixing the column; 18. a screw rod; 19. a screw sleeve; 20. a motor; 21. a guide rail IV; 22. and a guide rail V.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1 to 5, the carbon fiber harness gumming device of the utility model comprises a gumming pool 1 and a line pressing wheel 2; the device also comprises a first sliding block 3 sliding in the gluing pool 1, a second sliding block 4 sliding on the first sliding block 3, and a clamp fixed on the second sliding block 4.

In this embodiment, glue solution is filled in the glue solution tank 1, the wire pressing wheel 2 is supported by external rotation, a part of the wire pressing wheel 2 is immersed in the glue solution, when the clamp is in a parking position, the clamp is positioned above the glue solution level, and is positioned on the projection surface of the wire pressing wheel 2, so that the carbon fiber wire harness is prevented from moving to the side surface of the wire pressing wheel 2 when the clamp moves, when the carbon fiber wire harness needs to pass through the wire pressing wheel 2, the end part of the carbon fiber wire harness is fixed on the clamp, then the first operating slide block 3 moves along the travelling direction of the carbon fiber wire harness, meanwhile the second slide block 4 also moves along with the first slide block 3, and in the process that the second slide block 4 moves along with the first slide block 3, the second slide block 4 moves vertically downwards firstly, so that the clamp moves to the lower part of the wire pressing wheel 2, then the second slide block 4 moves horizontally beyond the wire pressing wheel 2, then the second slide block 4 moves vertically upwards again until the clamp moves to stop above the glue solution level, and then the carbon fiber wire harness is manually taken down.

Further, the glue applying device further comprises a first guide rail 5 fixed in the glue applying pond 1, a guide hole is formed in the first guide rail 5, and a guide shaft 6 extending into the guide hole is fixed on the second slider 4.

The guide hole comprises a first inclined section 7, a horizontal section 8 and a second inclined section 9;

when the guide shaft 6 moves along the first inclined section 7, the second slide block 4 and the clamp thereon move downwards, meanwhile, the second slide block 4 also moves along the traveling direction of the carbon fiber wire harness along with the first slide block 3, namely, the second slide block 4 and the clamp move obliquely, then the guide shaft 6 moves along the horizontal section 8, the height of the second slide block 4 is not influenced, the second slide block 4 and the clamp transversely cross the wire pressing wheel 2 along the horizontal direction, then the guide shaft 6 moves along the second inclined section 9, so that the second slide block 4 and the clamp thereon move upwards, meanwhile, the second slide block 4 also moves along the traveling direction of the carbon fiber wire harness along with the first slide block 3, namely, the second slide block 4 and the clamp move obliquely, when the clamp exposes out of the glue solution level, the second slide block 4 and the clamp are stopped, and then the carbon fiber wire harness is manually removed.

Further, the first slider 3 slides on the second guide rail 10 fixedly connected with the rubberizing pond 1, the third guide rail 11 is fixed on the first slider 3, and the second slider 4 slides on the third guide rail 11.

The second guide rail 10 is arranged along the traveling direction of the carbon fiber harness, and the third guide rail 11 is arranged along the vertical direction.

Further, the fixture comprises a supporting plate 12 fixed on the second slider 4, a clamping plate 13 sliding on the second slider 4, a connecting plate fixed on the clamping plate 13, an inclined hole 14 and a vertical hole 15 which are communicated with each other are formed in the connecting plate, and a driving shaft 16 penetrating through the inclined hole 14 is fixed on the third guide rail 11.

In the moving process of the first slider 3 along the second guide rail 10, the guide shaft 6 on the second slider 4 also moves along the first guide rail 5, when moving on the first inclined section 7, the second slider 4 moves relatively to the third guide rail 11, the driving shaft 16 passes through the inclined hole 14 and the vertical hole 15 successively, the clamping plate 13 moves to one side of the supporting plate 12 when passing through the inclined hole 14, the clamping plate 13 clamps the wire harness when passing through the vertical hole 15, the second slider 4 and the third guide rail 11 do not move relatively when the guide shaft 6 moves on the horizontal section 8, the clamping plate 13 and the supporting plate 12 always keep the clamping state, when the guide shaft 6 moves on the second inclined section 9, the second slider 4 and the third guide rail 11 move relatively, the driving shaft 16 passes through the vertical hole 15 and the inclined hole 14 successively, and the clamping plate 13 is far away from the supporting plate 12 when passing through the inclined hole 14, and the wire harness is released.

Further, the clamp further comprises four fixing columns 17 fixedly connected with the clamping plate 13, and the four fixing columns 17 are in sliding fit with the supporting plate 12.

Four fixed columns 17 form the rectangle, and fixed column 17 distributes on rectangular four angles, and carbon fiber pencil passes four fixed columns 17 with its tip when the centre gripping for fixed column 17 can carry out the spacing to the pencil, prevents to take place the dislocation at the centre gripping in-process.

Further, a translation mechanism is arranged on the rubberizing pool 1, and the output end of the translation mechanism is connected with the first slider 3.

The sliding block I3 is driven to move along the guide rail II 10 through the arranged translation mechanism, and the translation mechanism is arranged at the top of the glue coating pool 1 and cannot be immersed into glue solution.

Further, the translation mechanism comprises a screw rod 18 rotationally connected with the rubberizing pool 1, a threaded sleeve 19 fixedly connected with the first slider 3 is connected to the screw rod 18 in a threaded manner, and the threaded sleeve 19 is in sliding fit with the rubberizing pool 1.

Further, a motor 20 is mounted to the end of the screw 18.

Further, the screw sleeve 19 slides on a guide rail IV 21 fixedly connected with the rubberizing pond 1.

After the motor 20 is electrified, the screw rod 18 is driven to rotate, so that the threaded sleeve 19 and the first slider 3 are driven to slide along the fourth guide rail 21.

Further, two ends of the clamping plate 13 slide on a guide rail five 22 fixedly connected with the sliding block two 4.

So that the movement of the clamping plate 13 is more stable.

When the utility model is used, firstly, the state shown in fig. 1 is reached, then the end part of the wire harness passes through four fixed columns 17, the length of the wire harness passing through the fixed columns 17 is ensured to be larger, and then the motor 20 is started, so that the first slider 3 and the upper part thereof slide along the second guide rail 10;

in the moving process of the first slider 3 along the second guide rail 10, the guide shaft 6 on the second slider 4 also moves along the first guide rail 5, when the first guide rail 7 moves, the second slider 4 moves relatively to the third guide rail 11, the driving shaft 16 passes through the inclined hole 14 and the vertical hole 15 successively, the clamping plate 13 moves to one side of the supporting plate 12 when passing through the inclined hole 14, the clamping plate 13 clamps the wire harness when passing through the vertical hole 15, the second slider 4 and the third guide rail 11 do not move relatively when the guide shaft 6 moves on the horizontal section 8, the clamping plate 13 and the supporting plate 12 always keep a clamping state, when the second guide shaft 6 moves on the second inclined section 9, the second slider 4 and the third guide rail 11 move relatively, the driving shaft 16 passes through the vertical hole 15 and the inclined hole 14 successively, and the clamping plate 13 is far away from the supporting plate 12 when passing through the inclined hole 14, and the wire harness is released.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (10)

1. The carbon fiber harness gumming device is characterized by comprising a gumming pool (1) and a line pressing wheel (2); the device also comprises a first sliding block (3) sliding in the gluing pool (1), a second sliding block (4) sliding on the first sliding block (3), and a clamp fixed on the second sliding block (4).

2. The carbon fiber harness gumming device according to claim 1, further comprising a first guide rail (5) fixed in the gumming pool (1), wherein a guide hole is formed in the first guide rail (5), and a guide shaft (6) extending into the guide hole is fixed on the second slider (4).

3. The carbon fiber harness gumming device according to claim 2, wherein the first slider (3) slides on the second guide rail (10) fixedly connected with the gumming pool (1), the third guide rail (11) is fixed on the first slider (3), and the second slider (4) slides on the third guide rail (11).

4. A carbon fiber harness gumming device as claimed in claim 3, characterized in that the clamp comprises a support plate (12) fixed on the second slider (4), a clamping plate (13) sliding on the second slider (4), a connecting plate fixed on the clamping plate (13), an inclined hole (14) and a vertical hole (15) which are communicated with each other formed on the connecting plate, and a driving shaft (16) penetrating through the inclined hole (14) is fixed on the third guide rail (11).

5. The carbon fiber harness gumming device according to claim 4, wherein the clamp further comprises four fixing posts (17) fixedly connected with the clamping plate (13), and the four fixing posts (17) are in sliding fit with the supporting plate (12).

6. The carbon fiber harness gumming device according to claim 5, wherein a translation mechanism is arranged on the gumming pool (1), and the output end of the translation mechanism is connected with the first sliding block (3).

7. The carbon fiber harness gumming device according to claim 6, wherein the translation mechanism comprises a screw rod (18) rotationally connected with the gumming pool (1), a threaded sleeve (19) fixedly connected with the first sliding block (3) is connected on the screw rod (18) in a threaded manner, and the threaded sleeve (19) is in sliding fit with the gumming pool (1).

8. The carbon fiber harness gumming device as claimed in claim 7, wherein a motor (20) is mounted at the end of the screw (18).

9. The carbon fiber harness gumming device according to claim 8, wherein the screw sleeve (19) slides on a guide rail four (21) fixedly connected with the gumming pool (1).

10. The carbon fiber harness gumming device according to claim 9, wherein both ends of the clamping plate (13) slide on a guide rail five (22) fixedly connected with the slider two (4).

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