CN216004778U - Automatically-replaceable tow winding device for processing carbon fiber core-spun textile fabric - Google Patents

Abstract

A tow winding device for processing a carbon fiber core-spun textile capable of being automatically replaced relates to the technical field of carbon fiber processing equipment, wherein a first rotating rod positioned between supporting plates is correspondingly sleeved and fixed with a mounting disc in the front and back direction, a second rotating rod penetrates through the mounting disc by a bearing and is fixed with a square box, the other end of a third rotating rod penetrates through the supporting plates and is fixed with a square block, the square block is movably inserted in the square box, a clamping plate is rotatably connected in an opening on a winding roller by a rebound hinge, a first connecting rod is rotatably connected on a bottom plate by the rebound hinge, a first spring telescopic rod is fixedly arranged in the first connecting rod, a shifting plate is fixedly arranged on the output end of the first spring telescopic rod, a shifting hole is arranged on the outer side wall of the clamping plate, the shifting plate is movably arranged in the shifting hole, a guide box is fixed with the left side wall of the supporting plates corresponding to the front and back, a cutter is movably arranged in the guide box, an output shaft of a third motor is fixed with one end shaft of the second rotating roller by a coupling, reasonable in design can change around the roller automatically, uses manpower sparingly.

Description

Automatically-replaceable tow winding device for processing carbon fiber core-spun textile fabric

Technical Field

The utility model relates to the technical field of carbon fiber processing equipment, in particular to an automatically replaceable tow winding device for processing a carbon fiber core-spun textile.

Background

The carbon fiber tows are also called carbon fiber tows, carbon fiber woven tow cloth, carbon fiber prepreg tows, carbon fiber reinforced tows, carbon fiber woven tows, carbon fiber tow sheets and the like, and the carbon fiber tows are unidirectional carbon fiber reinforced products and are usually woven by 12K carbon fiber yarns; when traditional carbon fiber tow preparation, need carry out the rolling, adopt artifical supplementary rolling during general rolling, waste time and energy, reduce work efficiency, current tow coiling mechanism can not the automatic change around the roller.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects and shortcomings of the prior art, and provides the automatically replaceable tow winding device for processing the carbon fiber core-spun textile fabric, which is reasonable in design, capable of automatically replacing winding rollers and saving manpower.

In order to achieve the purpose, the utility model adopts the following technical scheme: the device comprises a bottom plate and supporting plates, wherein the supporting plates are correspondingly fixed on the bottom plate in the front and back directions; the device also comprises a first motor, a first rotating rod, a mounting disc, a winding roller, a second rotating rod, a square box, a first electric telescopic rod, a first connecting plate, a second motor, a third rotating rod, a square block, a clamping plate, a first connecting rod, a first spring telescopic rod, a shifting plate, a guide box, a second electric telescopic rod, a second connecting plate, a cutter, a third electric telescopic rod, a second connecting rod, a first mounting frame, a third motor and a second rotating roller, wherein the front side wall of the side support of the front support plate is fixedly provided with the first motor by a fixing frame, the output shaft of the first motor is fixedly connected with one end of the first rotating rod by a coupler, the other end of the first rotating rod penetrates through the support plate at the front side and is inserted into the support plate at the rear side by a bearing, the mounting disc is correspondingly sleeved and fixed on the first rotating rod between the support plates at the front and the rear sides, the front and rear side walls of the winding roller are fixedly provided with the second rotating rod, the second rotating rod penetrates through the mounting disc by the bearing, a square box is fixed, a first electric telescopic rod is fixed on the outer side wall of the front and the rear corresponding supporting plates, a first connecting plate is fixed on the output end of the first electric telescopic rod, a second motor is fixed on the first connecting plate, the output shaft of the second motor is fixed with one end of a third rotating rod by a coupler, the other end of the third rotating rod passes through the supporting plate and is fixed with a square block, the square block is movably inserted in the square box, a clamping plate is screwed in an opening on a winding roller by a resilience hinge, a first connecting rod is screwed on a bottom plate by the resilience hinge, a first spring telescopic rod is fixed in the first connecting rod, a shifting plate is fixed on the output end of the first spring telescopic rod, shifting holes are arranged on the outer side wall of the clamping plate, the shifting plate is movably arranged in the shifting holes, the guide box is fixed with the left side wall of the front and the rear corresponding supporting plates, second electric telescopic rods are fixed on the upper and the lower corresponding to the guide box, and a second connecting plate is fixed on the output end of the second electric telescopic rod, be fixed with the cutter on No. two connecting plates, the cutter activity is worn to establish in leading the box, it is fixed with electric telescopic handle No. three to lead on the box, be fixed with the connecting rod No. two on electric telescopic handle's the output, be fixed with the mounting bracket No. two on the connecting rod, utilize the mount to be fixed with the motor No. three on the lateral wall before the mount, the output shaft of motor No. three utilizes the shaft coupling to be fixed with a dead axle of roller No. two, a motor, an electric telescopic handle, No. two motors, electric telescopic handle No. two, electric telescopic handle No. three and the equal external power supply of motor No. three.

Preferably, a rubber anti-slip cushion layer is fixed on the shifting plate.

Preferably, universal wheels are fixed at the bottom of the bottom plate.

Preferably, No. two mounting brackets are fixed with the backup pad top that corresponds around with, are fixed with No. two spring telescopic links on No. two mounting brackets, and after No. two mounting brackets were passed to No. two spring telescopic link's output, be fixed with No. three mounting brackets, utilize the bearing activity to be provided with the commentaries on classics roller in No. three mounting brackets.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides an automatically replaceable tow winding device for processing a carbon fiber core-spun textile fabric, which is reasonable in design, can automatically replace winding rollers and saves labor.

Description of the drawings:

fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

FIG. 3 is a schematic view of a connecting structure of a mounting disc, a winding roller, a second rotating rod, a square box, a first electric telescopic rod, a first connecting plate, a second motor, a third rotating rod and a square block.

Fig. 4 is an enlarged view of a portion a in fig. 2.

Fig. 5 is an enlarged view of a portion B in fig. 2.

Description of reference numerals:

bottom plate 1, backup pad 2, a motor 3, bull stick 4, installation disc 5, around the winding roller 6, bull stick 7 No. two, square box 8, an electric telescopic handle 9, a connecting plate 10, No. two motors 11, No. three bull sticks 12, square 13, splint 14, connecting rod 15, a spring telescopic link 16, dial plate 17, dial hole 18, lead box 19, No. two electric telescopic handle 20, No. two connecting plates 21, cutter 22, No. three electric telescopic handle 23, No. two connecting rod 24, an installation frame 25, No. three motors 26, rubber skid resistant course 27, universal wheel 28, No. two installation framves 29, No. two spring telescopic links 30, No. three installation frames 31, a bull roll 32, No. two bull rolls 33.

The specific implementation mode is as follows:

the technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings, and the preferred embodiments in the description are only examples, and all other embodiments obtained by those skilled in the art without any inventive work belong to the protection scope of the present invention.

As shown in fig. 1 to 5, the following technical solutions are adopted in the present embodiment: the universal wheel type automobile seat comprises a bottom plate 1 and a support plate 2, wherein universal wheels 28 are fixedly riveted at the bottom of the bottom plate 1, and the support plate 2 is correspondingly riveted and fixed on the bottom plate 1 in a front-back manner; the device also comprises a first motor 3, a first rotating rod 4, mounting discs 5, a winding roller 6, a second rotating rod 7, a square box 8, a first electric telescopic rod 9, a first connecting plate 10, a second motor 11, a third rotating rod 12, a square block 13, a clamping plate 14, a first connecting rod 15, a first spring telescopic rod 16, a shifting plate 17, a guide box 19, a second electric telescopic rod 20, a second connecting plate 21, a cutter 22, a third electric telescopic rod 23, a second connecting rod 24, a first mounting frame 25, a third motor 26 and a second rotating roller 33, wherein the first motor 3 is fixed on the front side wall of the front side supporting plate 2 by using a fixing frame, an output shaft of the first motor 3 is fixed with one end of the first rotating rod 4 by using a coupler, the other end of the first rotating rod 4 passes through the front side supporting plate 2 and is inserted into the rear side supporting plate 2 by using a bearing, the mounting discs 5 are correspondingly sleeved and fixed on the first rotating rod 4 between the supporting plates 2 from front to back, a second rotating rod 7 is riveted and fixed on the front side wall and the rear side wall of a winding roller 6, after the second rotating rod 7 penetrates through an installation disc 5 by a bearing, a square box 8 is riveted and fixed, a first electric telescopic rod 9 is riveted and fixed on the outer side wall of a corresponding supporting plate 2 in the front and the rear, a first connecting plate 10 is riveted and fixed on the output end of the first electric telescopic rod 9, a second motor 11 is riveted and fixed on the first connecting plate 10, the output shaft of the second motor 11 is fixed with one end of a third rotating rod 12 by a coupler, after the other end of the third rotating rod 12 penetrates through the supporting plate 2, a square block 13 is riveted and fixed, the square block 13 is movably inserted in the square box 8, a clamping plate 14 is screwed and connected in an opening on the winding roller 6 by a resilience hinge, a first connecting rod 15 is screwed and fixed on a bottom plate 1 by a resilience hinge, a first spring telescopic rod 16 is riveted and fixed in the first connecting rod 15, and a shifting plate 17 is riveted and fixed on the output end of the first spring telescopic rod 16, a rubber anti-skid cushion layer 27 is fixedly bonded on the shifting plate 17, a shifting hole 18 is formed on the outer side wall of the clamping plate 14, the shifting plate 17 is movably arranged in the shifting hole 18, the guide box 19 is fixedly riveted with the left side wall of the supporting plate 2 corresponding to the front and the back, the guide box 19 is fixedly riveted with a second electric telescopic rod 20 corresponding to the upper and the lower parts of the guide box 19, a second connecting plate 21 is fixedly riveted on the output end of the second electric telescopic rod 20, a cutter 22 is fixedly riveted on the second connecting plate 21, the cutter 22 is movably arranged in the guide box 19 in a penetrating way, a third electric telescopic rod 23 is fixedly riveted on the guide box 19, a second connecting rod 24 is fixedly riveted on the output end of the third electric telescopic rod 23, a first mounting frame 25 is fixedly riveted on the second connecting rod 24, a third motor 26 is fixedly arranged on the front side wall of the mounting frame 25 by using a fixing frame, the output shaft of the third motor 26 is fixed with one end shaft of the second rotating roller 33 by using a shaft coupling, a second mounting frame 29 is fixedly riveted with the top of the supporting plate 2 corresponding to the front and the back, no. two spring telescopic rod 30 is riveted and fixed on No. two mounting brackets 29, and after No. two mounting brackets 29 were passed to No. two spring telescopic rod 30's output, riveting and fixing had No. three mounting brackets 31, utilized the bearing activity to be provided with a commentaries on classics roller 32 in No. three mounting brackets 31, No. 3 motor, an electric telescopic handle 9, No. two motor 11, No. two electric telescopic handle 20, No. three electric telescopic handle 23 and No. three motor 26 all external power supply.

The working principle of the specific embodiment is as follows: the filament bundle is arranged in a guide box 19 in a penetrating mode, a first rotating rod 4 is started to drive an installation disc 5 to rotate, the installation disc 5 drives a winding roller 6 to rotate, a shifting plate 17 is inserted into a shifting hole 18, the installation disc 5 continues to rotate, the shifting plate 17 pulls a clamping plate 14 to be opened, a third electric telescopic rod 23 is started to drive a second rotating roller 33 to descend and be attached to the surface of the filament bundle, a third motor 26 is started to drive the second rotating roller 33 to rotate, the filament bundle is driven to descend and extend into the winding roller 6, the installation disc 5 continues to rotate, the shifting plate 17 moves out of the shifting hole 18, the clamping plate 14 rebounds to clamp the filament bundle and then moves to the matching position of a square block 13 and the square block 8, a first electric telescopic rod 9 is started to drive the square block 13 to be inserted into the square block 8, a second motor 11 is started to drive the square block 13 to rotate, the winding roller 6 is driven to rotate, the filament bundle is wound, the first rotating roller 32 is attached to the filament bundle in the winding process, the filament bundle is wound more tightly, and after the filament bundle is wound, and starting the second electric telescopic rod 20 to drive the cutter 22 to move to the middle position, and cutting off the tows.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. the first motor 3, the mounting disc 5, the winding roller 6, the square box 8, the first electric telescopic rod 9, the second motor 11, the square block 13, the clamping plate 14, the shifting plate 17, the shifting hole 18, the guide box 19, the second electric telescopic rod 20, the cutter 22, the third electric telescopic rod 23, the third motor 26 and the second rotating roller 33 are matched, so that the winding roller 6 can be conveniently and automatically replaced, and the labor is saved;

2. the rubber anti-slip cushion layer 27 increases the friction force;

3. the universal wheels 28 are convenient to move;

4. the cooperation of No. two mounting brackets 29, No. two spring telescopic links 30, No. three mounting brackets 31 and commentaries on classics roller 32 can make the silk bundle tighten up more compactly.

It will be appreciated by those skilled in the art that modifications and equivalents may be made to the embodiments described above, and that various modifications, equivalents, improvements and the like may be made without departing from the spirit and scope of the utility model.

Claims (4)

1. A tow winding device capable of being automatically replaced and used for processing a carbon fiber core-spun textile fabric comprises a bottom plate (1) and supporting plates (2), wherein the supporting plates (2) are correspondingly fixed on the bottom plate (1) in a front-back mode; the method is characterized in that: the automatic winding machine further comprises a first motor (3), a first rotating rod (4), a mounting disc (5), a winding roller (6), a second rotating rod (7), a square box (8), a first electric telescopic rod (9), a first connecting plate (10), a second motor (11), a third rotating rod (12), a square block (13), a clamping plate (14), a first connecting rod (15), a first spring telescopic rod (16), a dial plate (17), a guide box (19), a second electric telescopic rod (20), a second connecting plate (21), a cutter (22), a third electric telescopic rod (23), a second connecting rod (24), a first mounting frame (25), a third motor (26) and a second rotating roller (33), wherein the first motor (3) is fixed on the front side wall of the front side supporting plate (2) by using a fixing frame, an output shaft of the first motor (3) is fixed with one end of the first rotating rod (4) by using a coupling, the other end of the first rotating rod (4) penetrates through the supporting plate (2) at the front side, the supporting plate (2) at the rear side is inserted by using a bearing, the first rotating rod (4) positioned between the supporting plates (2) is correspondingly sleeved and fixed with a mounting disc (5) front and back, the front side wall and the back side wall of the winding roller (6) are respectively fixed with a second rotating rod (7), the second rotating rod (7) penetrates through the mounting disc (5) by using a bearing and is fixed with a square box (8), the outer side walls of the front and back corresponding supporting plates (2) are respectively fixed with a first electric telescopic rod (9), the output end of the first electric telescopic rod (9) is fixed with a first connecting plate (10), the first connecting plate (10) is fixed with a second motor (11), the output shaft of the second motor (11) is fixed with one end of a third rotating rod (12) by using a coupler, the other end of the third rotating rod (12) penetrates through the supporting plate (2), a square block (13) is fixed, the square block (13) is movably inserted in a square box (8), a clamping plate (14) is screwed in an opening on a winding roller (6) by a resilience hinge, a first connecting rod (15) is screwed on a bottom plate (1) by the resilience hinge, a first spring telescopic rod (16) is fixed in the first connecting rod (15), a shifting plate (17) is fixed on the output end of the first spring telescopic rod (16), a shifting hole (18) is arranged on the outer side wall of the clamping plate (14), the shifting plate (17) is movably arranged in the shifting hole (18), a guide box (19) is fixed with the left side wall of a front and back corresponding supporting plate (2), a second electric telescopic rod (20) is correspondingly fixed on the upper and lower parts of the guide box (19), a second connecting plate (21) is fixed on the output end of the second electric telescopic rod (20), a cutter (22) is fixed on the second connecting plate (21), and the cutter (22) is movably arranged in the guide box (19), lead and be fixed with electric telescopic handle (23) No. three on box (19), be fixed with connecting rod (24) No. two on the output of electric telescopic handle (23) No. three, be fixed with mounting bracket (25) on connecting rod (24) No. two, utilize the mount to be fixed with motor (26) No. three on the lateral wall before mounting bracket (25), the output shaft of motor (26) No. three utilizes the shaft coupling to be fixed with the one end axle of roller (33) No. two, motor (3), electric telescopic handle (9) No. one, motor (11) No. two, electric telescopic handle (20), equal external power supply of electric telescopic handle (23) No. three and motor (26).

2. The tow winding device capable of being automatically replaced for processing the carbon fiber core-spun textile fabric, according to claim 1, is characterized in that: a rubber anti-skid pad layer (27) is fixed on the shifting plate (17).

3. The tow winding device capable of being automatically replaced for processing the carbon fiber core-spun textile fabric, according to claim 1, is characterized in that: the bottom of the bottom plate (1) is fixed with universal wheels (28).

4. The tow winding device capable of being automatically replaced for processing the carbon fiber core-spun textile fabric, according to claim 1, is characterized in that: no. two mounting bracket (29) are fixed with backup pad (2) top that correspond around with, are fixed with No. two spring telescopic rod (30) on No. two mounting bracket (29), and the output of No. two spring telescopic rod (30) passes No. two mounting bracket (29) backs, is fixed with No. three mounting bracket (31), utilizes the bearing activity to be provided with commentaries on classics roller (32) in No. three mounting bracket (31).

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