CN113697595A

CN113697595A - Glass fiber yarn winding component device

Info

Publication number: CN113697595A
Application number: CN202110978360.9A
Authority: CN
Inventors: 戴艳珍
Original assignee: Individual
Current assignee: Anhui Yunzhu New Material Technology Co ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2021-11-26
Anticipated expiration: 2041-08-25
Also published as: CN113697595B

Abstract

The invention relates to a component device, in particular to a glass fiber yarn winding component device. The technical problems to be solved by the invention are as follows: the utility model provides a can cut off glass fiber yarn automatically, can guarantee that glass fiber yarn volume of yarn volume is unanimous glass fiber yarn winding weight device. The utility model provides a fine yarn winding weight device of glass, is including connection frame, fixed plate, go-between, drive mechanism and clamp material mechanism, and the both sides of connection frame inside all have the fixed plate through the bolt rigid coupling, all are connected with the go-between on the fixed plate, are equipped with between one side of go-between and connection frame to be used for driving the fine yarn winding drive mechanism of glass, are equipped with the clamp material mechanism that is used for pressing from both sides tight fine yarn between fixed plate one side. Through control sliding connection board, just can make rotary cutter cut the fine yarn of glass to need not artifical hand and holding the scissors and cutting the fine yarn of glass, and can guarantee that the incision is level and smooth.

Description

Glass fiber yarn winding component device

Technical Field

The invention relates to a component device, in particular to a glass fiber yarn winding component device.

Background

The fine yarn of glass when production, can be directly with the fine yarn winding of glass who produces on a big winding section of thick bamboo, when needs use the fine yarn of glass, just need carry out the weight to the fine yarn of glass, and generally carry out the weight to the fine yarn of glass, need artifically to wind the fine yarn of glass on a little winding section of thick bamboo, then control little winding section of thick bamboo rotation for the fine yarn of glass is wound on a little winding section of thick bamboo, treats that the fine yarn of glass is wound to a volume time, breaks off the fine yarn of glass with the scissors. Such an operation requires a lot of manpower, and the cut of the scissors cannot be kept flat, and the consistent amount of the glass fiber component cannot be ensured.

Therefore, it is desired to develop a device for winding a component of a glass yarn, which can automatically cut the glass yarn and ensure the uniformity of the component of the glass yarn.

Disclosure of Invention

Need consume more manpower in order to overcome to carry out the weight to the fine yarn of glass to the incision of scissors can not keep leveling, can not guarantee the unanimous shortcoming of the volume of the fine weight of glass moreover, technical problem: the utility model provides a can cut off glass fiber yarn automatically, can guarantee that glass fiber yarn volume of yarn volume is unanimous glass fiber yarn winding weight device.

The technical scheme is as follows: the utility model provides a fine yarn winding weight device of glass, is including connection frame, fixed plate, go-between, drive mechanism and clamp material mechanism, and the both sides of connection frame inside all have the fixed plate through the bolt rigid coupling, all are connected with the go-between on the fixed plate, are equipped with between one side of go-between and connection frame to be used for driving the fine yarn winding drive mechanism of glass, are equipped with the clamp material mechanism that is used for pressing from both sides tight fine yarn between fixed plate one side.

Optionally, the driving mechanism comprises a motor, a rotary driving ring and a transmission assembly, the motor is arranged on the connecting frame, the connecting ring is connected with the rotary driving ring in a rotary mode, a winding drum can be placed between the rotary driving ring, and the rotary driving ring is connected with the transmission assembly between output shafts on two sides of the motor respectively.

Optionally, the clamping mechanism comprises a first placing plate, a first sliding sleeve, a sliding clamping plate and a first spring, the first placing plate is connected between the fixing plates, the first sliding sleeve is connected to both sides of the first placing plate, the sliding clamping plate is connected between the first sliding sleeves in a sliding manner, the first spring is connected between the sliding clamping plate and the first sliding sleeve, and the first spring is sleeved on the sliding clamping plate.

Optionally, the cutting machine further comprises a cutting mechanism, the cutting mechanism comprises a first connecting rod, a sliding connection plate, a rotary cutting knife, a second spring and a second placing plate, the first placing plate is connected with the first connecting rod, the sliding connection plate is connected with the sliding connection plate in a sliding mode, the sliding connection plate is connected with the rotary cutting knife, two second springs are connected between the sliding connection plate and the first connecting rod, and the first placing plate is connected with the second placing plate.

Optionally, the automatic mechanism further comprises an automatic mechanism, the automatic mechanism comprises a second connecting rod, a first inclined driving plate, a third spring and a second inclined driving plate, the second connecting rod is connected to the first connecting rod, the first inclined driving plate is connected to the second connecting rod in a sliding mode, the first inclined driving plate is connected with the sliding connecting plate, the third spring is connected between the first inclined driving plate and the second connecting rod, the second inclined driving plate is connected to the sliding clamping plate, and the second inclined driving plate is matched with the first inclined driving plate.

Optionally, the locking mechanism further comprises a third connecting rod, a rotary clamping rod and a torsion spring, the third connecting rod is connected to the first connecting rod, the rotary clamping rod is rotatably connected to the third connecting rod and matched with the sliding connecting plate, and the torsion spring is connected between the rotary clamping rod and the third connecting rod.

Optionally, the vehicle-mounted locking device further comprises an unlocking mechanism, the unlocking mechanism comprises a second sliding sleeve, a first sliding driving plate, a fourth spring, a fourth connecting rod, a second sliding driving plate and a fifth spring, the second sliding sleeve is connected between the connecting rings, the first sliding driving plate is connected on the second sliding sleeve in a sliding mode, the fourth spring is connected between the first sliding driving plate and the second sliding sleeve, the fourth connecting rod is fixedly connected on the second sliding sleeve through bolts, the second sliding driving plate is connected on the fourth connecting rod in a sliding mode, the second sliding driving plate is matched with the first sliding driving plate, the second sliding driving plate is matched with the rotary clamping rod, and the fifth spring is connected between the second sliding driving plate and the fourth connecting rod.

Optionally, the electric vehicle further comprises a closing mechanism, the closing mechanism comprises a fifth connecting rod, a third sliding driving plate and a sixth spring, the fifth connecting rod is fixedly connected to the second sliding sleeve through a bolt, the third sliding driving plate is connected to the fifth connecting rod in a sliding mode and matched with the first sliding driving plate, the third sliding driving plate is matched with the motor switch, and the sixth spring is connected between the third sliding driving plate and the fifth connecting rod.

The invention has the beneficial effects that: 1. through control sliding connection board, just can make rotary cutter cut the fine yarn of glass to need not artifical hand and holding the scissors and cutting the fine yarn of glass, and can guarantee that the incision is level and smooth.

2. When the sliding connecting plate is pulled to move towards the front side, the sliding clamping plate can move upwards through the matching of the first inclined plane driving plate and the second inclined plane driving plate, so that the sliding clamping plate does not need to be manually controlled to move upwards; after the fine yarn winding weight of glass was accomplished, no longer control sliding connection board, the clamping plate that slides this moment just can automatic downstream with the fine yarn clamp fastening of glass fixed, and then when making rotary cutter cut the fine yarn of glass, the fine yarn of glass just can be fixed automatically, and then makes the cutting effect better.

3. Through sliding connection board and rotatory screens pole cooperation, and then make rotatory screens pole can block sliding connection board, alright this moment need not the artifical fixed sliding connection board that always controls.

4. The fine yarn of glass is when constantly twining, through first slip driving plate and the cooperation of second slip driving plate, just can drive rotatory screens pole automatically and carry out anticlockwise rotation to make the fine yarn of glass twine when certain weight, just can be automatic to the fixed cutting of fine yarn of glass, thereby need not artifical judgement winding weight, and then can guarantee that the volume of winding weight at every turn is unanimous.

5. When the glass fiber yarn is continuously wound, the first sliding driving plate is matched with the third sliding driving plate, the motor switch can be automatically pressed downwards, so that the motor automatically stops operating, and when the glass fiber yarn is wound to a certain weight, the winding of the glass fiber yarn is automatically stopped.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a schematic view of a first three-dimensional structure of the driving mechanism of the present invention.

Fig. 4 is a schematic perspective view of a second driving mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a first material clamping mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a second material clamping mechanism of the present invention.

Fig. 7 is a schematic perspective view of a first cutting mechanism according to the present invention.

Fig. 8 is a schematic perspective view of a second cutting mechanism according to the present invention.

Fig. 9 is a first perspective view of the robot of the present invention.

Fig. 10 is a schematic perspective view of a second automatic mechanism of the present invention.

Fig. 11 is a first perspective view of the locking mechanism of the present invention.

Fig. 12 is a schematic perspective view of a second embodiment of the locking mechanism of the present invention.

Fig. 13 is a schematic perspective view of a first unlocking mechanism according to the present invention.

Fig. 14 is a schematic perspective view of a second unlocking mechanism of the present invention.

Fig. 15 is a schematic perspective view of a first embodiment of the closure mechanism of the present invention.

Fig. 16 is a schematic perspective view of a second embodiment of the closure mechanism of the present invention.

Description of reference numerals: 1_ connecting frame, 2_ fixed plate, 3_ connecting ring, 4_ driving mechanism, 41_ motor, 42_ rotary driving ring, 43_ transmission assembly, 5_ clamping mechanism, 51_ first placing plate, 52_ first sliding sleeve, 53_ sliding clamping plate, 54_ first spring, 6_ cutting mechanism, 61_ first connecting rod, 62_ sliding connecting plate, 63_ rotary cutter, 64_ second spring, 65_ second placing plate, 7_ automatic mechanism, 71_ second connecting rod, 72_ first inclined driving plate, 73_ third spring, 74_ second inclined driving plate, 8_ locking mechanism, 81_ third connecting rod, 82_ rotary clamping rod, 83_ torsion spring, 9_ unlocking mechanism, 91_ second sliding sleeve, 92_ first sliding driving plate, 93_ fourth spring, 94_ fourth connecting rod, 95_ second sliding driving plate, 96_ fifth spring, 10_ closing mechanism, 101_ fifth connecting rod, 102_ third sliding driver plate, 103_ sixth spring.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

A glass fiber yarn winding component device is shown in figures 1-6 and comprises a connecting frame 1, a fixing plate 2, a connecting ring 3, a driving mechanism 4 and a clamping mechanism 5, wherein the fixing plate 2 is fixedly connected to the front side and the rear side of the inside of the connecting frame 1 through bolts, the connecting ring 3 is connected to the inner side of the upper portion of the fixing plate 2, the driving mechanism 4 is arranged between the connecting ring 3 and the left side of the connecting frame 1, and the clamping mechanism 5 is arranged between the right side of the fixing plate 2.

When needs are to the fine yarn winding weight of glass, pass the fine yarn of glass and press from both sides 5 windings of material mechanism on the winding section of thick bamboo, place the winding section of thick bamboo on drive mechanism 4 afterwards, then start drive mechanism 4, drive mechanism 4 just can drive the winding section of thick bamboo and rotate, and then make the fine yarn winding of glass, when the fine yarn winding of glass to a certain amount, alright close drive mechanism 4, then control presss from both sides material mechanism 5 and cliies the fine yarn of glass, and then make things convenient for people to cut the fine yarn of glass, alright take out the fine yarn of glass of winding weight after the cutting, above-mentioned operation of repetition afterwards can.

The driving mechanism 4 comprises a motor 41, a rotary driving ring 42 and a transmission assembly 43, the motor 41 is arranged on the inner side of the left part of the connecting frame 1, the inner side of the connecting ring 3 is rotatably connected with the rotary driving ring 42, a winding drum can be placed between the rotary driving ring 42, the outer side of the rotary driving ring 42 is respectively connected with the transmission assembly 43 between output shafts on two sides of the motor 41, the transmission assembly 43 is respectively composed of two belt pulleys and a flat belt, one belt pulley is installed on the rotary driving ring 42, the other belt pulley is installed on the output shaft of the motor 41, and the flat belt is wound between the two belt pulleys.

The clamping mechanism 5 comprises a first placing plate 51, a first sliding sleeve 52, a sliding clamping plate 53 and a first spring 54, the first placing plate 51 is connected between the right sides of the fixing plates 2, the front side and the rear side of the upper portion of the first placing plate 51 are both connected with the first sliding sleeve 52, the sliding clamping plate 53 is connected between the first sliding sleeve 52 in a sliding mode, the first spring 54 is connected between the sliding clamping plate 53 and the upper side of the first sliding sleeve 52, and the first spring 54 is sleeved on the sliding clamping plate 53.

When the component of the glass fiber yarn needs to be wound, the sliding clamping plate 53 is controlled to move upwards, the first spring 54 is stretched, then the glass fiber yarn can pass through the first placing plate 51 and the sliding clamping plate 53, then the glass fiber yarn which passes through can be wound and wound on the winding drum, then the winding drum is placed between the rotating driving rings 42, the motor 41 is started, the motor 41 can drive the transmission component 43 to operate through the output shaft, further the rotating driving rings 42 rotate, further the winding drum can be driven to rotate, further the glass fiber yarn is wound, when the glass fiber yarn is wound to a certain amount, the motor 41 can be closed, then the sliding clamping plate 53 is not controlled any more, at the moment, the first spring 54 retracts to drive the sliding clamping plate 53 to move downwards, further the sliding clamping plate 53 clamps the glass fiber yarn, so that people can conveniently cut the glass fiber yarn, and then the glass fiber yarn with the wound component can be taken out, and then repeating the above operation.

Example 2

In addition to embodiment 1, as shown in fig. 2, 7, 8, 9, 10, 11, 12, 13, 14, 15 and 16, the cutting machine 6 further includes a cutting mechanism 6, the cutting mechanism 6 includes a first connecting rod 61, a sliding connecting plate 62, a rotary cutter 63, a second spring 64 and a second placing plate 65, the first connecting rod 61 is connected to the middle of the first placing plate 51, the sliding connecting plate 62 is slidably connected to the upper portion of the first connecting rod 61, the rotary cutter 63 is connected to the lower side of the sliding connecting plate 62, two left and right second springs 64 are connected between the sliding connecting plate 62 and the rear side of the first connecting rod 61, and the second placing plate 65 is connected to the upper portion of the first placing plate 51.

When needs are to the fine yarn winding weight of glass, can pull sliding connection board 62 and remove to the front side, make second spring 64 stretched, after fine yarn winding weight of glass is accomplished, alright no longer control sliding connection board 62, second spring 64 contracts this moment and drives sliding connection board 62 and move to the rear side and reset, sliding connection board 62 is when removing to the rear side, still can drive shear knife 63 and remove to the rear side, and then make shear knife 63 cut the fine yarn of glass, thereby need not the manual work and hold the scissors and cut the fine yarn of glass, and then reduce manual operation's trouble.

The automatic mechanism 7 comprises a second connecting rod 71, a first inclined driving plate 72, a third spring 73 and a second inclined driving plate 74, the second connecting rod 71 is connected to the right side of the upper portion of the first connecting rod 61, the first inclined driving plate 72 is connected to the second connecting rod 71 in a sliding mode, the first inclined driving plate 72 is connected with the sliding connecting plate 62, the third spring 73 is connected between the first inclined driving plate 72 and the rear side of the second connecting rod 71, the second inclined driving plate 74 is connected to the upper side of the front portion of the sliding clamping plate 53, and the second inclined driving plate 74 is matched with the first inclined driving plate 72.

When the sliding connecting plate 62 is pulled to move forwards, the first inclined driving plate 72 is also driven to move forwards, the third spring 73 is stretched, and when the first inclined driving plate 72 moves to be in contact with the second inclined driving plate 74, the second inclined driving plate 74 is driven to move upwards, so that the sliding clamping plate 53 moves upwards, and the sliding clamping plate 53 does not need to be controlled to move upwards manually; after the fine yarn winding weight of glass accomplished, no longer control sliding connection board 62, sliding connection board 62 moves to the rear side automatically this moment and resets, and the third spring 73 retracts and drives first slope driving plate 72 and moves to the rear side and resets simultaneously, and first slope driving plate 72 moves to the rear side and can break away from with second slope driving plate 74, and sliding clamping plate 53 just can automatic lapse and fix the fine yarn clamp of glass, and second slope driving plate 74 moves to the lapse and resets, and then when making rotary cutting knife 63 cut the fine yarn of glass, the fine yarn of glass just can be fixed automatically, and then make the cutting effect better.

The locking mechanism 8 comprises a third connecting rod 81, a rotary clamping rod 82 and a torsion spring 83, the third connecting rod 81 is connected to the left side of the front portion of the first connecting rod 61, the rotary clamping rod 82 is rotatably connected to the rear side of the upper portion of the third connecting rod 81, the rotary clamping rod 82 is matched with the sliding connecting plate 62, and the torsion spring 83 is connected between the rotary clamping rod 82 and the third connecting rod 81.

When the sliding connecting plate 62 is pulled to move towards the front side, the sliding connecting plate 62 is in contact with the rotary clamping rod 82, the rear side of the rotary clamping rod 82 is an inclined surface, the rotary clamping rod 82 is driven to rotate anticlockwise, the torsion spring 83 deforms, when the sliding connecting plate 62 moves to be separated from the rotary clamping rod 82, the torsion spring 83 restores to drive the rotary clamping rod 82 to rotate reversely and reset, the rotary clamping rod 82 clamps the sliding connecting plate 62, and at the moment, the sliding connecting plate 62 can be fixed without manual control all the time; after the fine yarn winding weight of glass is accomplished, steerable rotatory screens pole 82 carries out anticlockwise rotation, when rotatory screens pole 82 rotatory to break away from with sliding connection board 62, sliding connection board 62 just can be automatic moves to the rear side and resets, alright fixed cutting to fine yarn of glass this moment voluntarily, no longer control rotatory screens pole 82 afterwards, torsion spring 83 recovers and drives rotatory screens pole 82 reverse rotation and reset.

The unlocking mechanism 9 is further included, the unlocking mechanism 9 includes a second sliding sleeve 91, a first sliding driving plate 92, a fourth spring 93, a fourth connecting rod 94, a second sliding driving plate 95 and a fifth spring 96, the second sliding sleeve 91 is connected between the lower portions of the connecting rings 3, the first sliding driving plate 92 is connected to the middle portion of the second sliding sleeve 91 in a sliding mode, the fourth spring 93 is connected between the first sliding driving plate 92 and the second sliding sleeve 91, the fourth connecting rod 94 is fixedly connected to the lower side of the second sliding sleeve 91 through bolts, the second sliding driving plate 95 is connected to the right portion of the fourth connecting rod 94 in a sliding mode, the second sliding driving plate 95 is matched with the first sliding driving plate 92, the second sliding driving plate 95 is matched with the rotary clamping rod 82, and the fifth spring 96 is connected between the second sliding driving plate 95 and the fourth connecting rod 94.

When the glass fiber yarns are continuously wound, the first sliding driving plate 92 is continuously pressed to move downwards, the fourth spring 93 is compressed, when the first sliding driving plate 92 moves to be in contact with the second sliding driving plate 95, the second sliding driving plate 95 is driven to move downwards, the fifth spring 96 is compressed, so that the second sliding driving plate 95 presses the left side of the rotating clamping rod 82 downwards, the rotating clamping rod 82 is driven to rotate anticlockwise, the glass fiber yarns are automatically and fixedly cut when wound to a certain weight, winding weight does not need to be manually judged, and the uniformity of winding weight can be ensured; after the winding component of the glass fiber yarns is finished, the glass fiber yarns with the winding component are taken out, at the moment, the fourth spring 93 rebounds to drive the first sliding driving plate 92 to move upwards for resetting, the fifth spring 96 rebounds to drive the second sliding driving plate 95 to move upwards for resetting, and the rotary clamping rod 82 can automatically rotate reversely for resetting.

The closing mechanism 10 comprises a fifth connecting rod 101, a third sliding driving plate 102 and a sixth spring 103, the fifth connecting rod 101 is fixedly connected to the lower side of the second sliding sleeve 91 through bolts, the third sliding driving plate 102 is connected to the left side of the fifth connecting rod 101 in a sliding mode, the third sliding driving plate 102 is matched with the first sliding driving plate 92, the third sliding driving plate 102 is matched with the motor 41 in a switching mode, and the sixth spring 103 is connected between the third sliding driving plate 102 and the fifth connecting rod 101.

When the glass fiber yarn is continuously wound, the first sliding driving plate 92 is continuously pressed to move downwards, the fourth spring 93 is compressed, when the first sliding driving plate 92 moves to be in contact with the third sliding driving plate 102, the third sliding driving plate 102 is driven to move downwards, the sixth spring 103 is compressed, so that the third sliding driving plate 102 presses the motor 41 to be switched downwards, the motor 41 automatically stops operating at the moment, and further, when the glass fiber yarn is wound to a certain weight, the winding of the glass fiber yarn is automatically stopped; after the glass fiber yarns with winding components are taken out, the fourth spring 93 rebounds to drive the first sliding driving plate 92 to move upwards for resetting, the sixth spring 103 rebounds to drive the third sliding driving plate 102 to move upwards for resetting, at the moment, the third sliding driving plate 102 can be separated from the switch of the motor 41, and when the motor 41 needs to be started again, the switch of the motor 41 is manually pressed again.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims

1. The utility model provides a fine yarn winding weight device of glass, a serial communication port, including connection frame (1), fixed plate (2), go-between (3), drive mechanism (4) and clamp material mechanism (5), the inside both sides of connection frame (1) all have fixed plate (2) through the bolt rigid coupling, all be connected with go-between (3) on fixed plate (2), be equipped with between one side of go-between (3) and connection frame (1) and be used for driving fine yarn winding drive mechanism (4) of glass, be equipped with between fixed plate (2) one side and be used for pressing from both sides the clamp material mechanism (5) of tight fine yarn of glass.

2. The glass fiber yarn winding component device according to claim 1, wherein the driving mechanism (4) comprises a motor (41), a rotary driving ring (42) and a transmission assembly (43), the motor (41) is arranged on the connecting frame (1), the rotary driving rings (42) are rotatably connected to the connecting ring (3), a winding drum can be placed between the rotary driving rings (42), and the transmission assembly (43) is connected between each rotary driving ring (42) and the output shaft at two sides of the motor (41).

3. The glass fiber yarn winding component device according to claim 2, wherein the clamping mechanism (5) comprises a first placing plate (51), a first sliding sleeve (52), a sliding clamping plate (53) and a first spring (54), the first placing plate (51) is connected between the fixing plates (2), the first sliding sleeve (52) is connected to both sides of the first placing plate (51), the sliding clamping plate (53) is connected between the first sliding sleeve (52), the first spring (54) is connected between the sliding clamping plate (53) and the first sliding sleeve (52), and the first spring (54) is sleeved on the sliding clamping plate (53).

4. The glass fiber yarn winding component device according to claim 3, further comprising a cutting mechanism (6), wherein the cutting mechanism (6) comprises a first connecting rod (61), a sliding connecting plate (62), a rotary cutter (63), a second spring (64) and a second placing plate (65), the first placing plate (51) is connected with the first connecting rod (61), the sliding connecting plate (62) is slidably connected on the first connecting rod (61), the rotary cutter (63) is connected on the sliding connecting plate (62), two second springs (64) are connected between the sliding connecting plate (62) and the first connecting rod (61), and the second placing plate (65) is connected on the first placing plate (51).

5. The fiberglass yarn winding component device according to claim 4, characterized in that, the device further comprises an automatic mechanism (7), the automatic mechanism (7) comprises a second connecting rod (71), a first inclined driving plate (72), a third spring (73) and a second inclined driving plate (74), the second connecting rod (71) is connected to the first connecting rod (61), the first inclined driving plate (72) is slidably connected to the second connecting rod (71), the first inclined driving plate (72) is connected to the sliding connecting plate (62), the third spring (73) is connected between the first inclined driving plate (72) and the second connecting rod (71), the second inclined driving plate (74) is connected to the sliding clamping plate (53), and the second inclined driving plate (74) is matched with the first inclined driving plate (72).

6. The glass fiber yarn winding component device according to claim 5, further comprising a locking mechanism (8), wherein the locking mechanism (8) comprises a third connecting rod (81), a rotary clamping rod (82) and a torsion spring (83), the third connecting rod (81) is connected to the first connecting rod (61), the rotary clamping rod (82) is rotatably connected to the third connecting rod (81), the rotary clamping rod (82) is matched with the sliding connection plate (62), and the torsion spring (83) is connected between the rotary clamping rod (82) and the third connecting rod (81).

7. The cellophane yarn winding component device according to claim 6, further comprising an unlocking mechanism (9), wherein the unlocking mechanism (9) comprises a second sliding sleeve (91), a first sliding driving plate (92), a fourth spring (93), a fourth connecting rod (94), a second sliding driving plate (95) and a fifth spring (96), the second sliding sleeve (91) is connected between the connecting rings (3), the first sliding driving plate (92) is slidably connected on the second sliding sleeve (91), the fourth spring (93) is connected between the first sliding driving plate (92) and the second sliding sleeve (91), the fourth connecting rod (94) is fixedly connected on the second sliding sleeve (91) through bolts, the second sliding driving plate (95) is slidably connected on the fourth connecting rod (94), the second sliding driving plate (95) is matched with the first sliding driving plate (92), the second sliding driving plate (95) is matched with the rotary clamping rod (82), a fifth spring (96) is connected between the second sliding driving plate (95) and the fourth connecting rod (94).

8. A cellophane yarn winding component device according to claim 7, further comprising a closing mechanism (10), wherein the closing mechanism (10) comprises a fifth connecting rod (101), a third sliding driving plate (102) and a sixth spring (103), the fifth connecting rod (101) is fixedly connected to the second sliding sleeve (91) through a bolt, the third sliding driving plate (102) is slidably connected to the fifth connecting rod (101), the third sliding driving plate (102) is matched with the first sliding driving plate (92), the third sliding driving plate (102) is matched with a switch of the motor (41), and the sixth spring (103) is connected between the third sliding driving plate (102) and the fifth connecting rod (101).