CN110897241B

CN110897241B - Clothes peg mechanism for clothing production line

Info

Publication number: CN110897241B
Application number: CN201911313977.8A
Authority: CN
Inventors: 林谋; 莫艳余; 童小鸾
Original assignee: Individual
Current assignee: Sichuan Xiangheniao Fashion Co ltd
Priority date: 2018-09-27
Filing date: 2018-09-27
Publication date: 2021-08-03
Anticipated expiration: 2038-09-27
Also published as: CN110973750A; CN110973750B; CN110897241A; CN109171084A; CN109171084B

Abstract

The invention belongs to the technical field of clothing machinery, and particularly relates to a clothes peg mechanism for a clothing production line, which comprises a first V-shaped plate, a second V-shaped plate, a one-way clutch ring, a volute spiral spring and a limiting mechanism, wherein a worker only needs to lift clothes between the first V-shaped plate and the second V-shaped plate, and can put down the clothes by touching a temporary straight plate to be slightly jacked up when lifting the clothes. For taking off the clothes, a worker only needs to pull the clothes out between the first elastic wheel and the second elastic wheel, and after the clothes are completely pulled out, the clothes-peg device can automatically return to the state of not clipping the clothes for the next reuse. In a word, the clothes-peg device of the invention is used only by two actions of lifting clothes and taking down clothes, thus greatly simplifying the traditional actions of hanging clothes and taking down clothes of workers, and achieving the purposes of improving working efficiency and increasing yield.

Description

Clothes peg mechanism for clothing production line

Technical Field

The invention belongs to the technical field of garment machinery, and particularly relates to a clothes peg mechanism for a garment production line.

Background

At present, the garment factory is completely in streamline operation, the production efficiency of the garment factory is greatly improved by the streamline operation mode, and workers can also perform streamline operation. In the streamlined production of clothes, workers need to take down clothes from a clothes hanger on a production line when cutting and sewing the clothes each time; after the worker finishes cutting and sewing, the clothes are hung on the clothes hanger on the production line. However, the action flow of taking off and hanging on the clothes rack on the traditional assembly line is not very simple, and workers sometimes need to look at the clothes rack to operate. In order to simplify the operation flow of taking off and hanging on the clothes rack on the traditional production line and improve the working efficiency of workers, a clothes clamping device capable of quickly taking off and hanging on the clothes is needed to be designed.

The invention designs a clothes-pin mechanism for a clothing production line to solve the problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses a clothes-pin mechanism for a clothes production line, which is realized by adopting the following technical scheme.

In the description of the present invention, it should be noted that the terms "inside", "below", "upper" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention usually place when using, and are only used for convenience of description and simplification of description, but do not indicate or imply that the devices or elements indicated must have a specific orientation, be constructed in a specific orientation or be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

The utility model provides a clothes peg mechanism for clothing production line which characterized in that: the device comprises a first V-shaped plate, a second V-shaped plate, a total fixing plate, a first gear, a second gear, a first supporting plate, a first belt pulley, a first belt, a second supporting plate, a first elastic wheel, a second belt pulley, a second elastic wheel, a third supporting plate, a plate spring, a balance weight, a first supporting plate, a second supporting plate, a first rotating shaft, a one-way clutch ring, a fixing shaft, an expansion rod, a third gear, a fourth gear, a second rotating shaft, a supporting block, a volute spiral spring, a connecting block, a fourth rotating shaft, a third rotating shaft and a limiting mechanism, wherein the first fixing plate is provided with a round hole; the first rotating shaft is arranged in a circular hole of the first fixing plate through a bearing; a one-way clutch ring is arranged on the first rotating shaft; the first gear is arranged on the outer circular surface of the one-way clutch ring; the first V-shaped plate is composed of a first side plate A and a first side plate B; the second V-shaped plate is composed of a second side plate A and a second side plate B; two first support plates are symmetrically arranged on the side surface of one end of the first side plate A, which is far away from the first side plate B; the two first support plates are both arranged on the first rotating shaft through bearings; the first gear is positioned between the two first supporting plates; two second support plates are symmetrically arranged on the side surface of one end, far away from the second side plate B, of the second side plate A; the two second support plates are fixedly arranged on the first rotating shaft; the two first support plates are positioned between the two second support plates; the first V-shaped plate and the second V-shaped plate are symmetrically distributed on two sides of the first gear.

The first supporting plate is arranged on the side surface of the first side plate A and is close to the first supporting plate; one end of the fixed shaft is fixedly arranged on the first supporting plate; the third gear is arranged on the outer circular surface of one end of the fixed shaft, which is far away from the first supporting plate, through a bearing; the volute spiral spring is nested on the fixed shaft, one end of the volute spiral spring is arranged on the outer circular surface of the fixed shaft, and the other end of the volute spiral spring is arranged on the side surface, far away from the first supporting plate, of the third gear through the connecting block; the outer circular surface of the fixed shaft between the third gear and the first supporting plate is provided with a section of external thread; the inner circular surface of the second gear is provided with internal threads; the second gear is arranged on the external thread of the fixed shaft in a thread matching mode; one end of each of the three telescopic rods is arranged on the side surface of the third gear, and the other end of each of the three telescopic rods is arranged on the side surface of the second gear; the three telescopic rods are uniformly distributed along the circumferential direction; the second gear is matched with the first gear; the supporting block is arranged on the lower surface of the first supporting plate; the second rotating shaft is arranged in the circular hole of the supporting block through a bearing, and two ends of the second rotating shaft penetrate through the supporting block; one end of the second rotating shaft is fixedly provided with a first belt pulley, and the other end of the second rotating shaft is fixedly provided with a fourth gear; the fourth gear is meshed with the third gear.

The second supporting plate is arranged on one end side of the first side plate B far away from the first side plate A; the third rotating shaft is arranged in a circular hole of the second supporting plate through a bearing, and two ends of the third rotating shaft penetrate through the second supporting plate; one end of the third rotating shaft is fixedly provided with a second belt pulley, and the other end of the third rotating shaft is fixedly provided with a first elastic wheel; one end of the first belt is arranged on the first belt pulley, and the other end of the first belt is arranged on the second belt pulley.

A counterweight is arranged on the side surface of the second side plate A; the third supporting plate is arranged on the side surface of one end, far away from the second side plate A, of the second side plate B; one end of the fourth rotating shaft is installed in a round hole of the third supporting plate through a bearing, and the other end of the fourth rotating shaft is fixedly provided with a second elastic wheel.

The first elastic wheel is matched with the second elastic wheel.

One end of the plate spring is arranged on the first side plate A, and the other end of the plate spring is arranged on the second side plate A; the plate spring is positioned below the first belt pulley; one end of the limiting mechanism is arranged on the first side plate A, and the other end of the limiting mechanism is arranged on the second side plate A; the limiting mechanism is positioned below the plate spring.

The limiting mechanism comprises a first strip-shaped swinging plate, a second strip-shaped swinging plate, a fixed block, a heavy limiting plate and a pin, wherein one end of the first strip-shaped swinging plate is arranged on the first side plate A in a hinged mode; one end of the second strip-shaped swinging plate is arranged on the second side plate A in a hinged mode; one end of the first strip-shaped swinging plate, which is far away from the first side plate A, is connected with one end of the first strip-shaped swinging plate, which is far away from the second side plate A, through a pin; the first bar-shaped swinging plate and the second bar-shaped swinging plate swing around the center of the pin; two fixed blocks are symmetrically arranged on the lower surface of the heavy limit plate; the two fixing blocks are arranged at the two ends of the pin; the weight limit plate is positioned above the first strip-shaped swing plate and the second strip-shaped swing plate; the heavy limit plate is matched with the first strip-shaped swing plate and the second strip-shaped swing plate.

As a further improvement of the technology, the device also comprises a top mounting plate, wherein the end of the first fixing plate, which is far away from the first rotating shaft, is provided with the top mounting plate.

As a further improvement of the technology, the top mounting plate is mounted on a rail of the garment production line.

As a further improvement of the present technology, the first elastic wheel and the second elastic wheel are both made of a rubber material.

As a further improvement of the present technology, the diameter of the second pulley is larger than the diameter of the first pulley. Such design lies in, under the circumstances that the second belt pulley is rotatory a few rings a little, first belt pulley can rotate the number of turns that is more than the second belt pulley, and then guarantees that first belt pulley drives the rotatory enough number of turns of third gear through second pivot, fourth gear for the second gear can produce the meshing relation with first gear. The diameter of the second gear is smaller than that of the first gear, and the design is that in the process that the second gear drives the first gear to rotate, the second gear drives the first gear to achieve the effect of torque increase, so that the first gear is guaranteed to drive the second V-shaped plate to swing through the one-way clutch ring, the first rotating shaft and the second support plate.

As a further improvement of the present technique, the above-mentioned balance weight is made of an iron material. The purpose of the counterweight design is to ensure that the weight of the mounting structure on the first V-shaped plate is equal to that of the mounting structure on the second V-shaped plate, so that the center of gravity of the clothes-peg device is always positioned in the middle of the first V-shaped plate and the second V-shaped plate, and the first V-shaped plate and the second V-shaped plate can always keep symmetry in the opening or combining process.

As a further improvement of the technology, the heavy limit plate is made of an iron material.

As a further improvement of the present technique, the second gear and the first gear are not in meshing relationship when the wrap spring is uncompressed.

As a further improvement of the technology, when the first strip-shaped swing plate and the second strip-shaped swing plate are collinear, the lower surface of the heavy limiting plate is attached to the upper surface of the first strip-shaped swing plate and the upper surface of the second strip-shaped swing plate respectively, and the plate spring is in a stretching state at the moment.

The invention relates to a design of a first belt pulley, a second rotating shaft, a fourth gear, a third gear, a telescopic rod, a fixed shaft, a volute spiral spring and a second gear, wherein the design comprises the following steps: when the first belt drives the first belt pulley to rotate, the first belt pulley drives the fourth gear to rotate through the second rotating shaft, the fourth gear drives the third gear to rotate, the volute spiral spring is compressed, the third gear drives the second gear to rotate through the telescopic rod, and the second gear is set to rotate in the forward direction at the moment. The second gear is arranged on the external thread of the fixed shaft in a thread matching mode, and in the positive rotation process of the second gear, the second gear rotates forwards in the direction far away from the third gear under the thread matching of the internal thread of the second gear and the external thread of the fixed shaft; the design of the telescopic rod just meets the requirement that the third gear drives the second gear to rotate and advance through the telescopic rod; after the second gear rotates to move forward for a distance in the direction far away from the third gear, the second gear and the first gear are meshed. For the volute spiral spring, after the fourth gear does not input power to the third gear any more, under the reset action of the volute spiral spring, the third gear drives the second gear to rotate reversely through the telescopic rod, and then under the threaded matching of the internal thread of the second gear and the external thread of the fixed shaft, the second gear rotates backwards in the direction of the third gear until the second gear is reset to the original position.

The second gear and the first gear are matched: firstly, when the second gear rotates and advances in a direction far away from the third gear, the second gear and the first gear are meshed, and the second gear drives the first gear to rotate; secondly, when the second gear rotates and retreats towards the direction of the third gear, the second gear can be disengaged from the first gear. For the one-way clutch ring, when the second gear rotates in the forward direction, the first gear cannot drive the first rotating shaft to rotate through the one-way clutch ring in the process that the second gear rotating in the forward direction drives the first gear to rotate; when the second gear rotates in the reverse direction and the second gear is not disengaged from the meshing relation with the first gear, the first gear drives the first gear to rotate through the one-way clutch ring in the process that the second gear rotating in the reverse direction drives the first gear to rotate.

The design of the first elastic wheel, the third rotating shaft, the second belt pulley, the first belt and the first belt pulley is that when the first elastic wheel rotates, the first elastic wheel drives the second belt pulley to rotate through the third rotating shaft, and the second belt pulley drives the first belt pulley to rotate through the first belt.

Heavy limiting plate and first bar pendulum board and second bar pendulum board cooperate, and first elastic wheel and second elastic wheel matched with effect lie in: first, when first V template and second V template are in the merge state, first elastic wheel and the mutual extrusion fit of second elastic wheel, the contained angle of first bar pendulum board and second bar pendulum board is the acute angle, and first bar pendulum board and second bar pendulum board connecting point will weigh the spacing board and jack up, the leaf spring is in proper order this moment by tensile state, just so can guarantee that first elastic wheel and second elastic wheel can tightly extrude each other for the clothes can be sandwiched between first elastic wheel and second elastic wheel. And secondly, when the first strip-shaped swinging plate and the second strip-shaped swinging plate are collinear, the lower surface of the heavy limiting plate is respectively attached to the upper surface of the first strip-shaped swinging plate and the upper surface of the second strip-shaped swinging plate, the plate spring is in a stretching state at the moment, the first V-shaped plate and the second V-shaped plate are in an opening state, and a space exists between the first elastic wheel and the second elastic wheel. In the process that the plate spring is continuously stretched, the included angle between the first strip-shaped swinging plate and the second strip-shaped swinging plate is gradually changed from the acute angle state to the collinear state between the first strip-shaped swinging plate and the second strip-shaped swinging plate, the downward movement of the position of the connecting point between the first strip-shaped swinging plate and the second strip-shaped swinging plate is mainly provided by the gravity of the heavy limiting plate, and the position of the connecting point between the first strip-shaped swinging plate and the second strip-shaped swinging plate can be easily moved downward, so that the first strip-shaped swinging plate can provide a better opening space for the first V-shaped plate, and the second strip-shaped swinging plate can provide a better opening space for the second V-shaped plate. At first bar pendulum board and second bar pendulum board collineation, when the lower surface of heavy limiting plate was laminated with the upper surface of first bar pendulum board and the upper surface of second bar pendulum board respectively, heavy limiting plate had restricted first bar pendulum board and second bar pendulum board connecting point and continued to move down, first bar pendulum board and second bar pendulum board have constituted a interim straight board this moment, and this interim straight board can prevent that first V template and second V template from returning under the reset action of leaf spring, and interim straight board just can stabilize first V template and second V template like this and be in open state.

When the clothes-peg device does not clip clothes, the first strip-shaped swinging plate and the second strip-shaped swinging plate are collinear, the first strip-shaped swinging plate and the second strip-shaped swinging plate form a temporary straight plate, the lower surface of the heavy limit plate is respectively attached to the upper surface of the first strip-shaped swinging plate and the upper surface of the second strip-shaped swinging plate, and the plate spring is in a stretching state. The first elastic wheel does not rotate, the spiral spring is not compressed, and the second gear and the first gear are not in meshed relation. The first V-shaped plate and the second V-shaped plate are in an open state, and a space exists between the first elastic wheel and the second elastic wheel.

When the clothes-pin device needs to clamp clothes, a worker only needs to lift the clothes between the first elastic wheel and the second elastic wheel, and the worker continues to lift the clothes to touch the first strip-shaped swinging plate and the second strip-shaped swinging plate. When a worker slightly jacks up the first strip-shaped swinging plate and the second strip-shaped swinging plate in the process of lifting clothes, the worker can release the clothes, the first strip-shaped swinging plate and the second strip-shaped swinging plate form a temporary straight plate state to be damaged, and the temporary straight plate cannot continuously prevent the first V-shaped plate and the second V-shaped plate from returning under the resetting action of the plate spring; under the reset action of the plate spring, the first V-shaped plate and the second V-shaped plate are rapidly combined, and the first elastic wheel and the second elastic wheel can be tightly extruded with each other, so that the clothes are clamped between the first elastic wheel and the second elastic wheel. In the process of rapidly combining the first V-shaped plate and the second V-shaped plate, the second V-shaped plate drives the first rotating shaft to rotate through the second support plate, and the first rotating shaft drives the first gear to rotate through the one-way clutch ring; because the volute spiral spring is not compressed, first gear and second gear do not produce the meshing relation, so the rotation of first gear can not drive the second gear rotatory this moment, and then can not drive first elastic wheel rotatory after a series of reverse transmission, guarantees that first elastic wheel and second elastic wheel can clip the clothes.

When a worker needs to take off clothes from the clothes-peg device, the worker only needs to pull down the clothes, and the clothes can drive the first elastic wheel and the second elastic wheel to rotate in the process of pulling down the clothes; the first elastic wheel drives the second belt pulley to rotate through the third rotating shaft, and the second belt pulley drives the first belt pulley to rotate through the first belt; the first belt pulley drives the fourth gear to rotate through the second rotating shaft, the fourth gear drives the third gear to rotate, the volute spiral spring is compressed, the third gear drives the second gear to rotate through the telescopic rod, and the second gear is set to rotate in the positive direction at the moment. In the process of forward rotation of the second gear, the second gear rotates to advance in the direction away from the third gear under the threaded matching of the internal thread of the second gear and the external thread of the fixed shaft. In the process that the second gear rotates and advances in the direction far away from the third gear, the second gear and the first gear are in a meshing relationship, and the second gear drives the first gear to rotate; in the process that the second gear rotating in the positive direction drives the first gear to rotate, the first gear cannot drive the first rotating shaft to rotate through the one-way clutch ring. After the clothes are completely pulled down by the first elastic wheel and the second elastic wheel, all rotation of the first elastic wheel is transmitted through a plurality of rows, so that the scroll spring is compressed to store enough energy.

After the clothes are completely pulled down by the first elastic wheel and the second elastic wheel, the fourth gear does not input power to the third gear any more, the third gear drives the second gear to rotate reversely through the telescopic rod under the reset action of the volute spiral spring, and then the second gear rotates backwards in the direction of the third gear under the threaded matching of the internal thread of the second gear and the external thread of the fixed shaft until the second gear is reset to the original position. When the second gear rotates in the reverse direction and the second gear is not disengaged from the meshing relation with the first gear, the first gear drives the first gear to rotate through the one-way clutch ring in the process that the second gear rotating in the reverse direction drives the first gear to rotate. At the moment, the rotating first rotating shaft drives the second V-shaped plate to move in the direction far away from the first V-shaped plate through the second support plate, the first V-shaped plate and the second V-shaped plate gradually change from a combined state to an opened state, and the plate spring continues to be stretched; in the process that the plate spring is continuously stretched, the included angle between the first strip-shaped swinging plate and the second strip-shaped swinging plate is gradually changed from the acute angle state to the collinear state between the first strip-shaped swinging plate and the second strip-shaped swinging plate, the downward movement of the position of the connecting point between the first strip-shaped swinging plate and the second strip-shaped swinging plate is mainly provided by the gravity of the heavy limiting plate, and the position of the connecting point between the first strip-shaped swinging plate and the second strip-shaped swinging plate can be easily moved downward, so that the first strip-shaped swinging plate can provide a better opening space for the first V-shaped plate, and the second strip-shaped swinging plate can provide a better opening space for the second V-shaped plate. When the second gear rotating reversely happens to be disengaged from the first gear, the first bar-shaped swinging plate and the second bar-shaped swinging plate reach a collinear state, when the lower surface of the heavy limiting plate is respectively attached to the upper surface of the first bar-shaped swinging plate and the upper surface of the second bar-shaped swinging plate, the heavy limiting plate limits the connecting point of the first bar-shaped swinging plate and the second bar-shaped swinging plate to continuously move downwards, at the moment, the first bar-shaped swinging plate and the second bar-shaped swinging plate form a temporary straight plate, the temporary straight plate can prevent the first V-shaped plate and the second V-shaped plate from returning under the resetting action of the plate spring, and the temporary straight plate can stabilize the first V-shaped plate and the second V-shaped plate to be in an open state. Thus, the clothes-peg device of the present invention is restored to the state of not holding clothes for the next use.

The clothes-pin device of the invention has the advantages that: firstly, the clothes can be clamped quickly through mutual extrusion and matching of the first elastic wheel and the second elastic wheel, the first elastic wheel and the second elastic wheel are driven to rotate when the clothes are taken out from the space between the first elastic wheel and the second elastic wheel, and then the rotation energy of the first elastic wheel is stored by the volute spiral spring; secondly, the design of the limiting mechanism enables the opening state of the first V-shaped plate and the second V-shaped plate to be maintained when the first strip-shaped swinging plate and the second strip-shaped swinging plate form a temporary straight plate, and the opening state of the first V-shaped plate and the second V-shaped plate is released, and the temporary straight plate can be contacted and limited only by slightly jacking up the temporary straight plate, so that the operation of workers can be very convenient; thirdly, the first gear and the second gear are matched, so that the second gear cannot drive the first rotating shaft to rotate through the first gear and the one-way clutch ring in the process of compressing the volute spiral spring, and the second gear can drive the first rotating shaft to rotate through the first gear and the one-way clutch ring in the process of resetting the volute spiral spring, so that the first rotating shaft can rotate to open the first V-shaped plate and the second V-shaped plate after the clothes are completely pulled down, and the effect of lagging and opening the clothes-peg device is achieved; in addition, in the process of combining the first V-shaped plate and the second V-shaped plate, the rotation of the first gear does not influence the second gear, so that the clothes-peg device can clamp clothes.

Compared with the traditional clothes hanger for hanging and taking off clothes on the clothes line, the clothes-peg device only needs a worker to lift the clothes between the first V-shaped plate and the second V-shaped plate, and the worker can feel that the temporary straight plate is slightly jacked up to put down the clothes when lifting the clothes, and the clothes-peg device can quickly clamp the clothes, so that the worker can conveniently hang the clothes, and a plurality of other actions are reduced; even a skilled worker does not need to raise the head, and can hang the clothes by only slightly jacking the temporary straight plate, so that the working efficiency of the worker is greatly improved. For taking off the clothes from the clothes-peg device of the invention, a worker only needs to pull the clothes out between the first elastic wheel and the second elastic wheel, and after the clothes are completely pulled out, the clothes-peg device of the invention can automatically return to the state of not clipping the clothes for the next reuse. In a word, the clothes-peg device of the invention is used only by two actions of lifting clothes and taking down clothes, thus greatly simplifying the traditional actions of hanging clothes and taking down clothes of workers, and achieving the purposes of improving working efficiency and increasing yield. The invention has simple structure and better use effect.

Drawings

Fig. 1 is an overall schematic view of a clothes-peg device.

Fig. 2 is a front view schematically showing the clothes-peg device.

FIG. 3 is a schematic view of the first and second brackets mounted to the first shaft.

Figure 4 is a schematic view of a one-way clutch ring installation.

Fig. 5 is a schematic view of the second gear cooperating with the first gear.

Fig. 6 is an overall schematic view of the stopper mechanism.

Fig. 7 is a schematic view of the installation of the first and second bar wobble plates.

Fig. 8 is a schematic view of the heavy restriction plate mounting.

Fig. 9 is a schematic cross-sectional front view of the first bar-shaped swing plate and the second bar-shaped swing plate limited by the heavy limit plate.

Fig. 10 is a schematic view of the structure mounted on the first V-shaped plate.

FIG. 11 is a schematic view of the first plate and first support plate installation.

FIG. 12 is a schematic view of a scroll spring installation.

Fig. 13 is a second gear mounting schematic.

Fig. 14 is a schematic view of a first resilient wheel installation.

Fig. 15 is a schematic view of the mounting structure on the second V-shaped plate.

Number designation in the figures: 1. a first V-shaped plate; 2. a second V-shaped plate; 3. a first side plate A; 4. a first side plate B; 5. a second side plate A; 6. a second side plate B; 7. a top mounting plate; 8. a first fixing plate; 9. a first bar-shaped swing plate; 10. a second bar-shaped swing plate; 12. a first gear; 13. a second gear; 14. a first support plate; 15. a first pulley; 16. a first belt; 17. a second support plate; 18. a first elastic wheel; 19. a second pulley; 20. a second elastic wheel; 21. a third support plate; 22. a plate spring; 23. balancing weight; 24. a first support plate; 25. a second support plate; 26. a first rotating shaft; 27. a unidirectional clutch ring; 28. a fixed shaft; 29. an external thread; 30. a telescopic rod; 31. a third gear; 32. a fourth gear; 33. a second rotating shaft; 34. a heavy limit plate; 35. a pin; 36. a fixed block; 37. a support block; 38. a volute spiral spring; 39. connecting blocks; 40. a fourth rotating shaft; 41. a third rotating shaft; 42. a limiting mechanism.

Detailed Description

As shown in fig. 1, 2, 11 and 15, the method is characterized in that: the device comprises a first V-shaped plate 1, a second V-shaped plate 2, a total fixing plate, a first gear 12, a second gear 13, a first supporting plate 14, a first belt pulley 15, a first belt 16, a second supporting plate 17, a first elastic wheel 18, a second belt pulley 19, a second elastic wheel 20, a third supporting plate 21, a plate spring 22, a counterweight 23, a first supporting plate 24, a second supporting plate 25, a first rotating shaft 26, a one-way clutch ring 27, a fixed shaft 28, an expansion rod 30, a third gear 31, a fourth gear 32, a second rotating shaft 33, a supporting block 37, a volute spiral spring 38, a connecting block 39, a fourth rotating shaft 40, a third rotating shaft 41 and a limiting mechanism 42, wherein a round hole is formed in the first fixing plate 8 as shown in figure 4; the first rotating shaft 26 is mounted in a circular hole of the first fixing plate 8 through a bearing; a one-way clutch ring 27 is arranged on the first rotating shaft 26; the first gear 12 is installed on the outer circular surface of the one-way clutch ring 27; as shown in fig. 1 and 2, the first V-shaped plate 1 is composed of a first side plate a3 and a first side plate B4; the second V-shaped plate 2 is composed of a second side plate A5 and a second side plate B6; as shown in fig. 10, two first side panels 24 are symmetrically mounted on one side of the first side panel a3 away from the first side panel B4; as shown in fig. 3, the two first support plates 24 are each mounted on the first rotating shaft 26 through a bearing; the first gear 12 is located between the two first support plates 24; as shown in fig. 15, two second brackets 25 are symmetrically mounted on one end side of the second side plate a5 away from the second side plate B6; as shown in fig. 3, two second support plates 25 are fixedly mounted on the first rotating shaft 26; the two first struts 24 are located between the two second struts 25; the first and second vee-shaped plates 1, 2 are symmetrically distributed on both sides of the first gear wheel 12.

As shown in fig. 2 and 11, the first support panel 14 is mounted on the side of the first side panel a3 with the first support panel 14 adjacent the first support panel 24; as shown in fig. 12 and 13, one end of the fixed shaft 28 is fixedly mounted on the first support plate 14; the third gear 31 is mounted on the outer circular surface of one end of the fixed shaft 28 far away from the first supporting plate 14 through a bearing; the scroll spring 38 is nested on the fixed shaft 28, and one end of the scroll spring 38 is installed on the outer circular surface of the fixed shaft 28, and the other end is installed on the side of the third gear 31 far away from the first support plate 14 through the connecting block 39; as shown in fig. 12, the outer circumferential surface of the fixed shaft 28 between the third gear 31 and the first support plate 14 has a section of external threads 29; as shown in fig. 13, the second gear 13 has an internal thread on its inner circumferential surface; the second gear 13 is mounted on the external thread 29 of the fixed shaft 28 in a thread fit manner; one end of each of the three telescopic rods 30 is mounted on the side surface of the third gear 31, and the other end is mounted on the side surface of the second gear 13; the three telescopic rods 30 are uniformly distributed along the circumferential direction; as shown in fig. 5, the second gear 13 is engaged with the first gear 12; as shown in fig. 11 and 13, the supporting block 37 is mounted on the lower surface of the first supporting plate 14; as shown in fig. 12, the second rotating shaft 33 is mounted in a circular hole of the supporting block 37 through a bearing, and both ends of the second rotating shaft 33 penetrate through the supporting block 37; one end of the second rotating shaft 33 is fixedly provided with the first belt pulley 15, and the other end is fixedly provided with the fourth gear 32; as shown in fig. 5 and 12, the fourth gear 32 meshes with the third gear 31.

As shown in fig. 10 and 14, the second support plate 17 is mounted on the side of the first side plate B4 remote from the first side plate A3; as shown in fig. 14, the third rotating shaft 41 is mounted in a circular hole of the second support plate 17 through a bearing, and both ends of the third rotating shaft 41 penetrate through the second support plate 17; one end of the third rotating shaft 41 is fixedly provided with a second belt pulley 19, and the other end is fixedly provided with a first elastic wheel 18; as shown in fig. 2, 12 and 14, the first belt 16 has one end mounted on the first pulley 15 and the other end mounted on the second pulley 19.

As shown in fig. 15, the counterweight 23 is mounted on the side of the second side plate a 5; the third support panel 21 is mounted on an end side of the second side panel B6 remote from the second side panel a 5; one end of the fourth rotating shaft 40 is mounted in the circular hole of the third support plate 21 through a bearing, and the other end is fixedly mounted with the second elastic wheel 20.

The first spring wheel 18 and the second spring wheel 20 cooperate.

As shown in fig. 2 and 10, one end of the plate spring 22 is mounted on the first side plate A3, and the other end is mounted on the second side plate a 5; the leaf spring 22 is located below the first pulley 15; as shown in fig. 2 and 6, one end of the limiting mechanism 42 is mounted on the first side plate A3, and the other end is mounted on the second side plate a 5; the limiting mechanism 42 is located below the leaf spring 22.

As shown in fig. 6, 7 and 8, the limiting mechanism 42 includes a first bar-shaped swinging plate 9, a second bar-shaped swinging plate 10, a fixed block 36, a weight limiting plate 34 and a pin 35, as shown in fig. 1 and 10, wherein one end of the first bar-shaped swinging plate 9 is mounted on the first side plate a3 in a hinged manner; as shown in fig. 1 and 15, one end of the second bar-shaped swinging plate 10 is mounted on the second side plate a5 in a hinged manner; as shown in fig. 6 and 7, one end of the first linear oscillating plate 9 away from the first side plate A3 is connected with one end of the first linear oscillating plate 9 away from the second side plate a5 through a pin 35; the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10 swing around the center of the pin 35; as shown in fig. 8, two fixing blocks 36 are symmetrically mounted on the lower surface of the heavy limit plate 34; two fixing blocks 36 are mounted at both ends of the pin 35; as shown in fig. 6 and 9, the heavy limit plate 34 is located above the first and second bar-shaped swing plates 9 and 10; as shown in fig. 9, the weight-limiting plate 34 is engaged with the first and second linear oscillating plates 9 and 10.

As shown in fig. 1 and 4, it further comprises a top mounting plate 7, wherein the top mounting plate 7 is mounted on the end of the first fixing plate 8 far away from the first rotating shaft 26.

The top mounting plate 7 is mounted on a rail of the garment line.

The first elastic wheel 18 and the second elastic wheel 20 are made of rubber material.

As shown in fig. 12 and 14, the diameter of the second pulley 19 is larger than the diameter of the first pulley 15. This is so designed that in the case of a few rotations of the second pulley 19, the first pulley 15 can rotate more than the second pulley 19, so as to ensure that the first pulley 15 drives the third gear 31 to rotate enough turns via the second rotation shaft 33 and the fourth gear 32, so that the second gear 13 can be engaged with the first gear 12. As shown in fig. 5, the diameter of the second gear 13 is smaller than the diameter of the first gear 12, and such a design is designed that in the process that the second gear 13 drives the first gear 12 to rotate, the second gear 13 drives the first gear 12 to achieve the effect of increasing torque, so as to ensure that the first gear 12 drives the second V-shaped plate 2 to swing through the one-way clutch ring 27, the first rotating shaft 26 and the second support plate 25.

The above-mentioned balance weight 23 is made of an iron material. The purpose of the design of the counterweight 23 is to make the weight of the mounting structure on the first V-shaped plate 1 equal to the weight of the mounting structure on the second V-shaped plate 2, so as to ensure that the center of gravity of the clothes-peg device of the invention is always positioned in the middle of the first V-shaped plate 1 and the second V-shaped plate 2, and the first V-shaped plate 1 and the second V-shaped plate 2 can always keep symmetry in the opening or combining process.

The weight restriction plate 34 is made of an iron material.

As shown in fig. 5, when the wrap spring 38 is uncompressed, the second gear 13 and the first gear 12 are not brought into meshing relationship.

As shown in fig. 2, when the first and second linear oscillating

plates

9 and 10 are collinear, as shown in fig. 9, the lower surface of the heavy limit plate 34 is respectively engaged with the upper surfaces of the first and second linear oscillating

plates

9 and 10, and the plate spring 22 is in a stretched state.

The design of the first belt pulley 15, the second rotating shaft 33, the fourth gear 32, the third gear 31, the telescopic rod 30, the fixed shaft 28, the scroll spring 38 and the second gear 13 in the invention is as follows: as shown in fig. 5 and 12, when the first belt 16 drives the first belt pulley 15 to rotate, the first belt pulley 15 drives the fourth gear 32 to rotate via the second rotating shaft 33, the fourth gear 32 drives the third gear 31 to rotate, the spiral spring 38 is compressed, the third gear 31 drives the second gear 13 to rotate via the expansion link 30, and the second gear 13 is set to rotate in the forward direction at this time. The second gear 13 is mounted on the external thread 29 of the fixed shaft 28 by means of thread fit in such a way that, during the forward rotation of the second gear 13, the second gear 13 is rotationally advanced in a direction away from the third gear 31 by the thread fit of the internal thread of the second gear 13 with the external thread 29 of the fixed shaft 28; the design of the telescopic rod 30 just meets the requirement that the third gear 31 drives the second gear 13 to rotate and advance through the telescopic rod 30; after the second gear 13 rotates in a direction away from the third gear 31 by a certain distance, the second gear 13 and the first gear 12 are in a meshing relationship. For the spiral spring 38, after the fourth gear 32 no longer inputs power to the third gear 31, under the restoring action of the spiral spring 38, the third gear 31 drives the second gear 13 to rotate reversely through the expansion link 30, and then under the threaded matching between the internal thread of the second gear 13 and the external thread 29 of the fixed shaft 28, the second gear 13 rotates backward in the direction of the third gear 31 until the second gear 13 is restored to the original position.

As shown in fig. 5, the second gear 13 and the first gear 12 cooperate: firstly, when the second gear 13 rotates and advances in a direction away from the third gear 31, the second gear 13 will engage with the first gear 12, and the second gear 13 drives the first gear 12 to rotate; second, when the second gear 13 rotates backward in the direction of the third gear 31, the second gear 13 is disengaged from the first gear 12. For the one-way clutch ring 27, when the second gear 13 rotates in the forward direction, in the process that the second gear 13 rotating in the forward direction drives the first gear 12 to rotate, the first gear 12 cannot drive the first rotating shaft 26 to rotate through the one-way clutch ring 27; when the second gear 13 rotates in the reverse direction and the second gear 13 is not out of the meshing relationship with the first gear 12, the first gear 12 rotates the first rotating shaft 26 via the one-way clutch ring 27 while the second gear 13 rotating in the reverse direction rotates the first gear 12.

The first elastic wheel 18, the third rotating shaft 41, the second belt pulley 19, the first belt 16 and the first belt pulley 15 are designed such that when the first elastic wheel 18 rotates, the first elastic wheel 18 drives the second belt pulley 19 to rotate via the third rotating shaft 41, and the second belt pulley 19 drives the first belt pulley 15 to rotate via the first belt 16.

Heavy limiting plate 34 and first bar balance staff 9 and second bar balance staff 10 cooperate, and first elastic wheel 18 and second elastic wheel 20 matched with effect lie in: first, when first V template 1 and second V template 2 are in the merge state, first elastic wheel 18 and the mutual extrusion fit of second elastic wheel 20, the contained angle of first bar pendulum board 9 and second bar pendulum board 10 is the acute angle, and first bar pendulum board 9 and the second bar pendulum board 10 junction point will weigh limiting plate 34 and jack up, leaf spring 22 is in by tensile state in proper order this moment, just so can guarantee that first elastic wheel 18 and second elastic wheel 20 can tightly extrude each other for the clothes can be sandwiched between first elastic wheel 18 and second elastic wheel 20. Secondly, as shown in fig. 6 and 9, when the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10 are collinear, the lower surface of the heavy limit plate 34 is respectively attached to the upper surface of the first bar-shaped swinging plate 9 and the upper surface of the second bar-shaped swinging plate 10, at this time, the plate spring 22 is in a stretching state, the first V-shaped plate 1 and the second V-shaped plate 2 are in an opening state, and a space exists between the first elastic wheel 18 and the second elastic wheel 20. In the process that the plate spring 22 is continuously stretched, the included angle between the first strip-shaped swing plate 9 and the second strip-shaped swing plate 10 is gradually changed from the acute angle state to the collinear state between the first strip-shaped swing plate 9 and the second strip-shaped swing plate 10, the downward movement of the position of the connection point between the first strip-shaped swing plate 9 and the second strip-shaped swing plate 10 is mainly provided by the gravity of the heavy limiting plate 34, and the position of the connection point between the first strip-shaped swing plate 9 and the second strip-shaped swing plate 10 can be easily moved downward, so that the first strip-shaped swing plate 9 can provide a better opening space for the first V-shaped plate 1, and the second strip-shaped swing plate 10 can provide a better opening space for the second V-shaped plate 2. When the lower surface of the heavy limit plate 34 is respectively attached to the upper surface of the first bar-shaped swinging plate 9 and the upper surface of the second bar-shaped swinging plate 10, the heavy limit plate 34 limits the connection point of the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10 to continuously move downwards, at the moment, the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10 form a temporary straight plate, and the temporary straight plate can prevent the first V-shaped plate 1 and the second V-shaped plate 2 from returning under the reset action of the plate spring 22, so that the first V-shaped plate 1 and the second V-shaped plate 2 can be stabilized to be in an open state by the temporary straight plate.

The specific implementation mode is as follows: when the clothes-peg device of the invention is not used for clamping clothes, the first strip-shaped swinging plate 9 and the second strip-shaped swinging plate 10 are collinear, at the moment, the first strip-shaped swinging plate 9 and the second strip-shaped swinging plate 10 form a temporary straight plate, the lower surface of the heavy limit plate 34 is respectively jointed with the upper surface of the first strip-shaped swinging plate 9 and the upper surface of the second strip-shaped swinging plate 10, and at the moment, the plate spring 22 is in a stretching state. First elastic wheel 18 does not rotate, wrap spring 38 is not compressed, and second gear 13 and first gear 12 are not in meshing relationship. The first V-shaped plate 1 and the second V-shaped plate 2 are in an opening state, and a space is reserved between the first elastic wheel 18 and the second elastic wheel 20.

When the clothes-peg device is required to clamp clothes, the worker only needs to lift the clothes between the first elastic wheel 18 and the second elastic wheel 20, and the worker continues to lift the clothes up to touch the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10. When a worker slightly jacks up the first strip-shaped swinging plate 9 and the second strip-shaped swinging plate 10 in the process of lifting clothes, the worker can release the clothes, the first strip-shaped swinging plate 9 and the second strip-shaped swinging plate 10 form a temporary straight plate state to be damaged, and the temporary straight plate cannot continuously prevent the first V-shaped plate 1 and the second V-shaped plate 2 from returning under the resetting action of the plate spring 22; under the reset action of the plate spring 22, the first V-shaped plate 1 and the second V-shaped plate 2 are rapidly combined, and the first elastic wheel 18 and the second elastic wheel 20 can be tightly pressed against each other, so that the clothes are clamped between the first elastic wheel 18 and the second elastic wheel 20. In the process of rapidly combining the first V-shaped plate 1 and the second V-shaped plate 2, the second V-shaped plate 2 drives the first rotating shaft 26 to rotate through the second support plate 25, and the first rotating shaft 26 drives the first gear 12 to rotate through the one-way clutch ring 27; because the volute spiral spring 38 is not compressed, and the first gear 12 and the second gear 13 are not meshed, the rotation of the first gear 12 does not drive the second gear 13 to rotate, and further does not drive the first elastic wheel 18 to rotate after a series of reverse transmissions, so that the clothes can be clamped by the first elastic wheel 18 and the second elastic wheel 20.

When a worker needs to take off the clothes from the clothes-peg device, the worker only needs to pull down the clothes, and the clothes drive the first elastic wheel 18 and the second elastic wheel 20 to rotate in the process of pulling down the clothes; the first elastic wheel 18 drives the second belt wheel 19 to rotate through the third rotating shaft 41, and the second belt wheel 19 drives the first belt wheel 15 to rotate through the first belt 16; the first belt pulley 15 drives the fourth gear 32 to rotate through the second rotating shaft 33, the fourth gear 32 drives the third gear 31 to rotate, the volute spiral spring 38 is compressed, the third gear 31 drives the second gear 13 to rotate through the telescopic rod 30, and the second gear 13 is set to rotate in the positive direction at the moment. During the normal rotation of the second gear 13, the second gear 13 is rotationally advanced in a direction away from the third gear 31 by the screw-engagement of the internal thread of the second gear 13 with the external thread 29 of the fixed shaft 28. In the process that the second gear 13 rotates and advances in the direction away from the third gear 31, the second gear 13 and the first gear 12 are in a meshing relationship, and the second gear 13 drives the first gear 12 to rotate; during the process that the second gear 13 rotating in the forward direction drives the first gear 12 to rotate, the first gear 12 cannot drive the first rotating shaft 26 to rotate through the one-way clutch ring 27. After the garment is completely pulled down from the first and second

elastic wheels

18 and 20, all rotation of the first elastic wheel 18 is transmitted through some rows, so that the spiral spring 38 is compressed to store enough energy.

After the clothes are completely pulled down from the first elastic wheel 18 and the second elastic wheel 20, the fourth gear 32 does not input power to the third gear 31 any more, the third gear 31 drives the second gear 13 to rotate reversely through the expansion link 30 under the reset action of the volute spiral spring 38, and then the second gear 13 rotates backward in the direction of the third gear 31 under the threaded matching of the internal thread of the second gear 13 and the external thread 29 of the fixed shaft 28 until the second gear 13 is reset to the original position. When the second gear 13 rotates in the reverse direction and the second gear 13 is not out of the meshing relationship with the first gear 12, the first gear 12 rotates the first rotating shaft 26 via the one-way clutch ring 27 while the second gear 13 rotating in the reverse direction rotates the first gear 12. At the moment, the rotating first rotating shaft 26 drives the second V-shaped plate 2 to move in the direction far away from the first V-shaped plate 1 through the second support plate 25, the first V-shaped plate 1 and the second V-shaped plate 2 gradually change from the combined state to the opened state, and the plate spring 22 continues to be stretched; in the process that the plate spring 22 is continuously stretched, the included angle between the first strip-shaped swing plate 9 and the second strip-shaped swing plate 10 is gradually changed from the acute angle state to the collinear state between the first strip-shaped swing plate 9 and the second strip-shaped swing plate 10, the downward movement of the position of the connection point between the first strip-shaped swing plate 9 and the second strip-shaped swing plate 10 is mainly provided by the gravity of the heavy limiting plate 34, and the position of the connection point between the first strip-shaped swing plate 9 and the second strip-shaped swing plate 10 can be easily moved downward, so that the first strip-shaped swing plate 9 can provide a better opening space for the first V-shaped plate 1, and the second strip-shaped swing plate 10 can provide a better opening space for the second V-shaped plate 2. When the second gear 13 rotating reversely just disengages from the first gear 12, the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10 reach a collinear state, and when the lower surface of the heavy limiting plate 34 is respectively attached to the upper surface of the first bar-shaped swinging plate 9 and the upper surface of the second bar-shaped swinging plate 10, the heavy limiting plate 34 limits the connection point of the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10 to move downwards continuously, at this moment, the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10 form a temporary straight plate, and the temporary straight plate can prevent the first V-shaped plate 1 and the second V-shaped plate 2 from returning under the resetting action of the plate spring 22, so that the temporary straight plate can stabilize the first V-shaped plate 1 and the second V-shaped plate 2 in an open state. Thus, the clothes-peg device of the present invention is restored to the state of not holding clothes for the next use.

The clothes-pin device of the invention has the advantages that: firstly, the clothes can be clamped rapidly through the mutual extrusion matching of the first elastic wheel 18 and the second elastic wheel 20, when the clothes are taken out from between the first elastic wheel 18 and the second elastic wheel 20, the first elastic wheel 18 and the second elastic wheel 20 are driven to rotate, and then the rotation energy of the first elastic wheel 18 is stored by the scroll spring 38; secondly, the design of the limiting mechanism 42 enables the opening state of the first V-shaped plate 1 and the second V-shaped plate 2 to be maintained when the first bar-shaped swinging plate 9 and the second bar-shaped swinging plate 10 form a temporary straight plate, and the opening state of the first V-shaped plate 1 and the second V-shaped plate 2 is released, and the temporary straight plate can be contacted and limited only by slightly jacking up, so that the operation of workers is very convenient; thirdly, the first gear 12 and the second gear 13 are designed to be matched, so that the second gear 13 cannot drive the first rotating shaft 26 to rotate through the first gear 12 and the one-way clutch ring 27 in the process that the volute spiral spring 38 is compressed, and the second gear 13 can drive the first rotating shaft 26 to rotate through the first gear 12 and the one-way clutch ring 27 in the process that the volute spiral spring 38 is reset, so that the first rotating shaft 26 can rotate to open the first V-shaped plate 1 and the second V-shaped plate 2 after the clothes are completely pulled down, and the effect of lagging opening of the clothes peg device is achieved; in addition, during the process of combining the first V-shaped plate 1 and the second V-shaped plate 2, the rotation of the first gear 12 does not affect the second gear 13, thereby ensuring that the clothes-peg device of the invention can clamp clothes.

In conclusion, the invention has the main beneficial effects that: the clothes-peg device only needs a worker to lift clothes between the first V-shaped plate and the second V-shaped plate, and the worker can feel that the temporary straight plate is slightly jacked up to put down the clothes when lifting the clothes, and the clothes-peg device can quickly clip the clothes after the clothes-peg device is left, so that the worker can conveniently hang the clothes, and a plurality of other actions are reduced; even a skilled worker does not need to raise the head, and can hang the clothes by only slightly jacking the temporary straight plate, so that the working efficiency of the worker is greatly improved. For taking off the clothes from the clothes-peg device of the invention, a worker only needs to pull the clothes out between the first elastic wheel and the second elastic wheel, and after the clothes are completely pulled out, the clothes-peg device of the invention can automatically return to the state of not clipping the clothes for the next reuse. In a word, the clothes-peg device of the invention is used only by two actions of lifting clothes and taking down clothes, thus greatly simplifying the traditional actions of hanging clothes and taking down clothes of workers, and achieving the purposes of improving working efficiency and increasing yield. The invention has simple structure and better use effect.

Claims

1. The utility model provides a clothes peg mechanism for clothing production line which characterized in that: the device comprises a first V-shaped plate, a second V-shaped plate, a total fixing plate, a first gear, a second gear, a first supporting plate, a first belt pulley, a first belt, a second supporting plate, a first elastic wheel, a second belt pulley, a second elastic wheel, a third supporting plate, a plate spring, a balance weight, a first supporting plate, a second supporting plate, a first rotating shaft, a one-way clutch ring, a fixing shaft, an expansion rod, a third gear, a fourth gear, a second rotating shaft, a supporting block, a volute spiral spring, a connecting block, a fourth rotating shaft, a third rotating shaft and a limiting mechanism, wherein the first fixing plate is provided with a round hole; the first rotating shaft is arranged in a circular hole of the first fixing plate through a bearing; a one-way clutch ring is arranged on the first rotating shaft; the first gear is arranged on the outer circular surface of the one-way clutch ring; the first V-shaped plate is composed of a first side plate A and a first side plate B; the second V-shaped plate is composed of a second side plate A and a second side plate B; two first support plates are symmetrically arranged on the side surface of one end of the first side plate A, which is far away from the first side plate B; the two first support plates are both arranged on the first rotating shaft through bearings; the first gear is positioned between the two first supporting plates; two second support plates are symmetrically arranged on the side surface of one end, far away from the second side plate B, of the second side plate A; the two second support plates are fixedly arranged on the first rotating shaft; the two first support plates are positioned between the two second support plates; the first V-shaped plate and the second V-shaped plate are symmetrically distributed on two sides of the first gear;

the first supporting plate is arranged on the side surface of the first side plate A and is close to the first supporting plate; one end of the fixed shaft is fixedly arranged on the first supporting plate; the third gear is arranged on the outer circular surface of one end of the fixed shaft, which is far away from the first supporting plate, through a bearing; the volute spiral spring is nested on the fixed shaft, one end of the volute spiral spring is arranged on the outer circular surface of the fixed shaft, and the other end of the volute spiral spring is arranged on the side surface, far away from the first supporting plate, of the third gear through the connecting block; the outer circular surface of the fixed shaft between the third gear and the first supporting plate is provided with a section of external thread; the inner circular surface of the second gear is provided with internal threads; the second gear is arranged on the external thread of the fixed shaft in a thread matching mode; one end of each of the three telescopic rods is arranged on the side surface of the third gear, and the other end of each of the three telescopic rods is arranged on the side surface of the second gear; the three telescopic rods are uniformly distributed along the circumferential direction; the second gear is matched with the first gear; the supporting block is arranged on the lower surface of the first supporting plate; the second rotating shaft is arranged in the circular hole of the supporting block through a bearing, and two ends of the second rotating shaft penetrate through the supporting block; one end of the second rotating shaft is fixedly provided with a first belt pulley, and the other end of the second rotating shaft is fixedly provided with a fourth gear; the fourth gear is meshed with the third gear;

the second supporting plate is arranged on one end side of the first side plate B far away from the first side plate A; the third rotating shaft is arranged in a circular hole of the second supporting plate through a bearing, and two ends of the third rotating shaft penetrate through the second supporting plate; one end of the third rotating shaft is fixedly provided with a second belt pulley, and the other end of the third rotating shaft is fixedly provided with a first elastic wheel; one end of the first belt is arranged on the first belt pulley, and the other end of the first belt is arranged on the second belt pulley;

a counterweight is arranged on the side surface of the second side plate A; the third supporting plate is arranged on the side surface of one end, far away from the second side plate A, of the second side plate B; one end of the fourth rotating shaft is arranged in a round hole of the third supporting plate through a bearing, and the other end of the fourth rotating shaft is fixedly provided with a second elastic wheel;

the first elastic wheel is matched with the second elastic wheel;

one end of the plate spring is arranged on the first side plate A, and the other end of the plate spring is arranged on the second side plate A; the plate spring is positioned below the first belt pulley; one end of the limiting mechanism is arranged on the first side plate A, and the other end of the limiting mechanism is arranged on the second side plate A; the limiting mechanism is positioned below the plate spring;

the limiting mechanism comprises a first strip-shaped swinging plate, a second strip-shaped swinging plate, a fixed block, a heavy limiting plate and a pin, wherein one end of the first strip-shaped swinging plate is arranged on the first side plate A in a hinged mode; one end of the second strip-shaped swinging plate is arranged on the second side plate A in a hinged mode; one end of the first strip-shaped swinging plate, which is far away from the first side plate A, is connected with one end of the first strip-shaped swinging plate, which is far away from the second side plate A, through a pin; the first bar-shaped swinging plate and the second bar-shaped swinging plate swing around the center of the pin; two fixed blocks are symmetrically arranged on the lower surface of the heavy limit plate; the two fixing blocks are arranged at the two ends of the pin; the weight limit plate is positioned above the first strip-shaped swing plate and the second strip-shaped swing plate; the heavy limit plate is matched with the first strip-shaped swing plate and the second strip-shaped swing plate;

when the first strip-shaped swing plate and the second strip-shaped swing plate are collinear, the first strip-shaped swing plate and the second strip-shaped swing plate form a temporary straight plate, the lower surface of the heavy limit plate is respectively attached to the upper surface of the first strip-shaped swing plate and the upper surface of the second strip-shaped swing plate, and the plate spring is in a stretching state;

the first fixing plate is arranged at one end of the first rotating shaft;

the top mounting plate is arranged on a track of the clothing assembly line;

the first elastic wheel and the second elastic wheel are both made of rubber materials;

the diameter of the second belt pulley is larger than that of the first belt pulley; the diameter of the second gear is smaller than the diameter of the first gear.

2. The clothes-pin mechanism for clothing production line of claim 1, characterized in that: the counterweight is made of an iron material.

3. The clothes-pin mechanism for clothing production line of claim 1, characterized in that: the heavy limit plate is made of iron materials.

4. The clothes-pin mechanism for clothing production line of claim 1, characterized in that: when the spiral spring is not compressed, the second gear and the first gear are not in meshing relationship.