阅读说明：本技术 吊牌穿绳辅助装置和吊牌穿绳方法 (Hanging tag threading auxiliary device and hanging tag threading method ) 是由 杨青平 张波 唐丽云 黄均楚 黄楚夫 曾武 于 2021-06-25 设计创作，主要内容包括：本发明提供了一种吊牌穿绳辅助装置,其包括：支撑板、定位绕绳件和吊牌绕绳件,所述定位绕绳件与所述吊牌绕绳件均设置于所述支撑板上方,所述吊牌绕绳件有多个,且各所述吊牌绕绳件距所述定位绕绳件之间的距离彼此相等。该吊牌穿绳辅助装置将原本需要多次分立的工序整合为一次完成,进而避免了在频繁更换工具及剪吊牌绳的过程中的时间浪费,因此能够有效提升吊牌穿绳的工作效率。(The invention provides a hang tag threading auxiliary device, which comprises: the device comprises a supporting plate, a positioning rope winding piece and a hanging tag rope winding piece, wherein the positioning rope winding piece and the hanging tag rope winding piece are arranged above the supporting plate, the hanging tag rope winding pieces are multiple, and the distance between the hanging tag rope winding pieces and the positioning rope winding pieces is equal to that between the hanging tag rope winding pieces. This hang tag threading auxiliary device will originally need the process integration of a lot of separation to once accomplish, and then has avoided the time waste at the frequent in-process of changing the instrument and cutting the hang tag rope, consequently can effectively promote the work efficiency of hang tag threading.)

1. A hang tag threading aid, comprising: backup pad, location wire winding spare and drop wire winding spare, location wire winding spare with the drop wire winding spare all set up in the backup pad top, the drop wire winding spare has a plurality ofly, and each the drop wire winding spare is apart from distance between the location wire winding spare equals.

2. The tag stringing aid as claimed in claim 1, wherein there are two tag wrapping elements.

3. The tag threading aid of claim 2, further comprising a cord winder movement mechanism coupled to the positioning cord winder, the cord winder movement mechanism configured to drive the positioning cord winder to move to adjust a distance between the positioning cord winder and two of the tag cords.

4. The device as claimed in claim 3, wherein the support plate has a moving groove on a perpendicular bisector between two rope winding members, and the rope winding member moving mechanism is configured to drive the rope winding members to move along the moving groove.

5. The device for assisting in threading of a hang tag as claimed in claim 4, wherein the rope-winding member moving mechanism comprises a rotary handle and a screw assembly disposed under the support plate, a part of the screw assembly is located under the moving groove, the rotary handle is connected to one end of the screw, and a bottom end of the positioning rope-winding member is fixedly connected to a nut of the screw assembly.

6. The tag threading assisting device according to claim 5, wherein the rope winding member moving mechanism further includes a placement table, the placement table is located on the support plate and connected to the nut, and the positioning rope winding member is disposed on the placement table.

7. The tag threading aid of claim 3, wherein the distance between the positioning cord wrap and the tag cord wrap is adjustable in the range of 10mm to 150 mm.

8. The tag threading aid of any one of claims 2 to 7, wherein the distance between two tag winding members is 5mm to 50 mm.

9. The tag threading aid of any one of claims 1 to 7, wherein the positioning cord wrap is cylindrical in shape; and/or

The shape of drop wire winding spare is cylindric.

10. The tag stringing aid of claim 9, wherein the positioning cord wrap has a diameter of 2mm to 10 mm; and/or

The diameter of the hanging tag rope winding piece is 2 mm-10 mm.

11. The tag threading aid of claim 9, wherein the positioning cord winding member has a height of 50mm to 200 mm; and/or

The height of the hanging tag rope winding piece is 50 mm-200 mm.

12. A hang tag threading method using the hang tag threading assisting device according to any one of claims 1 to 11, characterized by comprising the steps of:

sequentially enabling a hanging tag rope to pass through hanging tag holes of a plurality of hanging tags, and stacking the hanging tags to form a hanging tag pile;

fixing one end of the tag hanging rope and keeping the other end of the tag hanging rope movable;

and (3) repeatedly carrying out rope winding operation for a plurality of times, wherein each rope winding operation comprises the following steps: moving the hanging tag which is positioned at the top layer currently in the hanging tag stack, driving the hanging tag ropes on two sides of the hanging tag to bypass the positioning rope winding piece, and winding the hanging tag ropes on two sides of the hanging tag on one of the hanging tag rope winding pieces; in two adjacent rope winding operations, the rope winding directions of the hanging tag ropes on two sides of the hanging tag when the hanging tag ropes wind the positioning rope winding pieces are different, and the hanging tag rope winding pieces wound by the hanging tag ropes on two sides of the hanging tag are different;

cutting off the tag cord between the positioning cord winding member and each of the tag cord winding members after repeating the cord winding operation a plurality of times.

13. The method of threading a hangtag of claim 12, further comprising the step of separating the hangtags each threaded with a string and joining the strings threaded on each of the hangtags end to end after cutting the hangtag string between the positioning string winding and each of the hangtag string windings.

14. A method of threading a hang tag as claimed in any of claims 12 to 13, wherein in the step of securing one end of the hang tag cord, the end of the hang tag cord to be secured is fixedly connected to the positioning cord winder.

Technical Field

The invention relates to the technical field of textiles, in particular to a hanging tag threading auxiliary device and a hanging tag threading method.

Background

The hangtag is a common clothing accessory with a large dosage. The tag needs to be threaded in the using process, and in the traditional technology, the process of threading the tag needs to be manually completed by an operator. The operation process of one-time rope threading of the hanging tag can be roughly divided into the following three steps: firstly, the rope belt passes through the hangtag hole, then the rope belt is cut off by scissors, and finally the rope belt is knotted. This procedure involves a great deal of repetitive labor and also requires frequent replacement of the tools in the operator's hands, making the actual stringing process extremely inefficient.

Disclosure of Invention

Accordingly, there is a need for a tag threading assisting device capable of improving the efficiency of threading a tag, and further, a tag threading method.

According to one embodiment of the invention, a swing ticket stringing aid comprises: backup pad, location wire winding spare and drop wire winding spare, location wire winding spare with the drop wire winding spare all set up in the backup pad top, the drop wire winding spare has a plurality ofly, and each the drop wire winding spare is apart from distance between the location wire winding spare equals.

In one embodiment, there are two of the drop cords.

In one embodiment, the hang tag threading assisting device further comprises a rope winding piece moving mechanism, the rope winding piece moving mechanism is connected to the positioning rope winding piece, and the rope winding piece moving mechanism is used for driving the positioning rope winding piece to move so as to adjust the distance between the positioning rope winding piece and the two hang tag rope winding pieces.

In one embodiment, the surface of the support plate is provided with a moving groove located on a perpendicular bisector between the two hang tag rope winding pieces, and the rope winding piece moving mechanism is used for driving the positioning rope winding piece to move along the moving groove.

In one embodiment, the rope winding member moving mechanism comprises a rotating handle and a screw assembly arranged below the supporting plate, a screw rod in part of the screw assembly is positioned below the moving groove, the rotating handle is connected to one end of the screw rod, and the bottom end of the positioning rope winding member is fixedly connected to a nut of the screw assembly.

In one embodiment, the rope winding member moving mechanism further comprises a storage table, the storage table is located on the support plate and connected with the nut, and the positioning rope winding member is arranged on the storage table.

In one embodiment, the distance between the positioning rope winding piece and the hangtag rope winding piece is adjustable within the range of 10 mm-150 mm.

In one embodiment, the distance between the two rope winding parts of the hangtag is 5 mm-50 mm.

In one embodiment, the positioning cord wrap is cylindrical in shape; and/or

The shape of drop wire winding spare is cylindric.

In one embodiment, the diameter of the positioning rope winding piece is 2 mm-10 mm; and/or

The diameter of the hanging tag rope winding piece is 2 mm-10 mm.

In one embodiment, the height of the positioning rope winding piece is 50 mm-200 mm; and/or

The height of the hanging tag rope winding piece is 50 mm-200 mm.

Further, a hang tag threading method using the hang tag threading assisting device according to any one of the above embodiments includes the following steps:

sequentially enabling a hanging tag rope to pass through hanging tag holes of a plurality of hanging tags, and stacking the hanging tags to form a hanging tag pile;

fixing one end of the tag hanging rope and keeping the other end of the tag hanging rope movable;

and (3) repeatedly carrying out rope winding operation for a plurality of times, wherein each rope winding operation comprises the following steps: moving the hanging tag which is positioned at the top layer currently in the hanging tag stack, driving the hanging tag ropes on two sides of the hanging tag to bypass the positioning rope winding piece, and winding the hanging tag ropes on two sides of the hanging tag on one of the hanging tag rope winding pieces; in two adjacent rope winding operations, the rope winding directions of the hanging tag ropes on two sides of the hanging tag when the hanging tag ropes wind the positioning rope winding pieces are different, and the hanging tag rope winding pieces wound by the hanging tag ropes on two sides of the hanging tag are different;

cutting off the tag cord between the positioning cord winding member and each of the tag cord winding members after repeating the cord winding operation a plurality of times.

In one embodiment, after the hangtag rope between the positioning rope winding piece and each hangtag rope winding piece is cut off, the steps of separating the hangtags respectively provided with the rope belts and connecting the rope belts arranged on the hangtags end to end are further included.

In one embodiment, in the step of fixing one end of the hangtag string, the end of the hangtag string to be fixed is fixedly connected to the positioning cord reel.

Above-mentioned drop reeving auxiliary device is including location wire winding piece and a plurality of drop wire winding pieces, location wire winding piece equals with the distance between each drop wire winding piece, the corresponding drop reeving method of this drop reeving auxiliary device cooperation, the process of need in the traditional art to punch the hole respectively with the drop rope many times and cut the drop rope has been avoided, and will need the process integration that separates many times originally to accomplish once, and then avoided frequently changing the instrument and cut the time waste of the in-process of drop rope, consequently, the work efficiency of drop reeving can be effectively promoted.

Specifically, in the actual use process, a hang tag rope can sequentially penetrate through holes of a plurality of hang tags, the hang tags are stacked to form a hang tag pile, one end of the hang tag rope is fixed, the hang tags and the movable ends of the hang tag rope are sequentially pulled, the hang tag rope forms an included angle in the process of rope winding operation according to the rope winding operation of the hang tag rope threading method in the embodiment, and the included angle surrounds the hang tag rope winding piece. Although the two ends of the included angles formed by the tag ropes are entangled at the periphery of the positioning rope winding members during the repeated rope winding operations, the tag ropes between the positioning rope winding members and the respective tag rope winding members are paired, and thus can be finally cut by the cutting means, and the tag ropes having substantially the same length and all passing through the single tag can be directly obtained.

Drawings

FIG. 1 is a schematic view of a tag stringing aid;

FIG. 2 is a front view of the swing ticket stringing aid shown in FIG. 1;

FIG. 3 is a top view of the swing ticket stringing aid shown in FIG. 1;

FIG. 4 shows a process schematic of a method of stringing a swing ticket;

wherein the reference symbols and their meanings are as follows:

110. positioning the rope winding piece; 120. a first hangtag rope winding member; 130. a second hang tag rope winding member; 140. a support plate; 151. a moving groove; 152. a lead screw assembly; 153. rotating the handle; 154. a placing table; 160. a base; 210. stacking the hangtags; 220. a drop rope; 230. positioning the rope winding piece; 240. a first hangtag rope winding member; 250. the second swing is a rope winding member.

Detailed Description

In order that the invention may be more fully understood, reference will now be made to the following description. Preferred embodiments of the present invention are presented herein. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. As used herein, "plurality" includes two and more than two items. As used herein, "above a certain number" should be understood to mean a certain number and a range greater than a certain number.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In addition, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or may be connected through two or more elements. It should be understood that it is a matter of course that those skilled in the art can correspondingly understand the specific meanings of the above terms according to specific situations without causing ambiguity.

Unless otherwise defined, in the description of the present invention, terms indicating orientation or positional relationship such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are based on the orientation or positional relationship shown in the drawings of the present invention, which are only for convenience and simplicity in describing the contents of the invention and for the reader's understanding in conjunction with the drawings, and do not define or imply that the device or element referred to must have a specific orientation and therefore should not be construed as limiting the present invention.

According to one embodiment of the invention, a swing ticket stringing aid comprises: backup pad, location wire winding spare and drop wire winding spare, location wire winding spare with the drop wire winding spare all set up in the backup pad top, the drop wire winding spare has a plurality ofly, and each the drop wire winding spare is apart from distance between the location wire winding spare equals.

Furthermore, the number of the hanging tag rope winding pieces is two, and for convenience of marking, one of the hanging tag rope winding pieces is a first hanging tag rope winding piece, and the other hanging tag rope winding piece is a second hanging tag rope winding piece. The distance between the positioning rope winding piece and the first hanging tag rope winding piece is equal to the distance between the positioning rope winding piece and the second hanging tag rope winding piece.

The supporting plate can be directly contacted with the upper portion of the supporting plate, or can be arranged above the supporting plate through other objects arranged in the middle. And the mode of setting up above the backup pad can also be erect or violently stand, as long as can make the drop rope can walk around corresponding rope winding spare.

The distance between the positioning rope winding piece and the first hanging tag rope winding piece is the distance between the center of the positioning rope winding piece and the center of the first hanging tag rope winding piece, and the distance between the positioning rope winding piece and the second hanging tag rope winding piece is the distance between the center of the positioning rope winding piece and the center of the second hanging tag rope winding piece. Further, the shape of the first swing ticket rope winding member is the same as the shape of the second swing ticket rope winding member.

In one particular example, the positioning cord element has a central axis, and the positioning cord element is rotationally symmetric along its central axis. The first swing ticket has a central axis about the cord member, the first swing ticket being rotationally symmetric about the cord member along the central axis. The second swing ticket has a central axis about the cord member, the second swing ticket being rotationally symmetric about the cord member along the central axis.

In one specific example, the hang tag threading device further comprises a rope winding piece moving mechanism, and the rope winding piece moving mechanism is used for driving the positioning rope winding piece to move so as to adjust the distance between the positioning rope winding piece and the first hang tag rope winding piece and the distance between the positioning rope winding piece and the second hang tag rope winding piece. Wherein, adopt the in-process that the piece moving mechanism that winds drives location to wind the piece and remove, still need to keep the location to wind the distance between piece and the first drop piece of winding and fix a position to wind the distance between piece and the second drop piece of winding equal. Because when the hanging tag threading devices of different specifications and different materials are threaded, the required rope length is different, and the rope winding piece moving mechanism is adopted to move the positioning rope winding piece, so that the distances between the positioning rope winding piece and the first hanging tag rope winding piece and between the positioning rope winding piece and the second hanging tag rope winding piece are adjustable, and the applicability of the hanging tag threading device is further improved.

The rope winding piece moving mechanism can comprise a guide rail arranged on the supporting plate, and the positioning rope winding piece is arranged on the guide rail and can move along the guide rail. However, a similarly arranged cord-winding displacement mechanism takes up a large space on the surface of the support plate, which is disadvantageous for the cord-winding operation of the tag cord during actual use. Therefore, in one preferable specific example, the surface of the support plate is provided with a moving groove located on the perpendicular bisector between the first hanging tag rope winding piece and the second hanging tag rope winding piece, and the rope winding piece moving mechanism is used for driving the positioning rope winding piece to move along the moving groove. The rope winding piece is arranged and positioned to move along the moving groove, so that the space on the surface of the supporting plate is saved, and sufficient space is reserved for the rope winding process as far as possible.

Wherein the first and second swing ticket rope winding members may be secured to the support plate surface. Or, the hang tag threading assisting device may also include a first hang tag rope winding moving device and a second hang tag rope winding moving device, the first hang tag rope winding moving device is configured to drive the first hang tag rope winding to move along a connection line between the first hang tag rope winding and the second hang tag rope winding, and the second hang tag rope winding moving device is configured to drive the second hang tag rope winding to move along a connection line between the first hang tag rope winding and the second hang tag rope winding. During the moving process, the position of the perpendicular bisector between the first hanging tag rope winding piece and the second hanging tag rope winding piece needs to be ensured to be unchanged, so that the distance between the first hanging tag rope winding piece and the second hanging tag rope winding piece is controlled to be equal to the distance between the first hanging tag rope winding piece and the second hanging tag rope winding piece.

Further, the rope winding movement mechanism may also be provided below the support plate to further reduce the space occupation above the support plate. The rope winding member moving mechanism may be driven by electric power or manually. In view of its portability, a manually driven cord winder movement mechanism is more suitable. In one specific example, the rope winding piece moving mechanism comprises a rotating handle and a screw rod assembly arranged below the supporting plate, a screw rod in part of the screw rod assembly is located right below the moving groove, the rotating handle is connected to one end of the screw rod, and the bottom end of the rope winding piece is fixedly connected to a nut in the screw rod assembly. When in actual use, the distance between the rope winding piece and the second hanging tag rope winding piece can be adjusted by only shaking the rotating handle. And, through adopting the combination of twist grip and lead screw subassembly, can improve the precision of distance adjustment, control it in suitable range.

In one specific example, the rope winding piece moving mechanism further comprises an object placing table arranged on the nut, the object placing table is located on the supporting plate, and the positioning rope winding piece is arranged on the object placing table. Furthermore, one side surface of the object placing table, which is provided with the positioning rope winding piece, is flush with one side surface of the support plate, which is provided with the first hang tag rope winding piece and the second hang tag rope winding piece.

The shapes of the positioning rope winding piece, the first hanging tag rope winding piece and the second hanging tag rope winding piece can be respectively and independently selected from irregular shapes, columnar shapes, truncated cone shapes or conical shapes, wherein the columnar shapes can be selected from cylindrical shapes or prism shapes, the truncated cone shapes can be selected from round table shapes or truncated pyramid shapes, and the conical shapes can be selected from conical shapes or pyramid shapes. In one specific example, the positioning cord wrap is cylindrical in shape. The cylindrical positioning rope winding piece can reduce the friction force of the tag rope when the tag rope is wound around the positioning rope winding piece as much as possible, the stress condition of the tag rope is balanced, and the tag rope is prevented from being easily broken due to overlarge local tension.

In one particular example, the first drop cord wrap is cylindrical in shape.

In one particular example, the second drop cord wrap is cylindrical in shape.

The size of the rope winding piece is not suitable to be too large or too small, the space occupied by the rope winding piece is not large enough when the size is too large, the rope winding piece is not suitable for subsequent rope winding operation, and the effect of separating the hangtag ropes can not be influenced when the size is too small. In one specific example, the positioning cord-winding member has a diameter of 2mm to 10mm, further optionally a diameter of 2mm to 10mm, 2mm to 8mm, 5mm to 10mm or 5mm to 8 mm.

In one particular example, the first swing ticket rope is 2mm to 10mm in diameter. Further optionally, the diameter of the first swing ticket rope winding member is 2mm to 10mm, 2mm to 8mm, 5mm to 10mm, or 5mm to 8 mm.

In one specific example, the diameter of the second swing rope is 2mm to 10 mm. Further optionally, the diameter of the second swing ticket rope winding member is 2mm to 10mm, 2mm to 8mm, 5mm to 10mm, or 5mm to 8 mm.

The height of the rope winding piece is not too high or too low, when the height of the rope winding piece is too low, the tag rope can be separated from the rope winding piece in the rope winding operation process, and when the height of the rope winding piece is too high, the length of the rope in the rope winding operation process of the tag rope can be insufficient to be pulled downwards from the top of the rope winding piece to be sleeved on the rope winding piece. In one specific example, the height of the positioning rope winding piece is 50 mm-200 mm. Further optionally, the height of the positioning cord wrap is 50mm to 150mm, 50mm to 100mm, or 100mm to 150 mm.

In one specific example, the first drop cord wrap has a height of 50mm to 200 mm. Further optionally, the first swing rope is 50mm to 150mm, 50mm to 100mm, or 100mm to 150mm in height.

In one specific example, the second swing rope is 50mm to 200mm in height. Further optionally, the second swing rope is 50mm to 150mm, 50mm to 100mm, or 100mm to 150mm in height.

In one particular example, the center points of the positioning cord wrap, the first swing cord wrap and the second swing cord wrap together define an isosceles triangle.

To further understand the specific structure of the above-mentioned hanging tag threading assisting device, please refer to fig. 1 to 3 together, fig. 1 shows a specific embodiment of the hanging tag threading assisting device, fig. 2 shows a front view of the hanging tag threading assisting device in fig. 1, and fig. 3 shows a top view of the hanging tag threading assisting device in fig. 1.

The tag threading aid includes a support plate 140, a positioning cord wrap 110, a first tag cord wrap 120, and a second tag cord wrap 130. Wherein the positioning cord winding member 110, the first swing ticket cord winding member 120, and the second swing ticket cord winding member 130 stand above the support plate 140. The distance between the positioning cord piece 110 and the first swing cord piece 120 is equal to the distance between the positioning cord piece 110 and the second swing cord piece 130.

The positioning rope winding member 110, the first tag rope winding member 120 and the second tag rope winding member 130 are cylindrical and have the same shape. Further, the positioning rope winding member 110, the first tag rope winding member 120 and the second tag rope winding member 130 are made of iron alloy. The supporting plate 140 is made of aluminum alloy.

Further, the tag threading assisting device further comprises a positioning rope winding member 110 moving mechanism, and the positioning rope winding member 110 moving mechanism is used for driving the positioning rope winding member 110 to move so as to adjust the distance between the positioning rope winding member 110 and the first tag rope winding member 120 and the distance between the positioning rope winding member 110 and the second tag rope winding member 130. Specifically, the surface of the supporting plate 140 is provided with a moving groove 151 located on the perpendicular bisector between the first hanging tag rope winding member 120 and the second hanging tag rope winding member 130, and the moving mechanism of the positioning rope winding member 110 is used for driving the positioning rope winding member 110 to move along the moving groove 151.

Further, the moving mechanism of the positioning rope winding member 110 comprises a rotating handle 153 and a screw assembly 152 disposed below the supporting plate 140, a screw rod of a part of the screw assembly 152 is located right below the moving groove 151, the rotating handle 153 is connected to one end of the screw rod, and the bottom end of the positioning rope winding member 110 is fixedly connected to a nut of the screw assembly 152.

More specifically, the positioning rope winding member 110 moving mechanism further includes a placing table 154 disposed on the nut, the placing table 154 is disposed on the support plate 140, and the positioning rope winding member 110 is disposed on the placing table 154.

In one specific example, the distance between the positioning cord wrap 110 and the first swing cord wrap 120 is adjustable in the range of 10mm to 150 mm. Further, optionally, a distance between a rope winding member and the first swing ticket rope winding member 120 is adjustable within a range of 10mm to 100mm, 20mm to 100mm, 30mm to 80mm, or 50mm to 80 mm.

In one specific example, the distance between the first and second swing rope winding members 120 and 130 is 5mm to 50 mm. Further, optionally, the distance between the first and second swing rope winding members 120 and 130 is 10mm to 50mm, 10mm to 40mm, 20mm to 40mm, or 20mm to 30 mm.

The positioning cord winding member 110, the first tag cord winding member 120 and the second tag cord winding member 130 are all 150mm in height and 5mm in diameter.

Further, in order to suspend the supporting plate 140 so as to install the rope winding member 110 moving mechanism below the supporting plate 140, the tag threading assisting device further includes a support. The support is made of steel.

Further, the invention also provides a hanging tag threading method, which comprises the following steps:

sequentially enabling a hanging tag rope to pass through hanging tag holes of a plurality of hanging tags, and stacking the hanging tags to form a hanging tag pile;

fixing one end of a tag hanging rope and keeping the other end of the tag hanging rope movable;

and (3) repeatedly carrying out rope winding operation for a plurality of times, wherein each rope winding operation comprises the following steps: moving the hanging tag which is positioned at the top layer currently in the hanging tag stack, driving the hanging tag ropes on two sides of the hanging tag to bypass the positioning rope winding piece, and winding the hanging tag ropes on two sides of the hanging tag on one of the hanging tag rope winding pieces; in two adjacent rope winding operations, the rope winding directions of the hanging tag ropes on two sides of the hanging tag when the hanging tag ropes wind the positioning rope winding pieces are different, and the hanging tag rope winding pieces wound by the hanging tag ropes on two sides of the hanging tag are different;

the rope winding direction when the hanging tag ropes on the two sides of the hanging tag bypass the positioning rope winding piece can be clockwise or anticlockwise.

After repeating the rope winding operation a plurality of times, the tag rope between the positioning rope winding member and each tag rope winding member is cut off. This operation helps separate the hang tag strings that pass through different hang tags during subsequent cutting of the hang tag strings.

In one particular example, during the roping operation, the hangtag cords on both sides of the current hangtag are on the same side where the roping elements are located. Further, in two adjacent rope winding operations, the hangtag ropes on both sides of the front hangtag and the hangtag ropes on both sides of the rear hangtag are respectively positioned on different sides of the positioning rope winding piece.

In one specific example, after cutting the tag ropes between the positioning rope winding member and the first tag rope winding member and between the positioning rope winding member and the second tag rope winding member, the step of connecting end to end portions of the tag ropes passing through the respective tags is further included.

In one specific example, in the step of fixing one end of the hangtag string, the end of the hangtag string to be fixed is fixedly connected to the positioning cord reel.

To facilitate understanding of the above-mentioned embodiments of the tag threading method, please refer to fig. 4, which shows a schematic diagram of the embodiments of the tag threading method, including steps S1-S4.

Step S1, sequentially passing the tag string 220 through the holes of the plurality of tags, sequentially stacking the plurality of tags, preparing the tag pile 210, fixing one end of the tag string 220 at the bottom of the tag pile 210 to the positioning rope winding member 230, and placing the tag pile 210 at one side of the positioning rope winding member 230 while the other end of the tag string 220 is a movable end.

The number of the plurality of hanging tags can be two or more than two, and the hanging tags are arranged according to specific needs. In this embodiment, only an illustration is made, and therefore two swing tickets are provided. The particular orientation in which the drop stack 210 is placed may be set according to the relative positions of the positioning cord 230, the first drop cord 240, and the second drop cord 250. For example, in fig. 4, the centers of the positioning cord winding member 230, the first swing cord winding member 240, and the second swing cord winding member 250 are located at three vertices of an isosceles triangle, the positioning cord winding member 230 is located at a vertex opposite to the base, and the swing ticket stack 210 is placed at a position where the positioning cord winding member 230 is located away from the base.

And step S2, pulling the first hang tag at the top end and driving the hang tag rope 220, wherein the hang tag ropes 220 at the two sides of the hang tag form an included angle with the contact point of the hang tag rope 220 and the hang tag hole as the vertex in the process of pulling the hang tag because one end of the hang tag rope 220 is fixed and the other end is movable. When the tag is pulled toward the first tag winding member 240, the tag string 220 contacts the tag hole to form a vertex of an angle, and the tag strings 220 at both ends form two sides of the angle, so that the tag string 220 forms an angle shape or a V shape. It will be appreciated that the angle formed is not necessarily a strictly standard angle, as there is some randomness in the process of pulling the swing ticket, but should be understood to be the angle described above.

The tag cords 220 on both sides of the tag are then passed around the positioning cord wrap 230, noting that the tag cords 220 on both sides of the tag pass around the positioning cord wrap 230 counterclockwise and the tag cords 220 on both sides of the tag pass around the positioning cord wrap 230, as indicated by the dashed arrows in S2 of fig. 4. Since the tag cord 220 passes counterclockwise around the positioning cord-winding member 230 at this time, the tag cord 220 passes over the positioning cord-winding member 230 and passes around the positioning cord-winding member 230.

After the hanging tag rope 220 clockwise passes around the positioning rope winding member 230, the hanging tag ropes 220 on both sides of the hanging tag are wound on the first hanging tag rope winding member 240, it should be noted that the winding is performed at this time, the hanging tag ropes 220 are clamped on the periphery of the first hanging tag rope winding member 240 by means of included angles therein, and the hanging tag ropes 220 on both sides of the hanging tag are respectively located on both sides of the first hanging tag rope winding member 240. The radian of the hangtag rope 220 around the first hangtag rope winding member 240 can be pi, or slightly less than pi or slightly more than pi, which is determined by parameters such as the size of the actual device.

Further, referring to step S2 of fig. 4, the tag abuts against a side of the first tag cord winding element 240 away from the positioning cord winding element 230. Also, the tag cords 220 on both sides of the first tag are positioned on the upper side of the positioning cord winding member 230.

In step S3, the tag (i.e. the second tag) at the top of the tag pile 210 is pulled to drive the tag ropes 220 at both sides of the tag to pass around the positioning rope winding member 230. It is noted that in the direction shown by the dotted arrow in S3 of fig. 4, the tag cords 220 on both sides of the tag pass clockwise around the positioning cord wrap 230, and the tag cords 220 on both sides of the tag pass around the positioning cord wrap 230. Since the positioning cord member 230 is wound clockwise, the tag cord is wound around the positioning cord member 230 from below the positioning cord member 230.

After the hanging tag rope 220 is wound around the positioning rope winding member 230, the hanging tag ropes 220 on both sides of the hanging tag are wound around the second hanging tag rope winding member 250, and specifically, the hanging tag ropes 220 on both sides of the hanging tag are clamped at the periphery of the second hanging tag rope winding member 250 by the included angle formed by the hanging tag ropes 220.

Through the above operation, it is achieved that the winding directions of the hang tag ropes 220 on both sides of the hang tag are different when the hang tag ropes 220 wind the positioning winding pieces 230, and the hang tag winding pieces around which the hang tag ropes 220 on both sides of the hang tag are wound are different.

It can be understood that, since the first hang tag located above the first hang tag has been connected to the hang tag rope 220 and moved to the side of the first hang tag rope winding member 240, the second hang tag located below the first hang tag needs to be moved to drive the movable end of the hang tag rope 220 to pass through the hang tag hole of the first hang tag and be pulled back, so that the movable end of the hang tag rope 220 moves towards the direction of the first hang tag. The movable end of the hang tag rope 220 is drawn toward the second hang tag through the first hang tag hole, so that the second hang tag may have enough movement space to move to one side of the second hang tag rope winding member 250 and to wrap the hang tag rope 220 on the second hang tag rope winding member 250.

It will be appreciated that the specific pulling of the swing ticket and the swing ticket rope 220 is illustrated for only two swing tickets in this embodiment, and that when there are more swing tickets, steps S2 and S3 may be repeated until all of the desired swing tickets have been diverted to the first and second swing ticket windings 240 and 250.

In step S4, the tag string 220 between the positioning cord 230 and the first tag cord 240 and between the positioning cord 230 and the second tag cord 250 is cut.

Referring to the schematic diagram of S3 in FIG. 4, the broken lines indicate the specific location of the cutting sling 220. It will be seen that for this embodiment with two swing tickets, it has been necessary to cut four of the swing ticket cords 220. Although a large number of stacked hangtag strings 220 are produced at this point in the previous roping operation, the roping operation does not cause tangling of the hangtag strings 220 through different hangtags, so that the hangtag strings 220 through the various hangtags need only be cut together to be regularly dispersed, as shown in S4.

Through the above steps S1 to S4, the requirement of threading the hang tag can be completed, and a plurality of hang tags with the hang tag ropes 220 are obtained. After the hang tag rope 220 is cut, the hang tag located beside the first hang tag rope winding member 240 and the hang tag located beside the second hang tag rope winding member 250 are simply picked up, and both ends of the hang tag rope 220 passing through the hang tags are connected end to end.

It will be appreciated that for a swing ticket roping aid with more swing ticket roping, the method of use is similar to the process shown in figure 4, except for the replacement of a particular set of swing ticket roping.

The method for threading the hang tag provided by the embodiment can be completed by adopting the hang tag threading auxiliary device provided by the previous embodiment.

The auxiliary device for stringing the hanging tag comprises a positioning rope winding piece, a first hanging tag rope winding piece and a second hanging tag rope winding piece, the distance between the positioning rope winding piece and the first hanging tag rope winding piece is equal to the distance between the positioning rope winding piece and the second hanging tag rope winding piece, the auxiliary device for stringing the hanging tag is matched with a corresponding method for stringing the hanging tag, the process that the hanging tag rope needs to be punched and cut off for many times in the traditional technology is avoided, the process that the hanging tag rope is separated for many times is integrated into one-time completion, the time waste in the process that tools are frequently replaced and the hanging tag rope is cut off is further avoided, and therefore the working efficiency of stringing the hanging tag can be effectively improved.

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

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.