CN112251887B - Brocade weaving equipment and warp rolling component thereof - Google Patents

Abstract

The invention discloses a warp rolling component which comprises a warp rolling shaft, a first shaft seat, a second shaft seat and a bolt component, wherein a second shaft head of the warp rolling shaft is arranged on a second inner seat of the second shaft seat, a first shaft head of the warp rolling shaft is arranged on a first inner seat of the first shaft seat, a pretightening force towards the warp rolling shaft is provided by a first elastic part of the first inner seat so that the warp rolling shaft is axially limited, an annular groove and a straight groove which is communicated with the annular groove and extends towards the warp rolling shaft are arranged on the outer edge of the first inner seat, and the bolt shaft of the bolt component extends into the annular groove after passing through an insertion hole in the first seat body and is pressed into a bolt positioning hole so as to limit the rotation of the first inner seat. In use, the step of independently adjusting the beam reeling shaft is omitted, the labor intensity is greatly reduced, and the production efficiency is improved; and the requirement on the control of the beating force after the shuttle lead is penetrated can be effectively reduced, and the technical requirement on a brocade user can be properly reduced. In addition, the invention also provides brocade equipment comprising the warp rolling component.

Description

Brocade weaving equipment and warp rolling component thereof

Technical Field

The application relates to the technical field of brocade equipment, and particularly relates to a warp rolling component and brocade equipment comprising the same.

Background

The brocade technique of the Xiangxi Tu family has a long history, but the process is original and complex. The existing brocade weaving machine has the problems of troublesome operation, high labor intensity, low working efficiency and the like. Currently, the Hunan West native families strive to improve the process and associated equipment in an effort to reduce labor intensity, improve production efficiency, and the like.

Disclosure of Invention

The object of the present invention consists in providing a warp-curling member and a brocade device comprising the same, which make it possible to reduce the labour intensity and to overcome some of the drawbacks of the prior art.

In a first aspect, a warp curling member is provided, which includes:

the warp beam comprises a first shaft head and a second shaft head at two ends;

the first shaft seat comprises a first seat body, a first inner seat and a first elastic piece, the first inner seat is rotatably and axially slidably arranged on the first seat body, a first shaft hole used for installing and limiting the first shaft head to rotate relatively is formed in the first inner seat, an annular groove and a straight groove which is communicated with the annular groove and extends towards the warp winding shaft are formed in the outer edge of the first inner seat, at least one bolt positioning hole is uniformly distributed at the bottom of the annular groove, a jack is formed in the first seat body, and the first elastic piece provides pre-tightening force towards the warp winding shaft for the first inner seat;

the second shaft seat comprises a second seat body and a second inner seat, the second inner seat is axially limited but rotatably arranged on the second seat body, and a second shaft hole for mounting the second shaft head is formed in the second inner seat;

the bolt assembly comprises a mounting seat, a bolt shaft, a bolt spring and a traction rope, wherein the bolt shaft is arranged on the mounting seat in a lifting mode, the lower portion of the bolt shaft penetrates through the jack and extends into the annular groove, the top of the bolt shaft is connected with the lower portion of the traction rope, and the bolt spring is matched with the mounting seat to provide downward pre-tightening force for the bolt shaft.

Preferably, the bolt assembly further comprises a bolt nut, the bolt shaft is sleeved with the bolt nut and adopts a thread fit structure, one end of the bolt spring acts on the mounting seat, and the other end of the bolt spring acts on the bolt nut.

Preferably, the bolt spring is a pressure spring which pushes up the mounting seat and presses down the bolt nut. And a sleeve part extends upwards from the upper part of the latch nut, and the inner diameter of the bottom of the sleeve part is the smallest and is the same as the outer diameter of the pressure spring.

Preferably, the bolt spring is a tension spring, the lower part of the tension spring pulls the mounting seat, and the upper part of the tension spring pulls the bolt nut.

Preferably, the bolt spring is a tension spring, the lower part of the tension spring is connected with the mounting seat, and the upper part of the tension spring is connected with the bolt shaft.

Preferably, the first shaft hole is a part of a regular pyramid, one end of the first shaft hole facing the warp reeling shaft is larger and is in a regular polygon shape on the cross section, the first shaft head is a part of the regular pyramid, one end of the first shaft head facing the first shaft hole is smaller and is in the regular polygon shape on the cross section, and the taper of the regular pyramid of the first shaft head is larger than that of the regular pyramid of the first shaft hole.

Preferably, the first shaft hole is a part of a regular quadrangular pyramid, and the first shaft head is a section of the regular quadrangular pyramid. The second shaft hole is a part of a regular quadrangular pyramid and is in a symmetrical structure with the first shaft hole, and the second shaft head is in a symmetrical structure relative to the first shaft head.

Preferably, the first shaft seat further comprises a first bearing fastened to the first seat body, and the first inner seat is matched with the first bearing.

Preferably, the second bearing seat further comprises a second bearing fastened to the second seat body, and the second inner seat is matched with the second bearing.

Preferably, the mount pad includes the pedestal and extends by this pedestal upper portion last installation department and lower installation department, the bolt axle includes the plug pin portion of lower part, the screw thread portion at middle part, the light axial region on upper portion, the top of this plug pin axle be equipped with be used for with the wire rope handling hole that the haulage rope is connected, the upper portion slidable of plug pin portion passes down the installation department the light axial region slidable passes last installation department.

Preferably, the bolt assembly further comprises a fixed pulley and a rope clamping seat, the fixed pulley is located above the bolt shaft, and the traction rope is hung on the rope clamping seat in the axial direction of the bolt after passing through the fixed pulley in a winding mode. The tail part of the traction rope is provided with a hanging rod, and the rope clamping seat is provided with a hanging rod groove for accommodating the hanging rod to slide and at least one hanging rod hole for limiting the hanging rod at a certain position; or the tail part of the traction rope is provided with a hook, and the rope clamping seat is provided with at least one hook hole.

Preferably, the bolt shaft is made of spring steel. At least three bolt positioning holes are uniformly distributed at the bottom of the annular groove.

In a second aspect, there is provided a brocade device, which includes the warp rolling component in any one of the above technical solutions.

The beneficial effects of the invention are as follows.

1. The warp rolling component comprises a warp rolling shaft, a first shaft seat, a second shaft seat and a bolt component, wherein a second shaft head of the warp rolling shaft is arranged on a second inner seat of the second shaft seat, a first shaft head of the warp rolling shaft is arranged on a first inner seat of the first shaft seat, a pretightening force towards the warp rolling shaft is provided by a first elastic part of the first inner seat so that the warp rolling shaft is axially limited, an annular groove and a straight groove which is communicated with the annular groove and extends towards the warp rolling shaft are arranged on the outer edge of the first inner seat, a bolt shaft of the bolt component penetrates through a jack on the first seat body and then extends into the annular groove, under the pretightening force provided by a bolt spring, the bottom of the bolt shaft is pressed into the bolt positioning hole to limit the rotation of the first inner seat, and a traction rope of the bolt component is pulled up to pull the bolt shaft out of the bolt positioning hole, the warp reeling shaft on the brocade weaving equipment can be rotated to drive the warp reeling shaft to rotate, the traction rope can be loosened at the beginning of rotation, and when the warp reeling shaft rotates for a circle or rotates to the next bolt positioning hole to be matched with the bolt shaft, the bolt shaft is inserted into the bolt positioning hole under the action of the pretightening force of the bolt spring. The step of independently adjusting the warp reeling shaft is omitted, only the traction rope is pulled along the belt when the brocade reeling shaft is adjusted, the labor intensity is reduced by about one half, the operation time is saved by about one half, the labor intensity is greatly reduced, and the production efficiency is improved.

2. The warp rolling component comprises a first inner seat, a second inner seat, a pin shaft, a pin positioning hole, a pin shaft, a first inner seat, a second inner seat, a pin shaft, a second inner seat, a second and a second inner seat, wherein the second inner seat is formed by the second inner seat, the second inner seat, the second seat, the. In addition, the first shaft head and the second shaft head, and the first shaft hole and the second shaft hole are of a regular-diamond-shaped cone structure, so that the warp beam can be conveniently mounted and dismounted.

Drawings

In order to illustrate the embodiments of the claimed invention or the technical solutions in the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of some of the inventions, and that other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is a schematic perspective view of an alternative embodiment of a warp rolling member according to the present invention.

Fig. 2 is a schematic cross-sectional view of the warp member provided in fig. 1.

Fig. 3 is a schematic perspective view of an alternative embodiment of the warp beam of fig. 1 and 2.

Fig. 4 is a schematic perspective view of an alternative embodiment of the first inner mount of fig. 1 and 2.

Fig. 5 is a perspective view of an alternative embodiment of the second inner housing of fig. 1 and 2.

Fig. 6 is a perspective view of an alternative embodiment of the latch shaft of fig. 1 and 2.

Fig. 7 is a perspective view of an alternative embodiment of the latch nut of fig. 1 and 2.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present invention, the following detailed description of the present invention is provided in conjunction with the accompanying drawings and specific embodiments. It should be noted that any reference numerals of the present invention, such as "first" or "second", are merely for illustration and are not intended to limit the scope of the present invention in any way.

In a specific embodiment, as shown in fig. 1 and 2, a warp reeling component is provided, which comprises a warp reeling shaft 10, a first shaft base 20, a second shaft base 30 and a bolt assembly 40, wherein the first shaft base 20 comprises a first base body 21 and a first inner base 22, a first elastic member 23, the second shaft base 30 comprises a second base body 31 and a second inner base 32, and the bolt assembly 40 comprises a mounting base 41 and a bolt shaft 42, a bolt spring 43 and a hauling rope 44. As shown in fig. 1 and 2, the first inner seat 22 is rotatably and axially slidably disposed on the first seat body 21, and the second inner seat 32 is axially limited and rotatably disposed on the second seat body 31. As shown in fig. 1 to 3, the warp beam 10 includes a first spindle head 11 and a second spindle head 12 at two ends, the first inner seat 22 has a first spindle hole 221 for mounting and limiting the first spindle head 11 to rotate relatively, and the second inner seat 32 has a second spindle hole 321 for mounting the second spindle head 12.

As shown in fig. 1, 2 and 4, the outer edge of the first inner seat 22 has an annular groove 222 and a straight groove 223, the straight groove 223 is communicated with the annular groove 222 and extends toward one side of the warp beam 10, at least one pin positioning hole 224 is uniformly distributed at the bottom of the annular groove 222, the first seat body 21 has an insertion hole 211, and the first elastic member 23 provides a pre-tightening force toward the warp beam 10 to the first inner seat 22.

As shown in fig. 1 and 2, the latch shaft 42 is disposed on the mounting base 41 in a liftable manner, a lower portion of the latch shaft 42 extends into the annular groove 222 through the insertion hole 211, a top portion of the latch shaft 42 is connected to a lower portion of the pull rope 44, and the latch spring 43 cooperates with the mounting base 41 to provide a downward pre-tightening force to the latch shaft 42.

In operation, if the thread on the warp beam 10 needs to be replaced after use, the warp beam 10 is pushed towards the first shaft seat 20, the second shaft head 12 of the warp beam 10 is removed from the second shaft hole 321 of the second inner seat 32, and then the warp beam 10 can be removed from the first shaft hole 221; one end of a new warp beam is inserted into the first shaft hole 221 and pushed by force, and the other end of the new warp beam can be inserted into the second shaft hole 321 after being pushed to the right position, so that the operation of replacing the warp beam 10 is completed.

When the multifunctional warp beam winding machine is used, the lower part of the bolt shaft 42 can be pulled out of the bolt positioning hole 224 by pulling or pulling the traction rope 44, the warp beam winding shaft 10 can be driven to rotate by rotating the warp beam winding shaft on the brocade weaving equipment, the traction rope 44 can be loosened before the warp beam winding shaft rotates in place or the traction rope 44 can be loosened after the warp beam winding shaft rotates, when the warp beam winding shaft 10 rotates for a circle or rotates to the next bolt positioning hole 224, the bolt shaft 42 is inserted into the bolt positioning hole 224 under the action force of the bolt spring 43, and one-time position switching is completed. It can be seen that, by adopting the above embodiment, the step of independently adjusting the warp beam reeling shaft 10 is omitted, only the pulling rope 44 is needed to be pulled along the belt when the warp beam reeling shaft is adjusted, the labor intensity is reduced by nearly half, the operation time is also saved by nearly half, the labor intensity is greatly reduced, and the production efficiency is improved.

In addition, because the bolt shaft 42 is deeply inserted into the annular groove 222 and the bolt positioning hole 224 of the first inner seat 22, when the warp beam 10 is subjected to a radial external force, the bolt shaft 42 can generate certain elastic deformation, so that the warp beam 10 can have certain buffering effect, namely, even if the beating force after the shuttle lead exceeds a certain degree, no adverse effect can be generated, the requirement on the control of the beating force after the shuttle lead is penetrated can be effectively reduced, and the technical requirement on a brocade weaving person can be properly reduced.

As shown in fig. 1 and 2, the first seat body 21 is disposed on the first edge beam 02, the second seat body 31 is disposed on the second edge beam 01, and the first edge beam 02 and the second edge beam 01 are a part of a frame of a brocade weaving device where warp rolling components are located, or are independent beams fastened or fixed on the frame. In the drawing, the fastening connection method adopted by the first seat body 21 is provided on the first side beam 02, and the fastening connection method adopted by the second seat body 31 is provided on the second side beam 01, and various suitable methods such as welding, riveting, bonding and the like can be adopted. In addition, the first seat 21 can also be understood as a part of the frame of the brocade device where the warp rolling component is located, and the second seat 31 can also be understood as a part of the frame of the brocade device where the warp rolling component is located, that is, the first inner seat 22 is directly and rotatably arranged on the frame of the brocade device, and the second inner seat 32 is directly and rotatably arranged on the frame of the brocade device.

In some preferred embodiments, as shown in fig. 1 and 2, the first bearing 24 is fastened to the first seat 21 by screws, but may be fixed thereto by welding, riveting, etc. (some bolts, screws, etc. are hidden in fig. 2 for convenience of illustration); the second bearing 33 is fastened to the second seat 31 by screws, but may be fixed thereto by welding, riveting, or the like. The first inner seat 22 cooperates with a first bearing 24. The second inner seat 32 cooperates with a second bearing 33.

As shown in fig. 2 and 5, the second inner seat 32 has a stop portion 323 at one end and a threaded hole 322 at the other end, the stop portion 323 abuts against the end surface of the inner side (the side facing the beam 10) of the second bearing 33, and the other end abuts against the end surface of the outer side of the first seat body 31 by using the end cap 34 fastened to the second inner seat 32 (screwed together with the threaded hole 322 by a bolt assembly), thereby limiting the axial movement of the second inner seat 32. Further, any suitable prior art or future technique may be employed to limit axial movement of the second inner seat 32.

As shown in fig. 1, 2 and 4, the number of the bolt positioning holes 224 at the bottom of the annular groove 222 of the first inner seat 22 is 4, and may also be 3, or 5, 6, 7, 8, and the like, generally, the bolt positioning holes 224 are uniformly distributed, and the specific number is mainly selected according to the distance of the step required by adjusting the roll-bond shaft each time, considering the factors such as the size of the annular groove 222 comprehensively.

As shown in fig. 1 and 2, 6 and 7, the latch assembly 40 further includes a latch nut 45, the latch nut 45 has an internal thread 451, a lower portion of the latch shaft 42 is a latch portion 421, a middle portion thereof is a threaded portion 422, and an upper portion thereof is an optical axis portion 423. The mounting base 41 includes a base 411, an upper mounting portion 412 and a lower mounting portion 413, wherein the upper mounting portion 412 extends from the upper portion of the base 411, and the lower mounting portion 413 extends from the lower portion of the base 411. The latch nut 45 is sleeved on the latch shaft 42, the internal thread 451 is matched with the thread part 422, and the upper part of the latch part 421 can slide through the lower mounting part 413 and the optical axis part 423 can slide through the upper mounting part 412. During assembly, the bolt shaft 42 penetrates from bottom to top and firstly penetrates through the lower mounting part 413, the bolt nut 45, the bolt spring 43 and the upper mounting part 412.

One end of the latch spring 43 acts on the mounting block 41 and the other end acts on the latch nut 45. Specifically, as shown in fig. 1 and 2, fig. 6 and fig. 7, the latch spring 43 is a compression spring, the upper end of the latch spring 43 abuts against the upper mounting portion 412 of the mounting seat 41, and the lower end of the latch spring 43 presses the latch nut 45, and the latch nut 45 is coupled with the latch shaft 42 in a threaded manner, so that the latch spring 43 provides a downward pre-tightening force to the latch shaft 42. In addition, the latch spring 43 may not be sleeved on the latch shaft 42, and may also provide downward biasing force to the latch shaft 42 (the spring provides biasing force to a member in many prior art methods, which are easily understood by those skilled in the art and will not be described one by one). In addition, the latch spring 43 may also be a tension spring, and when the tension spring is used, the lower portion of the latch spring 43 pulls the lower mounting portion 413 of the mounting seat 41, and the upper portion pulls the latch nut 45, so as to provide a pre-tightening force for pulling downwards for the latch shaft 42; similarly, the latch spring 43 may be a tension spring that is sleeved on the latch shaft 42, or may not be sleeved on the latch shaft 42.

As shown in fig. 1, 2, and 7, a sleeve 453 extends upward from the upper portion of the latch nut 45, and the inner diameter of the bottom of the sleeve 453 is the smallest and is the same as the outer diameter of the latch spring 43 (compression spring). This structure can effectively prevent the plug spring 43 from being deviated. In a preferred embodiment, the hexagonal head 452 of the bolt nut 45 is partially offset from the portion having the internal thread 451. in fig. 1 and 2, and fig. 7, the hexagonal head 452 is located below the portion having the internal thread 451, and may be located above the portion; in addition, the same level may be used.

As shown in fig. 1 and 2, and fig. 6, the top of the latch shaft 42 is provided with a rope passing hole 424, and the lower portion of the pulling rope 44 passes through the rope passing hole 424 and is fastened. As shown in fig. 1, 2 and 6, the lower portion of the latch 421 of the latch shaft 42 is smaller than the upper portion of the latch 421, which facilitates processing, installation and the like. The lower portion of the plug pin portion 42 is generally in a position to engage the annular groove 222, thereby preventing ejection of the first inner seat 22 and limiting the axial travel of the first inner seat 22, which is generally the width of the annular groove 222 minus the diameter of the plug pin portion 42.

As shown in fig. 1 and 2, the latch assembly 40 further includes a fixed pulley 46 and a rope holder 47, the fixed pulley 46 is located above the latch shaft 42, and the pulling rope 44 is wound on the rope holder 47 by the latch shaft 42 upward and passing through the fixed pulley 46. A hanging rod 48 is arranged at the tail part of the traction rope 44, and a hanging rod groove 471 for accommodating the hanging rod 48 to slide and at least one hanging rod hole 472 for limiting the hanging rod 48 at a certain position are arranged on the rope clamping seat 47; or the tail part of the traction rope 44 is provided with a hook, and the rope clamping seat 47 is provided with at least one hook hole. In addition, instead of providing the rope holder 47, the tail of the pulling rope 44 may be directly tied to a suitable place on the brocade device, such as the frame or a pole thereof, and the function thereof can be achieved.

As shown in fig. 1, 2 and 4, the first shaft hole 221 is a part of a regular pyramid, one end of the first shaft hole 221 facing the warp beam 10 is larger and is a regular polygon in cross section, the first shaft head 11 is a part of a regular pyramid, one end of the first shaft head 11 facing the first shaft hole 221 is smaller and is a regular polygon in cross section, and the taper of the regular pyramid of the first shaft head 11 is larger than that of the regular pyramid of the first shaft hole 221. The second shaft hole 321 may be formed in various manners, and the second shaft head 12 may be fixed relative to the second shaft hole 321 or may not be fixed.

As shown in fig. 1, 2 and 4, the first shaft hole 221 is a part of a regular quadrangular pyramid, and the first shaft head 11 is a segment of a regular quadrangular pyramid. The second shaft hole 321 is a part of a regular rectangular pyramid and is symmetrical to the first shaft hole 221, and the second shaft head 12 is symmetrical to the first shaft head 11. In addition, the structure can be various structures such as a regular triangular pyramid, a regular pentagonal pyramid, a regular hexagonal pyramid and the like, and can also be other suitable structures capable of limiting relative rotation, such as a sliding key fit, a spline fit and the like.

Preferably, the latch shaft 42 is made of spring steel, although various other suitable materials may be used.

In addition, a brocade device is also provided, the brocade device includes the warp rolling component provided in any of the above embodiments, and for the specific embodiment, reference is made to the above contents, which are not repeated herein.

The brocade weaving device and the warp rolling component thereof provided by the claimed invention are described in detail above. The principles and embodiments of the claimed invention have been described herein using specific examples, which are presented only to assist in understanding the method and underlying concepts of the claimed invention. In case of conflict, the embodiments and the individual features described in the embodiments of the present application may be combined in any suitable way; in order to avoid unnecessary repetition, various possible combinations are not described in the present application, and should be considered as disclosed in the present application as long as they do not depart from the gist of the invention. Numerous alternative designs and embodiments for practicing the claimed invention within the scope of the appended claims will be apparent to those skilled in the art without departing from the principles of the claimed invention.

Claims (10)

1. A warp member, comprising:

the warp beam comprises a first shaft head and a second shaft head at two ends;

the first shaft seat comprises a first seat body, a first inner seat and a first elastic piece, the first inner seat is rotatably and axially slidably arranged on the first seat body, a first shaft hole used for installing and limiting the first shaft head to rotate relatively is formed in the first inner seat, an annular groove and a straight groove which is communicated with the annular groove and extends towards the warp winding shaft are formed in the outer edge of the first inner seat, at least one bolt positioning hole is uniformly distributed at the bottom of the annular groove, a jack is formed in the first seat body, and the first elastic piece provides pre-tightening force towards the warp winding shaft for the first inner seat;

the second shaft seat comprises a second seat body and a second inner seat, the second inner seat is axially limited but rotatably arranged on the second seat body, and a second shaft hole for mounting the second shaft head is formed in the second inner seat;

the bolt assembly comprises a mounting seat, a bolt shaft, a bolt spring, a traction rope and a bolt nut, wherein the bolt shaft is arranged on the mounting seat in a lifting mode, the lower portion of the bolt shaft penetrates through the jack and extends into the annular groove, the top of the bolt shaft is connected with the lower portion of the traction rope, the bolt spring is matched with the mounting seat to provide downward pre-tightening force for the bolt shaft, the bolt nut is sleeved on the bolt shaft and adopts a thread fit structure, and one end of the bolt spring acts on the mounting seat and the other end of the bolt nut.

2. The warp rolling component according to claim 1, wherein at least three bolt positioning holes are uniformly distributed at the bottom of the annular groove.

3. The warp winder of claim 1, wherein the latch spring is a compression spring which pushes up the mounting seat and pushes down the latch nut, and an upper portion of the latch nut extends upward to form a sleeve portion having a bottom portion with a smallest inner diameter and an outer diameter equal to that of the compression spring.

4. The warp winder of claim 1, wherein the latch spring is a tension spring having a lower portion pulling the mounting seat and an upper portion pulling the latch nut; or the lower part of the tension spring is connected with the mounting seat, and the upper part of the tension spring is connected with the bolt shaft.

5. The beam member as set forth in claim 1, wherein said first axial hole is a part of a regular pyramid, the first axial hole is larger toward one end of said beam member and is a regular polygon in cross section, said first stub shaft is a part of a regular pyramid, the first stub shaft is smaller toward one end of said first axial hole and is a regular polygon in cross section, and the taper of the regular pyramid of said first stub shaft is larger than that of the regular pyramid of said first axial hole.

6. The warp winder member according to claim 1, wherein the first axle hole is a part of a regular quadrangular pyramid, and the first axle head is a section of a regular quadrangular pyramid; the second shaft hole is a part of a regular quadrangular pyramid and is in a symmetrical structure with the first shaft hole, and the second shaft head is in a symmetrical structure relative to the first shaft head.

7. The warp member according to claim 1, wherein the first shaft seat further comprises a first bearing fastened to the first seat body, the first inner seat being engaged with the first bearing; the second bearing seat also comprises a second bearing which is fastened on the second seat body, and the second inner seat is matched with the second bearing.

8. The warp winder component according to claim 1, wherein the mounting seat comprises a seat body, an upper mounting part and a lower mounting part which extend from the upper part of the seat body, the latch shaft comprises a lower latch part, a middle threaded part and an upper light shaft part, the top of the latch shaft is provided with a rope through hole for connecting with the traction rope, the upper part of the latch part slidably passes through the lower mounting part, and the light shaft part slidably passes through the upper mounting part; the bolt shaft is made of spring steel.

9. The warp winder of claim 1, wherein the latch assembly further comprises a fixed pulley and a rope holder, the fixed pulley is positioned above the latch shaft, and the traction rope is wound on the rope holder after passing through the fixed pulley upwards from the latch shaft; the tail part of the traction rope is provided with a hanging rod, and the rope clamping seat is provided with a hanging rod groove for accommodating the hanging rod to slide and at least one hanging rod hole for limiting the hanging rod at a certain position; or the tail part of the traction rope is provided with a hook, and the rope clamping seat is provided with at least one hook hole.

10. Brocade equipment, comprising a warp member, characterized in that the warp member is a warp member according to any of the claims 1 to 9.

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