CN115233386A

CN115233386A - Threading-free thread clamp for embroidery machine

Info

Publication number: CN115233386A
Application number: CN202211023547.4A
Authority: CN
Inventors: 陈天池; 张汉苗; 郑邓飞; 楼凯
Original assignee: Zhejiang Yuelong Sewing Equipment Co ltd
Current assignee: Zhejiang Yuelong Sewing Equipment Co ltd
Priority date: 2022-08-25
Filing date: 2022-08-25
Publication date: 2022-10-25
Anticipated expiration: 2042-08-25
Also published as: CN115233386B

Abstract

A threading-free thread clamp for an embroidery machine comprises a panel and a rear cover connected to the back of the panel; the panel is provided with a wire clamping nut component, a breaking detection wheel component, a wire picking spring nut component, a transition wire passing sleeve and a wire outlet wire passing sleeve from top to bottom, and a bottom detection strip connected with the breaking detection wheel component is arranged in the rear cover; the upper row of take-up spring nut components and the lower row of take-up spring nut components are arranged in a staggered mode, and the transition wire passing suite is arranged between the upper row of take-up spring nut components and the lower row of take-up spring nut components; compared with the prior art, through the setting of crossing the line external member and being qualified for the next round of competitions the line external member through the transition, the line external member is crossed in the transition that adjacent crossed the reverse setting of line spare makes the atress dispersion of facial suture, ensures the line stability of crossing of facial suture, crosses the line external member and sets up corresponding line protection spring in crossing line department through crossing, realizes the roller design that the facial suture crossed the line, reduces and crosses the line resistance.

Description

Threading-free thread clamp for embroidery machine

Technical Field

The invention relates to the technical field of embroidery machines, in particular to a threading-free thread clamp for an embroidery machine.

Background

The development of the embroidery machine not only injects fresh blood into the textile industry, but also promotes the upgrading and the revolution of downstream industries such as clothing, decoration, household articles, fabric industry and the like, and the continuous updating and iteration of embroidery machine products can further promote the vigorous development of the textile industry.

The thread clamping device of the embroidery machine is a device which clamps the yarn on the yarn guide which is going to exit from the knitting machine and does not fall off from the yarn guide so as to enter the work again, the thread clamping device is used for adding a certain clamping force to the yarn, and when the cloth with uneven thickness needs to be knitted, the thread clamping device is usually adopted to realize the control of the thickness degree.

Chinese patent No. CN113622107A discloses a thread clamping device on an embroidery machine, which comprises a shell assembly composed of a panel and a shell covering the rear of the panel; wire pressing ring components which are arranged at the wire inlet and the wire outlet of the panel and used for guiding and limiting embroidery threads; the thread pressing strip assembly is arranged on the panel between the thread pressing ring assemblies and is used for changing the passing resistance of embroidery threads; the thread passing nail assemblies are distributed on the panels on the upper side and the lower side of the thread pressing strip assembly and are used for embroidery thread guiding; the thread passing wheel assembly is arranged above the thread pressing ring assembly at the outlet and used for guiding embroidery threads; and the display assembly is arranged on the panel and connected with the line pressing strip assembly.

The thread clamping device disclosed by the above adjusts the thread tension through the attraction force of the electromagnet, but in the actual use process, the thread-off risk exists in the embroidering process, and the overall stability is poor.

Disclosure of Invention

The threading-free thread clamp for the embroidery machine is compact in structure, reliable in performance and efficient in work.

In order to achieve the purpose, the invention adopts the following technical scheme: a threading-free thread clamp for an embroidery machine comprises a panel and a rear cover connected to the back of the panel; the panel is provided with a wire clamping nut component, a breaking detection wheel component, a wire picking spring nut component, a transition wire passing sleeve and a wire outlet wire passing sleeve from top to bottom, and a bottom detection strip connected with the breaking detection wheel component is arranged in the rear cover; the take-up spring nut assembly comprises an upper row of take-up spring nut assembly and a lower row of take-up spring nut assembly, the upper row of take-up spring nut assembly and the lower row of take-up spring nut assembly are arranged in a staggered mode, and the transition threading kit is arranged between the upper row of take-up spring nut assembly and the lower row of take-up spring nut assembly; the transition wire passing sleeve and the outgoing wire passing sleeve are composed of a plurality of wire passing pieces which are sequentially arranged, adjacent wire passing pieces of the transition wire passing sleeve are arranged in a reverse direction, and the plurality of wire passing pieces of the outgoing wire passing sleeve are arranged in the same direction.

As a preferred scheme of the invention, the wire passing piece comprises a wire passing seat and a wire passing porcelain sleeve arranged in the middle of the wire passing seat, a mounting hole clamped with the wire passing porcelain sleeve is formed in the middle of the wire passing seat, a clamping block matched with the mounting hole in size is formed at the bottom of the wire passing porcelain sleeve, a bending structure is formed at the top of the wire passing porcelain sleeve, and a wire passing hole is formed between the bending structure and the clamping block.

As a preferred scheme of the present invention, the wire passing seat is provided with a wire protecting spring arranged around the mounting hole, and the wire passing seat is formed with an inserting seat inserted into an end portion of the wire protecting spring.

As a preferable scheme of the invention, the wire protection spring is arranged around the wire porcelain bushing, and the middle part of the wire protection spring is provided with an arc-shaped section corresponding to the bending structure.

According to a preferable scheme of the invention, the wire clamping nut assembly is composed of a plurality of wire clamping nuts which are sequentially distributed, a wire inlet plate is arranged at the top of the panel, and wire inlet grooves which correspond to the wire clamping nuts one to one are formed in the wire inlet plate.

According to a preferable scheme of the invention, the panel is provided with a felt, the felt is arranged between the wire inlet plate and the wire clamping nut assembly, and wire inlet grooves of the wire inlet plate are all positioned in the range of the felt.

As a preferable scheme of the invention, the broken inspection wheel assembly consists of a plurality of broken inspection wheels which are sequentially arranged, the broken inspection wheels correspond to the wire clamping nuts one by one, and the broken inspection wheels and the corresponding wire clamping nuts are arranged in an offset manner.

According to a preferable scheme of the invention, a plurality of wire jumping prevention bosses are arranged between the wire breaking detection wheel assembly and the wire clamping nut assembly, the wire jumping prevention bosses are arranged between adjacent wire breaking detection wheels, and arc-shaped structures corresponding to the wire breaking detection wheels are formed on two sides of each wire jumping prevention boss.

As a preferred scheme of the invention, the thread take-up spring nut assembly is composed of a plurality of thread take-up spring nuts, the thread take-up spring nuts correspond to the breaking detection wheels one by one, and the plurality of thread passing pieces of the transition thread passing external member and the thread passing external member for outgoing threads correspond to the thread take-up spring nuts one by one.

As a preferable scheme of the invention, a switch board and an alarm board which are electrically connected with the bottom detection strip are arranged in the rear cover.

Compared with the prior art, the invention has the beneficial effects that:

1. the tension of the upper thread passing through the thread can be adjusted by arranging the thread clamping nut assembly, and meanwhile, the tension of the upper thread can be adjusted by arranging the thread taking spring nut assembly under the condition of preventing the thread from jumping over the upper thread, so that the thread taking spring nut assembly is suitable for embroidery of different fabrics;

2. by the matched connection of the broken detection wheel and the bottom detection strip, whether the upper thread passing through the broken detection wheel is broken or not can be judged under the action of the bottom detection strip, and the broken thread condition can be timely alarmed, so that the working condition of the upper thread can be monitored in real time in the embroidering process;

3. through the arrangement of the transition threading sleeve, the panel of the row picking spring nut assembly with a larger distance from the outgoing threading sleeve is guided, and the lower row picking spring nut assembly with a larger distance from the broken detection wheel assembly is guided, so that the threading stability of the upper thread is ensured;

4. through the arrangement of the transition threading sleeve and the outgoing threading sleeve, the stress of the upper thread is dispersed by the transition threading sleeve reversely arranged adjacent threading pieces, the threading stability of the upper thread is ensured, and the corresponding thread protecting spring is arranged at the threading position through the threading sleeve, so that the roller design of threading the upper thread is realized, and the threading resistance is reduced;

5. through the thread clamping nut component, the broken inspection wheel component, the thread picking spring nut component, the transition thread passing external member and the thread passing external member for outgoing thread which are sequentially arranged from top to bottom, threading-free in the use process of the panel is realized, meanwhile, the upper thread is prevented from being thrown too much in the embroidering process, and the effect of saving labor and time is achieved.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a schematic structural view of a panel;

FIG. 5 is a schematic view of the structure of the wire passing member;

FIG. 6 is an exploded view of the wire passing member;

reference numerals are as follows: the wire-breaking detection device comprises a panel 1, a felt 2, a wire clamping nut assembly 3, a breaking detection wheel assembly 4, a wire-picking spring nut assembly 5, an upper row of wire-picking spring nut assemblies 51, a lower row of wire-picking spring nut assemblies 52, a transition wire-passing sleeve 61, a wire-outgoing wire-passing sleeve 62, a wire-passing base 63, a mounting hole 631, a plug socket 632, a wire-passing porcelain bushing 64, a clamping block 641, a bending structure 642, a wire-passing hole 643, a wire protection spring 65, an arc-shaped section 651, a rear cover 7, an alarm plate 8, a switch plate 9, a bottom detection strip 10, a wire-jumping-preventing boss 11, a wire-incoming plate 12 and a wire incoming groove 13.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, a thread-threading-free thread gripper for an embroidering machine includes a face plate 1 and a rear cover 7 attached to the back of the face plate 1; the panel 1 is provided with a wire clamping nut component 3, a breaking detection wheel component 4, a wire picking spring nut component 5, a transition wire passing sleeve 61 and a wire outlet wire passing sleeve 62 from top to bottom, and a bottom detection strip 10 connected with the breaking detection wheel component 4 is arranged in the rear cover 7; the thread take-up spring nut assembly 5 comprises an upper row of thread take-up spring nut assembly 51 and a lower row of thread take-up spring nut assembly 52, the upper row of thread take-up spring nut assembly 51 and the lower row of thread take-up spring nut assembly 52 are arranged in a staggered mode, and a transition thread passing suite 61 is arranged between the upper row of thread take-up spring nut assembly 51 and the lower row of thread take-up spring nut assembly 52; the transition wire passing sleeve 61 and the outgoing wire passing sleeve 62 are formed by a plurality of wire passing pieces which are sequentially arranged, the adjacent wire passing pieces of the transition wire passing sleeve 61 are arranged in a reverse direction, and the plurality of wire passing pieces of the outgoing wire passing sleeve 62 are arranged in a same direction.

Rear cover 7 is a half-enclosure structure, a cavity for placing bottom detection strip 10 is formed in the middle of rear cover 7, rear cover 7 is detachably connected with panel 1 through bolts, and a mounting position corresponding to bottom detection strip 10 is further arranged inside rear cover 7.

The wire guide piece comprises a wire guide seat 63 and a wire guide porcelain sleeve 64 arranged in the middle of the wire guide seat 63, the middle of the wire guide seat 63 is provided with a mounting hole 631 clamped with the wire guide porcelain sleeve 64, the bottom of the wire guide porcelain sleeve 64 is provided with a clamping block 641 matched with the size of the mounting hole 631, the top of the wire guide porcelain sleeve 64 is provided with a bending structure 642, and a wire guide hole 643 is formed between the bending structure 642 and the clamping block 641.

Be formed with the installation position with cross line seat 63 looks adaptation on the panel 1, the recess on panel 1 surface is formed to the installation position, the recess size is unanimous with the cross sectional dimension who crosses line seat 63, thereby make cross line seat 63 joint on the installation position, and be formed with the space bar between the adjacent installation position, thereby cross line seat atress alone in the use, the atress of crossing line seat does not influence adjacent line seat, and cross line seat and panel 1's installation position interference fit, make cross line seat transmit external force to panel 1 when the atress on, ensure the stability of crossing line seat.

Mounting hole 631 is the rectangle structure, and joint piece 641 is corresponding rectangle structure, and joint piece 641 and mounting hole 631 interference fit realize crossing the fixed connection of line insulator 64 on crossing line seat 63, and structure 642 of buckling is close to and crosses line seat 63 and sets up to make structure 642 of buckling and cross and have the clearance between the line seat 63, this clearance is convenient for break away from the line and cross line seat 63.

Wire protecting spring 65 arranged around mounting hole 631 is arranged on wire passing seat 63, and a plug socket 632 connected with the end of wire protecting spring 65 in an inserting mode is formed on wire passing seat 63, wire protecting spring 65 is of a U-shaped structure, a placing groove is formed in the inner ring of wire passing seat 63 along mounting hole 631, the upper side and the lower side of wire protecting spring 65 are simultaneously abutted to wire passing seat 63, vertical direction positioning of wire protecting spring 65 on wire passing seat 63 is achieved, two plug connectors are formed at the end of wire protecting spring 65, a plug socket 632 connected with the two plug connectors in an inserting mode is formed on wire passing seat 63, positioning of wire protecting spring 65 in the horizontal direction is achieved, and stable connection of wire protecting spring 65 on wire passing seat 63 is achieved.

The wire protection spring 65 is arranged around the wire passing porcelain bushing 64, the middle part of the wire protection spring 65 forms an arc section 651 corresponding to the bending structure 642, and a gap with a small size is formed between the arc section 651 and the bending structure 642, so that a wire can be pulled out of the wire protection spring manually.

The wire passing hole 643 is a vertical opening, during the wire routing process, the wire passes through the wire passing hole 643, and in the case that the wire protection spring 65 is disposed around the wire passing hole 643, when a certain offset occurs during the movement of the wire, the wire is in contact with the wire protection spring 65, so that the wire has better stability during the wire routing process.

The wire clamping nut component 3 comprises a plurality of wire clamping nuts arranged in sequence, a wire inlet plate 12 is arranged at the top of the panel 1, wire inlet grooves 13 corresponding to the wire clamping nuts one to one are formed in the wire inlet plate 12, the number of the wire clamping nuts is set according to actual needs and the size of the panel 1, all the wire clamping nuts are located at the same horizontal height, and all the wire clamping nuts are arranged at equal intervals in the width direction of the panel 1.

The wire inlet plate 12 is fixedly connected to the top of the panel 1 through screws, the wire inlet groove 13 is formed in the side edge of the wire inlet plate 12, the wire inlet groove 13 and the corresponding wire clamping nuts are located on the same vertical line, the wires are guided and limited under the action of the wire inlet groove 13, and the wires are moved to the broken wire detecting wheel assembly 4 through the corresponding wire clamping nuts.

The wire clamping nut comprises a wire pressing ring, an adjusting screw and a deformation spring; the adjusting screw penetrates through the wire pressing ring and is in threaded connection with the panel 1; deformation spring suit is on the adjusting screw in the wire pressing ring outside, at adjusting screw's rotation in-process, through changing the interval between adjusting screw and the panel 1 to change the elasticity of deformation spring, adjust the extrusion force of wire pressing ring between to the panel 1, the facial line is located between regulation line ball and the panel 1, through adjusting the extrusion force of wire pressing ring between to the panel 1, realizes the tension adjustment to the facial line, thereby different tension is applicable in the embroidery operation of the surface fabric of difference.

Be equipped with felt 2 on the panel 1, felt 2 sets up between inlet wire board 12 and wire clamping nut component 3, and the inlet wire groove of inlet wire board 12 all is located 2 within ranges of felt, and the facial line through inlet wire board 12 must be through felt 2, under the effect of 2 self adsorption forces of felt, ensures that each panel has better stability at the line in-process of crossing.

The broken detection wheel assembly 4 is composed of a plurality of broken detection wheels which are sequentially arranged, the broken detection wheels correspond to the thread clamping nuts one by one, the broken detection wheels are arranged in a biased mode with the corresponding thread clamping nuts, the number of the broken detection wheels is consistent with that of the thread clamping nuts, the facial threads passing through the thread clamping nuts are connected with the corresponding broken detection wheels, and under the action of bias, the thread clamping nuts and the corresponding broken detection wheels are always in a tensioning state.

The broken detection wheel is provided with a damping spring which is in contact with the panel 1, the broken detection wheel penetrates through the panel 1, the bottom detection strip 10 is provided with a grating wheel which corresponds to each broken detection wheel in position, the grating wheel and the corresponding broken detection wheel are coaxially arranged, the damping spring provides certain resistance for the grating wheel and the broken detection wheel, and accordingly inertial rotation of the broken detection wheel is reduced.

Be equipped with in the back lid 7 with end and examine 10 electric connection's switch board 9 and alarm panel 8, be equipped with electric control switch on the switch board 9, and be equipped with the toggle switch who controls electric control switch on the panel 1, and be equipped with the alarm control component who links to each other with the electric control switch wire on the alarm panel 8, be equipped with the warning light and the alarm sound equipment that link to each other with the alarm control component wire on the panel 1, detect out when disconnected the wheel that examines that the facial line broken string or no facial line trouble, the warning light is luminous and the alarm sound equipment sound production informs operating personnel.

A plurality of wire jumping prevention bosses 11 are arranged between the broken wire detecting wheel component 4 and the wire clamping nut component 3, the wire jumping prevention bosses 11 are arranged between adjacent broken wire detecting wheels, and arc-shaped structures corresponding to the broken wire detecting wheels are formed on two sides of each wire jumping prevention boss 11.

The number of the wire jumping prevention bosses 11 is smaller than the number of the broken inspection wheel assemblies 4, under the action of the wire jumping prevention bosses 11, the upper wires coming out of the wire clamping nut assemblies 3 are guided, the upper wires are guaranteed to have better stability when passing through the broken inspection wheels, and meanwhile the wire jumping prevention bosses 11 limit the paths of the upper wires.

The thread picking spring nut assembly 5 is composed of a plurality of thread picking spring nuts, the thread picking spring nuts correspond to the breaking detection wheels one by one, and the plurality of thread passing pieces of the transition thread passing sleeve 61 and the outgoing thread passing sleeve 62 correspond to the thread picking spring nuts one by one.

The take-up spring nut comprises a hollow take-up spring body, a positioning pin and a take-up pin, the positioning pin is arranged at the bottom end of the take-up spring body, the take-up pin is arranged at the top end of the take-up spring body, a separation blade used for limiting the take-up spring is further arranged between the take-up spring nut and the panel 1, and a fastening screw connected with the panel 1 is arranged in the middle of the separation blade.

In the actual use process, 9 wire inlet grooves 13 are formed in the wire inlet plate 12, the 9 wire inlet grooves 13 correspond to the 9 wire clamping nuts one by one respectively, the tension of the panel is controlled under the action of the wire clamping nuts, the 9 wire clamping nuts correspond to the 9 broken detection wheels one by one respectively, 8 wire jumping prevention bosses 11 are arranged on the panel 1 to guide and limit the upper wires between the wire clamping nuts and the broken detection wheels, whether the upper wires passing through the broken detection wheels are broken or not is judged under the action of the bottom detection strips 10, and an alarm function is timely started when the upper wires are broken.

The upper row of the thread take-up spring nut component 51 comprises 5 thread take-up spring nuts which are sequentially arranged, the lower row of the thread take-up spring nut component 52 comprises 4 thread take-up spring nuts which are sequentially arranged and are respectively in one-to-one correspondence with the upper threads passing through the 9 broken detection wheels, the surplus thread quantity of thread supply and thread requirement of the thread rotating shuttle of the thread take-up spring nuts is absorbed and stored under the action of the thread take-up spring nut component 5, so that the upper threads can stably enter embroidery operation through a machine needle hole and smoothly deviate from the thread rotating shuttle and the thread rotating shuttle positioning hook, and the thread take-up spring nuts are matched to rapidly tighten up the upper threads, so that the thread take-up function is achieved.

The upper thread passing through the upper row of picking spring nut assemblies 51 is guided under the action of the transition thread passing sleeve member 61, the upper thread not passing through the upper row of picking spring nut assemblies 51 is also guided under the action of the transition thread passing sleeve member 61 and is connected with the corresponding lower row of picking spring nut assemblies 52, the stability of the upper thread entering the lower row of picking spring nut assemblies 52 is ensured, and meanwhile, the upper threads passing through the upper row of picking spring nut assemblies 51 and the lower row of picking spring nut assemblies 52 stably appear under the action of the thread passing sleeve member 62.

The transition threading sleeve 61 arranged reversely on the adjacent threading pieces ensures that the stress directions of the adjacent upper threads are opposite, so that a certain distance is reserved between the adjacent upper threads, and the threading stability of the upper threads is ensured.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention; thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Although the reference numerals in the figures are used more here: panel 1, felt 2, wire clamping nut component 3, broken inspection wheel component 4, wire picking spring nut component 5, upper row wire picking spring nut component 51, lower row wire picking spring nut component 52, transition wire passing kit 61, wire outgoing wire passing kit 62, wire passing base 63, mounting hole 631, socket 632, wire passing porcelain bushing 64, clamping block 641, bending structure 642, wire passing hole 643, wire protecting spring 65, arc-shaped section 651, rear cover 7, alarm plate 8, switch plate 9, bottom inspection strip 10, wire jumping prevention boss 11, wire inlet plate 12, wire inlet groove 13 and other terms, but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. A threading-free thread clamp for an embroidery machine comprises a panel (1) and a rear cover (7) connected to the back of the panel (1); the wire picking device is characterized in that a wire clamping nut component (3), a breaking detection wheel component (4), a wire picking spring nut component (5), a transition wire passing sleeve component (61) and a wire outlet wire passing sleeve component (62) are arranged on the panel (1) from top to bottom, and a bottom detection strip (10) connected with the breaking detection wheel component (4) is arranged in the rear cover (7); the take-up spring nut assembly (5) comprises an upper row of take-up spring nut assemblies (51) and a lower row of take-up spring nut assemblies (52), the upper row of take-up spring nut assemblies (51) and the lower row of take-up spring nut assemblies (52) are arranged in a staggered mode, and a transition wire passing suite (61) is arranged between the upper row of take-up spring nut assemblies (51) and the lower row of take-up spring nut assemblies (52); the transition wire passing sleeve (61) and the outgoing wire passing sleeve (62) are formed by a plurality of wire passing pieces which are sequentially arranged, the adjacent wire passing pieces of the transition wire passing sleeve (61) are reversely arranged, and the plurality of wire passing pieces of the outgoing wire passing sleeve (62) are arranged in the same direction.

2. The threading-free thread clamping device for the embroidery machine as claimed in claim 1, wherein the thread passing element comprises a thread passing base (63) and a thread passing porcelain sleeve (64) arranged in the middle of the thread passing base (63), a mounting hole (631) clamped with the thread passing porcelain sleeve (64) is formed in the middle of the thread passing base (63), a clamping block (641) matched with the size of the mounting hole (631) is formed at the bottom of the thread passing porcelain sleeve (64), a bending structure (642) is formed at the top of the thread passing porcelain sleeve (64), and a thread passing hole (643) is formed between the bending structure (642) and the clamping block (641).

3. The threading-free thread catcher for the embroidery machine as claimed in claim 2, wherein the thread passing base (63) is provided with a thread protecting spring (65) disposed around the mounting hole (631), and the thread passing base (63) is formed with an insertion base (632) to which an end of the thread protecting spring (65) is inserted.

4. A thread catcher as claimed in claim 2, wherein the thread guard spring (65) is provided around the thread passing porcelain sleeve (64), and an arc-shaped section (651) corresponding to the bending structure (642) is formed in the middle of the thread guard spring (65).

5. The threading-free thread gripper for the embroidery machine as claimed in claim 1, wherein the thread gripping nut assembly (3) is composed of a plurality of thread gripping nuts arranged in sequence, a thread inlet plate (12) is arranged at the top of the face plate (1), and thread inlet grooves (13) corresponding to the thread gripping nuts one to one are formed on the thread inlet plate (12).

6. The threading-free thread clamp for the embroidery machine is characterized in that a felt (2) is arranged on the panel (1), the felt (2) is arranged between the thread inlet plate (12) and the thread clamping nut assembly (3), and the thread inlet grooves of the thread inlet plate (12) are all positioned in the range of the felt (2).

7. The threading-free thread clamping device for the embroidery machine as claimed in claim 5, wherein the breaking detection wheel assembly (4) is composed of a plurality of breaking detection wheels which are sequentially arranged, the breaking detection wheels correspond to the thread clamping nuts one by one, and the breaking detection wheels are arranged in an offset manner with the corresponding thread clamping nuts.

8. The threading-free thread clamp for the embroidery machine as claimed in claim 7, wherein a plurality of thread jumping prevention bosses (11) are provided between the thread clamping nut assembly (3) and the thread breakage detection wheel assembly (4), the thread jumping prevention bosses (11) are provided between adjacent thread breakage detection wheels, and arc structures corresponding to the thread breakage detection wheels are formed on both sides of the thread jumping prevention bosses (11).

9. The threading-free thread catcher for the embroidery machine as claimed in claim 8, wherein said thread take-up spring nut assembly (5) is composed of a plurality of thread take-up spring nuts, the thread take-up spring nuts correspond to the breaking detection wheels one by one, and the plurality of thread passing members of the transitional thread passing kit (61) and the thread passing member (62) correspond to the thread take-up spring nuts one by one.

10. A threading-free thread clamp for an embroidery machine as claimed in claim 1, wherein a switch board (9) and an alarm board (8) electrically connected with a bottom check bar (10) are provided in the rear cover (7).