CN113957636A - Suspended thread passing mechanism for rotating shuttle rod of embroidery machine - Google Patents

Abstract

The utility model discloses a suspended thread passing mechanism of a rotating shuttle rod of an embroidery machine, which relates to the technical field of industrial embroidery machines and comprises a rotating shuttle supporting unit, wherein a three-tooth rotating shuttle driving unit is fixedly arranged inside the rotating shuttle supporting unit, a three-tooth transmission structure is adopted, and two special-shaped gears which are coaxially arranged are included in the three-tooth transmission structure, so that the purpose of driving a rotating shuttle to rotate at a high speed can be achieved, a rotating shuttle driving rod can also extend to the outside of a rotating shuttle box, a hollow rod which is suspended inside the rotating shuttle driving rod is used for leading in sewing threads, the replacement frequency of thread cores is reduced in the rotating shuttle, a shunting oil passage which is connected with an oil storage cavity is arranged on the top end surface of the rotating shuttle box, shunting holes which are led to each rotating part are also respectively arranged at the bottom end of the shunting oil passage, and lubricating oil can be directly filled into the oil storage cavity and passes through the shunting oil passage and the shunting holes when the rotating shuttle is actually used, flows into the corresponding rotating part, and further prolongs the service life.

Description

Suspended thread passing mechanism for rotating shuttle rod of embroidery machine

Technical Field

The utility model relates to the technical field of industrial embroidery machines, in particular to a rotary shuttle rod suspension type threading mechanism of an embroidery machine.

Background

Through search, the Chinese patent discloses a rotating shuttle bed seat (publication No. CN 2425932Y) of a computer embroidery machine, which mainly comprises a seat body, a rotating shuttle fixing screw hole, an oil filling hole and a rotating shuttle sleeve, and is characterized by also comprising an oil storage tank, wherein felt or wool can be placed in the oil storage tank. The utility model has the advantages that the frequency of oiling is reduced, and the lubrication effect of 3-5 can be kept by one-time oiling usually, so that the abnormal abrasion between the rotating shuttle and the rotating shuttle shaft sleeve is avoided, and the service life of the rotating shuttle is prolonged.

The Chinese patent discloses an automatic oiling rotating shuttle shaft structure and an embroidery machine rotating shuttle box (publication number CN 105420959B), the patent mainly comprises a rotating shuttle box, a rotating shaft in transmission connection with the rotating shuttle box, and a rotating shuttle in transmission connection with the rotating shaft, wherein the rotating shuttle box comprises a box body and a shaft sleeve sleeved on the periphery of the rotating shaft; the box body is provided with a shaft hole for fixing the shaft sleeve; the rotating shaft is provided with an oil storage hole which is axial and does not penetrate through the rotating shaft, a plurality of oil grooves which are positioned on the outer surface, and a connecting hole which is communicated with the oil storage hole and the outer surface of the rotating shaft; the rotating shaft is also provided with an oil absorption piece accommodated in the oil storage hole and an oil passing screw fixed at the opening end of the oil storage hole; the oil passing screw is provided with an oil outlet which is communicated with the oil storage hole and the outside; the rotating shaft is rotatably connected to the box body; the shaft sleeve is provided with an oil inlet channel and an oil outlet channel; when the rotating shaft rotates, one section of the oil groove is connected with the oil inlet channel. The utility model has strong practicability, can solve the practical problem and can be widely popularized and applied to the market.

In the above patent documents, although the oil injection and lubrication effect can be achieved, only local lubrication can be achieved, and lubrication of the rotating part in the whole rotating shuttle box cannot be achieved, so that the service life of the whole rotating shuttle box is reduced, and the practicability is not high;

in addition, in the conventional rotating shuttle box, a driving structure for driving the rotating shuttle to rotate at a high speed is adopted, one end of a rotating shuttle driving rod, which is far away from the rotating shuttle, cannot extend to the other end of the rotating shuttle box, so that sewing threads can only be introduced from the inside of the rotating shuttle box, winding and shutdown maintenance are easy to cause, and the replacement frequency of thread cores can be greatly improved;

in view of the above, those skilled in the art have proposed a thread passing mechanism with a suspension type rotating shuttle rod for an embroidery machine.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a rotating shuttle rod suspension type threading mechanism of an embroidery machine, which solves the problems in the prior art.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a rotating shuttle rod suspension type threading mechanism of an embroidery machine comprises a rotating shuttle supporting unit, wherein a three-tooth rotating shuttle driving unit is fixedly arranged in the rotating shuttle supporting unit;

the rotating shuttle supporting unit comprises a rotating shuttle box, an oil storage cavity and a shunt oil duct are respectively arranged on the top end surface of the rotating shuttle box, the oil storage cavity is communicated with the shunt oil duct, the shunt oil duct is arranged along the contour of the top surface of the rotating shuttle box, a shaft barrel lubrication shunt hole is formed in the oil storage cavity, and a main driving shaft lever lubrication shunt hole and a bearing seat lubrication shunt hole are respectively formed in the shunt oil duct;

the three-tooth rotating shuttle driving unit comprises a main driving shaft rod, a driving force transition shaft rod and a rotating shuttle driving rod, wherein the main driving shaft rod penetrates through the inside of the rotating shuttle box along the X axial direction, is rotatably connected with the rotating shuttle box, is rotatably connected to the inner side wall of the rotating shuttle box along the Y axial direction, penetrates through the inside of the rotating shuttle box along the Y axial direction, is rotatably connected with the rotating shuttle box, forms mutual transmission structures through gear sets among the main driving shaft rod, the driving force transition shaft rod and the rotating shuttle driving rod, and is provided with a threading hollow shaft rod in a suspension mode inside the rotating shuttle driving rod.

Furthermore, a driving unit installation cavity is formed in the rotating shuttle box, a concave part with a concave structure is arranged on the rear side of the rotating shuttle box, main driving shaft rod installation through holes are symmetrically formed in two side walls of the rotating shuttle box, a rotating shuttle driving rod bearing seat is installed in the rear side of the rotating shuttle box in a penetrating mode and corresponds to the concave part, and a rotating shuttle driving rod shaft barrel is installed in the front side of the rotating shuttle box in a penetrating mode and corresponds to the oil storage cavity.

Furthermore, the shaft cylinder lubrication shunting hole is communicated with the shaft cylinder of the rotating shuttle driving rod, the bearing seat lubrication shunting hole is communicated with the bearing seat of the rotating shuttle driving rod, and the main driving shaft lever lubrication shunting hole is communicated with the main driving shaft lever mounting through hole.

Furthermore, the bottom end of the rotating shuttle box is fixedly connected with a plurality of mounting support legs, and rotating shuttle box mounting hole sites are formed in part of the mounting support legs.

Further, the gear set comprises a main driving gear installed outside the main driving shaft, a first transition gear installed outside the driving force transition shaft, a second transition gear fixedly installed at an end of the first transition gear, and a driven driving gear installed outside the rotating shuttle driving rod.

Further, the main driving gear with the second transition gear meshes mutually, first transition gear with driven driving gear meshes mutually, first transition gear and driven driving gear are in the straight-tooth gear and the arbitrary one in the skewed tooth gear, and first transition gear and driven driving gear's profile of tooth looks adaptation.

Furthermore, one end of the rotating shuttle driving rod extends to the outside of the rotating shuttle box and is fixedly connected with a rotating shuttle bed, the threading hollow shaft rod penetrates through the whole rotating shuttle driving rod and is fixedly connected with a rotating shuttle wire loop, the rotating shuttle driving rod and the threading hollow shaft rod share one central axis, and a shaft rod suspension gap is arranged between the rotating shuttle driving rod and the threading hollow shaft rod.

Advantageous effects

The utility model provides a rotary shuttle rod suspension type threading mechanism of an embroidery machine. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides an embroidery machine rotating shuttle rod floated line mechanism of crossing, through adopting tridentate transmission structure, and among the tridentate transmission structure, include the special-shaped gear of two coaxial settings, under the effect of this tridentate transmission structure, not only can reach the high-speed rotatory purpose of drive rotating shuttle, and can also realize letting the rotating shuttle actuating lever extend to the outside of rotating shuttle case, the hollow rod that the inside suspension of rotating shuttle actuating lever set up is used for introducing the sewing thread, to the rotating shuttle in, follow the outside of rotating shuttle case promptly, can introduce the sewing thread, reduce the change frequency of sinle silk.

2. The utility model provides an embroidery machine rotating shuttle rod floated line mechanism of crossing, sets up the reposition of redundant personnel oil duct that links to each other with the oil storage chamber through the top terminal surface at the rotating shuttle case, and the bottom of reposition of redundant personnel oil duct still sets up respectively and leads to the reposition of redundant personnel hole at each rotation position, and when in-service use, lubricating oil can directly be annotated in the oil storage intracavity to through reposition of redundant personnel oil duct and reposition of redundant personnel hole, flow in the rotation position that corresponds, and then increase of service life.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a first view of the rotating shuttle supporting unit according to the present invention;

FIG. 3 is a schematic view of a second view of the rotating shuttle supporting unit according to the present invention;

FIG. 4 is a schematic diagram of a first view of the three-tooth rotating shuttle driving unit according to the present invention;

FIG. 5 is a schematic diagram of a second view of the three-tooth rotating shuttle driving unit according to the present invention;

FIG. 6 is a schematic view of the configuration of the threading hollow shaft of the present invention inside the drive rod of the rotating shuttle;

fig. 7 is a schematic view of the position structure of the transition shaft sleeve of the present invention.

In the figure: 1. a rotating shuttle supporting unit; 11. a rotating shuttle box; 12. a drive unit mounting cavity; 13. a recessed portion; 14. a main drive shaft mounting through hole; 15. a rotating shuttle driving rod bearing seat; 16. a rotating shuttle driving rod shaft barrel; 17. an oil storage chamber; 18. a branch oil passage; 19. a main drive shaft lubrication shunt hole; 110. a bearing seat lubrication shunt hole; 111. a shaft cylinder lubrication shunting hole; 112. mounting support legs; 113. mounting hole sites on the rotating shuttle box; 2. a three-tooth rotary shuttle drive unit; 21. a main drive shaft; 22. a drive force transition shaft; 23. a rotating shuttle driving rod; 24. a main drive gear; 25. a first transition gear; 26. a second transition gear; 27. a driven drive gear; 28. threading the hollow shaft rod; 29. a rotating shuttle bed; 210. a rotating shuttle wire loop; 211. a shaft lever suspension gap; 3. a transition shaft sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, fig. 2 and fig. 3, the present invention provides a technical solution: a suspended thread passing mechanism for a rotating shuttle rod of an embroidery machine comprises a rotating shuttle supporting unit 1, wherein the rotating shuttle supporting unit 1 comprises a rotating shuttle box 11, an oil storage cavity 17 and a shunt oil duct 18 are respectively arranged on the top end surface of the rotating shuttle box 11, the oil storage cavity 17 is communicated with the shunt oil duct 18, the shunt oil duct 18 is arranged along the outline of the top surface of the rotating shuttle box 11, a shaft barrel lubrication shunt hole 111 is arranged inside the oil storage cavity 17, a main driving shaft rod lubrication shunt hole 19 and a bearing seat lubrication shunt hole 110 are respectively arranged inside the shunt oil duct 18, a driving unit mounting cavity 12 is arranged inside the rotating shuttle box 11, a concave part 13 with a concave structure is arranged on the rear side of the rotating shuttle box 11, main driving mounting through holes 14 are symmetrically arranged on two side walls of the rotating shuttle box 11, a rotating shuttle driving rod bearing seat 15 is arranged inside the rear side of the rotating shuttle shaft rod 11 and in a penetrating way corresponding to the concave part 13, a rotating shuttle driving rod shaft barrel 16 is installed in the front side of the rotating shuttle box 11 in a penetrating mode and corresponds to the oil storage cavity 17, a shaft barrel lubrication diversion hole 111 is communicated with the rotating shuttle driving rod shaft barrel 16, a bearing seat lubrication diversion hole 110 is communicated with a rotating shuttle driving rod bearing seat 15, a main driving shaft rod lubrication diversion hole 19 is communicated with a main driving shaft rod installation through hole 14, a plurality of installation support legs 112 are fixedly connected to the bottom end of the rotating shuttle box 11, and rotating shuttle box installation hole sites 113 are formed in part of the installation support legs 112.

In addition, referring to fig. 7, a transition shaft sleeve 3 is disposed through a sidewall of the rotating shuttle box 11 and below the rotating shuttle driving rod shaft sleeve 16, the driving force transition shaft 22 is inserted into the transition shaft sleeve 3 and is rotatably connected, and the shaft sleeve lubrication diversion hole 111 extends into the transition shaft sleeve 3 to lubricate the driving force transition shaft 22 and the transition shaft sleeve 3.

When the lubricating oil filling device is used, when the lubricating oil is filled, the lubricating oil can be directly poured into the oil storage cavity 17, the lubricating oil can flow along the branch oil channel 18, the lubricating oil flows into the shaft barrel lubrication branch hole 111 and then enters the rotating shuttle driving rod shaft barrel 16 to reduce the friction force between the rotating shuttle driving rod 23 and the rotating shuttle driving rod shaft barrel 16, and similarly, the lubricating oil flows into the main driving shaft rod lubrication branch hole 19 and then enters the main driving shaft rod installation through hole 14 to reduce the friction force between the main driving shaft rod 21 and the rotating shuttle box 11, and the lubricating oil flows into the bearing seat lubrication branch hole 110 to reduce the friction force between the bearing seat lubrication branch hole 110 and the rotating shuttle box 11 and the rotating shuttle driving rod 23, so that the normal service life of the rotating part is prolonged.

Example 2

Referring to fig. 1, 4, 5 and 6, the present invention provides a technical solution: a three-tooth rotating shuttle driving unit 2 is fixedly arranged inside a rotating shuttle supporting unit 1, the three-tooth rotating shuttle driving unit 2 comprises a main driving shaft lever 21 which penetrates through the inside of a rotating shuttle box 11 along the X axial direction and is rotatably connected with the rotating shuttle box 11, a driving force transition shaft lever 22 which is rotatably connected with the inner side wall of the rotating shuttle box 11 along the Y axial direction, and a rotating shuttle driving rod 23 which penetrates through the inside of the rotating shuttle box 11 along the Y axial direction and is rotatably connected with the rotating shuttle box 11, the main driving shaft lever 21, the driving force transition shaft lever 22 and the rotating shuttle driving rod 23 form a mutual transmission structure through a gear set, wherein the gear set comprises a main driving gear 24 arranged outside the main driving shaft lever 21, a first transition gear 25 arranged outside the driving force transition shaft lever 22, a second transition gear 26 fixedly arranged at the end part of the first transition gear 25 and a driven driving gear 27 arranged outside the rotating shuttle driving rod 23, the main driving gear 24 is meshed with the second transition gear 26, the first transition gear 25 is meshed with the driven driving gear 27, the first transition gear 25 and the driven driving gear 27 are straight-tooth gears or helical gears, the tooth shapes of the first transition gear 25 and the driven driving gear 27 are matched, a threading hollow shaft rod 28 is arranged in the rotating shuttle driving rod 23 in a suspension mode, one end of the rotating shuttle driving rod 23 extends to the outside of the rotating shuttle box 11 and is fixedly connected with a rotating shuttle bed 29, the threading hollow shaft rod 28 penetrates through the whole rotating shuttle driving rod 23, a rotating shuttle wire loop 210 is fixedly connected with the rotating shuttle driving rod 23 and the threading hollow shaft rod 28, the rotating shuttle driving rod 23 and the threading hollow shaft rod 28 share a central axis, and a shaft rod suspension gap 211 is arranged between the rotating shuttle driving rod 23 and the threading hollow shaft rod 28.

When the rotating shuttle driving rod 23 rotates, because the inner side wall of the rotating shuttle driving rod 23 is not in contact with the threading hollow shaft rod 28 and the rotating shuttle driving rod 23 directly drives the rotating shuttle bed 29 to rotate, and the rotating shuttle wire loop 210 is fixed with the threading hollow shaft rod 28, when the rotating shuttle driving rod 23 drives the rotating shuttle bed 29 to rotate, the rotating shuttle driving rod 23 does not generate friction with the threading hollow shaft rod 28.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A rotating shuttle rod suspension type threading mechanism of an embroidery machine is characterized by comprising a rotating shuttle supporting unit (1), wherein a three-tooth rotating shuttle driving unit (2) is fixedly arranged inside the rotating shuttle supporting unit (1);

the rotating shuttle supporting unit (1) comprises a rotating shuttle box (11), an oil storage cavity (17) and a shunt oil duct (18) are respectively arranged on the top end face of the rotating shuttle box (11), the oil storage cavity (17) is communicated with the shunt oil duct (18), the shunt oil duct (18) is arranged along the outline of the top face of the rotating shuttle box (11), a shaft barrel lubrication shunt hole (111) is formed in the oil storage cavity (17), and a main driving shaft rod lubrication shunt hole (19) and a bearing seat lubrication shunt hole (110) are respectively formed in the shunt oil duct (18);

the three-tooth rotating shuttle driving unit (2) comprises a main driving shaft rod (21) which penetrates through the interior of the rotating shuttle box (11) along the X axial direction, a driving force transition shaft rod (22) which is rotatably connected with the rotating shuttle box (11) along the Y axial direction and a rotating shuttle driving rod (23) which penetrates through the interior of the rotating shuttle box (11) along the Y axial direction, wherein the main driving shaft rod (21), the driving force transition shaft rod (22) and the rotating shuttle driving rod (23) are rotatably connected with the rotating shuttle box (11), mutual transmission structures are formed among the main driving shaft rod (21), the driving force transition shaft rod (22) and the rotating shuttle driving rod (23) through gear sets, and a threading hollow shaft rod (28) is arranged in the rotating shuttle driving rod (23) in a suspension mode.

2. The rotating shuttle rod suspension type threading mechanism of the embroidery machine as claimed in claim 1, wherein a driving unit installation cavity (12) is formed inside the rotating shuttle box (11), a concave part (13) with a concave structure is arranged on the rear side of the rotating shuttle box (11), main driving shaft rod installation through holes (14) are symmetrically formed on two side walls of the rotating shuttle box (11), a rotating shuttle driving rod bearing seat (15) is penetratingly installed inside the rear side of the rotating shuttle box (11) and at a position corresponding to the concave part (13), and a rotating shuttle driving rod shaft barrel (16) is penetratingly installed inside the front side of the rotating shuttle box (11) and at a position corresponding to the oil storage cavity (17).

3. The embroidery machine rotating shuttle rod suspension type threading mechanism as claimed in claim 2, characterized in that the bobbin lubrication shunt hole (111) communicates with the rotating shuttle driving rod bobbin (16), the bearing seat lubrication shunt hole (110) communicates with the rotating shuttle driving rod bearing seat (15), and the main driving shaft rod lubrication shunt hole (19) communicates with the main driving shaft rod mounting through hole (14).

4. The rotating shuttle rod suspension type threading mechanism of the embroidery machine as claimed in claim 1, wherein a plurality of mounting legs (112) are fixedly connected to the bottom end of the rotating shuttle box (11), and a rotating shuttle box mounting hole site (113) is formed in part of the mounting legs (112).

5. The floated thread passing mechanism of the rotating shuttle lever of the embroidery machine according to claim 1, wherein the gear set comprises a main driving gear (24) installed outside the main driving shaft (21), a first transition gear (25) installed outside the driving force transition shaft (22), a second transition gear (26) fixedly installed at an end of the first transition gear (25), and a driven driving gear (27) installed outside the rotating shuttle driving lever (23).

6. The floated thread passing mechanism of the rotating shuttle rod of the embroidery machine as claimed in claim 5, wherein said main driving gear (24) is engaged with said second transition gear (26), said first transition gear (25) is engaged with said driven driving gear (27), said first transition gear (25) and said driven driving gear (27) are any one of straight-toothed gear and helical-toothed gear, and the tooth forms of said first transition gear (25) and said driven driving gear (27) are matched.

7. The floated thread passing mechanism of the rotating shuttle rod of the embroidery machine according to claim 1, wherein one end of the rotating shuttle driving rod (23) extends to the outside of the rotating shuttle box (11) and is fixedly connected with a rotating shuttle bed (29), the threading hollow shaft rod (28) penetrates through the whole rotating shuttle driving rod (23) and is fixedly connected with a rotating shuttle thread ring (210), the rotating shuttle driving rod (23) and the threading hollow shaft rod (28) share a central axis, and a shaft rod floating gap (211) is arranged between the rotating shuttle driving rod (23) and the threading hollow shaft rod (28).

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