CN217052656U - Multifunctional embroidery device - Google Patents

Abstract

The application provides a multi-functional embroidery device, send pearl device and sequin including the concatenation together and send the piece device, send pearl device send the pearl with sequin that the piece device was sent utilizes same embroidery needle to accomplish the embroidery, sequin send the piece device to include frame and horizontal slicer mechanism, horizontal slicer mechanism include with frame fixed connection's support frame and slip setting are in cross cutter subassembly on the support frame, still be equipped with the section motor in the frame, the section motor is connected with the pendulum piece, and eccentric connection is in projection on the pendulum piece with cross cutter subassembly's shift fork sliding fit. The application provides a multi-functional device of embroidering, work efficiency is high, and horizontal slicer mechanism's work precision adjusts conveniently.

Description

Multifunctional embroidery device

Technical Field

The utility model relates to an embroidery machine especially relates to a multi-functional device of embroidering.

Background

With the improvement of living standards of people, the requirements of people on articles for daily use such as clothes, ornaments, cloth household articles and the like are higher and higher, in order to attract the attention of consumers, beads or sequins are usually sewn on the articles, in order to make patterns more three-dimensional and beautiful, the beads and the sequins are sometimes required to be overlapped and embroidered together, and then a multifunctional device integrating the beads and the sequins for integral embroidering is provided, in order to reduce the occupied space of the multifunctional embroidering device as much as possible so as to be matched with a small machine head for use, the bead feeding device and the sequin feeding device are integrated compactly, because a common sequin cutting mechanism is a swing slicing mechanism, when the sequins and the embroidery beads are embroidered simultaneously, no matter whether the sequins are positioned above or below the embroidery beads, a cutter is required to be positioned above an elastic clamp, slicing can be carried out after the elastic clamp is retracted, the embroidering time of an embroidery needle is prolonged, and the working efficiency is greatly reduced, is not suitable for equipment running at high speed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multi-functional device of embroidering has solved work efficiency low, is not suitable for high-speed moving equipment scheduling problem.

In order to solve the technical problem, the utility model provides a following technical scheme:

a multifunctional embroidery device comprises a bead feeding device and a sequin feeding device which are spliced together, wherein beads fed by the bead feeding device and sequins fed by the sequin feeding device are embroidered by using the same embroidery needle, the sequin feeding device comprises a rack and a transverse slicing mechanism, the transverse slicing mechanism comprises a support frame fixedly connected with the rack and a transverse cutter assembly arranged on the support frame in a sliding mode, a slicing motor is further arranged on the rack and connected with a swinging block, and a convex column eccentrically connected to the swinging block is in sliding fit with a shifting fork opening of the transverse cutter assembly.

Furthermore, the supporting frame is provided with at least one guide post in sliding fit with the transverse cutter assembly, and the transverse cutter assembly is far away from the gold sheet outlet to reset under the action of the spring.

Furthermore, the cantilever end of the guide post is in sliding sleeve connection with a corresponding adjusting nut which is in threaded connection with the support frame, and the spring is sleeved on the guide post and limited between the cross cutter assembly and the adjusting nut.

Furthermore, a certain gap is formed between the cantilever end surface of the guide post and the support frame.

Furthermore, the transverse cutting knife assembly comprises a transverse cutting knife and a sliding frame in sliding fit with the guide pillar, the shifting fork opening is located on the sliding frame, and the transverse cutting knife is detachably connected with the sliding frame through a connecting block.

Furthermore, a sliding hole extending along the radial direction is formed in the swinging block, a sliding block is arranged in the sliding hole, inclined planes are arranged at two ends of the sliding block and are abutted to corresponding adjusting bolts connected to the swinging block through threads, and the protruding columns penetrate through strip-shaped grooves in the swinging block and are connected with the sliding block.

Furthermore, the stud section of the convex column penetrates through the sliding block and then is connected with the locking nut.

Furthermore, the included angle between the bead feeding device and the sequin feeding device is 30-120 degrees.

Further, the frame includes carries the base and is located carry the motor mounting panel of base top, the section motor is installed on the motor mounting panel.

According to the above technical scheme, the utility model discloses following beneficial effect has:

the sequin feeder is spliced with the bead feeder at a certain angle, so that the sequin feeder is arranged on one side of the machine head and can be combined with other embroidery devices for use;

the cutting knife mechanism of the sequin feeding device is a transverse slicing mechanism and cannot interfere with the elastic clamp of the bead feeding device, so that sequin slicing can be completed while beads are fed by the bead feeding device, and production efficiency is improved;

the convex column is matched with the shifting fork opening to drive the transverse slicing mechanism to reciprocate, and the operation precision of the transverse slicing mechanism is not influenced by the installation height of a slicing motor;

the position of the convex column is adjustable, so that the stroke of the transverse cutter is convenient to adjust, and the use and the adjustment are convenient;

the guide pillar cantilever is sleeved with the adjusting nut after being installed, and the spring and the compression amount can be conveniently adjusted and replaced.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be 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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic view of the three-dimensional structure of the present invention.

Fig. 2 is the three-dimensional structure schematic diagram of the transverse slicing mechanism of the present invention.

Fig. 3 is an installation schematic view of the convex column of the transverse slicing mechanism of the present invention.

Description of reference numerals: the automatic sheet cutting machine comprises a bead feeding device 1, a gold sheet feeding device 2, a rack 21, a motor mounting plate 211, a conveying base 212, a sheet feeding mechanism 22, a transverse slicing mechanism 23, a supporting frame 231, a sliding frame 232, a connecting block 233, a transverse cutter 234, a guide pillar 235, a spring 236, an adjusting nut 237, a swinging block 238, a sliding hole 2381, a strip-shaped groove 2382, a convex pillar 239, a slicing motor 2310, a sliding block 2311, an adjusting bolt 2312 and an embroidery needle 3.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Referring to fig. 1 to 3, as shown in fig. 1 and 2, the multifunctional embroidery device includes a bead feeding device 1 and a sequin feeding device 2 which are connected together at an angle, wherein a bead fed by the bead feeding device 1 and a sequin fed by the sequin feeding device 2 are embroidered by using the same embroidery needle 3, the sequin feeding device 2 includes a frame 21 and a transverse slicing mechanism 23, the transverse slicing mechanism 23 includes a support frame 231 fixedly connected to the frame 21 and a cross-cutting knife assembly slidably disposed on the support frame 231, the frame 21 is further provided with a slicing motor 2310, the slicing motor 2310 is connected to a swing block 238, and a convex column 239 eccentrically connected to the swing block 238 is slidably engaged with a shift fork opening of the cross-cutting knife assembly. The convex column 239 and the shifting fork opening are in sliding fit, so that the displacement precision of the transverse cutter assembly is not influenced by the installation height of the slicing motor 2310, the installation height of the slicing motor 2310 only needs to ensure that the convex column 239 is always in the shifting fork opening, and the transverse cutter assembly cannot interfere with an elastic clamp of the bead feeding device 1 in the reciprocating translation process, so that slicing can be simultaneously completed while beads are fed, the embroidering time of each needle is shortened, the production efficiency is improved, the cutter cannot swing up and down, the working efficiency of the needle 3 is prevented from being influenced by collision of the embroidery cutter and the needle rod, the slicing motor 2310 only needs to rotate in a single direction and continuously, and the slicing motor 2310 can adopt an optional common motor, and the production cost is reduced.

The rack 21 comprises a conveying base 212 and a motor mounting plate 211 positioned above the conveying base 212, and the slicing motor 2310 is mounted on the motor mounting plate 211.

In the application, the bead feeding back plate of the bead feeding device 1 and the sheet feeding back plate of the rack 21 of the sequin feeding device 2 are fixedly connected with a connecting plate together, when the embroidery; or the beads and the sequins are output simultaneously, so that the working efficiency is greatly improved, generally, the sequins adopted by the embroidery are positioned below the beads and are exquisite and attractive, the device is not designed to be positioned above the beads, the sequins feeding device 2 can be a single sequin embroidery device or a multi-sequin embroidery device, and the sequins feeding device 1 is a single-color sequin feeding device or a multi-specification sequin feeding device.

This application is specific, horizontal slicer constructs 23 with send pearl device 1 to be located respectively send the both sides of piece mechanism 22, adopt above-mentioned structure to avoid frame 21 send the piece backplate to the operating panel's of aircraft nose sheltering from, also make 3 threading of embroidery needle convenient, and work as send pearl device 1 and send contained angle between the piece mechanism 22 also can conveniently wear gold piece, convenient to use when hour.

Preferably, all gold sheet outlets of the sheet feeding mechanism 22 are located below the elastic clamp of the bead feeding device 1; it is within the scope of the present application that all of the gold plate outlets are located above the spring clips of the bead feeding device 1.

The supporting frame 231 is provided with at least one guide post 235 in sliding fit with the transverse cutter assembly, and the transverse cutter assembly is far away from the gold plate outlet to reset under the action of a spring 236. When the supporting frame 231 is provided with one guide pillar 235, the transverse cutter assembly is in sliding fit with the supporting frame 231 to prevent the transverse cutter assembly from rotating randomly to affect slicing accuracy.

This application is specific, be equipped with two on the support frame 231 the guide pillar 235.

The cross cutting knife assembly comprises a cross cutting knife 234 and a sliding frame 232 in sliding fit with the guide pillar 235, the shifting fork opening is positioned on the sliding frame 232, and the cross cutting knife 234 is detachably connected with the sliding frame 232 through a connecting block 233. By adopting the structure, the transverse cutter 234 can be reliably installed, and the structure of the transverse cutter 234 is simple as much as possible and is easy to manufacture.

The cantilever end of the guide post 235 is slidably sleeved with a corresponding adjusting nut 237 screwed on the support frame 231, and the spring 236 is sleeved on the guide post 235 and is limited between the cross cutter assembly and the adjusting nut 237. The spring 236 is further compressed or further released by rotating the adjusting nut 237, so that the pre-pressure of the spring 236 is adjusted, the arrangement of the spring 236 enables the transverse cutter assembly to be more stable in the operation process, and the phenomenon that the transverse cutter assembly shakes to cause shaking of the bead feeding device 1 and the sequin feeding device 2 is avoided, so that the bead feeding and sequin feeding precision is influenced.

A certain gap is formed between the cantilever end surface of the guide post 235 and the support frame 231, when the spring 236 needs to be replaced, the adjusting nut 237 is screwed into the support frame 231 to expose the gap, and then the spring 236 is replaced by the gap, so that the spring 236 is convenient to replace.

As shown in fig. 3, in order to adjust the stroke precision of the cross-cutter assembly more precisely, the swing block 238 has a radially extending sliding hole 2381, a sliding block 2311 is disposed in the sliding hole 2381, both ends of the sliding block 2311 are provided with inclined surfaces, the inclined surfaces abut against corresponding adjusting bolts 2312 screwed on the swing block 238, and the protruding column 239 passes through a strip-shaped groove 2382 on the swing block 238 and is connected with the sliding block 2311. The position of the slider 2311 is adjusted by two adjusting bolts 2312, and the position of the slider 2311 determines the actual distance between the convex column 239 and the axis position of the slicing motor 2310.

The stud section of the convex column 239 penetrates through the sliding block 2311 and then is connected with the locking nut. When the convex column 239 is abraded, the convex column 239 can be conveniently and independently replaced, so that the replacement is convenient and resources are saved.

As shown in fig. 1 and 2, an included angle between the bead feeding device 1 and the sequin feeding device 2 is 30-120 °, in the present application, the included angle between the bead feeding device 1 and the sequin feeding device 2 is the included angle between the bead feeding device 1 and the sequin feeding mechanism 22, so as to avoid interference caused by too small included angle and increase of volume caused by too large included angle, and the present application can complete simultaneous embroidering of beads and sequin while reducing the occupied space, and is convenient for being combined with other embroidering machines.

Optimally, the included angle between the bead feeding device 1 and the sheet feeding mechanism 22 is 30 degrees, 45 degrees, 60 degrees, 72 degrees, 90 degrees, 100 degrees or 120 degrees.

The multifunctional embroidery device also comprises an independent controller which is mainly used for coordinating the mutual matching of the bead feeding device 1 and the sheet feeding mechanism 22 and the embroidery needle 3, and the transverse slicing mechanism 23 can timely slice, so that the embroidery machine can normally work to embroider beads and gold sheets. The lifting mechanism is automatically controlled or manually controlled by a controller.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A multifunctional embroidery device comprises a bead feeding device (1) and a sequin feeding device (2) which are spliced together, wherein the beads fed out by the bead feeding device (1) and sequins fed out by the sequin feeding device (2) are embroidered by using the same embroidery needle (3), and the multifunctional embroidery device is characterized in that the sequin feeding device (2) comprises a rack (21) and a transverse slicing mechanism (23), the transverse slicing mechanism (23) comprises a support frame (231) fixedly connected with the rack (21) and a transverse cutter assembly arranged on the support frame (231) in a sliding manner, a slicing motor (2310) is further arranged on the rack (21), the slicing motor (2310) is connected with a swing block (238), and a convex column (239) eccentrically connected to the swing block (238) is in sliding fit with a shifting fork opening of the transverse cutter assembly.

2. The multifunctional embroidering device of claim 1, wherein the supporting frame (231) is provided with at least one guide post (235) slidably engaged with the cross-cutter assembly, and the cross-cutter assembly is returned away from the sequin outlet under the action of a spring (236).

3. The multi-functional embroidering apparatus according to claim 2, wherein the cantilever end of the guiding post (235) is slidably sleeved with a corresponding adjusting nut (237) screwed on the supporting frame (231), and the spring (236) is sleeved on the guiding post (235) and is defined between the cross-cutter assembly and the adjusting nut (237).

4. The multi-function embroidery device of claim 3, wherein a gap is formed between the cantilever end surface of the guide post (235) and the support frame (231).

5. The multifunctional embroidering apparatus of claim 2, wherein the cross cutting knife assembly comprises a cross cutting knife (234) and a carriage (232) slidably engaged with the guide post (235), the fork opening is located on the carriage (232), and the cross cutting knife (234) is detachably connected with the carriage (232) through a joint block (233).

6. The multifunctional embroidery device as claimed in claim 1, wherein the pendulum block (238) has a radially extending sliding hole (2381), a sliding block (2311) is disposed in the sliding hole (2381), both ends of the sliding block (2311) are provided with inclined surfaces, the inclined surfaces are abutted against a corresponding adjusting bolt (2312) screwed on the pendulum block (238), and the convex column (239) passes through a strip-shaped groove (2382) on the pendulum block (238) and is connected with the sliding block (2311).

7. The multifunctional embroidering device of claim 6, wherein the stud section of the convex column (239) passes through the slide block (2311) and then is connected with a locking nut.

8. The multifunctional embroidering apparatus of claim 1, wherein an included angle between the bead feeding apparatus (1) and the sequin feeding apparatus (2) is 30-120 °.

9. The multi-function embroidering apparatus according to claim 1, wherein the frame (21) comprises a conveying base (212) and a motor mounting plate (211) above the conveying base (212), and the slicing motor (2310) is mounted on the motor mounting plate (211).

Images