CN209798282U - Multifunctional embroidery device and embroidery machine - Google Patents

Abstract

The application provides a multi-functional embroidery device, send piece device including sending pearl device and sequin that is a certain angle concatenation together, sequin send piece device to send piece mechanism and horizontal slicer mechanism including sending, send pearl device, send piece mechanism to carry pearl, sequin to under same embroidery needle. The application provides a multi-functional embroidery device and embroidery machine, small, work efficiency is high.

Description

Multifunctional embroidery device and embroidery machine

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 gold sheets are usually sewn on the articles, in order to make patterns more three-dimensional and beautiful, the beads and the gold sheets are sometimes required to be embroidered together in a folding manner.

chinese patent CN207537696U discloses a multifunctional embroidery device and an embroidery machine, which comprises at least one bead conveying mechanism and at least one sequin mechanism arranged around a machine head, wherein the machine head is provided with at least one needle rod, the sequin mechanism comprises a sequin conveying structure and a slicing structure, the bead conveying mechanism controls beads and conveys the beads to and the sequin conveying structure conveys the sequin to the position right below an embroidery needle of the same needle rod. The utility model discloses, through set up pearl conveying mechanism and sequin mechanism respectively in the both sides outside of aircraft nose, pearl conveyer and sequin mechanism can export pearl or sequin one by one according to the needs of pearl and sequin embroidery technology and embroider on the fabric, or export simultaneously, and a stitch is embroidered in the fabric. The utility model has the advantages that the utility model discloses simple structure can effectively arrange in order and embroider out pearl or with the sequin, realizes more complicated embroidery material collocation. As can be seen from the attached drawings in the application, the bead conveying mechanism and the sequin mechanism in the application are both in the prior art, so that the bead conveying mechanism and the sequin mechanism are combined together in a simple mode, the occupied space is large, the machine head with a small size cannot be used in combination with rope embroidery, bead embroidery, sequin embroidery and the like, and the sequin mechanism in the application is a swinging slicing device. In summary, how to develop a multifunctional embroidery device with small volume and high efficiency is a problem that needs to be solved urgently by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multi-functional embroidery device and embroidery machine has solved bulky, inefficiency 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 at a certain angle, wherein the sequin feeding device comprises a sequin feeding mechanism and a transverse slicing mechanism, and the bead feeding device and the sequin feeding mechanism alternately convey beads and sequins to the position under the same embroidery needle or simultaneously convey the beads and the sequins to the position under the same embroidery needle.

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

Furthermore, the included angle between the bead feeding device and the sequin feeding device is 90 degrees.

Further, all sequin outlets of the sequin feeding device are positioned below the elastic clamp of the bead feeding device.

Furthermore, the transverse slicing mechanism comprises a transverse cutter and a transverse driving mechanism for driving the transverse cutter to transversely reciprocate, and the transverse cutter is positioned below the elastic clamp.

Furthermore, the bottom of the transverse cutter is provided with a transversely inclined cutting edge, and the width of the tip of the transverse cutter is smaller than that of the root of the transverse cutter.

Furthermore, the transverse driving mechanism comprises a slicing motor, a sliding frame and a connecting rod transmission mechanism, the transverse cutter is fixedly connected with the sliding frame, the slicing motor drives the sliding frame to move through the connecting rod transmission mechanism to enable the transverse cutter to slice, and the sliding frame resets under the action of a spring.

Furthermore, the connecting rod transmission mechanism comprises a swinging block and a connecting rod, the swinging block is fixedly connected with an output shaft of the slicing motor, and two ends of the connecting rod are respectively hinged with the swinging block and the sliding frame.

Furthermore, the sliding frame is connected with a pair of guide posts on the sheet feeding mechanism in a sliding manner, and each guide post is sleeved with a spring.

Furthermore, the piece feeding mechanism comprises a piece feeding back plate and a conveying base, wherein one side of the conveying base is fixedly connected with the piece feeding back plate, and the transverse slicing mechanism is positioned on the other side of the conveying base.

The utility model discloses a still another purpose discloses an embroidery machine, be in including aircraft nose and at least one setting the peripheral multi-functional device of embroidering of aircraft nose, the multi-functional device of embroidering adopts foretell multi-functional device of embroidering.

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;

Because the cutter mechanism of the sequin feeding device is the transverse slicing mechanism, sequin slicing can be completed while the bead feeding device feeds beads, and the production efficiency is improved;

Because the bottom of the transverse cutter is provided with the cutting edge which is transversely arranged in an inclined manner, and the width of the tool tip of the transverse cutter is smaller than that of the tool root of the transverse cutter, the cutting of multilayer gold sheets which are overlapped together can be finished by one cutter, and the interference with the bead feeding device cannot be caused to influence the bead feeding efficiency;

because the piece feeding back plate and the transverse slicing mechanism are respectively positioned at two sides of the conveying base, the phenomenon that a piece feeding motor blocks threading or gold piece threading is avoided, and the use is convenient.

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 perspective view illustrating an embroidery machine.

Fig. 2 is a further perspective view of the embroidery machine.

Fig. 3 is a further perspective view of the embroidery machine.

Fig. 4 is a schematic perspective view of the multi-functional embroidery device.

Fig. 5 is a schematic perspective view of the multi-functional embroidery device.

Fig. 6 is a schematic structural view of a cross-cutting knife of a sheet feeding mechanism of the multifunctional embroidering device.

Description of reference numerals: the machine head 1, the embroidery needle 11, the connecting plate 2, the lifting mechanism 3, the bead feeding device 4, the bottom plate 41, the pulley 42, the elastic clamp 43, the cover plate 44, the elastic bead guiding frame 45, the adjusting block 46, the driving rod 47, the bead feeding back plate 48, the sequin feeding device 5, the sequin feeding mechanism 51, the sequin feeding back plate 511, the conveying base 512, the sequin feeding motor 513, the swing rod 514, the fork pulling head 515, the transverse slicing mechanism 52, the slicing motor 521, the swing block 522, the connecting rod 523, the sliding frame 524, the guide post 525, the spring 526, the transverse cutter 527 and the cutting edge 5271.

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 6, the present application is further illustrated, and as shown in fig. 1, 2 and 3, the multifunctional embroidery device comprises a bead feeding device 4 and a sequin feeding device 5 which are spliced together at an angle, a bead feeding back plate 48 of the bead feeding device 4 and a sequin feeding back plate 511 of a sequin feeding mechanism 51 of the sequin feeding device 5 are fixedly connected with a connecting plate 2, the connecting plate 2 is connected with a machine head 1 through a lifting mechanism 3, the lifting mechanism 3 enables a pearl feeding device 4 and a sequin feeding device 5 to be lifted simultaneously to finish embroidering or to be lowered simultaneously to a working position, the sequin feeding device 5 comprises a sequin feeding mechanism 51 and a transverse slicing mechanism 52, the bead feeding device 4 and the sequin feeding mechanism 51 convey beads and sequins to the position right below the same embroidery needle 11, and the specific processes of the beads and the sequins are respectively bead and sequin alternate conveying to realize continuous replacement embroidery of the sequins and the beads; 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 the sequins positioned above the beads, and the sequins feeding device 5 can be a single sequins embroidery device or a multi-sequins embroidery device.

Preferably, the sequin feeding device 5 is a double sequin embroidery device.

Preferably, the included angle between the bead feeding device 4 and the sequin feeding device 5 is 30-120 degrees, in the application, the included angle between the bead feeding device 4 and the sequin feeding device 5 is the included angle between the bead feeding device 4 and the sequin feeding mechanism 51, so that interference caused by too small included angle and increase of size caused by too large included angle are avoided, and the application can finish embroidering beads and sequin together and simultaneously reduce the occupied space, and is convenient to be combined with other embroidering machines for use.

Optimally, the included angle between the bead feeding device 4 and the sheet feeding mechanism 51 is 10 degrees, 18 degrees, 26 degrees, 32 degrees, 45 degrees, 60 degrees, 72 degrees, 80 degrees, 90 degrees or 100 degrees.

As shown in fig. 4 and 5, the bead feeding device 4 further includes a bottom plate 41 fixedly disposed on one side of the bead feeding back plate 48, a sliding chute 42 is disposed in the sliding chute of the bottom plate 41, an elastic clip 43 is disposed above the sliding chute 42, a cover plate 44 fixedly disposed on the bottom plate 41 limits the elastic clip 43 in the sliding chute, an elastic bead guiding frame 45 and an adjusting block 46 are disposed on the cover plate 44, the elastic bead guiding frame 45 applies an elastic force on the elastic clip 43 to enable the elastic clip 43 to move relative to the sliding chute 42 at an initial position, the sliding chute 42 drives the elastic clip 43 to open or clamp, and the sliding chute 42 is connected to a bead feeding motor through a driving rod 47.

The piece feeding mechanism 51 further comprises a plurality of piece feeding motors 513 fixedly arranged on the piece feeding back plate 511 and a conveying base 512, one side of each piece feeding motor 513 is fixedly connected with the piece feeding back plate 511, the gold piece conveying channels are located on the conveying base 512, the piece feeding motors 513 drive corresponding swing rods 514 pivoted on the piece feeding back plate 511, one ends of the swing rods are driven to move in a reciprocating mode through shifting fork heads 515 hinged to the swing rods 514, and the transverse slicing mechanism 52 is located on the other side of the conveying base 512. By adopting the structure, the shielding of the sheet feeding back plate 511 on the operation panel of the machine head 1 is avoided, the threading of the embroidery needle 11 is convenient, and the conveying base 512 is positioned at the outer side, so that the gold sheet can be conveniently threaded when the included angle between the bead feeding device 4 and the sheet feeding mechanism 51 is smaller, and the use is convenient.

In the present application, all the gold plate outlets of the gold plate feeding mechanism 51 are located below the elastic clamp 43 of the bead feeding device 4; it is within the scope of the present application that all of the gold plate outlets are located above the spring clip 43 of the bead feeding device 4.

As shown in fig. 4 and 5, the transverse slicing mechanism 52 includes a transverse cutter 527 and a transverse driving mechanism for driving the transverse cutter 527 to reciprocate transversely, and the transverse cutter 527 is located below the elastic clamp 43; it is also within the scope of the present application that the cross cutter 527 be located above the resilient clip 43. Because the transverse slicing mechanism 52 can not interfere with the elastic clamp 43, the transverse slicing mechanism can simultaneously complete slicing while sending the beads, shorten the embroidering time of each needle, improve the production efficiency, and avoid the collision between the cutter and the needle rod to influence the working efficiency of the embroidery needle 11 because the cutter can not swing up and down.

The bottom of the cross cutter 527 is provided with a cutting edge 5271 which is transversely and obliquely arranged, the width of the tip of the cross cutter 527 is smaller than that of the root of the cross cutter 527, the height of all gold sheet outlets in the vertical direction is reduced, the length of the embroidery needle 11 is reduced, the service life of the embroidery needle 11 is prolonged, the stroke of the embroidery needle 11 is reduced, and the production efficiency is improved; it is also within the scope of the present application that the cross cutter 527 be provided with two transversely obliquely disposed blades 5271 spaced apart in the vertical direction to slice the gold flakes located above and below the beads, respectively.

The transverse driving mechanism comprises a slicing motor 521, a sliding frame 524 and a connecting rod transmission mechanism, the transverse cutting knife 527 is fixedly connected with the sliding frame 524, the slicing motor 521 drives the sliding frame 524 to move through the connecting rod transmission mechanism so that the transverse cutting knife 527 slices, the sliding frame 524 is reset under the action of a spring 526, and the connecting rod transmission mechanism can be replaced by a gear rack structure, a lead screw nut structure and the like.

The connecting rod transmission mechanism comprises a swinging block 522 and a connecting rod 523, the swinging block 522 is fixedly connected with an output shaft of the slicing motor 521, two ends of the connecting rod 523 are respectively hinged with the swinging block 522 and a sliding frame 524, the sliding frame 524 is in sliding connection with a pair of guide posts 525 positioned on the slice conveying mechanism 51, and a spring 526 is sleeved on each guide post 525. Adopt above-mentioned structure optional ordinary motor, reduction in production cost.

The multifunctional embroidery device also comprises an independent controller which is mainly used for coordinating the mutual matching of the bead feeding device 4, the sheet feeding mechanism 51 and the embroidery needle 11, and the transverse slicing mechanism 52 can timely slice, so that the embroidery machine can normally work to embroider beads and gold sheets. The lifting mechanism 3 is controlled automatically or manually by a controller.

As shown in fig. 1, 2 and 3, an embroidery machine comprises a machine head 1 and at least one multifunctional embroidery device arranged on the periphery of the machine head 1, wherein the multifunctional embroidery device adopts the multifunctional embroidery device, a string of bead wires is suspended above an elastic bead guide frame 45 of a bead feeding device 4, the lower ends of the bead wires are communicated with an elastic clamping hole of the elastic bead guide frame 45, the upper ends of the bead wires are connected with a string of bead mechanism, beads are realized by means of probability, and the bead wires are stably suspended in the air under the action of a time-sharing clamp holder.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to 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 (11)

1. The multifunctional embroidery device is characterized by comprising a bead feeding device (4) and a sequin feeding device (5) which are spliced together at a certain angle, wherein the sequin feeding device (5) comprises a sequin feeding mechanism (51) and a transverse slicing mechanism (52), and the bead feeding device (4) and the sequin feeding mechanism (51) alternately convey beads and sequins to the position under the same embroidery needle (11) or convey the beads and the sequins to the position under the same embroidery needle (11) simultaneously.

2. The multifunctional embroidery device as claimed in claim 1, wherein the included angle between the bead feeding device (4) and the sequin feeding device (5) is 30-120 °.

3. The multi-functional embroidery device of claim 2, wherein the angle between the bead feeding device (4) and the sequin feeding device (5) is 90 °.

4. The multi-function embroidery device as claimed in claim 1, wherein all sequin outlets of the sequin feeding device (5) are located below the elastic clip (43) of the bead feeding device (4).

5. the multifunctional embroidery device as claimed in claim 4, wherein the transverse slicing mechanism (52) comprises a transverse cutter (527) and a transverse driving mechanism for driving the transverse cutter (527) to reciprocate transversely, and the transverse cutter (527) is located below the elastic clip (43).

6. The multifunctional embroidering apparatus of claim 5, wherein the bottom of the cross cutting knife (527) is provided with a transversely inclined cutting edge (5271), and the width of the cutting edge of the cross cutting knife (527) is smaller than the width of the cutting root of the cross cutting knife (527).

7. the multifunctional embroidering device of claim 5, wherein the transverse driving mechanism comprises a slicing motor (521), a carriage (524) and a link transmission mechanism, the transverse cutting knife (527) is fixedly connected with the carriage (524), the slicing motor (521) drives the carriage (524) to move through the link transmission mechanism to slice the transverse cutting knife (527), and the carriage (524) is reset under the action of a spring (526).

8. The multifunctional embroidery device of claim 7, wherein the link transmission mechanism comprises a swing block (522) and a link (523), the swing block (522) is fixedly connected with an output shaft of the slicing motor (521), and two ends of the link (523) are respectively hinged to the swing block (522) and the carriage (524).

9. The multi-function embroidery device of claim 7, wherein the carriage (524) is slidably connected to a pair of guide posts (525) on the feeding mechanism (51), and each guide post (525) is sleeved with a spring (526).

10. The multifunctional embroidering apparatus of claim 1, wherein the sheet feeding mechanism (51) comprises a sheet feeding back plate (511) and a conveying base (512) having one side fixedly connected to the sheet feeding back plate (511), and the transverse slicing mechanism (52) is located at the other side of the conveying base (512).

11. An embroidery machine, characterized by comprising a machine head (1) and at least one multifunctional embroidery device arranged at the periphery of the machine head (1), wherein the multifunctional embroidery device adopts the multifunctional embroidery device as claimed in any one of claims 1 to 10.