CN109881395B - Multi-specification bead feeding device and embroidery machine - Google Patents

Abstract

The application provides a many specifications pearl material feeding unit, including the pay-off chassis, be equipped with a plurality of pay-off spout on the pay-off chassis, the slip is equipped with feeding assembly in the pay-off spout, feeding assembly includes that the bottom surface flushes shallow and elasticity clamp, and all feeding assembly is kept away from in turn or is approaching under the same needle bar that is located the machine head under pushing away pearl actuating mechanism's effect, exports the polychrome pearl that the specification is the same or the specification is different in order. The application provides a many specifications pearl material feeding unit, small, pay-off spout processing is simple, and work efficiency is high.

Description

Multi-specification bead feeding device and embroidery machine

Technical Field

The utility model relates to an embroidery machine, in particular to a multi-specification bead feeding device.

Background

In the existing production process of upper decorative fabric of popular clothes and household articles, a large number of patterns woven by embroidery beads are generated, in order to enrich the patterns, a multi-embroidery-bead mechanism is generally adopted to realize the embroidery work of beads with various colors or specifications, and due to the problem of bead clamping openings, the multicolor bead feeding device with only one bead feeding clamp can only complete the embroidery work of beads with different colors and almost the same in height specification.

Chinese patent CN201721272103 discloses a color-changing or multi-specification bead embroidering device and embroidering machine, comprising at least two bead conveying mechanisms, wherein the at least two bead conveying mechanisms are mounted on the periphery of a machine head, the machine head is provided with at least one needle bar, and the at least two bead conveying mechanisms control the beads and convey the beads to the position under the same needle bar embroidering needle or the position under the corresponding needle bar embroidering needle. According to the utility model, at least two bead conveying mechanisms are arranged on the outer side of the embroidery needle, and can output beads with different specifications or colors according to the requirements of the bead embroidery process, so that multi-color or multi-specification beads can be sequentially embroidered on the fabric. The utility model has the advantages that the structure is simple, and beads with different colors can be effectively and orderly output, so that the embroidery machine can realize the effect of embroidering the colored beads on the fabric. Because every pearl conveying mechanism in above-mentioned application all is independent setting, i.e. a plurality of single pearl embroidery devices combine to use, because the structure restriction, therefore contained angle between the adjacent single pearl embroidery devices is big, consequently occupation space is great, the degree of integration is low, the debugging process is complicated, and among the prior art, shallow in the pearl conveying mechanism all is structural design from top to bottom with the elasticity clamp, with shallow complex pay-off spout width less messenger's processing degree of difficulty increase, and the elasticity clamp mouth of elasticity clamp can not reduce apart from the distance of embroidering cloth, therefore the lifting height of embroidery needle is great, make work efficiency low. In summary, how to develop a multi-specification bead feeding device with small volume and high working efficiency is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The utility model aims to provide a multi-specification bead feeding device, which solves the defects of large space, difficult combination with other embroidery devices, high processing difficulty, low working efficiency and the like of the conventional equipment.

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

the utility model provides a many specifications pearl material feeding unit, includes the pay-off chassis, be equipped with a plurality of pay-off spout on the pay-off chassis, the slip is equipped with feeding assembly in the pay-off spout, feeding assembly includes that the bottom surface flushes shallow and elasticity clamp, and all feeding assembly is kept away from in turn or is close under the same needle bar that is located the machine head under pushing away pearl actuating mechanism's effect, exports the polychrome pearl that the specification is the same or the specification is different in order.

Further, the beads with the same specification are beads with the same shape and height; the beads with different specifications are beads with different shapes and different heights, or the beads with the same shape and different heights, or the beads with different shapes and different heights.

Further, two adjacent feeding sliding grooves are mutually communicated to form a V-shaped channel, and the included angle of the V-shaped channel is 10-150 degrees.

Further, the feeding underframe is provided with two feeding sliding grooves, and the included angle between the two feeding sliding grooves is 20-70 degrees.

Further, the included angle between the two feeding sliding grooves is 40 degrees.

Further, the bottom surfaces of the two feeding sliding grooves forming the V-shaped channel are positioned on the same plane, the thicknesses of all the elastic clamps are the same and are used for outputting the beads with the same height, and the thicknesses of all the elastic clamps are different and are used for outputting the beads with different heights.

Still further, a gap is provided on each gland of the feeding chassis for defining a corresponding feeding assembly in the feeding chute to avoid interference between the feeding assembly and the gland.

Further, the cart comprises a pair of side frames, a containing cavity is formed between the pair of side frames, the elastic clamp is embedded in the containing cavity, and a pair of driving arms on the pair of side frames act on a pair of elastic clamping arms of the elastic clamp to drive an elastic clamping opening of the elastic clamp to open and close.

Further, the outer side surfaces of the two side arms of the elastic clamp are respectively provided with a rear lug, the outer side surfaces of the pair of elastic clamping arms are respectively provided with a front lug, and the rear lug and the front lug which are positioned on the same side of the elastic clamp are positioned in the side grooves of the corresponding side frames.

Furthermore, a groove is arranged at the front side of the front lug, and a driving arm gap positioned on the inner side surface of the corresponding side frame is inserted into the groove.

Further, a guide groove is formed in the bottom surface of the feeding chute, and a limiting pin located on the bottom surface of the elastic clamp is matched with the guide groove to limit the elastic clamp back or front and back.

According to still another object of the present utility model, there is provided an embroidery machine comprising a multi-specification bead feeding apparatus as described above.

As can be seen from the technical scheme, the utility model has the following beneficial effects:

the bottom surfaces of the cart and the elastic clamp are flush, so that the feeding assembly is in a flat plate shape, the width of the feeding chute is increased, and the processing is convenient;

the bottom surfaces of the two feeding sliding grooves forming the V-shaped channel are positioned on the same plane, so that the included angle of the V-shaped channel can be further reduced without being limited by the structure;

the beads with the same height are output when the feeding devices with the same thickness of all the elastic clamps are selected, and the beads with different heights are output when the feeding devices with different thicknesses of all the elastic clamps are selected, so that the device is applicable to the occasion of carrying out alternate embroidery on the beads with different specifications and heights, and is convenient to use;

the feeding underframe is provided with a plurality of feeding sliding grooves, so that the feeding of a plurality of beads can be finished simultaneously, the replacement time of the beads with different specifications is shortened, and the working efficiency is improved;

because the two adjacent feeding sliding grooves are communicated with each other to form a V-shaped channel, the reciprocating motion stroke of the feeding assembly is shortened, and the bead feeding efficiency is improved;

because the elastic clamp is embedded in the accommodating cavity of the trolley, the distance between the elastic clamp and the embroidery cloth is shortened, the lifting height of the embroidery needle can be further reduced, and the embroidery bead efficiency is improved.

The utility model is described in further detail below with reference to the drawings and the detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic view of a partial structure of the present utility model.

FIG. 3 is a schematic feeding diagram of the present utility model.

FIG. 4 is a schematic representation of the multi-format bead feed of the present utility model.

Fig. 5 is a schematic view of the V-shaped channel structure of the present utility model.

Fig. 6 is a schematic view of the installation of the spring clip and cart of the present utility model.

Fig. 7 is a schematic diagram of the working principle of the present utility model.

Reference numerals illustrate: the feeding chassis 1, the feeding chute 11, the guide groove 111, the bottom plate 12, the gland 14, the notch 141, the pushing motor 2, the swing arm 3, the elastic clamp 4, the side arm 41, the rear bump 411, the limiting pin 42, the elastic clamp arm 43, the front bump 431, the groove 432, the tongue plate 44, the front elastic clamp 4a, the rear elastic clamp 4b, the adjusting block 5, the elastic bead guide nozzle 6, the pushing cart 7, the side frame 71, the side groove 711, the driving arm 712 and the accommodating cavity 72.

Detailed Description

Embodiments of the utility model are described in detail below with reference to the attached drawings, but the utility model can be implemented in a number of different ways, which are defined and covered by the claims.

The present application will be further described with reference to fig. 1 to 7, and the multi-specification bead feeding device as shown in fig. 1, 2 and 4 includes a feeding chassis 1, a bottom plate 12 of the feeding chassis 1 is provided with a plurality of feeding sliding grooves 11, feeding components are slidably disposed in the feeding sliding grooves 11, the feeding components include a cart 7 with a flush bottom surface and an elastic clamp 4, all the feeding components are alternately far away from or approaching under the same needle bar on the machine head under the action of a bead pushing driving mechanism, and beads with the same specification or different specifications are sequentially output, wherein the beads with the same specification are beads with the same shape, the same height and the same diameter or different diameters; the beads with different specifications are beads with different shapes, heights, diameters or different shapes, heights or diameters or the same or different shapes, heights or diameters, and when the thicknesses of all the elastic clamps 4 are the same, the beads with the same heights, the same or different shapes or the same diameters or different colors are output, and the thicknesses of all the elastic clamps 4 are different, the beads with the same or different colors are output.

The ball pushing driving mechanism comprises a plurality of ball pushing motors 2 fixedly arranged on the feeding chassis 1 of the lower section, the ball pushing motors 2 drive corresponding swing arms 3 to act on trolleys 7 of corresponding feeding assemblies through transmission mechanisms, and the ball pushing motors 2 are staggered in the vertical direction, so that the occupied space of the ball pushing driving mechanism is reduced, and the interval distance between adjacent needle bar frames can be reduced.

As shown in fig. 3 and fig. 5, two adjacent feeding sliding grooves 11 are mutually communicated to form a V-shaped channel, the front end surface of one feeding sliding groove 11 is an inclined surface, the inclined angle α of the inclined surface is the same as the included angle of the V-shaped channel, the processing of the feeding sliding groove 11 is convenient, and the bottom surfaces of the two feeding sliding grooves 11 forming the V-shaped channel are located on the same plane, so that the bottom surface of the feeding assembly always slides on the plane, and the included angle of the V-shaped channel is not limited by the structure, so that the feeding chassis 1 is smaller in structure and more convenient to install.

Preferably, the included angle of the V-shaped channel is 10-150 degrees.

Optimally, the included angle of the V-shaped channel is 15 degrees, 20 degrees, 30 degrees, 42 degrees, 50 degrees, 70 degrees, 90 degrees, 110 degrees, 130 degrees or 145 degrees, and when the needle bar frame is used, only the space on one side of the needle bar frame is occupied, and the shielding of the needle bar frame operation panel is avoided.

Preferably, the feeding underframe 1 is provided with two feeding sliding grooves 11, and the included angle between the two feeding sliding grooves 11 is 20-70 degrees.

More preferably, the angle between the two feed runners 11 is 40 °.

As shown in fig. 3 and 5, a guiding groove 111 is provided on the bottom surface of the feeding chute 11, and a limiting pin 42 located on the bottom surface of the elastic clamp 4 cooperates with the guiding groove 111 to limit the elastic clamp 4 back or front and back, so that the positions of the elastic clamp 4 for receiving and delivering the beads are accurate.

As shown in fig. 6, the cart 7 includes a pair of side frames 71, a receiving cavity 72 penetrating the cart 7 is formed between the pair of side frames 71, the elastic clamp 4 is embedded in the receiving cavity 72 to make the feeding assembly be in a flat plate shape, a pair of driving arms 712 located on the pair of side frames 71 act on a pair of elastic clamping arms 43 of the elastic clamp 4 to drive an elastic clamping opening of the elastic clamp 4 to open and close, the cart 7 is connected with a corresponding feeding chute 11 in a sliding fit manner, and because the elastic clamp 4 is nested with the cart 7, compared with the technical scheme that the elastic clamp 4 is located above the cart 7 in the prior art, the distance between the elastic clamp 4 and embroidery cloth is shortened, so that the lifting height of an embroidery needle can be reduced, the embroidery bead efficiency is improved, and the feeding assembly is in a flat plate shape to increase the width of the feeding chute 11, so that the feeding chute 11 is convenient to process. Since beads having different heights need to be transported by using the spring clips 4 having different thicknesses, the thickness of the side frames 71 increases when the thickness of the spring clips 4 increases, and thus, each of the outer pressing plates of the feeding bottom frames 1 for defining the corresponding feeding assembly in the feeding chute 11 is provided with a notch 141 on an inner side surface of the outer pressing plate of the pressing cover 14 to avoid interference between the cart 7 and the pressing cover 14.

The elastic clamp 4 comprises a tail plate, wherein a tongue plate 44 is arranged on the tail plate, elastic clamping arms 43 are respectively arranged on two sides of the tongue plate 44, an elastic clamping opening is formed between cantilever ends of the pair of elastic clamping arms 43, a side arm 41 is respectively arranged on two sides of the pair of elastic clamping arms 43, the outer side surfaces of the side arm 41 are in sliding contact with the inner side surface of the feeding chute 11, a rear protruding block 411 is respectively arranged on the outer side surfaces of the two side arms 41 of the elastic clamp 4, a front protruding block 431 is respectively arranged on the outer side surfaces of the pair of elastic clamping arms 43, the rear protruding block 411 and the front protruding block 431 which are positioned on the same side of the elastic clamp 4 are positioned in side grooves 711 of the corresponding side frames 71, the elastic clamp 4 is limited in the accommodating cavity 72 through pressing on the top surfaces of the rear protruding block 411 and the front protruding block 431, the pushing block 7 is limited in the feeding chute 11 through pressing on the top surfaces of the two side frames 71, an adjusting block 5 and an elastic guide bead 6 are arranged on the pressing block 14, the guide bead 6 is arranged above the elastic guide bead 6 and can be connected with the guide bead 6, and the guide bead 6 is positioned on the guide bead 6.

The outer side surface of the front side of the front bump 431 is provided with a groove 432, a driving arm 712 located on the bottom surface of a side groove 711 corresponding to the side frame 71 is inserted into the groove 432 along a side opening gap of the groove 432, when the cart 7 moves forward relative to the elastic clamp 4, the elastic clamping opening of the elastic clamp 4 is closed and reduced, the clamping of the beads is more reliable, when the cart 7 moves backward relative to the elastic clamp 4, the elastic clamping opening of the elastic clamp 4 is opened to facilitate the bead receiving or the beads fall, and the opening size of the elastic clamping opening determines the diameter size of the beads capable of being conveyed.

The side grooves 711 may be further located on the bottom surface of the side frame 71 to form a sinking platform, and driving columns fixedly disposed on the sinking platform are vertically disposed, the driving columns are inserted into the grooves 432 along the end openings of the grooves 432, and the rear protrusions 411 and the front protrusions 431 located on the same side of the elastic clip 4 are located in the corresponding side grooves 711 to limit the elastic clip 4, so as to avoid tilting of the elastic clip 4 during movement.

The elastic clamp 4 can be in a flat plate shape, the elastic clamp 4 can also be in a shape with a thick middle and thin two sides so as to avoid thickening of the side frame 71, and when beads with different heights are conveyed, the elastic clamp 4 corresponding to the middle thickness is replaced to increase the depth of an elastic clamping opening, so that the universality of the cart 7 is better.

The multi-specification bead feeding device further comprises a controller, wherein the controller is mainly used for coordinating a plurality of pushing motors 2 to enable trolleys 7 of a plurality of feeding assemblies to be matched with each other, and the plurality of beads are alternately conveyed to the positions right below embroidery needles of corresponding needle bars through elastic clamps 4 of the feeding assemblies, so that the beads with different specifications can be sequentially conveyed, and the embroidery machine can work normally. The controllers may be provided independently or used, or related controllers on the embroidery machine may be utilized.

As shown in fig. 7, the working principle when the number of feed runners 11 is two: the elastic clamp 4 positioned in one feeding chute 11 is a front elastic clamp 4a, the elastic clamp 4 positioned in the other feeding chute 11 is a rear elastic clamp 4b, and when the device works, the rear elastic clamp 4b retreats when the front elastic clamp 4a is pushed out; when the rear spring clip 4b is pushed out, the front spring clip 4a retreats; the embroidery is completed, and the front elastic clamp 4a and the rear elastic clamp 4b are retracted.

According to another object of the present utility model, there is provided an embroidery machine.

The embroidery machine comprises a multi-specification bead feeding device, wherein the multi-specification bead feeding device is the multi-specification bead feeding device.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (11)

1. The utility model provides a many specifications pearl material feeding unit, its characterized in that, including pay-off chassis (1), be equipped with a plurality of pay-off spout (11) on pay-off chassis (1), communicate each other between two adjacent pay-off spouts (11) and form V-arrangement passageway, just the contained angle of V-arrangement passageway is 10 ~ 150, it is equipped with feeding assembly to slide in pay-off spout (11), feeding assembly includes shallow (7) and elasticity clamp (4) that the bottom surface is flush, and all feeding assembly is kept away from under the same needle bar of or is located the machine head in turn under the effect of pushing away pearl actuating mechanism, exports the pearl that the specification is the same or the specification is different.

2. The multi-specification bead feeding apparatus according to claim 1, wherein the beads having the same specification are beads having the same shape and the same height; the beads with different specifications are beads with different shapes and different heights, or the beads with the same shape and different heights, or the beads with different shapes and different heights.

3. The multi-specification bead feeding device according to claim 1, wherein the feeding chassis (1) has two feeding runners (11), and an included angle between the two feeding runners (11) is 20 ° to 70 °.

4. A multi-format bead feeding device according to claim 3, characterized in that the angle between the two feeding runners (11) is 40 °.

5. The multi-specification bead feeding apparatus according to claim 2, wherein the bottom surfaces of two feeding runners (11) forming the V-shaped channel are located on the same plane, and all the elastic clips (4) are used for outputting beads having the same height when the thicknesses of all the elastic clips (4) are the same, and all the elastic clips (4) are used for outputting beads having different heights when the thicknesses of all the elastic clips are different.

6. A multi-format bead feeding device according to claim 5, wherein each of the feeding chassis (1) is provided with a notch (141) on the gland (14) for defining the corresponding feeding assembly in the feeding chute (11) to avoid interference of the feeding assembly with the gland (14).

7. The multi-specification bead feeding device according to claim 1, wherein the cart (7) comprises a pair of side frames (71), a containing cavity (72) is formed between the pair of side frames (71), the elastic clamp (4) is embedded in the containing cavity (72), and a pair of driving arms (712) located on the pair of side frames (71) act on a pair of elastic clamping arms (43) of the elastic clamp (4) to drive an elastic clamping opening of the elastic clamp (4) to open and close.

8. The multi-specification bead feeding device according to claim 7, wherein the outer side surfaces of the two side arms (41) of the elastic clamp (4) are respectively provided with a rear bump (411), the outer side surfaces of the pair of elastic clamp arms (43) are respectively provided with a front bump (431), and the rear bump (411) and the front bump (431) which are positioned on the same side of the elastic clamp (4) are positioned in the side grooves (711) of the corresponding side frames (71).

9. The multi-format bead feeding apparatus as claimed in claim 8, wherein a groove (432) is provided at a front side of the front projection (431), and a driving arm (712) provided on an inner side surface of the corresponding side frame (71) is inserted into the groove (432) with a gap therebetween.

10. The multi-specification bead feeding device according to claim 1, wherein a guiding groove (111) is formed on the bottom surface of the feeding chute (11), and a limiting pin (42) located on the bottom surface of the elastic clamp (4) cooperates with the guiding groove (111) to limit the elastic clamp (4) back or front and back.

11. An embroidery machine comprising a multi-gauge bead feeding apparatus as claimed in any one of claims 1 to 10.