CN113846441A

CN113846441A - Multi-color embroidery bead feeding mechanism and using method thereof

Info

Publication number: CN113846441A
Application number: CN202111164981.XA
Authority: CN
Inventors: 戴洋德; 周继业
Original assignee: Wenzhou Ouluohua Industrial Co ltd
Current assignee: Wenzhou Ouluohua Industrial Co ltd
Priority date: 2021-09-30
Filing date: 2021-09-30
Publication date: 2021-12-28
Anticipated expiration: 2041-09-30

Abstract

The invention discloses a multi-color bead embroidery feeding mechanism, which comprises a base, a driving pulley sliding along the front and back, a bead feeding elastic clamp and a bead passing block which is positioned above the bead feeding elastic clamp and can move left and right, wherein the bead passing block is provided with at least two bead lower holes arranged side by side, the side surface of the bead feeding elastic clamp is provided with at least one layer of side groove, all the side grooves are used for dividing a bead receiving port of the bead feeding elastic clamp into at least two sections, and the bead receiving depth of the bead receiving port can be adjusted by matching with corresponding baffles corresponding to the side grooves, so that the requirement of bead embroidery feeding at different heights is met; the invention also provides a using method of the multi-color embroidery bead feeding mechanism; the invention can realize the bead feeding of various embroidery beads with different lengths without stopping the machine, has compact structure, prevents the bead feeding elastic clamp from being suspended in the air in the working process and avoids the bead feeding continuity from being influenced by the deformation of the bead feeding elastic clamp.

Description

Multi-color embroidery bead feeding mechanism and using method thereof

Technical Field

The invention relates to the technical field of embroidery machines, in particular to a multi-color embroidery bead feeding mechanism and a using method thereof.

Background

Along with the improvement of society and living standard, the demand of people on articles is not only on the use function, but also the aesthetic property influences the selection of people to a great extent, the most intuitive embodiment is that on clothes and household textiles, the requirements of people on the clothes and the patterns on the household textiles are more and more exquisite, in order to attract consumers to buy, fine embroidered beads are sewn on the clothes as decorative patterns, so that the patterns have good three-dimensional property and good aesthetic property, in order to better enrich the color and the layering of the patterns, various colors and specifications of embroidered beads are required to be used simultaneously, in order to improve the production efficiency, technical personnel in the field develop a plurality of multicolor bead embroidering machines with color changing devices, the structure is limited, most of the existing multicolor bead embroidering machines can only be used for multicolor multi-color multi-specification embroidered beads with small height difference, and few multicolor multi-specification bead embroidering machines capable of meeting the requirement of multicolor multi-specification embroidered beads with large height difference are used, generally, a low-position groove below a bead feeding elastic clamp is formed in a base, the bead feeding elastic clamp can be adapted to beads with different heights by enabling the beads to directly fall into the low-position groove or flatly filling the low-position groove, when the beads are too long, the bead feeding elastic clamp can only clamp the upper part of the beads in the bead feeding process, the beads are prone to toppling and falling unevenly under stress in the bead feeding process to generate bead leakage, the beads can fall off in the embroidering process due to unstable clamping when the beads are fed, the bead feeding process is unstable, the quality of an embroidery product is affected, and the working efficiency is seriously affected; or a plurality of accessories need to be replaced to realize the use of the multi-color and multi-specification embroidery beads with larger height difference, thus causing the defects of higher cost, lower efficiency, difficult maintenance and the like.

Disclosure of Invention

In view of the above, the present invention provides a multi-color bead feeding mechanism and a method for using the same to solve the above technical problems.

In order to achieve the purpose, the invention provides the following technical scheme:

a multi-color embroidery bead feeding mechanism comprises a base, a driving pulley sliding along the front and back, a bead feeding elastic clamp and a bead feeding block located above the bead feeding elastic clamp and capable of moving left and right, wherein at least two bead feeding holes arranged side by side are formed in the bead feeding block, at least one layer of side groove is formed in the side face of the bead feeding elastic clamp, all the side grooves are used for dividing a bead receiving port of the bead feeding elastic clamp into at least two sections, and the bead receiving depth of the bead receiving port can be adjusted by matching with corresponding baffles corresponding to the side grooves, so that the requirement of feeding beads with different heights is met.

Furthermore, one end of the baffle is detachably connected with the corresponding end of the bead passing block.

Furthermore, when the corresponding ends of the bead passing blocks are simultaneously connected with a plurality of baffles, the baffles are arranged in an overlapped and spaced mode in the vertical direction, and the baffles are distributed in a stepped mode.

Furthermore, when the bead feeding elastic clamp works, the baffle plates can be continuously positioned in the corresponding side grooves.

Furthermore, embroidery bead avoiding grooves are arranged at proper positions of the baffle to change the distribution of embroidery beads with different heights.

Furthermore, the bottom surface of sending pearl elastic clamp is equipped with two and extends to respectively send the breach groove of pearl elastic clamp corresponding side, the top in breach groove and the side groove intercommunication of bottommost layer, the breach groove with be located drive projection cooperation connection that corresponds on the initiative coaster.

Further, cross the adjustable connection of pearl piece lift on the regulating block, adjustable connection is on the mounting panel around the regulating block, mounting panel and the linear guide sliding fit who is located the frame, just the mounting panel is connected with the one end of connecting rod is articulated, the other end of connecting rod passes through the motor connecting rod and installs the output shaft of the switching motor in the frame.

Furthermore, a plurality of magnetic blocks which are distributed in a straight line along the moving direction are embedded in the bottom surface of the bead feeding elastic clamp.

The invention also provides a using method of the multi-color bead feeding mechanism, which is used for the multi-color bead feeding mechanism and comprises the following steps: the bead receiving port of the bead feeding elastic clamp of the multi-color bead feeding mechanism retreats to the front of the bead receiving position, the corresponding side groove on the side surface of the bead feeding elastic clamp is matched with the corresponding baffle to adjust the bead receiving depth of the bead receiving port, and meanwhile, the bead passing block of the multi-color bead feeding mechanism moves to enable the lower bead hole matched with the bead receiving depth of the bead receiving port to move to the lower bead position to realize bead replacement; and (4) receiving the beads when the bead receiving port retreats to the bead receiving position, and circularly working when the bead receiving is finished, wherein the bead feeding elastic clamp feeds the beads forwards.

Furthermore, the movement process of the bead passing block and the movement process of the baffle are controlled independently or in a linkage manner.

Furthermore, the movement process of the bead passing block and the movement process of the baffle are controlled in a linkage mode.

The technical scheme can show that the invention has the advantages that: in the process of sending the beads, the bead receiving depth of the bead receiving port is adjustable, so that no matter long beads or short beads are positioned in the bead receiving port reliably in the process of sending the beads, the beads are clamped reliably, and the bead sending continuity is good; through setting up the side groove of different quantity and rather than complex baffle, can realize that the pearl is sent under the not shut down situation to the embroidery pearl that can realize multiple different length, and compact structure to send pearl elastic clamp can not appear unsettled situation in the course of the work, avoid sending pearl elastic clamp to warp and influence and send pearl continuity.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below with reference to the drawings.

Drawings

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

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of the split structure of the present invention.

FIG. 3 is a schematic view showing the installation relationship between the bead feeding elastic clip of the present invention and the blocking plate and the bead passing block.

FIG. 4 is a schematic view of a bead feeding spring clip according to the present invention.

FIG. 5 is another schematic diagram of the bead feeding spring clip of the present invention.

Fig. 6 is a schematic view of an installation structure of the baffle of the invention.

Fig. 7 is a schematic view of another mounting structure of the baffle of the invention.

Fig. 8 is a schematic view of another installation structure of the baffle of the invention.

FIG. 9 is a schematic view of the structure of the bead-passing block of the present invention.

Fig. 10 is a schematic structural view of the baffle of the present invention.

FIG. 11 is a schematic view of the structure of the back of the bead-feeding spring clip of the present invention.

List of reference numerals: the bead embroidery machine comprises a switching motor 1, a motor connecting rod 2, a connecting rod 3, an installation plate 4, a bead feeding elastic clamp 5, a bead receiving opening 51, a side groove 52, a notch groove 53, a magnetic block 54, a base 6, an avoiding notch 61, a low-level groove 62, a driving pulley 7, a driving convex column 71, a baffle 8, an embroidery bead avoiding groove 81, a bead passing block 9, a bead falling hole 91, an adjusting block 10, a linear guide rail 11, a bead embroidery connecting rod shifting fork 12 and a connecting bolt 13.

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.

Referring to fig. 1 to 11, the present application is further described, and as shown in fig. 1, 2, 3 and 9, the multi-color bead feeding mechanism includes a base 6, a driving pulley 7 sliding along the front and back, a bead embroidery link fork 12 connected to the driving pulley 7 in a driving manner, a bead feeding elastic clip 5, and a bead passing block 9 located above the bead feeding elastic clip 5 and capable of moving left and right, wherein the bead passing block 9 has at least two bead receiving holes 91 arranged side by side, a side surface of the bead feeding elastic clip 5 is provided with at least one side groove 52, all the side grooves 52 are used for dividing the bead receiving opening 51 of the bead feeding elastic clip 5 into at least two sections, and the side grooves 52 can be matched with corresponding baffles 8 to adjust the bead receiving depth of the bead receiving opening 51, so as to satisfy bead feeding of different heights of beads, and the bead feeding process is reliable, and when the number of the side grooves 52 is less than one, it is satisfied that all the bead feeding lengths in all the bead receiving holes are all the same and the same When the beads are used, the number of the side grooves 52 can be adjusted or the maximum number of the side grooves 52 can be set according to the lengths of the embroidery beads in all the lower bead holes so as to meet the use requirements of various conditions.

As shown in fig. 11, a plurality of magnetic blocks 54 distributed in a word along the moving direction are embedded in the bottom surface of the bead feeding elastic clip 5, and the bead feeding elastic clip 5 can reliably accompany the driving pulley 7 to move forward or backward under the condition that the pressing plate is absent in the application through the attraction between the magnetic blocks 54 and the base 6, so that the movement is reliable, and the design height of the bead feeding elastic clip 5 is not affected by the structure of the application, and the thickness of the base 6 does not need to be increased.

As shown in fig. 3, 4, 6 and 7, when the bead passing block 9 has two bead lower holes, the bead feeding elastic clip 5 has a layer side groove 52, and when both the embroidery beads in the two bead lower holes are short beads, the baffle 8 is used and the baffle 8 is always engaged with the side groove 52 and inserted into the bead receiving opening 51; when the embroidery beads in the two lower bead holes are long beads, the baffle 8 is not needed; when the lengths of the embroidery beads in the two lower bead holes are different, the baffle 8 can be followed by the bead feeding elastic clamp 5 to adjust the bead receiving depth of the bead receiving opening 51, so that the embroidery beads with different lengths can reliably fall into the bead receiving opening 51 and can be stably clamped.

In order to realize the synchronism of bead changing, one end of the baffle 8 is detachably connected with the corresponding end of the bead-passing block 9, the baffle 8 with different lengths is convenient to change, the baffle 8 and the bead-passing block 9 move synchronously, the influence on the height of the lower bead of the embroidery bead caused by the delayed or advanced movement of the baffle 8 or the bead-passing block 9 to the bead-receiving opening 51 is avoided, the condition of bead blocking or multiple beads is avoided, the bead-changing process is reliable, the bead-passing block 9 is connected to the adjusting block 10 in an adjustable manner in a lifting manner, the adjusting block 10 is connected to the mounting plate 4 in an adjustable manner in the front-back direction, the positions of the bead-passing block 9 and the adjusting block 10 are adjustable, the lower bead hole is accurately matched with the bead-receiving opening 51, the embroidery bead can reliably fall into the bead-receiving opening 51, the mounting plate 4 is in sliding fit with the linear guide rail 11 on the rack, and the mounting plate 4 is hinged with one end of the connecting rod 3, the other end of the connecting rod 3 is connected with an output shaft of a switching motor 1 arranged on the rack through a motor connecting rod 2.

As shown in fig. 5 and 8, when the corresponding end of the bead passing block 9 is connected with 3 baffles 8 at the same time, 3 baffles 8 are arranged at intervals in an overlapping manner in the vertical direction, and 3 baffles 8 are distributed in a ladder-shaped manner, and 3 different baffles 8 are arranged to meet the requirement of feeding beads with different lengths, so that the situation that a plurality of beads or beads are unstable in clamping is avoided, and the bead changing and feeding processes are reliable.

Preferably, all the baffles 8 are connected to one end of the bead crossing block 9, the length of the embroidery beads in the lower bead hole far away from the connecting end of the baffle 8 is the largest, the length of the embroidery beads in the lower bead hole close to the connecting end of the baffle 8 is the smallest, and the lengths of the embroidery beads are sequentially changed from long to short.

When the distribution of the embroidery beads with different lengths in all the lower bead holes needs to be adjusted, all the baffles 8 can be divided into two parts and respectively connected to the corresponding ends of the bead passing blocks 9, the longest embroidery bead is positioned in the middle, and the length of the embroidery bead is gradually shortened from the middle to the two sides, so that the embroidery bead can be adjusted according to actual use.

In order to avoid influencing the bead changing in the bead feeding process, the baffle 8 can be continuously positioned in the corresponding side groove 52 when the bead feeding elastic clamp 5 works, so that the bead changing time is saved, and the working efficiency is high.

In order to facilitate replacement of the baffle 8 according to working conditions, at least one connecting bolt 13 sequentially penetrates through all the baffles 8 installed at the same position and then is matched and connected with corresponding internal threaded holes on the bottom surface of the corresponding end of the bead passing block 9, and gaps between the

baffles

8 and 8 or between the baffles 8 and the bead passing block 9 can be adjusted by setting cushion blocks with different heights to correspond to the height positions of the baffles 8 to be matched with different side grooves 52, so that the bead receiving depth of the bead receiving port 51 is matched with the embroidery beads in the corresponding lower bead holes.

In order to adapt to the structure of this application, have on the top surface of base 6 and be used for dodging low-order groove 62 of baffle 8 can increase the mounted position control range of baffle 8, and avoid baffle 8 with base 6 produces the interference, the side of base 6 has and is used for dodging connecting bolt 13 dodges breach 61, can shorten cross pearl piece 9 with the length of baffle 8 makes compact structure.

The bottom surface of the bead feeding elastic clamp 5 is provided with two notch grooves 53 which respectively extend to the corresponding side surfaces of the bead feeding elastic clamp 5, the top of each notch groove 53 is communicated with the side groove 52 of the bottommost layer, and the notch grooves 53 are matched and connected with the corresponding driving convex columns 71 on the driving pulley 7, so that the bead feeding elastic clamp 5 can be driven to clamp or release the embroidery beads conveniently, and the movement of the baffle 8 is not influenced.

Another embodiment of the baffle is provided as shown in fig. 10, and a bead avoiding groove 81 is provided at a suitable position of the baffle 8 to change the distribution of the beads with different heights. The embodiment mainly considers that the height of the embroidery beads and the positions of the embroidery beads with various specifications are adjusted according to needs by arranging the embroidery bead avoiding grooves 81, and the height of the embroidery beads is not adjusted by the length of the baffle 8 as shown in fig. 8.

The invention also provides a using method of the multi-color bead feeding mechanism, which is used for the multi-color bead feeding mechanism and comprises the following steps: before the bead receiving port 51 of the bead feeding elastic clip 5 of the multi-color bead feeding mechanism retreats to the bead receiving position, the corresponding side groove 52 on the side surface of the bead feeding elastic clip 5 is matched with the corresponding baffle 8 to adjust the bead receiving depth of the bead receiving port 51, and meanwhile, the bead passing block 9 of the multi-color bead feeding mechanism moves to enable the lower bead hole 91 matched with the bead receiving depth of the bead receiving port 51 to move to the lower bead position to realize bead replacement; when the bead receiving port 51 retreats to the bead receiving position, the bead receiving is carried out, and after the bead receiving is finished, the bead feeding elastic clamp 5 advances to feed the beads, and the operation is circulated.

Furthermore, the movement process of the bead passing block 9 and the movement process of the baffle plate 8 are controlled independently or in a linkage manner.

Furthermore, the movement process of the bead passing block 9 is controlled in linkage with the movement process of the baffle plate 8.

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

1. A multi-color bead embroidery bead feeding mechanism comprises a base (6), a driving pulley (7) sliding along the front and back, a bead feeding elastic clamp (5) and a bead passing block (9) located above the bead feeding elastic clamp (5) and capable of moving left and right, wherein the bead passing block (9) is provided with at least two bead lower holes (91) arranged side by side, the multi-color bead embroidery bead feeding mechanism is characterized in that the side surface of the bead feeding elastic clamp (5) is provided with at least one layer of side groove (52), all the side grooves (52) are used for dividing a bead receiving port (51) of the bead feeding elastic clamp (5) into at least two sections, the corresponding side groove (52) can be matched with a corresponding baffle (8) to adjust the bead receiving depth of the bead receiving port (51), and the requirement for bead embroidery bead feeding at different heights is met.

2. The multi-color embroidery bead feeding mechanism as claimed in claim 1, wherein one end of the baffle (8) is detachably connected with the corresponding end of the bead passing block (9).

3. The multi-color embroidery bead feeding mechanism according to claim 2, wherein when the corresponding end of the bead passing block (9) is connected with a plurality of baffles (8) at the same time, the plurality of baffles (8) are arranged in an overlapping and spaced manner along the vertical direction, and the plurality of baffles (8) are distributed in a step shape.

4. The multi-color embroidery bead feeding mechanism according to claim 3, wherein the baffle (8) can be continuously located in the corresponding side groove (52) when the bead feeding elastic clip (5) works.

5. The multi-color embroidery bead feeding mechanism according to claim 1, wherein embroidery bead avoiding grooves (81) are provided at appropriate positions of the baffle (8) to change the distribution of embroidery beads with different heights.

6. The multi-color embroidery bead feeding mechanism according to claim 1, wherein the bottom surface of the bead feeding elastic clip (5) is provided with two notch grooves (53) respectively extending to the corresponding side surfaces of the bead feeding elastic clip (5), the top of the notch groove (53) is communicated with the side groove (52) at the bottommost layer, and the notch grooves (53) are connected with the corresponding driving convex columns (71) on the driving pulley (7) in a matching manner.

7. The multi-color embroidery bead feeding mechanism according to claim 1, wherein the bead passing block (9) is connected to an adjusting block (10) in a lifting adjustable manner, the adjusting block (10) is connected to a mounting plate (4) in a front-back adjustable manner, the mounting plate (4) is in sliding fit with a linear guide rail (11) on the rack, the mounting plate (4) is hinged to one end of a connecting rod (3), and the other end of the connecting rod (3) is connected to an output shaft of a switching motor (1) mounted on the rack through a motor connecting rod (2).

8. The multi-color embroidery bead feeding mechanism as claimed in claim 1, wherein a plurality of magnets (54) are embedded in the bottom surface of the bead feeding elastic clip (5) and distributed in a straight line along the moving direction.

9. A method for using a multi-color bead feeding mechanism, which is used for the multi-color bead feeding mechanism of any one of claims 1 to 8, and comprises the following steps: the bead receiving port (51) of the bead feeding elastic clamp (5) of the multi-color embroidery bead feeding mechanism retreats to the front of the bead receiving position, the corresponding side groove (52) on the side surface of the bead feeding elastic clamp (5) is matched with the corresponding baffle (8) to adjust the bead receiving depth of the bead receiving port (51), and meanwhile, the bead passing block (9) of the multi-color embroidery bead feeding mechanism moves to enable the lower bead hole (91) matched with the bead receiving depth of the bead receiving port (51) to move to the lower bead position to realize bead replacement; when the bead receiving port (51) retreats to the bead receiving position, the bead is received, and after the bead receiving is finished, the bead feeding elastic clamp (5) feeds the beads forwards, and the operation is circulated.

10. The method for using the multi-color embroidery bead feeding mechanism according to claim 9, wherein the moving process of the bead passing block (9) and the moving process of the baffle (8) are controlled independently or in a linkage manner.

11. The method for using the multi-color embroidery bead feeding mechanism according to claim 10, wherein the moving process of the bead passing block (9) is controlled in linkage with the moving process of the baffle (8).