CN211446187U - Upright multilayer sequin stacking and embroidering device - Google Patents

Abstract

The utility model discloses an upright multilayer pearl piece is folded and is embroidered device, motor fixed plate upside is fixed with the horizontal adjustment piece, the upside of horizontal adjustment piece is provided with vertical regulating block, vertical regulating block upside is provided with actuating mechanism, a side of motor fixed plate is equipped with the section motor, section motor output shaft passes motor fixed plate and is connected with section trace pole, the section trace pole is connected with the one end of blank transfer line, section transfer block is fixed on motor fixed plate, the blank transfer line rotates to be connected on section transfer line, the axis of blank transfer line is located the central symmetry plane of section transfer block, the other end fixedly connected with cutter of blank transfer line, multilayer feeding mechanism sets up on motor fixed plate. Aim at solves among the prior art and folds section mechanism and the feeding mechanism of embroidering device and separately set up the problem that occupation space is big. The effect is as follows: the slicing and sewing machine body has the advantages of small occupied space and high processing efficiency when feeding materials in the multilayer bead laminated embroidery processing process.

Description

Upright multilayer sequin stacking and embroidering device

Technical Field

The embodiment of the utility model provides a relate to and fold and embroider technical field, concretely relates to just put formula multilayer pearl piece and fold and embroider device.

Background

Along with the high-speed and high-end changing requirements of the market, the colors, specifications and embroidery methods of the sequins are more and more abundant, the sequins on the market are not complete in equipment function and cannot meet the market requirements, a device capable of simultaneously embroidering embroidery with various colors, various specifications and various sequins overlapped together is lacked, and a device capable of realizing independent embroidery front, back, left and right is also lacked.

Multilayer sequin pile embroidery means that multilayer sequins are overlapped and embroidered on an embroidery, the multilayer sequin pile embroidery has a good three-dimensional effect, the embroidery is bright and colorful, in the prior art, a mode of manually embroidering the multilayer sequins on the embroidery is adopted, the production efficiency is low, two process steps of feeding and slicing are needed to be carried out simultaneously when the multilayer sequins are piled and embroidered in machine equipment, in the prior art, the feeding mechanism and the slicing mechanism are separately arranged, so that the whole mechanical structure of a machine body is complex, the production efficiency is low, and the problem that the occupied space is large when the slicing mechanism and the feeding mechanism of the pile embroidery device are separately arranged exists.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides a device is embroidered to positive formula multilayer pearl piece stack is provided to the slicing mechanism and the feeding mechanism who fold the device of embroidering separately set up the problem that occupation space is big among the solution prior art.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:

according to the utility model discloses an in the first aspect of the embodiment, a positive formula multilayer pearl piece folds embroidery device, include: the device comprises a driving mechanism, a vertical adjusting block, a horizontal adjusting block, a motor fixing plate, a slicing motor, a slicing linkage rod, a cutting transmission rod, a cutter, a slicing transmission block and a multi-layer feeding mechanism; the upside of motor fixed plate is fixed with the horizontal adjustment piece that is used for adjusting motor fixed plate horizontal transverse position and horizontal longitudinal position, the upside of horizontal adjustment piece is provided with the vertical regulating block that is used for adjusting motor fixed plate vertical direction upper and lower position, vertical regulating block upside is provided with actuating mechanism, a side of motor fixed plate is provided with the section motor, the output shaft of section motor passes the motor fixed plate and is connected with the one end of section trace, the other end and the one end of blank transfer line of section trace are connected, the one side that the motor fixed plate deviates from the section motor is fixed to the section transmission piece, the blank transfer line rotates and connects on the section transmission piece, the axis of blank transfer line is located the central symmetry plane of section transmission piece, the other end fixedly connected with cutter of blank transfer line, multilayer feeding mechanism sets up on the motor fixed.

Further, the drive mechanism includes: the air cylinder, the movable plate and the fixed plate; the flexible end of cylinder is fixed on the fixed plate, and the stiff end of cylinder is fixed on the fly leaf, and the fly leaf is fixed on vertical regulating block, and the fly leaf sliding connection is on the fixed plate.

Further, the driving mechanism also comprises a sliding table and a guide rail; the guide rail is fixed on the fixed plate, the extending direction of the guide rail is the same as the stretching direction of the air cylinder, the sliding table is fixed on the movable plate, and the sliding table is connected with the guide rail in a sliding mode.

Further, the driving mechanism also comprises a positioning block; the locating piece is fixed at the stiff end of cylinder, and the locating piece is fixed on the fly leaf.

Further, the driving mechanism also comprises a regulating valve; the air inlet and the air outlet of the air cylinder are respectively provided with an adjusting valve.

Furthermore, the device also comprises a fixing clamping column; the fixing clamp column is arranged on the side face of the fixing plate, the axis of the fixing clamp column is perpendicular to the axis of the air cylinder, and the axis of the fixing clamp column is located on the central symmetry plane of the fixing plate.

Furthermore, the device also comprises a fixed hook; the fixed hook is arranged on the movable plate and is positioned on the side surface of the movable plate, which is perpendicular to the surface of the fixed plate.

Further, the multi-layer feeding mechanism comprises: the device comprises a first feeding motor, a second feeding motor, a third feeding motor, a fourth feeding motor, a first shifting fork assembly, a second shifting fork assembly, a third shifting fork assembly and a fourth shifting fork assembly; the first feeding motor, the second feeding motor, the third feeding motor and the fourth feeding motor are all fixed on one side surface of the motor fixing plate; an output shaft of a first feeding motor penetrates through a motor fixing plate to be connected with a first shifting fork assembly, an output shaft of a second feeding motor penetrates through the motor fixing plate to be connected with a second shifting fork assembly, an output shaft of a third feeding motor penetrates through the motor fixing plate to be connected with a third shifting fork assembly, and an output shaft of a fourth feeding motor penetrates through the motor fixing plate to be connected with a fourth shifting fork assembly; and the tail ends of the first shifting fork assembly, the second shifting fork assembly, the third shifting fork assembly and the fourth shifting fork assembly are provided with cutters.

Further, the device also comprises a base; the base is fixed at the downside of motor fixed plate, and the base is located the downside of fourth shift fork assembly, and the section transmission piece is fixed on the base, and fourth shift fork assembly is located between motor fixed plate and the section transmission piece.

Furthermore, the horizontal adjusting block comprises a reversing connecting block, a transverse sliding block, a longitudinal sliding block, a transverse adjusting bolt and a longitudinal adjusting bolt; the reversing connecting block comprises a first wedge body and a second wedge body which are connected with each other, the first wedge body and the second wedge body are both blocks with trapezoidal sections, the small end face of the first wedge body is fixed on the small end face of the second wedge body, and the extension line of the first wedge body is perpendicular to the extension line of the second wedge body; the transverse sliding block is connected with the first wedge body in a sliding mode, the transverse sliding block and the first wedge body are connected together through a transverse adjusting bolt, and the axis of the transverse adjusting bolt is parallel to the extending line of the first wedge body; the longitudinal sliding block is connected with the second wedge body in a sliding mode, the longitudinal sliding block and the second wedge body are connected together through a longitudinal adjusting bolt, and the axis of the longitudinal adjusting bolt is parallel to the extending line of the second wedge body; the transverse sliding block is fixed on the vertical adjusting block, and the longitudinal sliding block is fixed on the motor fixing plate.

The utility model has the advantages of as follows: by arranging the slicing motor and the multilayer feeding mechanism on the motor fixing plate, the slicing and sewing machine body occupies small space and has high processing efficiency when feeding in the multilayer bead lamination embroidery processing process; the position of the overlapped embroidery device at the vertical position is adjusted by arranging the vertical adjusting block, the position of the overlapped embroidery device at the horizontal position is adjusted by arranging the horizontal adjusting block, and the convenience of adjusting the position in the overlapped embroidery process is improved; the slicing motor drives the cutter to slice through the movable slicing linkage rod and the material cutting transmission rod, so that the slicing is neat and the slicing efficiency is high.

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 should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a left oblique perspective three-dimensional structure view of an upright multilayer bead sheet embroidery device according to some embodiments of the present invention.

Fig. 2 is a right oblique perspective three-dimensional structure view of an upright multilayer bead embroidering apparatus according to some embodiments of the present invention.

Fig. 3 is a perspective view of an upright multilayer bead embroidering apparatus according to some embodiments of the present invention.

Fig. 4 is a front oblique perspective three-dimensional structure view of an upright multilayer bead embroidering apparatus according to some embodiments of the present invention.

Fig. 5 is a front view of an upright multilayer sequin stacking device according to some embodiments of the present invention.

Fig. 6 is a left side view of the upright multi-layered bead embroidering apparatus shown in fig. 5.

Fig. 7 is a right side view of the upright multi-layered bead embroidering apparatus shown in fig. 5.

Fig. 8 is a structural diagram of an adjusting block of an upright multilayer bead embroidering apparatus according to some embodiments of the present invention.

In the figure: 1. the automatic slicing machine comprises a motor fixing plate, 2, a slicing motor, 3, a first feeding motor, 4, a second feeding motor, 5, a third feeding motor, 6, a fourth feeding motor, 7, a first shifting fork assembly, 8, a second shifting fork assembly, 9, a third shifting fork assembly, 10, a fourth shifting fork assembly, 11, a slicing linkage rod, 12, a cutting transmission rod, 13, a cutter, 14, a base, 15, a horizontal adjusting block, 16, a movable plate, 17, a fixing plate, 18, a sliding table, 19, a guide rail, 20, a positioning block, 21, a cylinder, 22, an adjusting valve, 23, a fixing hook, 24, a fixing clamping column, 25, a reversing connecting block, 26, a transverse sliding block, 27, a longitudinal sliding block, 28, a transverse adjusting bolt, 29, a longitudinal adjusting bolt, 30, a vertical adjusting block, 31 and a slicing transmission block.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

As shown in fig. 1 to 6, the upright multi-layered sequin stacking device in this embodiment includes: the device comprises a driving mechanism, a horizontal adjusting block 15, a vertical adjusting block 30, a motor fixing plate 1, a slicing motor 2, a slicing linkage rod 11, a cutting transmission rod 12, a cutter 13, a slicing transmission block 31 and a multi-layer feeding mechanism; wherein, the driving mechanism is used for pushing the slicing mechanism and the feeding mechanism arranged on the motor fixing plate 1 to reciprocate up and down in the vertical direction, for example, the driving mechanism can be realized by any one of a cylinder 21, a hydraulic cylinder, an electric push rod or a rack and pinion mechanism, the horizontal adjusting block 15 is used for adjusting the horizontal position of the motor fixing plate 1 on the horizontal plane and the longitudinal position of the motor fixing plate 1 on the horizontal plane, the horizontal position refers to the left and right direction, the longitudinal position refers to the front and back direction, the upper side of the motor fixing plate 1 is fixed with the horizontal adjusting block 15 for adjusting the horizontal position and the horizontal longitudinal position of the motor fixing plate 1, the upper side of the horizontal adjusting block 15 is provided with the vertical adjusting block 30 for adjusting the vertical position of the motor fixing plate 1 in the vertical direction, the upper side of the vertical adjusting block 30 is provided with the driving mechanism, one, the output shaft of section motor 2 passes motor fixed plate 1 and is connected with the one end of section trace 11, the other end of section trace 11 is connected with the one end of blank transfer line 12, one side that motor fixed plate 1 deviates from section motor 2 is fixed to section transmission block 31, blank transfer line 12 rotates and connects on section transmission block 31, the axis of blank transfer line 12 is located the central symmetry plane of section transmission block 31, the other end fixedly connected with cutter 13 of blank transfer line 12, wherein, section trace 11 comprises a plurality of link mechanism, blank transfer line 12 is the round bar, multilayer feeding mechanism sets up on motor fixed plate 1, multilayer feeding mechanism's actuating mechanism sets up between cutter 13 and section trace 11.

The technical effect that this embodiment reaches does: according to the embodiment, the slicing motor 2 and the multilayer feeding mechanism are arranged on the motor fixing plate 1, so that the slicing and sewing machine body occupies small space and has high processing efficiency while feeding in the multilayer bead laminated embroidery processing process; the horizontal adjusting block 15 is arranged to realize the position adjustment of the overlapped embroidery device on the horizontal position, the vertical adjusting block 30 is arranged to realize the position adjustment of the overlapped embroidery device on the vertical position, and the convenience of position adjustment in the overlapped embroidery process is improved; the slicing motor 2 drives the cutter 13 to slice through the movable slicing linkage rod 11 and the cutting transmission rod 12, so that the slices are neat and the slicing efficiency is high; when the colors are few, the embroidery can be performed only by using a single-side device, the labor force is greatly reduced, the working efficiency is effectively improved, moreover, when the multicolor paillettes are simultaneously embroidered, the device is in a fixed stable state, other devices in the prior art can work only by rotating, compared with the prior art, the stability of the machine is greatly improved, when the multicolor paillettes are embroidered, no empty needle is required to be added, when different colors are changed in the prior art, an empty needle is required to be added, compared with the prior art, the working efficiency is greatly improved, the real high-speed high-efficiency era is realized, the device of the embodiment not only can be embroidered in paillette sizes with different specifications, but also can be used for simultaneously embroidering paillettes with different sizes, and the embroidery is more three-dimensional and more rich in change.

Example 2

As shown in fig. 1 to 6, the upright multi-layered sequin stacking device in this embodiment includes all the technical features of embodiment 1, and in addition, the driving mechanism includes: the cylinder 21, the movable plate 16 and the fixed plate 17; the telescopic end of the cylinder 21 is fixed on the fixed plate 17, the fixed end of the cylinder 21 is fixed on the movable plate 16, the movable plate 16 is fixed on the vertical adjusting block 30, and the movable plate 16 is connected on the fixed plate 17 in a sliding manner; the driving mechanism further comprises a sliding table 18 and a guide rail 19; the guide rail 19 is fixed on the fixed plate 17, the extending direction of the guide rail 19 is the same as the telescopic direction of the cylinder 21, the sliding table 18 is fixed on the movable plate 16, and the sliding table 18 is connected with the guide rail 19 in a sliding manner; the driving mechanism further comprises a positioning block 20; the positioning block 20 is fixed at the fixed end of the cylinder 21, and the positioning block 20 is fixed on the movable plate 16; the drive mechanism further includes a regulator valve 22; the air inlet and the air outlet of the cylinder 21 are provided with regulating valves 22, respectively.

The beneficial effects in this embodiment are: the cylinder 21 is used for driving, the quick response of position adjustment is realized, the power source is simple, the matching structure of the sliding table 18 and the guide rail 19 is arranged, the accurate control in the action process of the executing mechanism is realized, the position deviation phenomenon of the feeding slicing mechanism during working is avoided, the controllability of the action speed of the cylinder 21 is realized by arranging the regulating valve 22, and the processing speed of different occasions can be adapted.

Example 3

As shown in fig. 1 to 6, the upright multi-layered sequin stacking device in this embodiment includes all the technical features of embodiment 2, and in addition, further includes a fixing clip column 24; the fixing clamp column 24 is arranged on the side surface of the fixing plate 17, the axis of the fixing clamp column 24 is perpendicular to the axis of the air cylinder 21, and the axis of the fixing clamp column 24 is located on the central symmetry plane of the fixing plate 17, for example, the fixing clamp column 24 in the embodiment comprises a cylindrical section and a clamping section, the clamping section is of a hemispherical structure, one end of the cylindrical section is connected to the fixing plate 17, and the other end of the cylindrical section is connected with the clamping section; also comprises a fixed hook 23; the fixed hook 23 is disposed on the movable plate 16, the fixed hook 23 is disposed on a side surface of the movable plate 16 perpendicular to the surface where the fixed plate 17 is located, preferably, the fixed hook 23 is fixed on the movable plate 16 through a bolt connection, and a clamping groove for fixing is formed in the fixed hook 23.

The beneficial effects in this embodiment are: through setting up fixed card post 24, improved the connection stability of fixed plate 17, through setting up fixed couple 23, improved the stability that fly leaf 16 connects.

Example 4

As shown in fig. 1 to 6, the upright multi-layered sequin stacking device in this embodiment includes all the technical features of embodiment 3, in addition, the multi-layered feeding mechanism includes: the device comprises a first feeding motor 3, a second feeding motor 4, a third feeding motor 5, a fourth feeding motor 6, a first shifting fork assembly 7, a second shifting fork assembly 8, a third shifting fork assembly 9 and a fourth shifting fork assembly 10; the first feeding motor 3, the second feeding motor 4, the third feeding motor 5 and the fourth feeding motor 6 are all fixed on one side surface of the motor fixing plate 1; an output shaft of a first feeding motor 3 penetrates through a motor fixing plate 1 to be connected with a first shifting fork assembly 7, an output shaft of a second feeding motor 4 penetrates through the motor fixing plate 1 to be connected with a second shifting fork assembly 8, an output shaft of a third feeding motor 5 penetrates through the motor fixing plate 1 to be connected with a third shifting fork assembly 9, and an output shaft of a fourth feeding motor 6 penetrates through the motor fixing plate 1 to be connected with a fourth shifting fork assembly 10; the tail ends of the first shifting fork assembly 7, the second shifting fork assembly 8, the third shifting fork assembly 9 and the fourth shifting fork assembly 10 are provided with cutters 13; further comprises a base 14; the base 14 is fixed on the lower side of the motor fixing plate 1, the base 14 is positioned on the lower side of the fourth shifting fork assembly 10, the slicing transmission block 31 is fixed on the base 14, the fourth shifting fork assembly 10 is positioned between the motor fixing plate 1 and the slicing transmission block 31, and preferably, the first feeding motor 3, the second feeding motor 4, the third feeding motor 5 and the fourth feeding motor 6 are all direct current motors; the first shifting fork assembly 7, the second shifting fork assembly 8, the third shifting fork assembly 9 and the fourth shifting fork assembly 10 are identical in structure, all carry out the transport of every layer of sequin material through the drive of motor, and first shifting fork mechanism, second shifting fork mechanism, third shifting fork mechanism and fourth shifting fork mechanism top-down superpose in proper order and set up, and the end of four shifting fork mechanisms is located same vertical plane, and the sequin material that four shifting fork mechanisms carried simultaneously is cut in the section.

The beneficial effects in this embodiment are: through four shift fork mechanisms that the stack set up, realized the quick transport of sequin material, through setting up base 14, improved the stability of material transport and slicer mechanism work, improved sliced regularity, through rotating the blank transfer line 12 and connecting in the section transmission piece 31 in the motor fixed plate 1 outside, reduced the space occupation of blank transfer line 12 on motor fixed plate 1, strengthened motor fixed plate 1's mechanical strength.

Example 5

As shown in fig. 1 to 7, the upright multi-layered sequin stacking device in this embodiment includes all the technical features of embodiment 4, in addition, the horizontal adjusting block 15 includes a reversing connecting block 25, a transverse sliding block 26, a longitudinal sliding block 27, a transverse adjusting bolt 28 and a longitudinal adjusting bolt 29; the reversing connecting block 25 comprises a first wedge body and a second wedge body which are connected with each other, the first wedge body and the second wedge body are both blocks with trapezoidal sections, the small end face of the first wedge body is fixed on the small end face of the second wedge body, and the extension line of the first wedge body is perpendicular to the extension line of the second wedge body; the transverse sliding block 26 is connected with the first wedge body in a sliding mode, the transverse sliding block 26 is connected with the first wedge body through a transverse adjusting bolt 28, and the axis of the transverse adjusting bolt 28 is parallel to the extending line of the first wedge body; the longitudinal sliding block 27 is connected with the second wedge body in a sliding mode, a longitudinal adjusting bolt 29 connects the longitudinal sliding block 27 with the second wedge body, and the axis of the longitudinal adjusting bolt 29 is parallel to the extending line of the second wedge body; the transverse sliding block 26 is fixed on the vertical adjusting block 30, the longitudinal sliding block 27 is fixed on the motor fixing plate 1, the transverse sliding block 26 and the longitudinal sliding block 27 in the embodiment can be integrated, a sliding groove matched with the first wedge-shaped body is formed in the transverse sliding block 26, and a sliding groove matched with the second wedge-shaped body is formed in the longitudinal sliding block 27; in addition, the transverse sliding block 26 and the longitudinal sliding block 27 can be of a split structure as shown in fig. 7, for example, the transverse sliding block 26 is two blocks to clamp a first wedge-shaped body, the two blocks are connected together through a connecting plate, a transverse adjusting bolt 28 is screwed on the connecting plate, and the transverse adjusting bolt 28 penetrates into the first wedge-shaped body to adjust the transverse position; similarly, the longitudinal slide 27 clamps the second wedge for two blocks, which are connected together by a connecting plate, on which a longitudinal adjusting bolt 29 is screwed, the longitudinal adjusting bolt 29 penetrating into the second wedge to adjust the longitudinal position.

The beneficial effects in this embodiment are: through the specific structure of the horizontal adjusting block 15 in the embodiment, the precise adjustment of the horizontal transverse position and the horizontal longitudinal position of the motor fixing plate 1 is realized.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

In the present specification, the terms "upper", "lower", "left", "right", "middle", and the like are used for the sake of clarity only, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof are also considered to be the scope of the present invention without substantial changes in the technical content.

Claims (10)

1. A positive multi-layer sequin laminated embroidery device is characterized by comprising: the device comprises a driving mechanism, a vertical adjusting block (30), a horizontal adjusting block (15), a motor fixing plate (1), a slicing motor (2), a slicing linkage rod (11), a cutting transmission rod (12), a cutter (13), a slicing transmission block (31) and a multi-layer feeding mechanism; the upper side of the motor fixing plate (1) is fixed with a horizontal adjusting block (15) for adjusting the horizontal transverse position and the horizontal longitudinal position of the motor fixing plate (1), the upper side of the horizontal adjusting block (15) is provided with a vertical adjusting block (30) for adjusting the vertical position of the motor fixing plate (1) in the vertical direction, the upper side of the vertical adjusting block (30) is provided with the driving mechanism, one side surface of the motor fixing plate (1) is provided with the slicing motor (2), an output shaft of the slicing motor (2) penetrates through the motor fixing plate (1) to be connected with one end of the slicing linkage rod (11), the other end of the slicing linkage rod (11) is connected with one end of the cutting transmission rod (12), and the slicing transmission block (31) is fixed on one side of the motor fixing plate (1) departing from the slicing motor (2), the cutting transmission rod (12) is rotatably connected to the slicing transmission block (31), the axis of the cutting transmission rod (12) is located on the central symmetry plane of the slicing transmission block (31), the other end of the cutting transmission rod (12) is fixedly connected with the cutter (13), and the multilayer feeding mechanism is arranged on the motor fixing plate (1).

2. The upright multi-layered bead embroidering apparatus as claimed in claim 1, wherein the driving mechanism comprises: a cylinder (21), a movable plate (16) and a fixed plate (17); the flexible end of cylinder (21) is fixed on fixed plate (17), the stiff end of cylinder (21) is fixed on fly leaf (16), fly leaf (16) are fixed on vertical regulating block (30), fly leaf (16) sliding connection be in on fixed plate (17).

3. The upright multi-layered sequin stacking apparatus according to claim 2, wherein the driving mechanism further comprises a slide table (18) and a guide rail (19); the guide rail (19) is fixed on the fixed plate (17), the extending direction of the guide rail (19) is the same as the telescopic direction of the cylinder (21), the sliding table (18) is fixed on the movable plate (16), and the sliding table (18) is connected with the guide rail (19) in a sliding mode.

4. The upright multi-layered sequin stacking apparatus according to claim 3, wherein the driving mechanism further comprises a positioning block (20); the locating piece (20) is fixed at the fixed end of the cylinder (21), and the locating piece (20) is fixed on the movable plate (16).

5. The upright multi-layered sequin stacking apparatus according to claim 4, wherein the driving mechanism further comprises a regulating valve (22); the air inlet and the air outlet of the air cylinder (21) are respectively provided with the regulating valve (22).

6. The upright multi-layered sequin stacking apparatus as recited in claim 2, further comprising a fixing clip column (24); the fixing clamp column (24) is arranged on the side face of the fixing plate (17), the axis of the fixing clamp column (24) is perpendicular to the axis of the air cylinder (21), and the axis of the fixing clamp column (24) is located on the central symmetry plane of the fixing plate (17).

7. The upright multi-layered sequin stacking apparatus as claimed in claim 2, further comprising a fixing hook (23); the fixed hook (23) is arranged on the movable plate (16), and the fixed hook (23) is positioned on the side surface, perpendicular to the surface of the fixed plate (17), of the movable plate (16).

8. The upright multi-layered bead embroidering apparatus as claimed in claim 1, wherein the multi-layered feeding mechanism comprises: the device comprises a first feeding motor (3), a second feeding motor (4), a third feeding motor (5), a fourth feeding motor (6), a first shifting fork assembly (7), a second shifting fork assembly (8), a third shifting fork assembly (9) and a fourth shifting fork assembly (10); the first feeding motor (3), the second feeding motor (4), the third feeding motor (5) and the fourth feeding motor (6) are all fixed on one side surface of the motor fixing plate (1); an output shaft of the first feeding motor (3) penetrates through the motor fixing plate (1) to be connected with the first shifting fork assembly (7), an output shaft of the second feeding motor (4) penetrates through the motor fixing plate (1) to be connected with the second shifting fork assembly (8), an output shaft of the third feeding motor (5) penetrates through the motor fixing plate (1) to be connected with the third shifting fork assembly (9), and an output shaft of the fourth feeding motor (6) penetrates through the motor fixing plate (1) to be connected with the fourth shifting fork assembly (10); the tail ends of the first shifting fork assembly (7), the second shifting fork assembly (8), the third shifting fork assembly (9) and the fourth shifting fork assembly (10) are provided with the cutter (13).

9. The upright multi-layered sequin stacking apparatus according to claim 8, further comprising a base (14); base (14) are fixed the downside of motor fixed plate (1), base (14) are located on the downside of fourth shift fork assembly (10), section transmission piece (31) are fixed on base (14), fourth shift fork assembly (10) are located motor fixed plate (1) with between section transmission piece (31).

10. The upright multi-layer sequin overlaying device according to claim 2, wherein the horizontal adjusting block (15) comprises a reversing connecting block (25), a transverse sliding block (26), a longitudinal sliding block (27), a transverse adjusting bolt (28) and a longitudinal adjusting bolt (29); the reversing connecting block (25) comprises a first wedge-shaped body and a second wedge-shaped body which are connected with each other, the first wedge-shaped body and the second wedge-shaped body are both blocks with trapezoidal sections, the small end face of the first wedge-shaped body is fixed on the small end face of the second wedge-shaped body, and the extension line of the first wedge-shaped body is perpendicular to the extension line of the second wedge-shaped body; the transverse sliding block (26) is connected with the first wedge body in a sliding mode, the transverse adjusting bolt (28) connects the transverse sliding block (26) with the first wedge body, and the axis of the transverse adjusting bolt (28) is parallel to the extending line of the first wedge body; the longitudinal sliding block (27) is connected with the second wedge body in a sliding mode, the longitudinal sliding block (27) and the second wedge body are connected together through a longitudinal adjusting bolt (29), and the axis of the longitudinal adjusting bolt (29) and the extension line of the second wedge body are parallel to each other; the transverse sliding block (26) is fixed on the vertical adjusting block (30), and the longitudinal sliding block (27) is fixed on the motor fixing plate (1).

Images