CN217026351U - Multifunctional device capable of conveying beads and gold sheets - Google Patents

Abstract

The utility model discloses a multifunctional device capable of conveying beads and gold sheets, which comprises an upper section, a lower section and a ball conveying section, wherein the upper section and the lower section are matched with each other; the bead feeding structure of the lower section and at least one layer of the bead feeding groove structure are arranged on a bottom plate in a layered mode in any order, gold sheets and beads are conveyed to the same or corresponding embroidery needle station positions in the same direction or at different time, the bead feeding driving structure and the bead feeding driving structure corresponding to the layered arrangement sequence of the bead feeding structure and the bead feeding groove structure are sequentially arranged in front of and behind the bead feeding driving structure and are used for driving and conveying the corresponding gold sheets or bead feeding structures, and the gold sheets are driven and conveyed and are driven to convey the beads. The upper section is used for supplying beads or/and tablets, and the lower section is used for feeding beads and tablets. The device structure is greatly simplified on the whole, the machine head space is saved, and a mechanism can convey sequins and embroidery beads to corresponding embroidery needle stations. The sequin and the embroidery bead can be simultaneously conveyed to the position below the same embroidery needle according to the requirements of the bead and embroidery process, and the simultaneous embroidery and bead embroidering of one needle can be realized.

Description

Multifunctional device capable of conveying beads and gold sheets

Technical Field

The utility model relates to a multifunctional device capable of conveying beads and gold sheets.

Background

The existing mechanisms or devices for conveying bead embroidered beads and sequin embroidered pieces are respectively and independently arranged and are independently arranged on a machine head of an embroidery machine. When embroidering, the sequin is conveyed to the embroidery needle under the corresponding needle rod through the sequin conveying mechanism; when embroidering beads, the beads are fed to the corresponding embroidery needle through the bead feeding plate of the bead feeding structure of the bead feeding mechanism and the matched bead feeding clamp. The ball feeding mechanism and the piece feeding mechanism are large in size and are usually respectively arranged at different positions on the machine head, and the ball feeding mechanism and the piece feeding mechanism can only be matched with a specific needle rod respectively. When the bead and the embroidered piece need to be embroidered simultaneously, the bead and the embroidered piece are limited in the space of the machine head, and the simultaneous embroidering or bead embroidering by one needle is difficult or impossible.

Disclosure of Invention

The utility model aims to solve the problem that the existing pearl and stitch feeding mechanism can not simultaneously stitch embroidery and stitch pearls in use, and provides a brand new multifunctional device which has simple structure and can realize the feeding of the beads and the gold sheets by stitching the embroidery and the embroidering pearls.

The technical scheme for solving the existing problems is as follows: a multifunctional device capable of conveying beads and gold sheets comprises an upper section, a lower section and a ball conveying section, wherein the upper section and the lower section are matched with each other; the upper section comprises a bead threading mechanism for threading beads or/and a sheet tray rack for mounting a sheet tray; the lower section comprises a bottom plate, at least one layer of sheet feeding groove structure capable of conveying gold sheets, a sheet feeding driving structure of each layer of sheet feeding groove structure, a bead feeding structure for taking beads from a bead taking position and sliding and feeding the beads to an embroidery bead station, a bead feeding driving structure, a bead guide rod for supplying the beads suspended at the bead taking position of the bead feeding structure, and a cutter arranged at an output port of the sheet feeding groove structure, wherein the cutter is provided with a cutter driving assembly, the sheet feeding groove structure and the bead feeding structure are arranged on the bottom plate in a layered mode, the bead feeding structure and the at least one layer of sheet feeding groove structure are arranged in a layered mode in any sequence, and the sheet feeding driving structure and the bead feeding driving structure corresponding to the sheet feeding groove structure and the bead feeding structure which are arranged in a layered mode are arranged above the bottom plate in a front-back mode in sequence; the upper end of the bead guide rod is matched with the bead threading mechanism.

As a further improvement, the device also comprises an installation plate connected with an external frame body, wherein the bead threading mechanism or/and the disc frame are/is connected on the installation plate, and the installation plate is connected with a lower section; the lower section is provided with a support body for installing and positioning a sheet feeding driving structure, a bead feeding driving structure or/and a cutter driving component, and the cutter is arranged on the support body or/and the bottom plate.

As a further improvement, a lifting mechanism for controlling the device to enter or leave the working position is arranged on the mounting plate; the supporting body is a supporting plate; the supporting plate is connected to the bottom plate.

As a further improvement, an adjusting mechanism which can be longitudinally or/and transversely adjusted is arranged between the upper section and the lower section; the piece feeding groove structure is provided with a layer, and the bead feeding structure is arranged above or below the piece feeding groove structure.

As a further improvement, the bead feeding structure is arranged above the sheet feeding groove structure.

As a further improvement, each layer of the sheet feeding groove structure comprises a sheet feeding plate, a sheet groove is arranged at the bottom of the sheet feeding plate, the sheet groove and the corresponding lower layer structure form a sheet feeding groove for conveying gold sheets, and a shifting sheet and a sheet pressing groove matched with the sheet feeding driving structure are arranged at the upper part of the rear part of the sheet feeding plate and positioned at the corresponding part of the sheet groove.

As a further improvement, the film feeding driving structure comprises a film shifting rod matched with the film feeding groove structure to drive the film, a film shifting motor and a first transmission structure for driving the film shifting rod to transmit power of the film shifting motor, and the cutter driving assembly comprises a second transmission structure for driving the cutter to slice and a third transmission structure for transmitting power of the film shifting motor to the second transmission structure.

As a further improvement, the bead feeding driving structure comprises a bead feeding driving motor and a transmission assembly for transmitting the power of the bead feeding driving motor to the bead feeding structure; the bead feeding structure is provided with a guide pore canal which is arranged at the bead taking position and sleeved outside the bead guide rod and used for guiding the beads.

As a further improvement, a guide structure for guiding the sliding of the bead feeding structure is arranged between the bottom plate and the bead feeding structure.

As a further improvement, the cutter is also provided with a cutter frame for installing the cutter, the cutter frame is fixed on the bottom plate or/and a support body arranged on the bottom plate, and the rotatable shaft of the cutter is connected to the cutter frame; and a connecting block for installing an elastic pressing sheet plate is arranged between the bottom plate and the supporting body.

Compared with the prior art, the multifunctional device capable of conveying beads and gold sheets has the advantages that the bead threading mechanism for threading beads or/and the upper section of the sheet tray frame for mounting the sheet tray are arranged, the bead conveying structures of the lower section and at least one layer of sheet conveying groove structure are arranged on the bottom plate in a layered mode in any order, gold sheets and beads are conveyed to the same or corresponding embroidery needle stations in the same direction or in a time-sharing mode, the corresponding bead conveying driving structures and the corresponding gold sheet conveying driving structures are arranged in front of and behind the bead conveying driving structures in a layered arrangement mode and are driven to convey the corresponding gold sheets or the corresponding bead conveying structures, the driven gold sheets are conveyed through the sheet conveying driving structures, and the bead conveying driving structures are driven to convey the beads through the bead conveying driving structures. The beneficial effect is that the upper section is used for supplying the beads or/and the tablets, and the lower section is used for feeding the beads and the tablets. The structure of the whole device is greatly simplified on the whole, the space of the machine head is saved, and the device can simultaneously or time-divisionally convey sequins and embroidery beads to corresponding embroidery needle stations. The sequin and the embroidery bead can be simultaneously conveyed to the lower part of the same embroidery needle according to the requirements of the embroidery bead and the embroidery sheet process, and the simultaneous embroidery and bead embroidering of one needle can be realized. The sequin or bead can be delivered separately according to the embroidery bead or embroidery sheet process.

Drawings

FIG. 1 is a schematic view of the handpiece-mounted configuration of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is an enlarged schematic view at a of fig. 2.

Fig. 4 is a schematic view of another aspect of the present invention.

Fig. 5 is an enlarged schematic view of fig. 4 at b.

Fig. 6 is a partially exploded schematic view of the present invention.

Fig. 7 is an enlarged schematic view at c of fig. 6.

Fig. 8 is an enlarged schematic view at e of fig. 6.

Fig. 9 is a partially exploded view from another perspective of the present invention.

Fig. 10 is an enlarged schematic view at d of fig. 9.

Detailed Description

Referring to fig. 1-10, the present embodiment is a multifunctional device for delivering beads and gold flakes, which includes an upper section 200 and a lower section 100 for delivering flakes and beads.

The upper section 200 includes a beading mechanism 201 for beading or/and a disk rack (not shown) for mounting a disk for feeding gold. The bead threading mechanism 201 and the wafer holder may be of a prior art construction.

The bead threading mechanism 201 is coupled to the upper end of the bead guide rod 118 for threading beads. The bead threading mechanism 201 in this embodiment includes a cartridge 202 for threading beads, a positioning structure of the bead guide rod 108, and a first drive motor 204. The positioning structure comprises a driving shaft and at least two groups of alternately opened clips 203 which are used for clamping and positioning the ball guide rod 108 and the material cylinder 202, and cams for controlling the alternately opened clips are arranged at the corresponding positions of the driving shaft and the clips. The lower end of the driving shaft is connected with a motor shaft of the first driving motor 204. At any time when the drive shaft drives the sets of clamps to open alternately, at least one set of clamps 203 clamps the ball guide rod 108 to prevent the ball guide rod 108 from falling off. The ball feeding device is characterized in that a rotatable paddle is arranged in the charging barrel 202, the upper end of the driving shaft is arranged in the charging barrel 202 and connected with the driving paddle to rotate, a ball guide hole matched with the upper end of the ball guide rod 108 is formed in the charging barrel 202, the upper end of the ball guide rod 108 is arranged in the ball guide hole, the first driving motor 204 drives the paddle to rotate to drive beads in the charging barrel 202 to be randomly arranged in the ball guide hole, the beads are arranged on the ball guide rod 108 in a penetrating mode, slide downwards along the ball guide rod 108 under the action of gravity, and fall down layer by layer along with the alternately opened groups of clamps to supply the beads. The bead guide rod 108 can be provided with a driving clamping wheel for driving the pressing beads to slide towards the output end. The barrel 202 may further be provided with a bead addition hopper 208.

Of course, the bead threading mechanism 201 may also adopt other prior art structures, such as that the beads in the material cylinder are driven by the rotating material cylinder to rotate and collide with the upper end of the bead guiding rod 108 placed in the material cylinder to thread the beads on the bead guiding rod 108, and then the beads on the bead guiding rod 108 are conveyed backwards by the driving wheel. The middle section of the bead guiding rod 108 of the structure can spirally wind around one or more driving wheels or wind among a plurality of driving wheels, and the driving wheels can rotate to drive the beads on the bead guiding rod 108 and play a role in positioning the bead guiding rod 108.

The lower section 100 comprises a bottom plate 101, at least one layer of sheet feeding groove structure 102 capable of conveying gold sheets, a sheet feeding driving structure 103 of each layer of sheet feeding groove structure 102, a bead feeding structure 110 for taking beads from a bead taking position and feeding the beads to an embroidery bead station in a sliding manner, a bead feeding driving structure 111 for driving the bead feeding structure 110 to carry the beads in a reciprocating sliding manner, a bead guiding rod 118 suspended at the bead taking position of the bead feeding structure 110 and used for supplying the beads, and a cutter 130 arranged at an output port of the sheet feeding groove structure 102, the cutter 130 is provided with a cutter driving component 131, the sheet feeding groove structure 102 and the bead feeding structure 110 are arranged on the bottom plate 101 in a layered manner, the bead feeding structure 110 and the at least one layer of the sheet feeding groove structure 102 are arranged in a layer manner in any order, a sheet feeding driving structure 103 and a bead feeding driving structure 111 corresponding to the sheet feeding groove structure 102 and the bead feeding structure 110 arranged in a layer are arranged above the base plate 101 in a front-back arrangement in this order. I.e. the drive structure of the respective layer cooperates with the corresponding structure of the respective layer. The bottom plate 101 may be provided with or form a recess 108 for receiving the positioning chip-feeding groove structure 102 and the bead-feeding structure 110. The shape and size of the recess 108 may be determined by the size and shape of the bead-feeding structure and the wafer-feeding groove structure 102. The film feeding driving structure 103 is disposed at an appropriate position behind the film feeding groove structure 102, and the bead feeding driving structure 111 is disposed at an appropriate position behind the bead feeding structure 110. The above-mentioned proper place is to meet the requirements of feeding film or feeding bead, and does not affect the operation of other structure.

The sheet feeding groove structure 102 may include a sheet feeding groove 102 configured to guide the sliding movement of the gold sheet, and the sheet feeding groove may be of a conventional structure. If the sheet feeding groove structure 102 is disposed at the lowermost layer, the sheet feeding groove 104 of the lowermost sheet feeding groove structure 102 may be opened on the bottom plate 101. In this embodiment, each layer of the sheet feeding groove structure 102 may include a sheet feeding plate 105 having a sheet feeding groove 104, and in order to save space, the bottom of the sheet feeding plate 105 may be provided with a sheet groove by using the bottom plate 101, and the sheet groove and the corresponding lower layer structure form the sheet feeding groove 104 for conveying the gold sheet. If the lowest layer is the sheet feeding groove structure 102, the bottom plate 101 is the bottom of the lowest sheet feeding groove, and the upper plate surface of the sheet feeding plate 105 is configured to support the bead feeding clamp structure 110. The upper part of the rear part of the sheet feeding plate 105, which is positioned at the corresponding position of the sheet groove, is provided with a shifting sheet and a sheet pressing groove 1060 which are matched with the shifting sheet rod 106 and the elastic sheet pressing plate 109 of the sheet feeding driving structure 103.

More than two layers of the sheet feeding groove structures 102 can be arranged, and the bead feeding structures 110 can be arranged on the upper layer or the lower layer of the more than two layers of the sheet feeding groove structures 102 in a layered mode or can be arranged between any two layers of the sheet feeding groove structures 102 in a layered mode. To facilitate connection to the corresponding drive structure, the length of the corresponding structure located at the lower layer generally protrudes from the corresponding structure at the upper layer. For example, the length of the rear side of the lower sheet feeding plate 105 protrudes the length of the bead feeding plate 115 of the upper sheet feeding plate or bead feeding structure 110.

To facilitate installation, the present embodiment further includes a mounting plate 205 that connects to an outer frame, which is typically a needle bar frame, a head, or an embroidery frame. Of course, independent support frame bodies can be arranged according to the needs. The bead threading mechanism 201 or/and the disc rack are/is connected to the mounting plate 205, and the mounting plate 205 is connected with the lower section; the mounting plate 205 is provided with a lifting mechanism 206 for controlling the device to enter or leave a working position; an adjusting mechanism 207 which can be longitudinally or/and transversely adjusted is arranged between the upper section and the lower section. The lifting mechanism 206 may take on a prior art configuration. The lifting mechanism 206 may employ an air cylinder, a hydraulic cylinder, or a lead screw slider assembly with a motor.

The lower section is provided with a supporting body 120 provided with a positioning sheet feeding driving structure 103, a bead feeding driving structure 111 or/and a cutter driving assembly 131, the cutter 130 is arranged on the supporting body 120 or/and the bottom plate 101, and the supporting body 120 can be connected above the bottom plate 101 or can be suspended above the bottom plate 101 through other frame bodies or supporting parts. The supporting body 120 may preferably be a supporting plate, and an existing motor mounting plate may be used; the support plate is connected to the base plate 101.

The sheet feeding groove structure 102 is provided with a layer, and the bead feeding structure 110 is arranged above or below the sheet feeding groove structure 102, so that most of the use requirements can be met. In this embodiment, the bead feeding structure 110 is disposed above the sheet feeding groove structure 102, and a corresponding bead feeding driving structure 111 and a corresponding sheet feeding driving structure 103 are disposed in a front-to-back arrangement. The rear length of the sheet feeding plate 105 provided in the sheet feeding groove structure 102 positioned at the lower layer is protruded beyond the length of the bead feeding plate 115 provided in the bead feeding structure 110 positioned at the upper layer. The bead feeding driving structure 111 is arranged near the front to avoid the bead feeding driving structure 103 to drive the bead feeding structure 110 to feed beads, and the bead feeding driving structure 103 is arranged near the rear to avoid the bead feeding driving structure 111 and the bead feeding structure 110 to drive the gold sheet to feed. The bead feeding structure, the sheet feeding structure and the corresponding driving structure do not influence each other.

The sheet conveying driving structure 103 comprises a sheet shifting rod 106 matched with the sheet conveying groove structure 102 for shifting sheets, a sheet shifting motor 107 and a first transmission structure for driving the sheet shifting rod 106 to transmit power of the sheet shifting motor 107, and the first transmission structure can adopt the existing technical structure capable of transmitting the power of the sheet shifting motor 107 to the sheet shifting rod 106.

The first transmission structure in this embodiment includes a first and a second rotating shafts 140, 141 rotatably positioned and mounted on the supporting body 120, and the first rotating shaft is connected with the pick motor 107 through a belt and a pulley assembly, preferably a timing belt assembly 143. The corresponding end of the pulling rod 106 is connected to the corresponding end of the second rotating shaft 141. A driving swing arm 144 and a driving arm 145 which are matched with each other are respectively connected between the first rotating shaft 140 and the second rotating shaft 141. The plectrum motor 107 rotates, drives the rotation of first pivot 140 through synchronous belt subassembly 143 to drive the swing arm 144 swing of drive, the swing arm 144 of drive and the cooperation of driving arm 145 drive driving arm 145 and rotate around second pivot 141, rotatory second pivot 141 drives and installs the plectrum pole 142 that rotates in the epaxial plectrum pole 106 swing plectrum of installing. The plectrum lever 106 may be provided with a return elastomer. A bidirectional control structure can also be arranged between the driving swing arm 144 and the driving arm 145, for example, a matched U-shaped sliding-inserting sliding shaft structure is arranged between the driving swing arm 144 and the driving arm 145, and the resetting of the plectrum rod 106 can be reversely controlled through the reverse rotation of the plectrum motor 107.

The cutter driving assembly 131 includes a second transmission structure for driving the cutter 130 to cut the slices and a third transmission structure for transmitting the power of the blade driving motor 107 to the second transmission structure.

The bead feeding driving structure 111 comprises a bead feeding driving motor 112 and a transmission component 113 for transmitting the power of the bead feeding driving motor 112 to the bead feeding structure 110; the bead feeding structure 110 is provided with a guiding channel 114 for guiding the beads, which is sleeved outside the bead guiding rod 118, at the bead taking position, and the guiding channel 114 can be connected to the bottom plate 101 through a connecting pipe or a fixing block provided with the guiding channel 114.

The bead feeding mechanism 110 and the bead feeding driving mechanism 111 can be of the prior art. For example, the bead feeding mechanism 110 includes a slidable bead feeding plate 115, and a bead clamp 116 that is clamped and advanced or advanced with the advance of the bead feeding plate 115 and opened and retracted or advanced with the retreat of the bead feeding plate 115 is provided at the front end of the bead feeding plate 115. The transmission assembly 113 comprises a swing rod 117 mounted on a motor shaft of the bead feeding driving motor 112, and a U-shaped sliding insert and a swing shaft which are matched with each other are arranged between the swing rod 117 and the bead feeding plate 115. The bead feeding plate 115 of this embodiment slides on the sheet feeding plate 105.

A guide structure for guiding the sliding of the bead feeding structure 110 is arranged between the bottom plate 101 and the bead feeding structure 110.

The cutter 130 is also provided with a cutter rest 132 for installing the cutter 130, the cutter rest 132 is fixed on the bottom plate 101 or/and the support body 120 arranged on the bottom plate 101, and the rotatable shaft of the cutter 130 is connected on the cutter rest 132; a connecting block 121 for installing the elastic pressing sheet plate 109 is also arranged between the bottom plate 101 and the supporting body 120.

The second transmission structure comprises a swing arm 133 arranged on a motor shaft of the plectrum motor 107 and a bent arm connecting rod 134 which is rotatably connected on the supporting body 120, one end of the bent arm connecting rod 134 is matched with the swing arm 133, the cutter 130 is rotatably connected on the cutter rest 132 or the bottom plate 101 through a cutter shaft 137, the other end of the cutter shaft 137 is connected with a driving block 135, the driving block 135 is movably connected with the bent arm connecting rod 134 to transmit power through a transmission piece 136, the other end of the bent arm connecting rod 134 is movably connected with the upper end of the transmission piece 136, and the lower end of the transmission piece 136 can be connected with the driving block 135 through a universal joint bearing. The transmission member 136 may be provided with an adjusting rod structure for adjusting the connection length.

The upper section of the device is used for supplying beads or/and sheets, installing and connecting an external support frame body, and separating or entering the device into a working station through lifting. In the lower section, the bead feeding structure 110 and at least one layer of the sheet feeding groove structure 102 are arranged on a bottom plate 101 in a layer-by-layer manner in any order, gold sheets and beads are conveyed to the same or corresponding embroidery needle station positions in the same direction at the same time or in a time-sharing manner, the bead feeding driving structure 111 and the sheet feeding driving structure 103 corresponding to the layer-by-layer arrangement sequence of the bead feeding structure 110 and the sheet feeding groove structure 102 are arranged in front of and behind the bead feeding driving structure 111 and the sheet feeding driving structure 103 in sequence to drive and convey the corresponding gold sheets or bead feeding structure 110, a slicing cutter 130 is arranged at an output port of the sheet feeding groove structure 102, and the cutter 130 is provided with a cutter driving component 131. In practical use, the bead feeding driving structure 111 and the piece feeding driving structure 103 can be controlled to drive the bead feeding structure 110 and the piece feeding driving structure 103 to drive the sequins in the piece feeding groove 104 to simultaneously feed the beads and the pieces to the embroidery needle station of the same needle rod, so that one stitch of the embroidery needle can simultaneously embroider the bead and the piece. Of course, the bead feeding driving structure 111 and the film feeding driving structure 103 may be controlled to drive the bead feeding structure 110 and the film feeding driving structure 103 to drive the gold flakes in the film feeding groove 104, respectively, as required, so as to feed the beads and the film to the same needle bar or to different positions adjacent to the needle bar.

The bead feeding structure 110 is arranged on the upper layer, and the sheet feeding groove structure 102 is arranged on the lower surface of the bead feeding structure 110 as the lower layer, so that most actual requirements can be met on the basis of reducing the cost and simplifying the mechanism.

The front and back directions described in the present application are front and back directions of the device for feeding tinsels and beads to the embroidery needle when the device is normally installed and used. The upper part and the lower part are the upper part and the lower part when the device is normally installed and used.

The foregoing detailed description and drawings are merely illustrative of the principles of the utility model rather than limiting, and any modifications and variations which fall within the spirit of the utility model and the scope of the appended claims are intended to be covered thereby.

Claims (10)

1. The utility model provides a can carry pearl, carry multi-functional device of gold sheet which characterized in that: comprises an upper section and a lower section which can be used for conveying sheets and beads and are mutually matched; the upper section comprises a bead threading mechanism for threading beads or/and a disc rack for mounting a disc; the lower section comprises a bottom plate, at least one layer of sheet feeding groove structure capable of conveying gold sheets, a sheet feeding driving structure of each layer of sheet feeding groove structure, a bead feeding structure for taking beads from a bead taking position and sliding and feeding the beads to an embroidery bead station, a bead feeding driving structure, a bead guide rod for supplying the beads suspended at the bead taking position of the bead feeding structure, and a cutter arranged at an output port of the sheet feeding groove structure, wherein the cutter is provided with a cutter driving assembly, the sheet feeding groove structure and the bead feeding structure are arranged on the bottom plate in a layered mode, the bead feeding structure and the at least one layer of sheet feeding groove structure are arranged in a layered mode in any sequence, and the sheet feeding driving structure and the bead feeding driving structure corresponding to the sheet feeding groove structure and the bead feeding structure which are arranged in a layered mode are arranged above the bottom plate in a front-back mode in sequence; the upper end of the bead guide rod is matched with the bead threading mechanism.

2. The multi-functional device for transporting beads and gold flakes according to claim 1, wherein: the bead stringing mechanism or/and the sheet disc frame are/is connected to the mounting plate, and the mounting plate is connected with the lower section; the lower section is provided with a support body for installing and positioning a sheet feeding driving structure, a bead feeding driving structure or/and a cutter driving component, and the cutter is arranged on the support body or/and the bottom plate.

3. The multi-functional device for transporting beads and gold flakes according to claim 2, wherein: the mounting plate is provided with a lifting mechanism for controlling the device to enter or leave the working position; the supporting body is a supporting plate; the supporting plate is connected to the bottom plate.

4. The multi-functional device for transporting beads and gold flakes according to claim 1, wherein: an adjusting mechanism which can be longitudinally or/and transversely adjusted is arranged between the upper section and the lower section; the film feeding groove structure is provided with a layer, and the bead feeding structure is arranged above or below the film feeding groove structure.

5. The multi-functional device for transporting beads and gold flakes according to claim 1 or 4, wherein: the bead feeding structure is arranged above the sheet feeding groove structure.

6. The multi-functional device for transporting beads and gold flakes according to claim 5, wherein: each layer of the piece feeding groove structure comprises a piece feeding plate, a piece groove is formed in the bottom of the piece feeding plate, the piece groove and the corresponding lower layer structure form a piece feeding groove for conveying gold pieces, and a shifting piece and a piece pressing groove matched with the piece feeding driving structure are arranged on the upper portion of the rear portion of the piece feeding plate and located at the corresponding position of the piece groove.

7. The multi-functional device for transporting beads and gold flakes according to claim 1, 2 or 3, wherein: the piece feeding driving structure comprises a piece shifting rod matched with the piece feeding groove structure to drive the shifting piece, a shifting piece motor and a first transmission structure for driving the piece shifting rod to transmit power of the shifting piece motor, and the cutter driving assembly comprises a second transmission structure for driving the cutter to slice and a third transmission structure for transmitting power of the shifting piece motor to the second transmission structure.

8. The multi-functional device for transporting beads and gold flakes according to claim 7, wherein: the bead feeding driving structure comprises a bead feeding driving motor and a transmission assembly for transmitting the power of the bead feeding driving motor to the bead feeding structure; the bead feeding structure is provided with a guide pore canal which is arranged at the bead taking position and sleeved outside the bead guide rod and used for guiding the beads.

9. The multi-functional device for transporting beads and gold flakes according to claim 1, 2 or 3, wherein: and a guide structure for guiding the bead feeding structure to slide is arranged between the bottom plate and the bead feeding structure.

10. The multi-functional device for transporting beads and gold flakes according to claim 9, wherein: the cutter is also provided with a cutter frame for installing the cutter, the cutter frame is fixed on the bottom plate or/and a support body arranged on the bottom plate, and the rotatable shaft of the cutter is connected to the cutter frame; and a connecting block for installing an elastic pressing sheet plate is arranged between the bottom plate and the supporting body.

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