CN211199686U - Transmission structure of multi-sequin stacking and feeding device - Google Patents

Transmission structure of multi-sequin stacking and feeding device Download PDF

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Publication number
CN211199686U
CN211199686U CN201921166516.8U CN201921166516U CN211199686U CN 211199686 U CN211199686 U CN 211199686U CN 201921166516 U CN201921166516 U CN 201921166516U CN 211199686 U CN211199686 U CN 211199686U
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sequin
conveying
gold
bearing
motor
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CN201921166516.8U
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王海江
田桂郁
洪晓峰
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Zhejiang Xinsheng Technology Co Ltd
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Zhejiang Xinsheng Technology Co Ltd
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Abstract

The utility model discloses a transmission structure of a many gold sheet range upon range of piece device that send to reduce the space and occupy, the setting of staggering about arranging and setting up is gone up along gold sheet direction of delivery to the defeated roller of multiunit, and every group defeated roller of piece includes two defeated rollers that set up in pairs, defeated roller is installed in defeated roller, and the defeated roller horizontal projection that the defeated roller of co-altitude is connected staggers along gold sheet transfer passage's length direction, defeated roller is connected with drive gear, and two drive gear meshes that every group defeated roller of group corresponds, and one of them drive gear is by defeated piece motor drive, staggers and the horizontal projection part coincidence in the direction of height along two defeated motors that gold sheet direction of delivery is adjacent.

Description

Transmission structure of multi-sequin stacking and feeding device
Technical Field
The utility model relates to an embroidery machinery technical field, concretely relates to sequin embroidery machine.
Background
The multi-sequin conveying device appearing on the market at present has the following technical defects: 1, switching devices when selecting gold sheets with different specifications (namely, two single-needle double-gold-sheet devices are included, and lifting switching of the two devices is needed during switching); 2, one-needle four-lamination of gold sheets with various (three or more) specifications cannot be achieved, and the requirements of the gold plate specification which can be achieved by one-needle four-lamination are quite limited even if one-needle four-lamination is achieved.
Adopt many gold sheets to range upon range of and send piece device can overcome prior art's defect, but because realize that every gold sheet send the piece all to need to transmit alone, the increase of gold sheet quantity just also need increase the quantity of transmission structure, causes occupation space increase. Because the multiple gold sheet stacking and feeding device is arranged on the embroidery machine head, the installation space of the multiple gold sheet stacking and feeding device is more and more limited along with the development of the embroidery machine head in more and more directions, and the installation space of the multiple gold sheet stacking and feeding device and the embroidery machine head are in contradiction.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a transmission structure of a piece device is sent in the range upon range of many gold pieces is provided, the space that reduces occupies.
In order to solve the technical problem, the utility model adopts the following technical scheme: the transmission structure of the multi-sequin stacking and conveying device is characterized in that a plurality of groups of sequin conveying rollers are arranged along the sequin conveying direction and are arranged in a vertically staggered mode, each group of sequin conveying rollers comprise two sequin conveying rollers which are arranged in pairs, the sequin conveying rollers are mounted on sequin conveying roller shafts, the level projections of the sequin conveying roller shafts connected with the sequin conveying rollers with different heights are staggered along the length direction of a sequin conveying channel, the sequin conveying roller shafts are connected with transmission gears, the two transmission gears corresponding to each group of sequin conveying rollers are meshed, one of the transmission gears is driven by a sequin conveying motor, and the two sequin conveying motors adjacent to each other along the sequin conveying direction are staggered in.
Optionally, the film conveying motor is fixed on a film conveying motor seat pressed with a rolling bearing, and a motor shaft of the film conveying motor is matched with the rolling bearing.
Optionally, the film feeding device further comprises a bearing fixing seat, a bearing is mounted on the bearing fixing seat, and the film conveying roller shaft is matched with the bearing.
Optionally, the bearing includes a flange bearing and a planar bearing, a step hole with a large upper diameter and a small lower diameter is formed in the bearing fixing seat, the planar bearing is mounted on the upper portion of the step hole, and the flange bearing is mounted on the lower portion of the step hole.
Optionally, the motor shaft of the lower film conveying motor is connected with the film conveying roller shaft through a connecting hoop, and the motor shaft of the upper film conveying motor is connected with the film conveying roller shaft through a transfer lengthening shaft and the connecting hoop.
The utility model adopts the above technical scheme, following beneficial effect has:
two transmission gears corresponding to each group of the sequin conveying rollers are meshed, and one transmission gear or the sequin conveying roller shaft is driven by the sequin conveying motor, so that sequins conveyed in one sequin conveying channel can be driven by only one motor, the cost is reduced, and the motor installation space is saved.
Further, in order to save the installation space, the horizontal projections of the sheet conveying roller shafts connected with the sheet conveying rollers with different heights are staggered along the length direction of the sequin conveying channel, wherein the horizontal projections are completely staggered, namely, the projections are not overlapped, so that the sheet conveying motors can be staggered along the length direction of the sequin conveying channel in the height direction, namely, the sheet conveying motors are arranged in an up-down-up-down mode, the horizontal projections can have overlapped parts along the length direction of the sequin conveying channel, as long as the adjacent motor housings do not interfere with the motor shafts, and the space in the length direction is saved through the expansion of the space in the height direction.
The specific technical solution and the advantages of the present invention will be described in detail in the following detailed description with reference to the accompanying drawings.
Drawings
The invention will be further described with reference to the accompanying drawings and specific embodiments:
FIG. 1 is a schematic view of the assembly structure of the present invention;
FIG. 2 is a schematic view of a partially exploded structure of the present invention;
FIG. 3 is a schematic view of the gold plate separator (bottom);
FIG. 4 is a schematic view of the connection structure of the sheet conveying roller and the sheet conveying roller shaft;
FIG. 5 is a schematic view of the partially exploded structure of the present invention;
FIG. 6 is a schematic view of the slicing knife;
FIG. 7 is a schematic view of the mounting structure of the slicing motor;
FIG. 8 is a schematic view of the mounting structure of the cutter fixing screw;
FIG. 9 is a schematic view of the mounting structure of the fixing pin of the cutter driving bearing;
FIG. 10 is a schematic view of the elevation control structure of the multi-gold-piece stacking and feeding device.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
It is to be understood that the features of the following examples and embodiments may be combined with each other without conflict.
It is to be understood that the following terms "upper," "lower," "inner," "outer," and the like, refer to orientations or positional relationships only based on the orientations or positional relationships shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices/elements must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.
In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
As shown in fig. 1 to 10, the sequin embroidery apparatus for feeding a plurality of sequins in a stacked manner includes:
the gold sheet partition plates 4 are stacked to form a gold sheet partition plate assembly, and a gold sheet conveying channel is arranged between every two adjacent gold sheet partition plates 4, so that a multilayer gold sheet conveying channel is formed along the height direction, and the horizontal projections of the central lines of the gold sheet conveying channels of all the layers are overlapped, so that the gold sheets conveyed out form the effect of multilayer lamination;
the sheet conveying assembly 1 comprises sheet conveying rollers 11, each sequin conveying channel is correspondingly provided with a group of sheet conveying rollers 11, each group of sheet conveying rollers comprises two sheet conveying rollers 11 symmetrically arranged on two sides of the width of the sequin conveying channel, and the two sheet conveying rollers 11 drive sequins to be conveyed along the length direction of the sequin conveying channel through rotation in opposite directions;
and the sheet conveying motor 13 drives the sheet conveying roller 11 to rotate.
The utility model discloses a accomplish many laminations of a needle of multiple (three kinds and more than three kinds) specification gold piece, consequently, the specification that the multilayer gold piece transfer passage of gold piece baffle subassembly formation carried the gold piece is different, and the width of the multilayer gold piece transfer passage who corresponds has the difference, and it is general that multilayer gold piece transfer passage diminishes in proper order by transfer passage's width from bottom to top, just can be formed with the lamination of level from bottom to top after the lamination like this.
Of course, each layer of sequin conveying channel is independently controlled to convey by the corresponding group of sequin conveying rollers and the sequin conveying motor, so that the basic functions of single-needle multiple sequins, lamination and the like can be realized, sequin conveying channels of corresponding layers can be selected to convey sequin in multiple layers of sequin conveying channels, and the effect of randomly combining multiple specifications of sequin can be achieved.
The gold plate partition 4 can reduce the thickness as much as possible to save the space in the thickness direction and is provided with more layers of gold plate partitions, therefore, the gold plate partition 4 is provided with a sheet conveying roller through hole 42 corresponding to the sheet conveying roller 11, the sheet conveying roller 42 is arranged in the sheet conveying roller through hole 42, and the thickness of the sheet conveying roller can be thinner than the height of the sheet conveying roller through hole 42.
It can be understood that the two feeding rollers 11 in each set rotate in opposite directions and drive the gold plate to be conveyed by friction force, and in order to ensure the friction contact between the feeding rollers and the gold plate, the gold plate conveying channel is provided with a breaking part 421 between two correspondingly arranged feeding roller through holes 42, and the outer circle of the feeding roller 11 is in friction contact with the gold plate passing through the gold plate conveying channel by the breaking part 421.
Because the spacing parts are arranged on the left side and the right side between two adjacent gold sheets before cutting, in order to form fit with the spacing parts, the conveying force of the gold sheets by the sheet conveying roller 11 is increased, so that slipping is prevented, the sheet conveying teeth 111 are arranged on the outer circle of the sheet conveying roller 11, the sheet conveying teeth 111 are meshed with the spacing parts, and the gold sheets are pushed to be conveyed, of course, the tooth form size can be smaller, the density is increased, and a structure similar to friction lines is formed.
In this embodiment, the sheet conveying roller 11 is not directly connected to the sheet conveying motor 13, and the sheet conveying roller 11 is mounted on the sheet conveying roller shaft 12. The film conveying roller shafts 12 are connected with transmission gears 14, two transmission gears corresponding to each group of film conveying rollers are meshed, and one transmission gear 14 or the film conveying roller shaft is driven by a film conveying motor 13, so that a gold sheet conveyed in a gold sheet conveying channel can be driven by only one film conveying motor, the cost is reduced, and the motor installation space is saved.
Since the gold sheet stacking and feeding device is installed on the embroidery machine head, the installation space of the gold sheet stacking and feeding device is increasingly limited as the embroidery machine head is developed in more and more directions. In order to save the installation space, the horizontal projections of the sheet conveying roller shafts connected with the sheet conveying rollers of different layers are staggered along the length direction of the sequin conveying channel, wherein the projections are completely staggered, namely, the projections are not overlapped, so that the sheet conveying motors can be staggered along the length direction of the sequin conveying channel in the height direction, namely, the sheet conveying motors are arranged in an up-down-up-down mode, the horizontal projections can have overlapped parts along the length direction of the sequin conveying channel, as long as the adjacent motor housings do not interfere with the motor shafts, and the space in the length direction is saved by expanding the space in the height direction.
Wherein, the motor shaft of the sheet conveying motor positioned at the lower part is connected with the sheet conveying roller shaft 12 through a connecting hoop 131. Since the motor shaft is usually short, the motor shaft of the upper film conveying motor is connected to the film conveying roller shaft 12 through the transfer extension shaft 121 and the connecting hoop 131.
In order to install the sheet conveying motor 13, the sheet conveying motor 13 is fixed on a sheet conveying motor base 16 pressed with a rolling bearing 161, and a motor shaft of the sheet conveying motor is matched with the rolling bearing 161.
In addition, still include bearing fixing base 15, install the bearing on the bearing fixing base 15, defeated piece roller and bearing cooperation to support defeated piece roller, guarantee smooth and easy rotation.
Specifically, the bearing includes a flange bearing 151 and a plane bearing 152, a step hole with a large upper diameter and a small lower diameter is formed in the bearing fixing seat 15, the plane bearing 152 is installed on the upper portion of the step hole, and the flange bearing 151 is installed on the lower portion of the step hole.
In order to form the sequin conveying channel, a sequin conveying channel groove 41 is formed in at least one surface of the sequin partition plate 4. Preferably, the gold plate conveying channel groove 41 is arranged on the lower layer gold plate partition plate, and the bottom surface of the upper layer gold plate partition plate is a plane.
The gold flakes need to be cut off in time after being output from the outlet end of the gold flake conveying channel. In the prior art, when the sequin is embroidered, the sequin conveyed out is cut, and the sequin is cut off in a mode of matching a movable knife with a fixed knife, so that the phenomenon of 'fish tail' often occurs under the condition of high speed, namely the cut pieces are not fresh. To avoid this. Referring to fig. 2, the present invention adopts a double-moving knife structure, two slicing knives 21 are arranged in pairs, and the knife edges of the two slicing knives are arranged at the outer side of the end of the sequin conveying channel, and the two slicing knives 21 are driven by a slicing driver to open and close relatively to cut off the sequin output from the end of the sequin conveying channel. Due to the bidirectional slicing, the phenomenon that fish tails are left behind after the cutting under the condition of high-speed operation can be greatly improved.
As an implementation mode, slicing knife 21 includes handle of a knife and the tool bit 211 that extends to the side from handle of a knife head end, the handle of a knife rotates to be connected in cutter fixed screw 22, the tool bit head is located to the edge of a knife, forms the scissors structure, and cutter fixed screw can be close to the setting of tool bit head, and during the cut-parts, the slicing knife need not to rotate great angle, practices thrift the space.
The head end of the cutter fixing screw 22 penetrates out of the top gold sheet partition plate and is connected with the cutter fixing nut 221, and a bottom gasket 24 is arranged between the screw head at the bottom of the cutter fixing screw 22 and the bottom gold sheet partition plate. And, the cutter fixing screw 22 is connected with a cutter spacing washer 23 between two adjacent gold partition boards. The horizontal position of the cutting knife is ensured by the cutting knife isolation gasket 23, so that the cutting piece can be aligned during cutting.
Specifically, the slicing driver comprises a slicing motor 27 and a cutter driving cam 28 driven by the slicing motor, the cutter driving cam 28 synchronously drives the two slicing cutters to open and close, the synchronism of actions can be ensured, and an additional driving source is also avoided.
In order to realize the action of the multilayer slicing knife, the tail part of the knife handle extends outwards from the gold sheet partition plate and is connected with a cutter transmission bearing fixing pin 25, the transmission bearing fixing pin 25 is connected with all cutters in series and penetrates through the cutter, the upper end of the transmission bearing fixing pin is connected with a transmission bearing fixing seat 261, and a deep groove ball bearing 26 is installed on the transmission bearing fixing seat 261. The transmission bearing fixing pin 25 is connected with a cutter isolation gasket 23 between two adjacent cutters. Therefore, through the action of the cutter driving cam 28 and the deep groove ball bearing 26, the corresponding plurality of cutting blades can be driven to act simultaneously, cutting pieces can be unified simultaneously, and the cutting pieces and the lamination are ensured to be tidy.
In this embodiment, the slice driving cam 28 is semicircular and is provided with a driving groove 281 which is matched with a deep groove ball bearing. The two slicing knives are driven to simultaneously move and cut through the matching of the driving groove and the bearing, so that the cutting is smooth and free from clamping stagnation, and the cutting is tidy.
At least one surface of the sequin partition plate is provided with a cutter moving groove 43, and the cutter is arranged in the cutter moving groove. In order to form the cutter moving groove 43, it is preferable that the cutter moving groove 43 is provided in the lower-layer gold plate partition plate, and the bottom surface of the upper-layer gold plate partition plate is a flat surface. In addition, one of the cutter moving grooves 43 is through the gold plate partition side, and of course, both the cutter moving grooves 43 may be disposed on the gold plate partition side and through.
Furthermore, a gold plate guide plate 29 is provided, and a guide hole 291 for guiding the gold plate to enter the gold plate conveying passage is provided on the gold plate guide plate.
Of course, as an alternative, it can be understood by those skilled in the art that the two slicing knives may also adopt a linear movement mode, the two slicing knives are disposed on the linear guide rail and perform cutting by relative linear movement, the same driving source may drive the two slicing knives to move linearly relatively through the intermediate transmission mechanism, or the two synchronous driving sources may drive the two slicing knives to move linearly relatively to each other to slice.
In order to install the whole piece feeding device on the machine head and realize the whole lifting. A device lifting assembly 3 is also provided, said device lifting assembly 3 comprising a device fixing plate 31. The sheet conveying motor seat, the bearing fixing seat and the gold sheet partition plate assembly are all fixed at corresponding positions on the device fixing plate.
Further, the device fixing plate 31 is fixed to the transfer lifting seat 32, the transfer lifting seat 32 is fixed to the trolley guide rail 34, and the trolley guide rail 34 is in sliding fit with the trolley guide rail mounting plate 33. The trolley guide rail mounting plate is fixedly provided with a lifting cylinder 36, a cylinder mandril 361 of the lifting cylinder is connected with the switching lifting seat, the trolley guide rail mounting plate is fixedly arranged on a supporting plate 35, the supporting plate is fixedly arranged at a corresponding position on the side surface of the needle bar frame, and the lifting of the lifting control device of the cylinder is controlled.
In order to avoid the device lifting structure to occupy a large space and realize space saving, the trolley guide rail mounting plate and the lifting cylinder are all obliquely arranged.
The switching lifting seat 32 comprises a vertical part and an inclined part connected with the upper end of the vertical part, the vertical part and the device fixing plate 31 are fixed through bolts, and the inclined part is fixedly connected with the trolley guide rail 34 through bolts. The trolley guide rail 34, the trolley guide rail mounting plate 33 and the lifting cylinder 36 are all obliquely arranged, and the trolley guide rail 34 and the oblique part are fixed through bolts. The trolley guide rail 34 is provided with a guide rail sliding block 341, the trolley guide rail mounting plate 33 is provided with a guide rail groove 332, and the guide rail sliding block 341 is in sliding fit with the guide rail groove 332. The top of the trolley guide rail mounting plate 33 is provided with a side extension part, the side extension part is provided with a fixing lug 331 with a mounting hole, the fixing lug is used for mounting the lifting cylinder 36, and in addition, the inclined part is provided with a fixing buckle 321 connected with a cylinder mandril 361 of the lifting cylinder. The lift cylinder 36 is a small cylinder, and two may be provided side by side. The supporting plate 35 is vertically arranged, wherein one side of the supporting plate is provided with a waist-shaped hole 351 for fixing on the side surface of the needle bar frame, and the other side of the supporting plate is provided with a connecting hole 352 for connecting with the trolley guide rail mounting plate 33.
The dolly guide rail, dolly guide rail mounting panel and promotion cylinder all incline to set up, therefore the promotion cylinder passes through cylinder ejector pin drive switching promotion seat, make the switching promote the seat through the cooperation of slide rail between dolly guide rail and the dolly guide rail mounting panel promote in the slant, simultaneously because the switching promotes the seat including vertical portion and the rake of being connected with vertical portion upper end, vertical portion adopts the bolt fastening with the device fixed plate, the rake passes through bolt fastening connection dolly guide rail, therefore vertical promotion is realized to the device fixed plate, the structure is compacter, the space has been practiced thrift.
The multi-gold-piece stacking, conveying and slicing device is mainly used for stacking, conveying and cutting gold pieces with various specifications, for example, a gold-piece conveying channel with four layers is formed by five gold-piece clapboards. From bottom to top, from the first layer of partition plate, a 7mm gold piece partition plate, a 5mm gold piece partition plate, a 3mm gold piece partition plate and a 2mm gold piece partition plate are arranged in sequence, wherein the top gold piece partition plate is an upper cover plate, and a 7mm gold piece conveying channel, a 7mm gold piece conveying tooth and a 7mm gold piece cutter are clamped between the 7mm gold piece partition plate and the 5mm gold piece partition plate; a 5mm gold piece conveying channel, 5mm gold piece conveying teeth and a 5mm slicing knife 25 are clamped between the 5mm gold piece partition plate and the 3mm gold piece partition plate; a 3mm gold piece conveying channel, a 3mm gold piece conveying tooth and a 3mm slicing knife are clamped between the 3mm gold piece partition plate and the 2mm gold piece partition plate; a2 mm gold piece conveying channel, a 2mm gold piece conveying tooth and a 2mm slicing knife are clamped between the 2mm gold piece partition plate and the upper cover plate. The slicing knife and the slice conveying roller can freely move between the two gold slice clapboards, and the slicing knife can also freely move between the two gold slice clapboards. The multi-gold-piece stacking, conveying and slicing device can achieve the effect of randomly combining gold pieces of multiple specifications, for example, a 7mm gold piece is overlapped with a 5mm gold piece, a 3mm gold piece or a 2mm gold piece, a 7mm gold piece is overlapped with a 5mm gold piece and a 3mm gold piece, and a 7mm gold piece is overlapped with a 3mm gold piece and a 2mm gold piece, and specific combination modes are not listed.
In conclusion, the lifting of the sheet feeding device is controlled by the lifting of the air cylinder, the conveying of the sequins of various specifications is controlled by the rotation of the sheet conveying motors, and the cutting of the slicing knives of various specifications is controlled by the operation of the cutter driving motor, so that the embroidering of various sequins is realized.
The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (5)

1. The transmission structure of the multi-sequin stacking and conveying device is characterized in that the sequin conveying rollers of each group are arranged along the sequin conveying direction and are arranged in a vertically staggered mode, each group of the sequin conveying rollers comprises two sequin conveying rollers which are arranged in pairs, the sequin conveying rollers are mounted on the sequin conveying roller shafts, the horizontal projection of the sequin conveying roller shafts connected with the sequin conveying rollers of different heights is staggered along the length direction of a sequin conveying channel, the transmission structure is characterized in that the sequin conveying roller shafts are connected with transmission gears, the two transmission gears corresponding to each group of the sequin conveying rollers are meshed, one of the transmission gears is driven by a sequin conveying motor, and the two sequin conveying motors adjacent to each other along the sequin.
2. The transmission structure of a multi-sequin stacking and feeding device according to claim 1, wherein: the film conveying motor is fixed on a film conveying motor seat pressed with a rolling bearing, and a motor shaft of the film conveying motor is matched with the rolling bearing.
3. The transmission structure of a multi-sequin stacking and feeding device according to claim 1, wherein: the film conveying roller is characterized by further comprising a bearing fixing seat, wherein a bearing is installed on the bearing fixing seat, and the film conveying roller shaft is matched with the bearing.
4. The transmission structure of a multi-sequin stacking and feeding device according to claim 3, wherein: the bearing comprises a flange bearing and a plane bearing, a step hole with a large upper diameter and a small lower diameter is formed in the bearing fixing seat, the plane bearing is installed on the upper portion of the step hole, and the flange bearing is installed on the lower portion of the step hole.
5. The transmission structure of a multi-gold-piece stacking and feeding device according to any one of claims 1 to 4, characterized in that: the motor shaft of the film conveying motor positioned at the lower part is connected with the film conveying roller shaft through the connecting hoop, and the motor shaft of the film conveying motor positioned at the upper part is connected with the film conveying roller shaft through the switching lengthening shaft and the connecting hoop.
CN201921166516.8U 2019-07-24 2019-07-24 Transmission structure of multi-sequin stacking and feeding device Active CN211199686U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921166516.8U CN211199686U (en) 2019-07-24 2019-07-24 Transmission structure of multi-sequin stacking and feeding device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921166516.8U CN211199686U (en) 2019-07-24 2019-07-24 Transmission structure of multi-sequin stacking and feeding device

Publications (1)

Publication Number Publication Date
CN211199686U true CN211199686U (en) 2020-08-07

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Application Number Title Priority Date Filing Date
CN201921166516.8U Active CN211199686U (en) 2019-07-24 2019-07-24 Transmission structure of multi-sequin stacking and feeding device

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CN (1) CN211199686U (en)

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