CN111778646A - Multi-sequin device and embroidery machine using same - Google Patents

Abstract

The invention discloses a multi-sequin device and an embroidery machine using the same, comprising a sequin feeding mechanism, wherein the sequin feeding mechanism comprises at least two groups of sequin feeders arranged side by side and an end seat connected with the corresponding sequin feeders; the film feeding driver is matched with the corresponding film feeder of the film feeding mechanism entering the working needle position to drive the film feeder to feed the film; the driving part is arranged on the needle bar frame, the corresponding part of the driving part is matched with the piece feeding mechanism, and the piece feeding mechanism is driven to move to a working needle position along with the needle bar frame or the corresponding piece feeder. The invention is provided with a piece feeding mechanism corresponding to part or all needle bars on the needle bar frame, a piece feeding driver of the piece feeding mechanism and a driving piece connecting the needle bar frame and the piece feeding mechanism, and the needle bar frame drives the piece feeding mechanism and the piece feeding device corresponding to the corresponding needle bar to enter the working needle position embroidery along with the needle bars through the driving piece. As different film feeders correspond to different needle bars, the multi-specification sequin feeding embroideries and the replacement of different colors of embroidery threads can be realized.

Description

Multi-sequin device and embroidery machine using same

Technical Field

The invention relates to a multi-sequin device, in particular to a multi-sequin device capable of changing colors.

Background

The existing multi-sequin device is arranged at one side of the head of an embroidery machine, and a plurality of sequin feeders of the multi-sequin device are driven by a driver to be matched with an embroidery needle on the embroidery machine one by one. Because the multiple gold sheets are provided with multiple groups of conveying devices for conveying the gold sheets.

Disclosure of Invention

The invention aims to solve the problems existing in the prior art in use and provides a multi-sequin device which is simple in structure and can realize embroidery thread color changing and multi-sequin conveying.

The technical scheme for solving the existing problems is as follows: a multi-sequin device comprising: the film feeding mechanism comprises at least two groups of film feeders arranged side by side and an end seat connected with the corresponding film feeders; the film feeding driver is matched with the corresponding film feeder of the film feeding mechanism entering the working needle position to drive the film feeder to feed the film; the driving piece is arranged on the needle bar frame, the corresponding position of the driving piece is matched with the piece feeding mechanism, and the piece feeding mechanism is driven to move to a working needle position along with the displacement of the needle bar frame or a corresponding piece feeder; the cutter assembly comprises a cutter arranged at the working needle position and a driving mechanism of the cutter; the base frame is used for positioning and installing the sheet conveying mechanism, the sheet conveying driver and the cutter assembly; the piece conveying driver is arranged on the base frame in a sliding manner, a first sliding rail assembly is arranged between the base frame and the piece conveying mechanism, and the cutter driving mechanism are arranged on the base frame.

As a further improvement, the embroidery machine further comprises a first driver for driving the sheet feeding mechanism to advance or retreat towards the embroidery station, or/and a lifting mechanism for driving the sheet feeding mechanism to enter or leave the working position, and a corresponding bracket for mounting the first driver or/and the lifting mechanism.

As a further improvement, a corresponding position between the driving piece and the piece conveying mechanism is provided with a matched connecting structure, and the base frame is provided with a connecting structure for driving the piece conveying mechanism to enter a working position so as to connect the piece conveying mechanism with the corresponding position of the driving piece; or the lifting mechanism drives the sheet feeding mechanism to be separated from the working position, so that the connecting structure between the sheet feeding mechanism and the driving piece is separated.

As a further improvement, the automatic sheet feeding device further comprises a locking mechanism for locking the sheet feeding driver and the sheet feeding mechanism which is separated from the working position so as to keep the matching position of the sheet feeding driver and the sheet feeding mechanism relative to each other.

As a further improvement, the locking mechanism comprises a lockset and a cross beam, wherein the lockset is fixedly arranged relative to the film feeding driver, the cross beam is arranged on an end seat of the film feeding mechanism, and a lock hole corresponding to the corresponding film feeding device is arranged on the cross beam.

As a further improvement, the needle bar rack further comprises a second slide rail component connected with the needle bar rack.

As a further improvement, the support comprises a first support and a second support, the first driver is arranged between the second support and the base frame, the lifting mechanism is arranged between the first support and the second support, and the first support is provided with a second slide rail assembly connected with the needle bar frame; the connecting structure comprises a connecting block arranged between a connecting groove on the driving piece and the corresponding position of the end seat of the sheet feeding mechanism.

As a further improvement, as a further improvement, the first bracket is provided with an extension bracket externally connected with the support body for providing support.

As a further improvement, the first sliding rail assembly and/or the second sliding rail assembly are/is also provided with a guide rail.

The utility model provides an embroidery machine, includes the embroidery machine organism, the organism on be provided with at least one aircraft nose, the aircraft nose on be equipped with two at least needle bars, the aircraft nose on be equipped with needle bar frame, the aircraft nose on still install above-mentioned arbitrary scheme many gold piece devices, many gold piece devices include send the piece structure to set up needle bar frame dead ahead and cooperate in needle bar frame, the piece mechanism that send that is located needle bar frame dead ahead be equipped with needle bar frame on whole needle bar one-to-one send the piece ware of piece, or partial needle bar one-to-one send the piece ware of piece.

As a further improvement, the embroidery machine also comprises an extension frame fixedly arranged on the girder of the embroidery machine, and the multi-sequin device is connected on the extension frame.

Compared with the prior art, the multi-sequin feeding device and the embroidery machine using the device have the advantages that the multi-sequin feeding device is provided with the sequin feeding mechanism corresponding to part or all needle bars on the needle bar frame, the sequin feeding driver of the sequin feeding mechanism and the driving piece for connecting the needle bar frame and the sequin feeding mechanism, and the needle bar frame drives the sequin feeder corresponding to the sequin feeding mechanism and the corresponding needle bar to enter the working needle position embroidery along with the needle bars through the driving piece. Because different film feeders correspond to different needle bars, the color change of multiple gold films can be realized. The embroidery machine has the beneficial effects that the embroidery machine can realize the feeding of the gold pieces with various specifications and the replacement of different embroidery thread colors.

Drawings

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

Fig. 2 is an enlarged schematic view of fig. 1 at a.

FIG. 3 is a schematic view of another embodiment of the present invention.

Fig. 4 is an enlarged schematic view of fig. 3 at b.

FIG. 5 is an enlarged view of the engagement of the sheet feeder of FIG. 3 with the base frame of the sheet feeding mechanism removed at position c

Fig. 6 is a side view of the multi-sequin device of the present invention in an operative position.

Fig. 7 is a side view of the multi-sequin device of the present invention shown out of the operating position.

Fig. 8 is an exploded view of the embroidery machine head and the multiple sequin device of the present invention.

Fig. 9 is an enlarged schematic view at d of fig. 8.

Fig. 10 is an enlarged view of the front side of the multi-gold-plate device of the invention.

Fig. 11 is a side view of a multi-gold device.

Fig. 12 is an enlarged schematic view at e of fig. 11.

Fig. 13 is a schematic structural view of a multi-gold-plate device.

Fig. 14-15 are schematic views of the present invention from different perspectives.

Detailed Description

Referring to fig. 1-15, the present embodiment includes a multi-sequin device comprising:

the sheet feeding mechanism 100 comprises at least two sets of sheet feeders 101 arranged side by side and an end seat 103 connected with the corresponding sheet feeders 101. The sheet feeder driver 102 is engaged with the sheet feeder 101 corresponding to the position of the working needle where the sheet feeding mechanism 100 is set, and drives the sheet feeder 101 to feed the sheet. The driving piece 200 is arranged on the needle bar frame 300, the corresponding position of the driving piece 200 is matched with the piece feeding mechanism 100, and the piece feeder 101 of the piece feeding mechanism 100 is driven to move to a working needle position along with the needle bar frame 300.

Cutter assembly 400, cutter assembly 400 include the actuating mechanism 402 of cutter, set up in the cutter 401 of work needle position department, cutter assembly 400 can set up fixed cutter 401 in work needle position department, the blade holder 403 of gold piece export, the actuating mechanism 402 of cutter can include cutter driving motor, connects transmission cutter driving motor in the link assembly 404 of cutter, the specific one of link assembly can realize that the cutter section is accurate. The base frame 500 is used for positioning and installing the sheet conveying mechanism 100, the sheet conveying driver 102 and the cutter assembly 400, and the cutter holder 403 is fixedly installed on the base frame 500 so as to improve the matching degree of the cutter adapting to the multiple gold sheet device. The sheet feeding driver 102 is slidably disposed on the base frame 500, a first slide rail assembly 4 is disposed between the base frame 500 and the sheet feeding mechanism 100, and the cutter driving mechanism are disposed on the base frame 500.

The sheet feeding mechanism 100 and the sheet feeding driver 102 having a plurality of sets of sheet feeders 101 can adopt the prior art. Referring to the drawings, in the present embodiment, each group of film feeders 101 may be independently arranged, and the film feeding mechanisms 100 formed by combining independent groups of film feeders may be combined, or the film feeding mechanisms 100 may be formed by integrally arranging a plurality of groups of film feeders 101. Each set of sheet feeders 101 may preferably include a dial bar 104, a bottom plate with sheet conveying grooves, and an elastic sheeting device, the sheet conveying grooves of the sets of sheet feeders 101 may be disposed on a bottom plate, and the dial bar 104 and the sheeting device of the sets of sheet feeders 101 may be disposed on corresponding shafts, respectively. One end or two ends of the sheet feeding mechanism 100 are provided with an end seat 103 connected with the bottom plate, and the poking sheet rod 104 and the corresponding shaft of the sheet presser can be arranged on the end seat 103 or arranged on the extending seat of the end seat 103.

The piece shifting rod 104 is rotatably arranged, one end of the piece shifting rod is used for shifting pieces, the other end of the piece shifting rod is provided with a sliding plug 106, the piece conveying driver 102 comprises a driving motor arranged on the base frame 500 and a swing rod 107 arranged on a motor shaft of the driving motor, and the swing rod 107 is provided with a driving shaft matched with the sliding slot 106. The motor shaft rotates to drive the swing rod 107, and the driving shaft of the swing rod 107 is matched with the sliding groove 106 on the sheet shifting rod 104 of the corresponding sheet feeder at the working needle position to drive the sheet shifting rod 104 to realize sheet shifting.

In order to ensure the smooth operation of the multi-sequin device, a second slide rail assembly 5 may be further disposed between the base frame 500 and the needle bar frame 300, and a connecting frame 51 may be disposed between the slide rail assembly 5 and the needle bar frame 300, so as to facilitate the installation of the multi-sequin device on the machine head.

The cutter assembly 400 may employ existing cutter assembly technology.

Each group of sheet feeders 101 can be a single gold sheet or a double gold sheet with upper and lower laminated sheets, and if the laminated sheets are obtained, the cutter adopts a laminating cutter and a corresponding laminated sheet feeding driver.

In use, the base frame 500 may be independently fixed to the needle bar frame 300, or the base frame 500 may be mounted to a girder of the embroidery machine through the corresponding extension frame 1.

In order to improve the universality of the embroidery sheet, the embroidery sheet machine further comprises a first driver 600 for driving the sheet feeding mechanism 100 to advance or retreat towards the embroidery sheet station, or/and a lifting mechanism 700 for driving the sheet feeding mechanism 100 to enter or leave the working position, and a corresponding bracket for mounting the first driver 600 or/and the lifting mechanism 700. In this embodiment, the support includes a first support 2 and a second support 3, the first driver 600 is disposed between the second support 3 and the base frame 500, the lifting mechanism 700 is disposed between the first support 2 and the second support 3, and the first support 2 is provided with a second slide rail assembly 5 connected to the needle bar frame 300.

Preferably, the first driver 600 includes a driving motor installed on the second bracket 3, a lead screw 602 connected to a belt pulley of the driving motor, and a sliding sleeve disposed on the lead screw 602 and engaged with the lead screw 602, the sliding sleeve being connectable to the base frame 500, the driving motor of the first driver 600 drives the lead screw 602 to rotate through the belt pulley, and the rotating lead screw 602 drives the sliding sleeve to drive the base frame 500 to move forward or backward according to the embroidery process of the gold plate. For example, the first driver 600 drives the feeding mechanism 100 to move forward or backward toward the embroidery station to implement embroidery processes such as embroidering tinsels of different specifications, or avoiding other functional devices. Two ends of the screw rod 602 are provided with end covers 601 fixed on the second bracket 3.

Preferably, the lifting mechanism 700 includes a pneumatic or hydraulic cylinder 701 mounted on the first frame 2, the second frame 3 is connected to an actuating rod end of the pneumatic or hydraulic cylinder 701 through a connecting seat 702, and the first frame 2 may further be provided with a corresponding third sliding rail assembly 703, so that the actuating rod can smoothly drive the second frame 3 to drive the sheet feeding device to lift or tilt, so as to drive the sheet feeding mechanism 100 to enter or leave the working position. The sheet feeding mechanism 100 is separated from the working position, so that the embroidery machine is not influenced to realize plain embroidery or other embroidery. As shown in fig. 6, which is a schematic view of the sheet feeding mechanism 100 entering the working position, the connecting slot 201 of the connecting structure is matched with the connecting block 202. Fig. 7 is a schematic view of the sheet feeding mechanism 100 being disengaged from the working position, and the coupling groove 201 of the coupling structure and the coupling block 202 being disengaged from each other.

A gap between the poly-gold device and the needle bar frame may be formed between the first driver 600 and the lifting mechanism 700, and a connecting frame 51 may be disposed between the slide rail assembly 5 and the needle bar frame 300 to facilitate the mounting of the poly-gold device on the machine head.

Of course, the first driver 600 and the lifting mechanism 700 can be replaced by other technologies that can be realized in the prior art, such as a linear motor and a screw-and-sleeve assembly with other structures.

A corresponding position between the driving member 200 and the sheet conveying mechanism 100 is provided with a matched connecting structure, and the base frame 500 is provided with a connecting structure for driving the sheet conveying mechanism 100 to enter a working position so as to connect the sheet conveying mechanism 100 and the driving member 200; or the lifting mechanism 700 drives the sheet feeding mechanism 100 to be separated from the working position, so that the connection structure between the sheet feeding mechanism 100 and the driving member 200 is separated.

The driving member 200 may be preferably configured as a connecting plate, one end of the connecting plate may be fixed on the needle bar frame 300, the middle portion of the connecting plate is obliquely configured, the other end of the connecting plate is provided with a straight section, and the straight section may be provided with a slot or an occlusion groove. The connecting structure comprises a connecting block 202 arranged between a connecting groove 201 on the driving member 200 and the corresponding position of the end seat 102 of the sheet feeding mechanism 100. The connecting groove 201 may be a slot or a snap groove on the straight section, and the connecting block 202 is disposed on the end seat 103 of the sheet feeding mechanism 100.

Of course, the driving member 200 may be configured to achieve the synchronous action of the sheet feeding mechanism 100 driven by the needle bar frame 300.

When the lifting mechanism 700 lifts the second support 3, the sheet feeding mechanism 100, the sheet feeding driver 102 and the cutter assembly 400 are driven to make the sheet feeding mechanism 100 separate from the working position, so as to prevent the sheet feeding mechanism 100 from deviating on the first slide rail assembly 4. Further included is a locking mechanism 800 for locking the sheet feeder actuator 102 with the sheet feeder mechanism 100 out of the operative position to maintain the engaged position of the sheet feeder actuator 102 relative to the sheet feeder structure. Thus, when the lifting mechanism 700 lifts the second support 3 to drive the sheet feeding mechanism 100, the sheet feeding driver 102 and the cutter assembly 400, and the sheet feeding mechanism 100 is separated from the working position, the locking mechanism 800 can effectively lock the matching position of the sheet feeding driver 102 and the sheet feeding mechanism 100, and when the lifting mechanism 700 drives the second support 3 to drive the sheet feeding mechanism 100, the sheet feeding driver 102 and the cutter assembly 400, and when the sheet feeding mechanism 100 enters the working position, the connection structure of the sheet feeding mechanism 100 and the driving member 200 entering the working position can be ensured to be matched quickly and accurately.

The locking mechanism 800 comprises a lock fixedly arranged opposite to the film feeding driver 102, and a cross beam 105 arranged on the end seat 102 of the film feeding mechanism 100, wherein the cross beam 105 is provided with a lock hole 108 corresponding to the corresponding film feeder 101. The lock holes 108 correspond to the film feeders 101 one by one, and the lock is provided with lock tongues matched with the lock holes 108, and the lock can be manually operated or driven by a controller to unlock or lock the film feeder driver 102 and the film feeder mechanism 100 which is separated from the working position. The lock can adopt an electromagnet or an electromagnetic valve.

The first bracket 2 is provided with an extension frame 1 which is externally connected with a support body for supporting.

In order to prevent the slide rail assembly from accidentally separating, the first or/and second slide rail assemblies 4 and 5 are further provided with a guide rail 7, the guide rail 7 comprises a guide rail and a slide block sleeved on the guide rail, the slide block is provided with a guide hole matched with the guide rail, the slide block provided with the guide hole is matched with the guide rail to prevent the slide block assembly 5 from accidentally separating, and the slide piece feeding mechanism 100 and the needle bar frame 300 are kept to stably run. In the embodiment of the present invention, the guide rail 7 is installed on one side of the first and second slide rail assemblies 4 and 5.

The embroidery machine comprises an embroidery machine body, wherein at least one machine head 6 is arranged on the machine body, at least two needle rods are arranged on the machine head 6, a needle rod frame 300 is arranged on the machine head 6, and the machine head 6 is also provided with a multi-sequin device according to any scheme, namely the multi-sequin device can be directly matched with the needle rod frame 300 through a base frame 500 and can also be matched with the needle rod frame 300 through further combining a first support 2, a second support 2, a first driver 600 or/and a lifting mechanism 700. The multi-sequin device can adopt any one scheme or a combination of a plurality of schemes to be matched with the needle bar frame.

The film feeding structure 100 of the multi-sequin device is arranged right in front of the needle bar frame 300, and the film feeding mechanism 100 positioned right in front of the needle bar frame 300 is provided with film feeders 101 for feeding films corresponding to all needle bars on the needle bar frame one by one or film feeders 101 for feeding films corresponding to part of the needle bars one by one.

The number of sets of the sheet feeders 101 of the sheet feeder driver 100 may be smaller than the number of needle bars of the needle bar frame 300, and any one of the needle bars actually corresponding to the sheet feeders may be driven to enter the working needle position embroidery during embroidery, so that the sheet feeder of the sheet feeder entering the working needle position may be driven by the sheet feeder driver 102 to embroider the corresponding needle bar. The number of the sets of the sheet feeders 101 on the sheet feeder 100 is equal to or more than the number of the needle bars on the needle bar frame, that is, the sheet feeders 100 correspond to the needle bars one by one, and when embroidering, the corresponding sheet feeders of the driving members can be driven by the needle bar frame 300 to enter working needle positions along with the corresponding needle bars for feeding and embroidering.

The embroidery machine is characterized by further comprising an extension frame 1 fixedly arranged on the embroidery machine girder, and the multi-sequin device is connected to the extension frame 1.

Claims (10)

1. A many gold pieces device which characterized in that: the film feeding mechanism comprises at least two groups of film feeders arranged side by side and an end seat connected with the corresponding film feeders; the film feeding driver is matched with the corresponding film feeder of the film feeding mechanism entering the working needle position to drive the film feeder to feed the film; the driving piece is arranged on the needle bar frame, the corresponding position of the driving piece is matched with the piece feeding mechanism, and the piece feeding mechanism is driven to move to a working needle position along with the displacement of the needle bar frame or a corresponding piece feeder; the cutter assembly comprises a cutter arranged at the working needle position and a driving mechanism of the cutter; the base frame is used for positioning and installing the sheet conveying mechanism, the sheet conveying driver and the cutter assembly; the piece conveying driver is arranged on the base frame in a sliding manner, a first sliding rail assembly is arranged between the base frame and the piece conveying mechanism, and the cutter driving mechanism are arranged on the base frame.

2. The gold tab apparatus of claim 1 wherein: the embroidery machine also comprises a first driver for driving the sheet feeding mechanism to advance or retreat towards the embroidery work station, or/and a lifting mechanism for driving the sheet feeding mechanism to enter or leave the work position, and a corresponding bracket for mounting the first driver or/and the lifting mechanism.

3. The gold apparatus of claim 1 or 2 wherein: the corresponding position between the driving piece and the piece conveying mechanism is provided with a matched connecting structure, and the base frame is provided with a connecting structure for driving the piece conveying mechanism to enter a working position so as to connect the piece conveying mechanism with the corresponding position of the driving piece; or the lifting mechanism drives the sheet feeding mechanism to be separated from the working position, so that the connecting structure between the sheet feeding mechanism and the driving piece is separated.

4. A gold device as recited in claim 3 wherein: the film feeding mechanism also comprises a locking mechanism for locking the film feeding driver and the film feeding mechanism which is separated from the working position so as to keep the matching position of the film feeding driver and the film feeding mechanism relatively.

5. The gold apparatus of claim 4 wherein: the locking mechanism comprises a lockset and a beam, wherein the lockset is fixedly arranged relative to the film feeding driver, the beam is arranged on the end seat of the film feeding mechanism, and the beam is provided with a lock hole corresponding to the corresponding film feeding device.

6. The sequin device according to claim 2, wherein: the support comprises a first support and a second support, the first driver is arranged between the second support and the base frame, the lifting mechanism is arranged between the first support and the second support, and the first support is provided with a second sliding rail component connected with the needle bar frame; the connecting structure comprises a connecting block arranged between a connecting groove on the driving piece and the corresponding position of the end seat of the sheet feeding mechanism.

7. The gold apparatus of claim 6 wherein: the first bracket is provided with an extension bracket which is externally connected with a support body to provide support.

8. The sequin device according to claim 7, wherein: the first sliding rail assembly and/or the second sliding rail assembly are/is also provided with a guide rail.

9. The utility model provides an embroidery machine, includes the embroidery machine organism, the organism on be provided with at least one aircraft nose, the aircraft nose on be equipped with two at least needle bars, the aircraft nose on be equipped with needle bar frame, its characterized in that: the machine head is also provided with a multi-sequin device as claimed in any one of claims 1 to 8, the multi-sequin device comprises a sequin feeding structure, a sequin feeding mechanism and a sequin feeding mechanism, wherein the sequin feeding structure is arranged right in front of the needle bar frame and matched with the needle bar frame, and the sequin feeding mechanism right in front of the needle bar frame is provided with sequin feeders which are in one-to-one correspondence with all needle bars on the needle bar frame or partially needle bars.

10. The embroidery machine as claimed in claim 9, characterized in that: the embroidery machine is characterized by further comprising an extension frame fixedly arranged on the embroidery machine girder, and the multi-sequin device is connected to the extension frame.

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