CN216663481U - Three-color bead embroidery device on embroidery machine - Google Patents

Abstract

The utility model provides a three-color bead embroidery device on an embroidery machine, which comprises a lifting assembly, wherein a first feeding assembly and a second feeding assembly are fixedly arranged above the lifting assembly, a first bead feeding assembly and a second bead feeding assembly are fixedly arranged below the lifting assembly, the first feeding assembly is matched with the first bead feeding assembly, and the second feeding assembly is matched with the second bead feeding assembly. The three-color bead embroidery device can simultaneously carry out bead embroidery operation on three beads with different specifications, has better bead embroidery effect, effectively reduces equipment cost and reduces the using area of a field. In conclusion, the three-color bead embroidery device on the embroidery machine has the advantages of reasonable structure and strong function, and is suitable for popularization and application.

Description

Three-color bead embroidery device on embroidery machine

Technical Field

The utility model relates to the field of embroidery machine equipment, in particular to a three-color bead embroidery device on an embroidery machine.

Background

At present, the domestic pearl embroidery device is mainly single-color pearl embroidery, has single style, cannot realize the same device, needs a plurality of devices to carry out the pearl embroidery with various specifications, increases the production cost and is not beneficial to popularization and utilization.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the traditional technology and provides the three-color bead embroidery device on the embroidery machine, which can effectively solve the technical problems and is strong in function and suitable for popularization and application.

The aim of the utility model is achieved by the following technical measures: the three-color bead embroidery device on the embroidery machine comprises a lifting assembly, wherein a first feeding assembly and a second feeding assembly are fixedly mounted above the lifting assembly, a first bead feeding assembly and a second bead feeding assembly are fixedly mounted below the lifting assembly, the first feeding assembly is matched with the first bead feeding assembly, and the second feeding assembly is matched with the second bead feeding assembly.

As a preferable scheme, the first feeding assembly comprises a first vertical plate positioned above the lifting assembly, a first driving box is mounted at the top of the first vertical plate, a first bottom plate is fixedly mounted at the bottom of the first vertical plate, two first material cups are mounted above the first driving box, two first driving motors are mounted at the bottom of the first driving box, and the two first driving motors are in transmission connection with the two first material cups;

as a preferable scheme, a first guide rod and a first rotating rod are arranged between the first driving box and the first bottom plate, a first steel wire clamp is arranged on the first guide rod, and a first cam for driving the first upper steel wire clamp to open and close is arranged on the first rotating rod;

as a preferred scheme, the second feeding assembly comprises a second vertical plate positioned above the lifting assembly, a second driving box is mounted at the top of the second vertical plate, a second bottom plate is fixedly mounted at the bottom of the second vertical plate, a second material cup is mounted above the second driving box, a second driving motor is mounted at the bottom of the second driving box, and the second driving motor and the second material cup are in movable connection as a preferred scheme;

as a preferable scheme, a second guide rod and a second rotating rod are installed between the second driving box and the second bottom plate, a second wire clamp is installed on the second guide rod, and a second cam for driving the second wire clamp to open and close is installed on the second rotating rod.

Preferably, the first riser is provided with a first steel wire at one side, one end of the first steel wire is inserted into the first cup, and the other end of the first steel wire is inserted into the first bead feeding assembly through the first steel wire clamp.

Preferably, a second steel wire is arranged on the side of the second vertical plate, one end of the second steel wire is inserted into the second cup, and the other end of the second steel wire passes through the second steel wire clamp and is inserted into the second bead feeding assembly.

As a preferable scheme, the number of the first guide rods and the number of the first rotating rods are two, the first steel wire clamp is installed on the two first guide rods, one end of the first steel wire clamp is provided with a first protrusion, and first cams on the two second rotating rods correspond to the first protrusion respectively;

as a preferable scheme, the number of the second guide rod and the second rotating rod is one, the second wire clamp is mounted on the second guide rod, a second protrusion is arranged at one end of the second wire clamp, and a second cam on the second rotating rod corresponds to the position of the second protrusion.

As a preferable scheme, a plurality of first cams are uniformly arranged on the first rotating rod, and the plurality of first cams are spirally arranged on the first rotating rod;

the second cams are uniformly arranged on the second rotating rod, and are spirally arranged on the second rotating rod.

As a preferred scheme, the lifting assembly comprises a fixed plate, a sliding block and a sliding rail are installed on one side of the fixed plate, the sliding block is fixedly connected with the fixed plate, the sliding block is in sliding fit with the sliding rail, a sliding rail plate is fixedly installed on the side wall of the sliding rail, a driving cylinder is fixedly installed on the other side of the fixed plate, and the output end of the driving cylinder is fixedly connected with the end part of the sliding rail plate through a connecting plate.

As a preferable scheme, the first bead feeding assembly comprises a first base plate fixedly arranged, the first base plate is provided with a first side plate, a first bead clamp and a first pusher are slidably mounted on the first base plate, the first bead clamp is provided with a bead clamping hole, and the first side plate is provided with a first swing arm for pushing the first pusher to reciprocate;

as a preferred scheme, a first bead guide block is fixedly mounted on the first substrate, the first bead guide block is provided with a front bead hole and a rear bead hole, and a bead locking bar for closing or opening the front bead hole is mounted on the first bead guide block;

as a preferable scheme, the second bead feeding assembly comprises a second base plate fixedly arranged, the second base plate is provided with a second side plate, a second bead clamp and a second pusher are slidably mounted on the second base plate, the second bead clamp and the second pusher have the same structure as the first bead clamp and the first pusher, and the second side plate is provided with a second swing arm for pushing the second pusher to reciprocate;

as a preferable scheme, a second bead guide block is fixedly mounted on the second substrate, and the second bead guide block is provided with a bead falling hole.

As a preferable scheme, the first substrate is provided with a sliding groove, the bottom of the first bead clamp is provided with a sliding column, the sliding column is installed in the sliding groove, the sliding column is in sliding fit with the sliding groove, and when the sliding column moves to the end part of the sliding groove close to the bead guide block, the bead clamping hole corresponds to the front bead hole;

as a preferable scheme, the second substrate has the same structure as the first substrate, and when the sliding column of the second substrate moves to the end part of the sliding chute close to the second bead guiding block, the bead clamping hole corresponds to the lower column hole;

as a preferred scheme, the first side plate is provided with a stop dog which moves up and down along the first side plate, the stop dog is located at the lowest part, and when the first pusher moves towards one end far away from the first bead guide block and contacts with the stop dog, the bead clamping hole of the first bead clamp corresponds to the position of the rear bead hole.

As a preferable scheme, the first bead clamp comprises a bead clamping end, extrusion grooves are formed in two sides of the bead clamping end, the first pusher comprises a fixing column arranged at the end part, the fixing column is located in the extrusion grooves, and the opening or locking of a bead clamping hole is controlled through the fixing column and the extrusion grooves when the first bead clamp moves along the first pusher.

As a preferable scheme, two first driving wheels and two first driven wheels are installed in the first driving box, the two first driving wheels are fixedly installed at output ends of two first driving motors, the two driven wheels are respectively and fixedly connected with end parts of two first rotating columns, and the first driving wheels are in transmission connection with the first driven wheels;

as a preferable scheme, a second driving wheel and two second driven wheels are installed in the second driving box, the second driving wheel is fixedly installed at the output end of the second driving motor, the second driven wheel is fixedly connected with the end part of the second rotating column, and the first driving wheel is in transmission connection with the first driven wheel.

Due to the adoption of the technical scheme, compared with the prior art, the utility model has the advantages that: the utility model discloses a three-color bead embroidery device on an embroidery machine, which can simultaneously perform bead embroidery operation on three beads with different specifications, has a good bead embroidery effect, effectively reduces the equipment cost and reduces the use area of a field. In conclusion, the three-color bead embroidery device on the embroidery machine has the advantages of reasonable structure and strong function, and is suitable for popularization and application.

The utility model is further described with reference to the following figures and detailed description.

Drawings

Fig. 1 is a schematic view of an overall structure of a three-color pearl embroidery device of an embroidery machine according to the present invention.

FIG. 2 is a schematic side view of a first feeding assembly of a three-color bead embroidery apparatus of an embroidery machine according to the present invention.

Fig. 3 is a partial structural view of a first feeding assembly of a three-color bead embroidery apparatus of an embroidery machine according to the present invention.

Fig. 4 is a partial structural view of a second feeding assembly of a three-color bead embroidery device of an embroidery machine according to the present invention.

Fig. 5 is a top view illustrating a partial structure of a first feeding assembly of a three-color pearl embroidery device of an embroidery machine according to the present invention.

Fig. 6 is a schematic structural view of a lifting assembly of a three-color bead embroidery device on an embroidery machine according to the present invention.

Fig. 7 is a schematic structural view of a lifting assembly of a three-color pearl embroidery device on an embroidery machine according to the present invention.

Fig. 8 is a schematic structural view of a first feeding assembly and a second feeding assembly of a three-color bead embroidery device on an embroidery machine according to the present invention.

Fig. 9 is a partial structural schematic view of a first feeding assembly of a three-color bead embroidery device on an embroidery machine according to the present invention.

Fig. 10 is a partial structural schematic view of a first feeding assembly of a three-color bead embroidery device on an embroidery machine according to the present invention.

Fig. 11 is an exploded view of a part of a first feeding assembly of a three-color bead embroidery apparatus of an embroidery machine according to the present invention.

Detailed Description

Example (b): as shown in fig. 1, a three-color bead embroidery device on an embroidery machine comprises a lifting assembly, wherein a first feeding assembly 1 and a second feeding assembly 2 are fixedly mounted above the lifting assembly, a first bead feeding assembly 4 and a second bead feeding assembly 5 are fixedly mounted below the lifting assembly, the first feeding assembly 1 and the first bead feeding assembly 4 are arranged in a matched manner, and the second feeding assembly 2 and the second bead feeding assembly 5 are arranged in a matched manner.

As shown in fig. 2, 3 and 5, the first feeding assembly 1 includes a first vertical plate 106 located above the lifting assembly 3, a first driving box 102 is installed on the top of the first vertical plate 106, a first bottom plate 113 is fixedly installed at the bottom of the first vertical plate 106, two first material cups 101 are installed above the first driving box 102, two first driving motors 103 are installed at the bottom of the first driving box 102, and the two first driving motors 103 are in transmission connection with the two first material cups 101;

a first guide rod 107 and a first rotating rod 104 are arranged between the first driving box 102 and the first bottom plate 113, a first steel wire clamp is arranged on the first guide rod 107, and a first cam 105 for driving the first upper steel wire clamp to open and close is arranged on the first rotating rod 104;

as shown in fig. 4, the second feeding assembly 2 includes a second vertical plate 208 located above the lifting assembly, a second driving box 201 is installed on the top of the second vertical plate 208, a second bottom plate 211 is fixedly installed at the bottom of the second vertical plate 208, a second material cup 209 is installed above the second driving box 201, a second driving motor 210 is installed at the bottom of the second driving box 201, and the second driving motor 210 is in transmission connection with the second material cup 209;

a second guide rod 205 and a second rotating rod 204 are arranged between the second driving box 201 and the second bottom plate 211, a second wire clamp 206 is arranged on the second guide rod 205, and a second cam 212 for driving the second wire clamp 206 to open and close is arranged on the second rotating rod 204.

As shown in fig. 7, a first steel wire 6 is provided on a side of the first riser 106, one end of the first steel wire 6 is inserted into the first cup 101, and the other end of the first steel wire 6 is inserted into the first bead feeding assembly 4 through the first wire clamp.

A second steel wire 7 is arranged at the side of the second vertical plate 208, one end of the second steel wire 7 is inserted into the second cup 209, and the other end of the second steel wire 7 is inserted into the second bead feeding assembly 5 through the second steel wire clamp 206.

The number of the first guide rods 107 and the number of the first rotating rods 104 are two, the first wire clamps are mounted on the two first guide rods 107, one ends of the first wire clamps are provided with first bulges, and the first cams 105 on the two second rotating rods 204 correspond to the first bulges respectively; the first wire clamp includes an upper wire clamp 109 and a lower wire clamp 108 in close proximity. The plurality of first cams 105 correspond to the protrusions 113 and 112 of the upper and lower wire clamps 109 and 109, respectively.

One second guide rod 205 and one second rotating rod 204 are respectively arranged, the second wire clamp 206 is installed on the second guide rod 205, one end of the second wire clamp 206 is provided with a second protrusion 207, and the second cam 212 on the second rotating rod 204 corresponds to the second protrusion 207 respectively.

A plurality of first cams 105 are uniformly arranged on the first rotating rod 104, and the plurality of first cams 105 are spirally arranged on the first rotating rod 104;

a plurality of second cams 212 are uniformly mounted on the second rotating rod 204, and the plurality of second cams 212 are spirally arranged on the second rotating rod 204.

As shown in fig. 5 and 6, the lifting assembly includes a fixed plate 301, a sliding block 304 and a sliding rail 303 are mounted on one side of the fixed plate 301, the sliding block 304 is fixedly connected with the fixed plate 301, the sliding block 304 is in sliding fit with the sliding rail 303, a sliding rail plate 302 is fixedly mounted on a side wall of the sliding rail 303, a driving cylinder 305 is fixedly mounted on the other side of the fixed plate 301, and an output end of the driving cylinder 305 is fixedly connected with an end portion of the sliding rail plate 303 through a connecting plate.

As shown in fig. 9 and 10, the first bead feeding assembly 4 includes a first base plate 401 fixedly disposed, the first base plate 401 is provided with a first side plate 402, a first bead clamp 406 and a first pusher 411 are slidably mounted on the first base plate 401, the first bead clamp 406 is provided with a bead clamping hole, and the first side plate 402 is provided with a first swing arm 410 for pushing the first pusher 411 to reciprocate; the first swing arm is driven by a first reciprocating motor.

As shown in fig. 11, the first ball clamp 406 includes a base structure 415, a middle structure 416 is disposed in the middle of the base structure 415, side structures 417 are disposed on two sides of the base structure 415, the side structures 417 and the middle structure 416 are disposed on the same side of the base structure 415, the middle structure 416 is longer than the base structure 415, a gap is left between the side structures 417 and the base structure 415 to form an inner groove, a clamping structure 418 is disposed between the side structures 417 and the base structure 415, one end of the clamping structure 418 extends along the side wall of the middle structure 416 toward the end away from the base structure 415 to form a clamping end, the ends of the two clamping ends are provided with arc-shaped notches 406, the two arc-shaped notches 406 form a complete ball clamping hole after the two clamping ends are closed, one end of the clamping structure 418 away from the clamping end extends along the inner groove and is connected with the ends of the side structures 417, the clamping structure 418 and the side wall of the inner groove are connected with the end of the inner groove, The side walls of the middle structure 416 are provided with gaps, the outer side walls of the clamping ends are provided with extrusion grooves 419, the extrusion grooves 419 are obliquely arranged, the bottoms of the extrusion grooves 419 are positioned on one side, close to the base structure 415, of the side walls of the clamping ends, and the notches of the extrusion grooves 419 are positioned on one side, far away from the base structure 415, of the side walls of the clamping ends. The second bead clamp is identical in structure to the first bead clamp.

A first bead guide block 403 is fixedly mounted on the first substrate 401, the first bead guide block 403 is provided with a front bead hole 405 and a rear bead hole 404, and a locking bead 413 for closing or opening the front bead hole 405 is mounted on the first bead guide block 403;

first base plate fixed mounting has first electro-magnet, the output and the lock pearl strip fixed connection of first electro-magnet, and first pearl piece 403 of leading is provided with the cross slot, lock pearl strip 413 and cross slot sliding fit.

The second bead sending assembly 5 comprises a second substrate 501 fixedly arranged, the second substrate 501 is provided with a second side plate 502, a second bead clamp 506 and a second pusher 505 are slidably mounted on the second substrate 501, the second bead clamp 506 and the second pusher 505 have the same structure as the first bead clamp 406 and the first pusher 411, and a second swing arm 507 for pushing the second pusher 505 to reciprocate is mounted on the second side plate 502; the second swing arm 507 is driven by a second reciprocating motor.

The second substrate 501 is fixedly mounted with a second bead guiding block 503, and the second bead guiding block 503 is provided with a bead lower hole 504.

The first substrate 401 is provided with a sliding groove 412, the bottom of the first ball clamp 406 is provided with a sliding column 413, the sliding column 413 is installed in the sliding groove 412, the sliding column 413 is in sliding fit with the sliding groove 412, and when the sliding column 413 moves to the end part of the sliding groove 412 close to the ball guide block, the ball clamping hole corresponds to the front ball hole 405;

the second substrate 501 has the same structure as the first substrate 401, and when the sliding column of the second substrate 501 moves to the end of the sliding chute close to the second bead guiding block 503, the bead clamping hole of the second substrate corresponds to the position of the bead dropping hole 504;

the first side plate 402 is provided with a stopper 408 moving up and down along the first side plate 402, the stopper 408 is located at the lowest part, and when the first pusher 411 moves towards one end far away from the first bead guiding block 403 and contacts with the stopper 408, the bead clamping hole of the first bead clamp 406 corresponds to the position of the rear bead hole 404. The second side plate 402 is fixedly provided with a second electromagnet on the side wall, and the output end of the second electromagnet is fixedly connected with the stop block.

The first ball clamp 406 comprises a ball clamping end, pressing grooves 419 are formed in two sides of the ball clamping end, the first pusher 411 comprises fixing columns 422 arranged at the end portion, the fixing columns 422 are located in the pressing grooves 419, and opening or locking of a ball clamping hole is controlled through the fixing columns 422 and the pressing grooves 419 when the first ball clamp 406 moves along the first pusher 411.

Two first driving wheels 110 and two first driven wheels 111 are installed in the first driving box 102, the two first driving wheels 110 are fixedly installed at the output ends of the two first driving motors 103, and the two driven wheels 111 are respectively fixedly connected with the end parts of the two first rotating columns 104, the first driving wheels 110 are in transmission connection with the first driven wheels 111;

a second driving wheel 203 and two second driven wheels 202 are installed in the second driving box 201, the second driving wheel 203 is fixedly installed at the output end of a second driving motor 210, the second driven wheels 202 are fixedly connected with the end part of a second rotating column 204, and the first driving wheel 110 is in transmission connection with the first driven wheels 202.

In the double-color bead embroidery device, the working processes of the first feeding assembly and the second feeding assembly are as follows: the material is put into the hopper, the material enters into first material cup and second material cup from the hopper, first driving motor, second driving motor drives first material cup and second material cup to rotate simultaneously when rotating, simultaneously, first bull stick and second bull stick also follow and rotate, at this moment, first material cup, the ball material in the second material cup is along corresponding first steel wire, the second steel wire shifts out then falls corresponding first steel wire clamp, the second steel wire clamp from two material cups, first cam also rotates with the second cam simultaneously, because a plurality of first cams, the second cam is the spiral arrangement, from top to bottom first steel wire clamp, the second steel wire clamp can open in proper order, the pearl on the steel wire can be in proper order the segmentation and fall, send to on sending the pearl subassembly.

The working process of the lifting assembly is as follows: the guide rail plate of the lifting device is fixed on a fixing frame of the whole embroidery machine, and when the height of the three-color bead embroidery device needs to be adjusted, the air cylinder drives the whole three-color bead embroidery device to ascend or descend, so that the height is adjusted.

The working process of the first bead feeding assembly is as follows: beads of different specifications enter the front bead hole and the rear bead hole along the first steel wire, at the moment, the bead clamping hole of the first bead clamp corresponds to the front bead hole, the bead locking strip is located in the transverse groove of the first bead guide block and blocks the front bead hole, when embroidering needs to be conducted on the beads in the front bead hole, the electromagnet pushes the bead locking strip to move, the beads in the front bead hole fall into the bead clamping hole of the first bead clamp, at the moment, the first reciprocating motor drives the first swing arm to move, the first pusher pushes the first bead clamp to move, meanwhile, under the influence of the movement of the fixing column 422 in the extrusion groove 419, the bead clamping hole of the first bead clamp is tightened, the beads are clamped and locked, when the sliding column 413 moves to the end, close to the first bead guide block 403, the first swing arm 410 moves back, and meanwhile, the bead clamping hole of the first bead clamp loosens the embroidering and the beads are operated.

When beads in the rear bead hole 404 need to be used, the first electromagnet drives the bead locking bar to enter the transverse groove of the first bead guiding block 403 to block the front bead hole 405, the electromagnet moves the stop block 408 downwards, the first swing arm 410 drives the first pusher 411 to move back, when the end portion of the first pusher 411 is in contact with the stop block 408, the first pusher is stopped under the influence of the stop block 408, the rear bead hole 404 corresponds to the bead clamping hole, beads in the rear bead hole 404 fall into the bead clamping hole, and the first swing arm 410 pushes the first pusher to send out the bead clamp. The process is the same as above.

The working process of the second bead feeding assembly is as follows: the beads of the second material cup enter the bead falling hole 504 along the second steel wire, at this time, the bead clamping hole of the second bead clamp 506 corresponds to the bead falling hole 504, the beads fall into the bead clamping hole of the second bead clamp 506, and the second swing arm is pushed out to complete the feeding operation.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a three-colour pearl embroidery device on embroidery machine, includes lifting unit, its characterized in that: the bead feeding device is characterized in that a first feeding assembly and a second feeding assembly are fixedly mounted above the lifting assembly, a first bead feeding assembly and a second bead feeding assembly are fixedly mounted below the lifting assembly, the first feeding assembly and the first bead feeding assembly are arranged in a matched mode, and the second feeding assembly and the second bead feeding assembly are arranged in a matched mode.

2. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 1, wherein: the first feeding assembly comprises a first vertical plate positioned above the lifting assembly, a first driving box is mounted at the top of the first vertical plate, a first bottom plate is fixedly mounted at the bottom of the first vertical plate, two first material cups are mounted above the first driving box, two first driving motors are mounted at the bottom of the first driving box, and the two first driving motors are in transmission connection with the two first material cups;

a first guide rod and a first rotating rod are arranged between the first driving box and the first bottom plate, a first steel wire clamp is arranged on the first guide rod, and a first cam for driving the first upper steel wire clamp to open and close is arranged on the first rotating rod;

the second feeding assembly comprises a second vertical plate positioned above the lifting assembly, a second driving box is mounted at the top of the second vertical plate, a second bottom plate is fixedly mounted at the bottom of the second vertical plate, a second material cup is mounted above the second driving box, a second driving motor is mounted at the bottom of the second driving box, and the second driving motor is in transmission connection with the second material cup;

a second guide rod and a second rotating rod are arranged between the second driving box and the second bottom plate, a second steel wire clamp is arranged on the second guide rod, and a second cam for driving the second steel wire clamp to open and close is arranged on the second rotating rod;

a first steel wire is arranged on the side of the first vertical plate, one end of the first steel wire is inserted into the first material cup, and the other end of the first steel wire penetrates through the first steel wire clip and is inserted into the first bead feeding assembly;

and a second steel wire is arranged on the side part of the second vertical plate, one end of the second steel wire is inserted into the second material cup, and the other end of the second steel wire penetrates through the second steel wire clamp and is inserted into the second bead feeding assembly.

3. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 2, wherein: the first guide rods and the first rotating rods are respectively provided with two first steel wire clamps, the first steel wire clamps are arranged on the two first guide rods, one ends of the first steel wire clamps are provided with first bulges, and first cams on the two second rotating rods respectively correspond to the first bulges;

the second guide rod and the second rotating rod are respectively provided with one second steel wire clamp, the second steel wire clamp is installed on the second guide rod, one end of the second steel wire clamp is provided with a second bulge, and second cams on the second rotating rod respectively correspond to the second bulges in position.

4. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 3, wherein: a plurality of first cams are uniformly arranged on the first rotating rod and are spirally arranged on the first rotating rod;

the second cams are uniformly arranged on the second rotating rod, and are spirally arranged on the second rotating rod.

5. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 1, wherein: the lifting assembly comprises a fixed plate, a sliding block and a sliding rail are installed on one side of the fixed plate, the sliding block is fixedly connected with the fixed plate, the sliding block is in sliding fit with the sliding rail, a sliding rail plate is fixedly installed on the side wall of the sliding rail, a driving air cylinder is fixedly installed on the other side of the fixed plate, and the output end of the driving air cylinder is fixedly connected with the end portion of the sliding rail plate through a connecting plate.

6. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 5, wherein: the first bead feeding assembly comprises a first base plate which is fixedly arranged, the first base plate is provided with a first side plate, a first bead clamp and a first pusher are slidably mounted on the first base plate, the first bead clamp is provided with a bead clamping hole, and the first side plate is provided with a first swing arm which pushes the first pusher to reciprocate;

the first substrate is fixedly provided with a first bead guide block, the first bead guide block is provided with a front bead hole and a rear bead hole, and the first bead guide block is provided with a bead locking strip for closing or opening the front bead hole;

the second bead feeding assembly comprises a second substrate which is fixedly arranged, the second substrate is provided with a second side plate, a second bead clamp and a second pusher are slidably mounted on the second substrate, the second bead clamp and the second pusher have the same structure as the first bead clamp and the first pusher, and a second swing arm for pushing the second pusher to reciprocate is mounted on the second side plate;

the second base plate is fixedly provided with a second bead guide block, and the second bead guide block is provided with a bead lower hole.

7. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 6, wherein: the first substrate is provided with a sliding groove, the bottom of the first bead clamp is provided with a sliding column, the sliding column is installed in the sliding groove, the sliding column is in sliding fit with the sliding groove, and when the sliding column moves to the end part of the sliding groove close to the bead guide block, the bead clamping hole corresponds to the front bead hole;

the second substrate has the same structure as the first substrate, and when the sliding column of the second substrate moves to the end part of the sliding groove close to the second bead guide block, the bead clamping hole corresponds to the lower column hole.

8. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 7, wherein: the first side plate is provided with a stop dog which moves up and down along the first side plate, the stop dog is positioned at the lowest part, and when the first pusher moves towards one end far away from the first bead guide block and contacts with the stop dog, the bead clamping hole of the first bead clamp corresponds to the position of the rear bead hole.

9. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 6, wherein: the first bead clamp comprises a bead clamping end, extrusion grooves are formed in two sides of the bead clamping end, the first pusher comprises a fixing column arranged at the end portion, the fixing column is located in the extrusion grooves, and the opening or locking of a bead clamping hole is controlled through the fixing column and the extrusion grooves when the first bead clamp moves along the first pusher.

10. The three-color bead embroidering apparatus of the embroidering machine as claimed in claim 2, wherein: two first driving wheels and two first driven wheels are installed in the first driving box, the two first driving wheels are fixedly installed at the output ends of the two first driving motors, and the two driven first driving wheels are respectively fixedly connected with the end parts of the two first rotating columns, and the first driving wheels are in transmission connection with the first driven wheels;

a second driving wheel and two second driven wheels are installed in the second driving box, the second driving wheel is fixedly installed at the output end of a second driving motor, the second driven wheels are fixedly connected with the end portions of the second rotating columns respectively, and the first driving wheel is in transmission connection with the first driven wheel.

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