CN114053734B - Automatic line cutting device that trades of public young plant hair machine multiple colors - Google Patents

Abstract

According to the multi-color automatic line changing and cutting device for the doll hair planting machine, provided by the invention, the linkage mechanism and the manual transmission mechanism are arranged on the base, so that the positions of parts mounted on the support column can be adjusted back and forth, the length of a line when a doll is planted is controlled, and meanwhile, the corresponding line hooking mechanism is selected to work in the production process to realize automatic line selection or line changing through the mutual matching of the cylinder assemblies, the guide rail assemblies, the L-shaped mounting pieces and the line hooking mechanisms.

Description

Automatic line cutting device that trades of public young plant hair machine multiple colors

Technical Field

The invention belongs to the technical field of doll processing equipment, and particularly relates to a multi-color automatic line changing and cutting device of a doll hair planting machine.

Background

The doll products are derived products of cartoon videos, cartoon books and periodicals and net game character objects from the United states, japan, korea and the like, and are the products of original cartoon animals and cartoon character image objects, unfortunately, good products are different from the toy concepts in the traditional sense, and the doll has cultural connotation, story line and individuality and personalized concepts, so that the doll is loved and liked by adults.

But in actual production process, public young hair is more, needs to plant and tailor, and traditional cutting device is mostly decides the stake installation, can't be according to the problem of the position of public young size adjustment cutting device, and current cutting device can not trade the line simultaneously, so we propose a public young hair planting machine multiple colour automatic line cutting device that trades.

Disclosure of Invention

In view of the shortcomings of the prior art, the invention aims to provide a multi-color automatic line changing and cutting device of a doll hair planting machine, which aims to solve the problems that the prior art cannot adjust the size and can not change lines.

In order to achieve the above purpose, the invention adopts the following technical scheme:

automatic line cutting device that trades of public young plant hair machine multiple colors, its characterized in that includes:

a base, wherein the middle part of the base is provided with a first through hole, and the position, close to the end part, of the base is provided with a second through hole;

The linkage mechanism is arranged at the bottom of the base and comprises two transmission blocks, first installation blocks and threaded rotating shafts, wherein the first installation blocks penetrate through the first through holes and extend to the top of the base, the threaded rotating shafts are respectively sleeved on the side surfaces of the two first installation blocks in a penetrating mode, the transmission blocks are sleeved on the threaded rotating shafts, and one end of each threaded rotating shaft is provided with an oblique gear;

the manual transmission mechanism comprises an adjusting disc, an adjusting rod and an installing seat, wherein the installing seat is arranged at the top of the base, the adjusting rod penetrates through the installing seat and extends to the bottom of the base from the second through hole, one end of the adjusting rod is connected with the adjusting disc, an oblique gear is arranged at the other end of the adjusting rod, and the end part of the adjusting rod is meshed with the end part of the threaded rotating shaft through the oblique gear;

The first guide rail group is arranged at the top of the base and is arranged at two sides of the first through hole in parallel;

the first bearing plate is arranged at the top of the transmission block;

the sliding blocks are arranged at the bottoms of the transmission blocks and are respectively sleeved on the first guide rail groups;

A support column disposed on top of the first receiving plate;

The first motor is arranged on the side surface of the support column;

The power connection mechanism is arranged at the top of the first motor and on the side surface of the support column, and an output end of the power connection mechanism is provided with an oblique gear;

the second bearing plate is arranged at the top of the power engagement mechanism;

the power transmission mechanism comprises two second installation blocks, a transmission shaft and first connecting pieces with inclined gears, wherein the first connecting pieces are fixedly sleeved on the transmission shaft;

the first supporting plate is arranged at the top of the second bearing plate, and the transmission shaft penetrates through the first supporting plate;

the second motor is arranged on the side surface of the first supporting plate, and a gear is arranged at the output end of the second motor;

The sliding block group is arranged at the top of the second bearing plate;

The second guide rail set is sleeved with the sliding block set, an installation box body is arranged at the top of the second guide rail set, a rack rail is arranged in the installation box body and is meshed with the output end of the second motor, and the transmission shaft penetrates through the installation box body;

The cylinder assemblies are arranged on the side surface of the mounting box body close to the top;

The guide rail assemblies are arranged on the side surfaces of the mounting box body;

The L-shaped mounting pieces are arranged on the side surfaces of the guide rail assemblies, and the tops of the L-shaped mounting pieces are connected with the output ends of the air cylinder assemblies;

The wire hooking mechanisms are sleeved on the L-shaped mounting piece, and when the air cylinder assembly is selected as a working object, the air cylinder assembly indirectly pushes the wire hooking mechanisms to sink so that the wire hooking mechanisms are meshed with the output end of the transmission shaft and drive the wire hooking mechanisms to rotate;

and the cutting mechanism is arranged on the side surface of the power connection mechanism and is used for cutting off the thread hooked by the thread hooking mechanism.

Preferably, the power connection mechanism comprises a shell, a rolling shaft and an output shaft, two ends of the rolling shaft are respectively arranged on two opposite side surfaces of the shell, an oblique gear is sleeved on the inner side of the end part of the rolling shaft, an oblique gear is arranged at the bottom of the output shaft, an oblique gear is arranged at the power output end of the first motor, the output shaft and the output end of the first motor are in a straight line, the rolling shaft is perpendicular to the output shaft, the first motor transmits power to the output shaft, an oblique gear is arranged at the top of the output shaft, and an outwards extending mounting bracket is arranged on the side surface of the shell.

Preferably, the cutting mechanism comprises a first bracket, a second bracket, a third bracket, a fourth bracket, a first cutter, a second cutter, a cylinder clamping device and a deconcentrator, wherein one end of the first bracket is connected with the roller by adopting a rolling bearing, the other end of the first bracket is connected with one end of the second bracket by adopting a rolling bearing, one end of the third bracket is connected with the middle part of the second bracket by adopting a rolling bearing, the end part of the mounting bracket is clamped at the junction of one end of the third bracket and the middle part of the second bracket, the third bracket is fixedly connected with the fourth bracket, the deconcentrator is arranged at the end part of the fourth bracket, the first cutter is arranged at the end part of the second bracket, the cylinder clamping device is arranged at the end part of the third bracket by the side surface, and comprises a fixed end and a sleeve fixed end of the third bracket by the side surface and a mini cylinder fixed in the third bracket, the movable end of the movable end is pushed by the movable end is connected with the movable end, the movable end is clamped with the movable end of the movable end, the mini-type torque wire is arranged at the third bracket by the side surface, the mini torque wire limiting device is arranged at the end of the mini torque wire limiting device, and the mini torque wire limiting device is arranged at the side surface of the third bracket.

Preferably, the deconcentrator comprises a mounting sheet, a first support sheet and a second support sheet, wherein the mounting sheet is fixed with the end part of the fourth support, the first support sheet and the second support sheet are parallel and are all mounted on the side surface of the mounting sheet, and the length of the first support sheet is greater than that of the second support sheet.

Preferably, the thread hooking mechanism comprises a fixed block, a thread hooking rod and a rotating rod, wherein the fixed block is sleeved on the rotating rod, the thread hooking rod is fixed with the fixed block, the thread hooking rod is L-shaped, the long side of the thread hooking rod is perpendicular to the rotating rod, a plurality of thread hooking convex rings used for threading are arranged on the side face of the thread hooking rod, the rotating rod can penetrate through the L-shaped mounting part in a rotating mode, and a second connecting part with an oblique gear is arranged on the rod body of the rotating rod.

Preferably, a concave protection pad is arranged at the bottom of the first mounting block.

Preferably, limiting blocks are respectively arranged at the two ends of the top of the base.

Compared with the prior art, the invention has the beneficial effects that:

according to the multi-color automatic line changing and cutting device for the doll hair planting machine, provided by the invention, the linkage mechanism and the manual transmission mechanism are arranged on the base, so that the positions of parts mounted on the support column can be adjusted back and forth, the length of a line when a doll is planted is controlled, and meanwhile, the corresponding line hooking mechanism is selected to work in the production process to realize automatic line selection or line changing through the mutual matching of the cylinder assemblies, the guide rail assemblies, the L-shaped mounting pieces and the line hooking mechanisms.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an overall block diagram of another aspect of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is an enlarged view of a partial structure of the present invention;

fig. 5 is an enlarged view of another partial structure of the present invention.

Reference numerals:

10. Base 20, linkage 201, drive block 202, first mounting block 203, threaded rotary shaft 30, manual transmission mechanism 301, adjustment plate 302, adjustment rod 303, mount 40, first rail set 50, first receiving plate 60, slide 70, support post 80, first motor 90, power adapter 100, second receiving plate 110, power transmission mechanism 1101, second mounting block 1102, drive shaft 1103, first adapter 120, first support plate 130, second motor 140, slide set 150, second rail set 160, rack rail 170, cylinder assembly 180, rail assembly 200, wire hooking mechanism 210, cutting mechanism 901, housing 902, roller 2101, first bracket 2102, second bracket 2103, third bracket 2104, fourth bracket 2105, wire distributor 2106, first cutter 2107, second cutter 2108, cylinder clamp 21081, fixed end 21062, mini cylinder 2001, fixed block 2002, wire hooking rod 2003, 20031, second adapter 220, and concave pad 230.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and more specific, the present invention will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1-5, the invention provides a device for automatically changing lines of a doll hair-planting machine in various colors, which comprises:

a base 10 having a plate shape, a first through hole being provided in the middle, and a second through hole being provided near the end;

The linkage mechanism 20 is arranged at the bottom of the base 10, the linkage mechanism 20 comprises two transmission blocks 201, two first installation blocks 202 and threaded rotating shafts 203, the first installation blocks 202 are fixed at the bottom of the base 10, the transmission blocks 201 penetrate through the first through holes and extend to the top of the base 10, the threaded rotating shafts 203 are respectively sleeved on the side surfaces of the two first installation blocks 202 in a penetrating mode, the transmission blocks 201 are sleeved on the threaded rotating shafts 203, and one end of each threaded rotating shaft 203 is provided with an oblique gear;

The manual transmission mechanism 30 comprises an adjusting disc 301, an adjusting rod 302 and an installing seat 303, wherein the installing seat 303 is arranged at the top of the base 10, the adjusting rod 302 penetrates through the installing seat 303 and extends to the bottom of the base 10 from the second through hole, one end of the adjusting rod 302 is connected with the adjusting disc 301, an inclined gear is arranged at the other end of the adjusting rod 302, the end of the adjusting rod 302 is meshed with the end of the threaded rotating shaft 203 through the inclined gear, the adjusting rod 302 can be driven to rotate by manually rotating the adjusting disc 301, the threaded rotating shaft 203 is driven to rotate by rotating the adjusting rod 302, and therefore the transmission block 201 is driven to move along the threaded rotating shaft 203;

A first guide rail group 40 disposed at the top of the base 10, and the first guide rail group 40 is disposed in parallel at both sides of the first through hole;

A first receiving plate 50 provided on top of the driving block 201;

the sliding blocks 60 are arranged at the bottom of the transmission block 201 and are respectively sleeved on the first guide rail group 40;

a support column 70 disposed on top of the first receiving plate 50;

The first bearing plate 50 drives the sliding block 60 to move along the first guide rail set 40 through the movement of the transmission block 201 along the threaded rotating shaft 203, and drives the support column 70 to move back and forth, so that the change of the distance of the whole device in the wire cutting process is realized, and the dimensional control of the wire is realized.

A first motor 80 disposed at a side of the support column 70;

A power engagement mechanism 90 disposed at the top of the first motor 80 and on the side of the support column 70, wherein an output end of the power engagement mechanism 90 is provided with an oblique gear;

A second receiving plate 100 provided on top of the power engagement mechanism 90;

The power transmission mechanism 110 comprises two second mounting blocks 1101, a transmission shaft 1102 and first connecting pieces 1103 with oblique gears, wherein the first connecting pieces 1103 are fixedly sleeved on the transmission shaft 1102, the second mounting blocks 1101 are arranged at the top of the second bearing plate 100, the transmission shaft 1102 is respectively sleeved on the side surfaces of the two second mounting blocks 1101 in a penetrating way, the output ends of the transmission shaft 1102 are provided with the oblique gears, and the first connecting pieces 1103 are meshed with the output ends of the power connecting mechanisms 90;

The power of the first motor 80 is transferred to the power transmission mechanism 110 through the power engagement mechanism 90, and the power transmission mechanism 110 transmits the power to the subsequent power for the thread hooking mechanism 200.

A first support plate 120 disposed on top of the second receiving plate 100, and the driving shaft 1102 penetrates the first support plate 120;

the second motor 130 is arranged on the side surface of the first supporting plate 120, a gear is arranged at the output end of the second motor 130, and the second motor 130 provides power for selecting which thread hooking mechanism to use;

a slider group 140 disposed on top of the second receiving plate 100;

The second guide rail set 150, the sliding block set 140 is sleeved on the second guide rail set 150, an installation box body is arranged at the top of the second guide rail set 150, a rack rail 160 is arranged in the installation box body, the rack rail 160 is meshed with the output end of the second motor 130, and the transmission shaft 1102 penetrates through the installation box body, and attention is paid to distinguishing the installation box body from a protective cover outside the installation box body;

The second motor 130 rotates to drive the rack rail 160 to move so as to realize the integral movement of the mounting box body.

A plurality of cylinder assemblies 170 disposed at the side of the mounting box body near the top;

a plurality of guide rail assemblies 180 disposed at the sides of the mounting box;

A plurality of L-shaped mounting members 190 provided at sides of the rail assembly 180, and a top of the L-shaped mounting members 190 is connected with an output end of the cylinder assembly 170;

The plurality of thread hooking mechanisms 200 are sleeved on the L-shaped mounting piece 190, and when the air cylinder assembly 170 is selected as a working object, the air cylinder assembly 170 indirectly pushes the thread hooking mechanisms 200 to sink so that the thread hooking mechanisms 200 are meshed with the output end of the transmission shaft 1102, and the thread hooking mechanisms 200 are driven to rotate, namely the power for rotating the thread hooking mechanisms 200 is from the first motor 80;

and a cutting mechanism 210 disposed at a side of the power engagement mechanism 90 and configured to cut the thread hooked by the thread hooking mechanism 200.

In the working process, the second motor 130 drives the mounting box to move to determine the horizontal position of the hooking mechanism 200, then the corresponding air cylinder assembly 170 indirectly pushes the hooking mechanism 200 to sink, so that the hooking mechanism 200 is meshed with the output end of the transmission shaft 1102, and drives the hooking mechanism 200 to rotate, when other hooking mechanisms 200 need to be switched, the air cylinder assembly 170 indirectly pulls the hooking mechanism 200 back to the original position at the vertical position, and then the second motor 130 rotates under the action of the external controller according to the instruction, so that the hooking mechanism 200 needing to be operated reaches the designated horizontal position.

In this embodiment, the power engagement mechanism 90 includes a housing 901, a roller 902 and an output shaft 903, two ends of the roller 902 are respectively disposed on two opposite sides of the housing 901, an oblique gear is sleeved on an inner side of an end portion of the roller 902, an oblique gear is disposed at a bottom of the output shaft 903, an oblique gear is disposed at a power output end of the first motor 80, the output shaft 903 and an output end of the first motor 80 are on a straight line, the roller 902 is perpendicular to the output shaft 903, the first motor 80 transmits power to the output shaft 903, an oblique gear is disposed at a top of the output shaft 903, and an outwardly extending mounting bracket is disposed on a side surface of the housing 901.

In this embodiment, the cutting mechanism 210 includes first support 2101, second support 2102, third support 2103, fourth support 2104, deconcentrator 2105, first cutter 2106, second cutter 2107 and cylinder clamping device 2108, the one end of first support 2101 with the roller bearing adopts antifriction bearing to be connected, the other end of first support 2101 with the one end of second support 2102 adopts antifriction bearing to be connected, the one end of third support 2103 with the middle part of second support 2102 adopts antifriction bearing to be connected, the tip clamp of installing support is established the one end of third support 2103 with the junction at the middle part of second support 2102, third support 2103 with fourth support 2104 fixed connection, deconcentrator 2105 sets up the tip of fourth support 2104, first cutter 2106 sets up the tip of second support 2102, cylinder clamping device sets up 2108 and is in the tip of third support 2103 is by the side, clamping device includes that third support 2108 sets up the tip is in the third support 21024 with the tip is in the third support 3583 is in the tip is in the connection of third support 21024 with the second support 2103, the other end is in the tip is in the connection with the second support 2103 is in the mini-type air cylinder 21083, the mini-moving wire is set up in the tip of air cylinder 2103, the mini-type air-moving device is in the end of air cylinder 2103.

Specifically, the first cutter 2106 is used to cut off the hair line during normal winding, and the second cutter 2107 and the cylinder clamping device 2108 are used to clamp the hair line and cut off the excess hair line during winding and replacing the other hooking mechanism 200. For example, when one of the thread hooking mechanisms 200 is in an operating state, when the thread hooking mechanism 200 approaches the first cutter 2106, the first cutter 2106 is in a closed state, the second cutter 2107 is in an open state under the action of the mini cylinder 21083, and when the thread hooking mechanism 200 is parallel to the cutters, the mini cylinder 21083 pushes the movable end to drive the second cutter 2107 to cut off the hair. It should be noted that after the second motor 130 selects the thread hooking mechanism 200, the corresponding guide rail assembly 180 is pressed down, the thread hooking mechanism 200 advances downward to enter the working state, at this time, the movable end and the fixed end of the cylinder clamping device 2108 clamp the hair line, the first motor 80 drives the thread hooking mechanism 200 to rotate, when the first cutter 2106 rotates to be parallel to the cutters, the hair line is cut off, the thread hooking mechanism 200 is lifted by the cylinder assembly 180 after cutting, then the corresponding thread hooking mechanism 200 is reselected, after cutting, the second cutter 2107 is opened, the clamping is released, the thread hooking assembly 200 is selected to be completed, and then the clamping is performed. It should also be noted that the first motor 80 is also used to drive the first cutter 2106 to cut, so that the synchronism between the rotation of the thread hooking mechanism and the movement of the first cutter 2106 is ensured during the design process.

In this embodiment, the deconcentrator 2105 includes mounting plate, first piece and second piece, the mounting plate with the tip of fourth support 2104 is fixed, first piece with the second piece is parallel and all installs the side of mounting plate, the length of first piece is greater than the second piece, deconcentrator 2105's effect is so that the hair-line is convenient for cutter tangent line after being pushed down.

In this embodiment, the thread hooking mechanism 200 includes a fixing block 2001, a thread hooking rod 2002 and a rotating rod 2003, the fixing block 2001 is sleeved on the rotating rod 2003, the thread hooking rod 2002 is fixed with the fixing block 2001, the thread hooking rod 2002 is L-shaped, a long side of the thread hooking rod 2002 is perpendicular to the rotating rod 2003, a plurality of thread hooking convex rings for threading are arranged on a side surface of the thread hooking rod 2002, the rotating rod 2003 rotatably penetrates through the L-shaped mounting piece 190, a second connecting piece 20031 with an oblique gear is arranged on a rod body of the rotating rod 2003, the thread hooking rod 2002 performs 360-degree rotation to hook a thread, and then the thread is cut off by the cutting mechanism 210 and then is cut off again.

In this embodiment, the concave protection pad 220 is disposed at the bottom of the first mounting block 202, which is more stable.

In this embodiment, the two ends of the top of the base 10 are respectively provided with a limiting block 230 to prevent the sliding block 60 from sliding out of the track.

In summary, the working principle of the invention is as follows:

According to the multi-color automatic line changing and cutting device of the doll hair planting machine, the transmission block 201 moves along the threaded rotating shaft 203, so that the first bearing plate 50 drives the sliding block 60 to move along the first guide rail group 40 and drives the support column 70 to move back and forth, the distance of the whole device in the line cutting process is changed, and the line size control is realized; the second motor 130 drives the mounting box to move to determine the horizontal position of the hooking mechanism 200, then the corresponding air cylinder assembly 170 indirectly pushes the hooking mechanism 200 to sink, so that the hooking mechanism 200 is meshed with the output end of the transmission shaft 1102, and drives the hooking mechanism 200 to rotate, when another hooking mechanism 200 needs to be switched, the air cylinder assembly 170 indirectly pulls the hooking mechanism 200 back to the original position at the vertical position, and then the second motor 130 rotates under the action of an external controller according to instructions, so that the hooking mechanism 200 needing to be operated reaches the designated horizontal position.

It will be understood that equivalents and modifications will occur to those skilled in the art in light of the present invention and their spirit, and all such modifications and substitutions are intended to be included within the scope of the present invention as defined in the following claims.

Claims (7)

1. Automatic line cutting device that trades of public young plant hair machine multiple colors, its characterized in that includes:

a base, wherein the middle part of the base is provided with a first through hole, and the position, close to the end part, of the base is provided with a second through hole;

The linkage mechanism is arranged at the bottom of the base and comprises two transmission blocks, first installation blocks and threaded rotating shafts, wherein the first installation blocks penetrate through the first through holes and extend to the top of the base, the threaded rotating shafts are respectively sleeved on the side surfaces of the two first installation blocks in a penetrating mode, the transmission blocks are sleeved on the threaded rotating shafts, and one end of each threaded rotating shaft is provided with an oblique gear;

the manual transmission mechanism comprises an adjusting disc, an adjusting rod and an installing seat, wherein the installing seat is arranged at the top of the base, the adjusting rod penetrates through the installing seat and extends to the bottom of the base from the second through hole, one end of the adjusting rod is connected with the adjusting disc, an oblique gear is arranged at the other end of the adjusting rod, and the end part of the adjusting rod is meshed with the end part of the threaded rotating shaft through the oblique gear;

The first guide rail group is arranged at the top of the base and is arranged at two sides of the first through hole in parallel;

the first bearing plate is arranged at the top of the transmission block;

the sliding blocks are arranged at the bottoms of the transmission blocks and are respectively sleeved on the first guide rail groups;

A support column disposed on top of the first receiving plate;

The first motor is arranged on the side surface of the support column;

The power connection mechanism is arranged at the top of the first motor and on the side surface of the support column, and an output end of the power connection mechanism is provided with an oblique gear;

the second bearing plate is arranged at the top of the power engagement mechanism;

the power transmission mechanism comprises two second installation blocks, a transmission shaft and first connecting pieces with inclined gears, wherein the first connecting pieces are fixedly sleeved on the transmission shaft;

the first supporting plate is arranged at the top of the second bearing plate, and the transmission shaft penetrates through the first supporting plate;

the second motor is arranged on the side surface of the first supporting plate, and a gear is arranged at the output end of the second motor;

The sliding block group is arranged at the top of the second bearing plate;

The second guide rail set is sleeved with the sliding block set, an installation box body is arranged at the top of the second guide rail set, a rack rail is arranged in the installation box body and is meshed with the output end of the second motor, and the transmission shaft penetrates through the installation box body;

The cylinder assemblies are arranged on the side surface of the mounting box body close to the top;

The guide rail assemblies are arranged on the side surfaces of the mounting box body;

The L-shaped mounting pieces are arranged on the side surfaces of the guide rail assemblies, and the tops of the L-shaped mounting pieces are connected with the output ends of the air cylinder assemblies;

The wire hooking mechanisms are sleeved on the L-shaped mounting piece, and when the air cylinder assembly is selected as a working object, the air cylinder assembly indirectly pushes the wire hooking mechanisms to sink so that the wire hooking mechanisms are meshed with the output end of the transmission shaft and drive the wire hooking mechanisms to rotate;

and the cutting mechanism is arranged on the side surface of the power connection mechanism and is used for cutting off the thread hooked by the thread hooking mechanism.

2. The device for automatically changing the lines of the multiple colors of the doll hair-planting machine according to claim 1, wherein the power connection mechanism comprises a shell, a rolling shaft and an output shaft, two ends of the rolling shaft are respectively arranged on two opposite side surfaces of the shell, an oblique gear is sleeved on the inner side of the end part of the rolling shaft, the bottom of the output shaft is provided with the oblique gear, the power output end of the first motor is provided with the oblique gear, the output shaft and the output end of the first motor are in the same straight line, the rolling shaft is perpendicular to the output shaft, the first motor transmits power to the output shaft, the oblique gear is arranged at the top of the output shaft, and an outwards extending mounting bracket is arranged on the side surface of the shell.

3. The device for automatically changing the wire of the doll hair planting machine in various colors according to claim 2, wherein the cutting mechanism comprises a first bracket, a second bracket, a third bracket, a fourth bracket, a first cutter, a second cutter, a cylinder clamping device and a wire divider, one end of the first bracket is connected with the roller by adopting a rolling bearing, the other end of the first bracket is connected with one end of the second bracket by adopting the rolling bearing, one end of the third bracket is connected with the middle part of the second bracket by adopting the rolling bearing, the end of the mounting bracket is clamped at the joint of one end of the third bracket and the middle part of the second bracket, the third bracket is fixedly connected with the fourth bracket, the wire divider is arranged at the end of the fourth bracket, the first cutter is arranged at the end of the second bracket, the cylinder clamping device is arranged at the end of the third bracket and is close to the side, the cylinder clamping device comprises a fixed end fixed at the side of the third bracket, a movable end sleeved at the fixed end of the fixed end and a cylinder clamping device is arranged at the side of the third bracket and is in a way of being in contact with the cylinder clamping device, and the mini torque wire is arranged at the other end of the third bracket is in a way of being in contact with the movable end of the roller.

4. The device for automatically changing the lines of the plurality of colors of the doll hair-growing machine according to claim 3, wherein the deconcentrator comprises a mounting plate, a first supporting plate and a second supporting plate, the mounting plate is fixed with the end part of the fourth bracket, the first supporting plate and the second supporting plate are parallel and are all arranged on the side surface of the mounting plate, and the length of the first supporting plate is larger than that of the second supporting plate.

5. The device for automatically changing the lines of the plurality of colors of the doll hair planting machine according to claim 1, wherein the line hooking mechanism comprises a fixed block, a line hooking rod and a rotating rod, the fixed block is sleeved on the rotating rod, the line hooking rod is fixed with the fixed block, the line hooking rod is L-shaped, the long side of the line hooking rod is perpendicular to the rotating rod, a plurality of line hooking convex rings used for threading are arranged on the side face of the line hooking rod, the rotating rod can penetrate through the L-shaped mounting piece in a rotating mode, and a second connecting piece with an oblique gear is arranged on the rod body of the rotating rod.

6. The multi-color automatic line changing and cutting device of the doll hair planting machine according to claim 1, wherein a concave protection pad is arranged at the bottom of the first mounting block.

7. The device for automatically changing the lines and cutting the colors of the doll hair-growing machine according to claim 1, wherein limiting blocks are respectively arranged at two ends of the top of the base.