CN217346332U - Comb flying and dyeing integrated machine - Google Patents

Abstract

The utility model relates to a comb flying dye all-in-one, include: carousel, locating component, fly hair mechanism, flexible piece, dye first mechanism of stopping, locating component is a plurality of and locate respectively on each operating station for carry the comb that treats processing along carousel circumference. The utility model provides an automatic device for integrated treatment of fly hair and hair dyeing of DP combs, which comprises a feeding device, a comb needle grinding and cutting device, a hair dyeing device and a discharging device, wherein the feeding device, the comb needle grinding and cutting device, the hair dyeing device and the discharging device are repeatedly carried out, and when the comb needle is ground and cut, only grinding and cutting of the end part of the comb needle can be realized through a flexible blocking piece, accidental injury to the end part of a plastic sleeve is avoided, and the grinding and cutting precision can be effectively improved; meanwhile, the whole process does not need manual participation, so that the influence of human factors is reduced, the quality stability of the combs produced in the same batch is improved, and the production cost of the combs is reduced.

Description

Comb flying and dyeing integrated machine

Technical Field

The utility model relates to an automation equipment technical field specifically indicates a comb flying dye all-in-one.

Background

Fig. 17 shows a DP type comb, which includes a cylindrical body a and a plurality of needles b radially distributed on the outer circumferential surface of the body a, the needles b are axially arranged on the surface of the body a in rows, a layer of plastic sleeve d is wrapped on the outer circumference of the needles b, and the length of the plastic sleeve d is smaller than that of the needles b, so that the root of the plastic sleeve d is arranged close to the surface of the body a, and the end of the plastic sleeve d is located at the approximate middle position of the needles b, that is, the end of the needles b is exposed out of the end of the plastic sleeve d, the body a is hollow, the front end of the body a has an opening a1, the rear end of the body a is closed, a handle c extending backwards is arranged on the rear end wall of the body a, and the diameter of the handle c is smaller than that of the body a.

The needles of the DP combs are generally made of plastic materials, and have flexibility and certain hardness. The comb on the market at present has lower manufacturing cost, and the head of a comb needle cannot be treated generally, so that the comb is not friendly to the scalp and is easy to damage the scalp; for example, the prior application 201510509599.6 of the present applicant provides a hair dyeing machine for a comb needle, however, although an untreated comb needle covers the round head formed by the hair oil, the round head may fall off after long-term use, at this time, the sharp head of the comb needle is easy to damage the scalp of the human body, and most consumers can only discard the comb.

Through experimental discovery, polish earlier to the card wire head, eliminate former card wire and once only cut or cut and the sharp-pointed structure that forms, cladding hair oil again not only can improve the bonding fastness between button head and the card wire greatly, even the button head drops moreover, the card wire head also is difficult to cause the harm to human scalp.

However, it is very troublesome to polish the comb needle at present, and it is polished to it on the hair grinder to need the handheld comb of operating personnel to arrange in, and not only production efficiency is low, need consume a large amount of manpower and materials, moreover because the instability of human factor, easily lead to the comb needle tip because of the inconsistent problem that leads to the fact the comb needle size to have the deviation of polishing degree, lead to the whole quality decline of comb, increased the manufacturing cost of comb to a great extent. And, the comb needle is dyed the head after finishing polishing and is handled, and circular comb is also easy to have the problem that the size of the button head that forms everywhere is not uniform because it is difficult to the atress on global when dyeing the head, and then influences the qualification rate of comb.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to prior art's current situation, thereby provide one kind can only grind to the broach and cut and protect the plastic sheath and improve the comb fly dyeing all-in-one that grinds and cut the precision and then improve product quality stability grinding and cutting the in-process grinding.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

a comb flying and dyeing integrated machine comprises:

the rotary table is disc-shaped and can rotate in the circumferential direction, and the edge of the rotary table is provided with a plurality of operation stations which are arranged at intervals in the circumferential direction;

the positioning assemblies are arranged on the operation stations respectively, a jacket for clamping a handle of the comb is arranged on the outer side of each positioning assembly, and the jacket can move up and down and is arranged on the positioning assemblies in a circumferential rotating mode; the comb is transversely placed, and the front end of the comb faces outwards;

the hair flying mechanism is arranged on the assembly platform close to the edge of the turntable and is provided with a hair flying cutter group which can be contacted with a comb needle of the comb under the state that the jacket moves downwards so as to grind and cut the comb needle;

the flexible blocking piece is integrated with the fly hair mechanism and is used for enabling a comb needle of the comb to penetrate through the plastic sleeve matched with the fly hair cutter set for sanding so as to prevent the plastic sleeve on the periphery of the comb needle from contacting with the fly hair cutter set;

the hair dyeing mechanism is arranged on the assembly platform close to the edge of the rotary table and located at the downstream of the hair flying mechanism, a tray which is horizontally arranged and used for containing hair oil is arranged, the tray is located below the comb clamped by the clamping sleeve at intervals when the clamping sleeve of the positioning assembly moves upwards, and the hair oil in the tray is in contact with the comb needle head of the comb clamped by the clamping sleeve when the clamping sleeve of the positioning assembly moves downwards.

The utility model discloses in, the locating component includes:

the first base is vertically arranged on the turntable and is positioned at the edge of the turntable;

the first guide rail is vertically arranged on the outer wall surface of the first base;

the first sliding block is arranged on the first guide rail in a vertically movable mode and is positioned on the outer side of the first base;

the first support block is arranged on the outer side of the first sliding block and slides up and down along with the first sliding block, and a shaft hole penetrating through the first base outwards is formed in the first support block;

the clamping sleeve can be rotatably inserted into the shaft hole, the outer end of the clamping sleeve is exposed out of the first supporting block, and a clamping opening for clamping the comb handle is formed in the outer end of the clamping sleeve;

the elastic piece is arranged on the rotary table and is abutted against the bottom of the first supporting block so as to enable the elastic piece to always keep the upward movement trend;

the follower is shaped into a ring, is arranged at the front side of the first supporting block, is sleeved on the periphery of the jacket and synchronously moves up and down with the jacket and the first supporting block, and the upper end of the follower is higher than the top of the first supporting block when the first supporting block moves up to the limit state.

The utility model discloses in, fly mao mechanism include:

the fly cutter set is supported on the assembly platform, a fly opening which is positioned outside the jacket and extends along the axial direction of the jacket is formed in the top of the fly cutter set, and a cutter for grinding and cutting the end part of the card wire is arranged at the fly opening;

the flexible blocking piece covers the burr opening and is provided with a penetrating opening which allows the comb needle to penetrate and prevents the plastic sleeve from penetrating;

the first limiting assembly is arranged on the outer side of the hair cutter group and is provided with a first positioning column which can move up and down and move back and forth relative to the jacket, and the first positioning column is used for being inserted into the front end opening of the comb body and restraining the comb on the jacket;

the first driving assembly is arranged on the fixed disc above the rotary disc and located on the inner side of the positioning assembly and comprises a first roller capable of moving up and down and rotating in the circumferential direction, the first roller is in contact with the follower in the downward moving state and is used for pressing the comb down to the comb needle to be in contact with the hair flying knife group, and the first roller is used for driving the follower to rotate in the rotating state so as to drive the comb to rotate.

Preferably, the fly cutter set comprises:

the second base is fixed on the assembly platform, the upper part of the second base is hollow, an installation space is formed in the upper part of the second base, and the burr hole is positioned at the top of the installation space;

the first cutter can be rotatably arranged in the mounting space, the axial direction of the first cutter is consistent with the axial direction of the jacket, the first cutter comprises a shaft positioned in the center and blades radially distributed on the outer peripheral wall of the shaft at intervals, the blades extend along the length direction of the burr flying opening, and blades are formed at the outer edge of the blades;

the second cutter is transversely arranged at the top of the second base, the edge of the burr opening and the edge of the second cutter are formed by the edge of the first side part, the edge of the first cutter is close to the edge of the second cutter, and a gap is formed between the edge of the first cutter and the edge of the second cutter.

Preferably, the second tool is inclined upwards gradually from the outer edge of the second tool to the burr, and the part of the second tool above the burr forms an arc-shaped structure which can be matched with the rotation track of the first tool, the arc-shaped structure comprises an arc surface positioned on the lower surface of the second tool and a guide surface positioned on the upper surface of the second tool and inclined downwards gradually to the edge, the end of the guide surface is connected with an arc-shaped connecting surface extending downwards, the end of the arc surface is connected with an inclined connecting surface extending upwards, and the arc-shaped connecting surface and the inclined connecting surface form a cutting edge of the second tool at the intersection.

By adopting the structure, the arc surface of the arc-shaped structure on the second cutter can be accurately matched with the first cutter, the grinding and cutting precision is improved, the guide surface can be in guide fit with the comb pins and the lower end of the plastic sleeve, and the cutting edge formed by the intersection of the arc-shaped connecting surface and the inclined connecting surface is positioned below the guide surface, so that the comb pins which slide through the guide surface in a matching way can be gently received, a certain yielding space can be provided for the plastic sleeve, and the cutting edge can be ground and cut to the comb pins without contacting with the end part of the plastic sleeve.

Preferably, an arc-shaped baffle plate which extends towards the second cutter and is arched upwards is arranged at the edge of the top of the burr flying cutter group, which is opposite to the second cutter, and the burr opening is formed between the edge of the arc-shaped baffle plate and the corresponding edge of the second cutter; the edge of the arc-shaped baffle is positioned on the cutting edge of the second cutter, the flexible blocking piece is horizontally arranged on the second cutter, the first edge is constrained at the edge of the fly-hair cutter set, the second edge penetrates through the fly-hair opening and is constrained on the side wall in the arc-shaped baffle, and the upper surface of the flexible blocking piece is mutually connected with the top of the arc-shaped baffle and is in smooth transition.

Adopt above-mentioned structure, cowl provides the support for the installation that flexible blockked on the one hand, and on the other hand can lead the plastic sheath tip that the piece blockked through flexible blockking and the broach that rotates to above from under the flexible blockking, avoids grinding the department of cutting to have too big flexible bounce to improve and grind the precision of cutting.

Preferably, the upper surface of the flexible barrier is provided with a grinding cloth capable of grinding the end part of the plastic sleeve. The structure can simultaneously grind and cut the end part of the plastic sleeve, so that the plastic sleeve is more friendly to the scalp of a human body.

Preferably, the through opening is arranged corresponding to the top of the second cutter and extends transversely, the first end of the through opening is positioned at the outer edge of the guide surface, and the second end of the through opening is positioned at the outer edge of the cutting edge of the second cutter in the burr opening; the abrasive cloth is integrated on the flexible barrier piece and is arranged corresponding to the area of the through opening. Adopt above-mentioned structure to block the piece and install the flexibility, make its and second cutter, the assembly between the cowl compact and ingenious, the structure that forms after making the three connect can compromise grinding of card wire and cut, the effect of polishing of plastic sheath tip, can compromise card wire again, the guide effect of plastic sheath tip, and this guide effect and card wire, plastic sheath elasticity support the press fit, be favorable to controlling the elastic deformation volume of the card wire of grinding department, and will grind the cut volume and control in comparatively accurate within range, improve the grinding precision.

Preferably, the first limit component comprises:

the third base is vertically arranged on the operating platform and is positioned on the outer side of the fly cutter group;

the second guide rail is vertically arranged on the third base;

the second sliding block can be connected to the second guide rail in a vertically sliding manner;

the first air cylinder is arranged on the second sliding block and is provided with a piston rod which is transversely arranged towards the rotary table;

the first mounting block is connected with a piston rod of the first air cylinder and can move in a reciprocating manner relative to the comb under the pushing action of the piston rod;

and the first positioning column is arranged on one side of the first mounting block, which faces the comb.

Preferably, the first driving assembly comprises:

the fourth base is vertically arranged on the fixed disc above the turntable and is positioned on the inner side of the positioning assembly;

the second cylinder is arranged at the upper part of the fourth base and is provided with a piston rod arranged downwards;

the third driving piece is arranged at the lower end of the piston rod of the second cylinder and can move up and down under the driving of the second cylinder, and the third driving piece is provided with a power output shaft which is transversely arranged towards the group of the fly cutters;

the first roller is connected to the power output shaft of the third driving piece and can rotate under the driving of the third driving piece, and the first roller is located on the follower of the positioning component. The follower can be made of materials with larger friction, such as rubber, silica gel and the like, and the periphery of the first roller can be provided with a convex rib which can increase the friction between the first roller and the follower so as to improve the driving effect and the driving reliability.

Two sets of clamping sleeves and followers which are adjacent and arranged close to each other can be arranged on one set of positioning assemblies, so that the first roller can be arranged above the space between the two followers, and after the first roller descends, one first roller can simultaneously contact with the two followers and drive the two followers to rotate through friction, the number of the first driving assemblies is reduced, and the equipment cost is reduced.

By adopting the structure, when the positioning assembly rotates through the turntable to convey the comb to the abrasive cutting mechanism station, the second cylinder of the first driving assembly drives the first roller to move downwards against the elasticity of the elastic piece, the first roller presses and holds the follower to move the comb downwards, and the comb needle of the comb passes through the flexible barrier piece to be contacted with the blade of the second cutter; the first positioning column on the first limiting assembly is matched with the first limiting assembly in a vertically and horizontally moving way, so that the first limiting column is inserted into the front end opening of the comb body, and the comb is pressed on the clamping sleeve and cannot fall off in the rotating process; at the moment, the second driving piece drives the first cutter to rotate, the third driving piece drives the follower to drive the comb to rotate through the first roller, and grinding cutting of the end part of the comb needle is achieved.

The utility model discloses in, dye first mechanism include:

the third guide rail is arranged on the operating platform in a manner of being vertical to the axial direction of the jacket;

the third sliding block is arranged on the third guide rail in a reciprocating manner along the third guide rail;

the tray is arranged on the third sliding block and can reciprocate along the third guide rail along with the third sliding block;

the second limiting assembly is arranged on the outer side of the tray and is provided with a second positioning column which can move up and down and move back and forth relative to the clamping sleeve, and the second positioning column is used for being inserted into the front end opening of the comb body and restraining the comb on the clamping sleeve;

the second driving assembly is arranged on the fixed disc above the rotary disc and located on the inner side of the positioning assembly and comprises a second roller capable of moving up and down and rotating in the circumferential direction, the second roller is in contact with the follower in the downward moving state and is used for pressing the comb down to the hair oil in the comb needle and the tray, and the second roller is used for driving the follower to rotate in the rotating state and further driving the comb to rotate.

The second limiting assembly has the same specific structure as the first limiting assembly, but a plurality of groups of positioning columns can be arranged on the second limiting assembly, so that a plurality of combs can be limited simultaneously; the second driving assembly is consistent with the first driving assembly in specific structure.

Preferably, the head dyeing mechanism further comprises:

the oil head adding structure is arranged on the outer side of the tray and comprises a storage hopper and a feeding rod, wherein an adding opening is formed in the bottom of the storage hopper, the feeding rod can be arranged in the storage hopper in a vertically moving mode and moves upwards to open the adding opening and moves downwards to block the adding opening;

the first oil strickles off the structure, locates the outside of tray, including the scraper blade that can reciprocate, this scraper blade downstream is located the tray and cooperates the removal of tray and strickles off first oil, and this scraper blade rebound breaks away from the tray.

The operating platform is provided with a vertically arranged fifth base, the storage hopper is arranged on the side portion of the fifth base and located above the tray, the upper end of the feeding rod is exposed out of the storage hopper, and a third cylinder used for driving the feeding rod to move up and down is arranged at the top of the fifth base. The addition port is provided with a vertically extending charging channel, and the lower end of the charging rod is shaped as a conical part which is convenient to insert in the charging channel.

The both sides of fifth base are provided with symmetrical arrangement's fourth cylinder, fifth cylinder, and fourth cylinder, fifth cylinder are provided with piston rod down respectively, and the lower extreme of each piston rod all is connected with a scraper blade, and two scraper blades form the frame that encloses that closes relatively in corresponding tray department, when the head oil is reinforced, add this and enclose the frame, scrape through scraper blade one minute in unison again, can avoid the head oil to distribute unevenly.

The positioning assemblies can be arranged adjacently, two combs are placed on each positioning assembly, four combs can be simultaneously processed through the grinding and cutting stations which are reasonably arranged, and finally the four combs are dyed at one time. The space between two adjacent combs is not less than the peripheral perimeter of one comb, thus, when dyeing the hair, the combs can be ensured to be not interfered with each other, and each comb needle can be wrapped with the same amount of hair oil.

When the hair dyeing mechanism is used, the tray is pushed to the position below the corresponding positioning assembly at the hair dyeing mechanism, in the process of pushing the tray, the hair oil scraping structure synchronously scrapes the hair oil on the tray, after the tray is in place, the comb is pressed down by the second driving assembly until the comb needle is contacted with the hair oil in the tray, and meanwhile, the second limiting assembly is used for limiting the outer end of the comb; at the moment, the second driving assembly and the fourth driving assembly run synchronously, the second driving assembly drives the comb to roll, meanwhile, the fourth driving assembly drives the tray to slowly move downstream, and the linear speed of the rolling comb is consistent with the moving speed of the tray, so that areas of each comb needle dipped with the head oil are not interfered with each other and are not repeated, and the comb is stained with the uniformly saturated head oil.

Compared with the prior art, the utility model has the advantages of: the utility model provides an automatic device for integrated treatment of fly hair and hair dyeing of DP combs, which comprises a feeding device, a comb needle grinding and cutting device, a hair dyeing device and a discharging device, wherein the feeding device, the comb needle grinding and cutting device, the hair dyeing device and the discharging device are repeatedly carried out, and when the comb needle is ground and cut, only grinding and cutting of the end part of the comb needle can be realized through a flexible blocking piece, accidental injury to the end part of a plastic sleeve is avoided, and the grinding and cutting precision can be effectively improved; meanwhile, the whole process does not need manual work, so that the influence of human factors is reduced, the quality stability of the combs produced in the same batch is improved, and the production cost of the combs is reduced.

Drawings

FIG. 1 is a schematic structural view of an embodiment of the comb flying and dyeing integrated machine of the present invention;

FIG. 2 is a top view of FIG. 1;

fig. 3 is a schematic structural diagram of a positioning assembly according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of FIG. 3;

fig. 5 is a schematic view of a matching structure of the feeding mechanism and the positioning assembly in the embodiment of the present invention;

fig. 6 is a schematic structural view of a feeding mechanism in an embodiment of the present invention;

FIG. 7 is a schematic view of the structure of FIG. 6 from another angle;

fig. 8 is a schematic view of a part of the structure of the fly mechanism in the embodiment of the present invention;

FIG. 9 is a schematic view of the construction of the flexible barrier of FIG. 8;

FIG. 10 is a schematic view of a portion of the fly cutter set of FIG. 8;

FIG. 11 is a cross-sectional view of FIG. 10;

fig. 12 is a schematic structural diagram of a first limiting assembly in an embodiment of the present invention;

fig. 13 is a schematic structural view of a head dyeing mechanism in an embodiment of the present invention;

FIG. 14 is a schematic view of a portion of the structure of FIG. 13;

FIG. 15 is a partial cross-sectional view of FIG. 14;

fig. 16 is a schematic structural view of a second limiting assembly in an embodiment of the present invention;

fig. 17 is a schematic structural diagram of the background art of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 17, the comb flying and dyeing all-in-one machine of the embodiment includes an assembly platform 1, a turntable 2, a first driving mechanism 10, a positioning component 3, a flying mechanism 4, a dyeing mechanism 5, and a flexible blocking member 6, and is used for fully automatically completing the processes of the carding needle sanding and dyeing of the comb. One or more combs can be processed simultaneously in this embodiment, 4 combs are processed once in this embodiment, and correspondingly, a feeding and discharging station, four sanding stations and a dyeing station are arranged on the periphery of the turntable 2 from front to back according to the processing sequence.

Specifically, carousel 2 is discoid and can the pivoted locate assembly platform 1 on, and carousel 2 edge has a plurality of operating station along circumference interval arrangement. The first driving mechanism 10 is arranged at the bottom of the assembling platform 1, connected with the rotating disc 2 and used for driving the rotating disc 2 to rotate along the circumferential direction, and the first driving mechanism 10 is a motor. The plurality of positioning assemblies 3 are respectively arranged on each operation station, a jacket 31 used for clamping a handle c of the comb is arranged on the outer side of each positioning assembly 3, and the jacket 31 can move up and down and is arranged on the positioning assemblies 3 in a circumferential rotating mode; the comb is transversely placed with the front end facing outwards. The fly mechanism 4 is provided on the mounting platform 1 near the edge of the turntable 2, and is provided with a fly cutter group 41 which can be brought into contact with the comb needle b of the comb in a state where the jacket 31 is moved downward to grind and cut it.

The flexible blocking member 6 is integrated with the fly mechanism 4, and is used for allowing the comb needle b of the comb to penetrate through the plastic sleeve d matched with the fly cutter group 41 for sanding so as to prevent the outer periphery of the comb needle b from contacting with the fly cutter group 41. The hair dyeing mechanism 5 is arranged on the assembly platform 1 close to the edge of the turntable 2 and located at the downstream of the hair flying mechanism 4, a tray 51 which is horizontally arranged and used for containing hair oil is arranged, the tray 51 is located below the comb clamped by the clamping sleeve 31 at intervals when the clamping sleeve 31 of the positioning assembly 3 moves upwards, and the hair oil in the tray 51 is in contact with the head of the comb needle b of the comb clamped by the clamping sleeve 31 when the clamping sleeve 31 of the positioning assembly 3 moves downwards. The feeding and discharging can be performed manually or automatically by a robot, and the comb to be processed can be inserted into the jacket 31 of the positioning assembly 3, or the processed comb can be removed from the jacket 31 of the positioning assembly 3. The feeding mechanism 001 convenient for feeding can be arranged at the feeding and discharging station.

In the present embodiment, as shown in fig. 3 and 4, the positioning assembly 3 includes a jacket 31, a first base 32, a first guide rail 33, a first slider 34, a first support block 35, an elastic member 36, and a follower 37. The first base 32 is vertically arranged on the turntable 2 and is positioned at the edge of the turntable 2; the first guide rail 33 is vertically arranged on the outer wall surface of the first base 32; the first slider 34 is disposed on the first rail 33 so as to be movable up and down and is located outside the first base 32; the first support block 35 is disposed outside the first slider 34 and slides up and down along with the first slider 34, and the first support block 35 is provided with a shaft hole 351 penetrating from the first base 32 to the outside. The clamping sleeve 31 is rotatably inserted in the shaft hole 351, the outer end of the clamping sleeve 31 is exposed out of the first supporting block 35, and the outer end of the clamping sleeve 31 is provided with a clamping opening 311 for clamping the comb handle c; the shaft hole 351 is provided with a bearing 352, and the bearing 352 is sleeved between the inner wall of the shaft hole 351 and the outer wall of the jacket 31 and is used for supporting the jacket 31 to rotate. The elastic piece 36 is arranged on the turntable 2 and is abutted against the bottom of the first supporting block 35, so that the elastic piece always keeps the trend of moving upwards; the elastic member 36 is a spring, the upper end of which abuts against the bottom of the first supporting block 35, and the lower end of which abuts against the turntable 2. The follower 37 is formed in a ring shape, is provided on the front side of the first support block 35, is fitted around the outer periphery of the jacket 31, moves up and down in synchronization with the jacket 31 and the first support block 35, and rotates in synchronization with the jacket 31. In the state where the first support block 35 is moved up to the limit, the upper end of the follower 37 is higher than the top of the first support block 35. With the above structure, the comb handle c of the comb is inserted into the clamping opening 311 of the clamping sleeve 31, and the turntable 2 rotates to convey the positioning assembly 3 and the comb to be processed to the corresponding stations.

As shown in fig. 5, 6 and 7, the feeding mechanism 001 of the present embodiment is disposed near the edge of the turntable 2, and the feeding mechanism 001 is provided with a pushing structure capable of moving back and forth relative to the positioning assembly 3 to insert the handle of the comb into the collet 31.

The top of feed mechanism 001 is provided with layer board 61, first clamp splice 62 and second clamp splice 63, and layer board 61 level is arranged, and first clamp splice 62, second clamp splice 63 all vertically set up on layer board 61, and first clamp splice 62 and second clamp splice 63 along the ascending interval arrangement in the axial of pressing from both sides cover 31, form the clamp groove 60 that is used for the centre gripping comb between first clamp splice 62 and the second clamp splice 63, and the thrust structure is located layer board 61 below and is used for driving layer board 61 and presss from both sides cover 31 reciprocating motion. During feeding, the supporting plate 61 moves outwards relative to the jacket 31, then the comb is manually or robotically inserted into the clamping groove 60 between the first clamping block 62 and the second clamping block 63, the supporting plate 61 is continuously close to the jacket 31, the handle of the comb can be automatically pushed into the jacket 31, and the operation is convenient.

The top of the side wall of the first clamping block 62 facing the second clamping block 63 is provided with a first U-shaped groove 621 for supporting the first end of the comb body, correspondingly, the top of the side wall of the second clamping block 63 facing the first clamping block 62 is provided with a second U-shaped groove 631 for supporting the second end of the comb body, and the top of the U-shaped groove close to the clamping sleeve 21 is further provided with a notch 622 for the comb handle to pass through. The structure is favorable for improving the clamping stability of the comb, and the normal insertion jacket of the handle is prevented from being influenced by the deviation of the comb.

The pushing structure of this embodiment includes a bottom plate 64, a guide rail 65, a slider 66, a support plate 67 and a first driving member 68, wherein the bottom plate 64 is horizontally disposed beside the turntable 2, the guide rail 65 is disposed on the bottom plate 64 and extends along the radial direction of the turntable 2, the slider 66 is slidably disposed on the guide rail 65, the support plate 67 is vertically disposed and has a lower end connected to the slider 66, the first driving member 68 is disposed at one end of the bottom plate 64 and is used for driving the slider 66 to reciprocate along the guide rail 65, and the upper end of the support plate 67 is connected to the supporting plate 61. This structure is convenient for realize the reciprocating motion of layer board 61 for pressing from both sides cover 31, simple structure, be convenient for control.

The embodiment further comprises a second driving part 69 for driving the supporting plate 61 to move up and down, the supporting plate 61 and the upper end of the supporting plate 67 are arranged at intervals up and down, the second driving part 69 is arranged on the side wall of the supporting plate 67, and the top of the second driving part 69 is provided with a telescopic end connected with the supporting plate 61. This structure is convenient for need adjust the layer board 61 height, further provides convenience for automatic feeding.

The first driving member 68 and the second driving member 69 of the present embodiment are both air cylinders.

In this embodiment, the fly mechanism 4 includes a fly cutter group 41, a first limit component 42, and a first drive component 43, the fly cutter group 41 is supported on the assembly platform 1, the top of the fly cutter group is provided with a fly opening 411 which is located outside the jacket 31 and extends along the axial direction of the jacket 31, and the fly opening 411 is provided with a cutter for grinding and cutting the end of the card wire b.

As shown in fig. 1 and 8, the flexible blocking member 6 covers the burr opening 411 and is provided with a through opening 61 for allowing the comb needle b to pass through and preventing the plastic sleeve d from passing through. As shown in fig. 1 and 12, the first limiting component 42 is disposed outside the fly cutter group 41, and is provided with a first positioning column 421 which can move up and down and move back and forth relative to the jacket 31, and the first positioning column 421 is used for being inserted into the front end opening a1 of the comb body a and restraining the comb on the jacket 31; the first driving assembly 43 is disposed on the fixed disk on the rotary disk 2 and located inside the positioning assembly 3, and includes a first roller 431 capable of moving up and down and rotating circumferentially, the first roller 431 is in contact with the follower 37 in a downward moving state, and is used for pressing the comb down until the comb pin b is in contact with the hair cutter set 41, and the first roller 431 is in rotation state and is used for driving the follower 37 to rotate so as to drive the comb to rotate.

As shown in fig. 8, 10, and 11, the fly cutter group 41 includes a second base 412, a first cutter 413, and a second cutter 414, the second base 412 is fixed to the mounting platform 1, the upper portion has a hollow mounting space 410, and the fly opening 411 is located at the top of the mounting space 410. The first cutter 413 is rotatably disposed in the mounting space 410 and has an axial direction corresponding to an axial direction of the collet 31, the first cutter 413 includes a shaft 4131 at a center and blades 4132 radially spaced on an outer circumferential wall of the shaft 4131, the blades 4132 extend in a length direction of the burr opening 411 and have cutting edges formed at outer edges thereof. The second cutter 414 is transversely disposed on top of the second base 412 with the first side edge constituting an edge of the burr 411 and a blade of the second cutter 414, the blade of the first cutter 413 and the blade of the second cutter 414 being close to each other with a gap therebetween.

The fly-hair cutter set 41 further comprises a driving wheel 415, a driving wheel 416, a belt 417 and a second driving member 418, the second driving member 418 is disposed below the operation platform 1, the power output shaft of the second driving member 418 is arranged towards the side, the driving wheel 415 is mounted on the power output shaft of the second driving member 418, the driving wheel 416 is mounted at the outer end of the shaft of the first cutter 413, and the belt 417 penetrates through the operation platform 1 and is in transmission connection between the driving wheel 415 and the driven wheel 416. The shaft 4131 of the first cutter 413 is supported on a side wall of the second base 412 by a bearing, and the second driving member 418 is a motor.

The first cutter 413 is rotated in a direction gradually away from the second cutter 414, and the collet 31 is rotated in a direction opposite to the first cutter 413. The structure ensures that the blade face of the first cutter 413 contacts the carding wire firstly, so that the effect of grinding and then cutting is formed, and the grinding and cutting precision is improved.

In the present embodiment, the second cutting tool 414 is inclined upwards gradually from its outer edge to the burr 411, and the portion of the second cutting tool 414 above the burr 411 forms an arc structure capable of matching with the rotation track of the first cutting tool 413, the arc structure includes an arc surface 4141 on the lower surface of the second cutting tool 414, a guide surface 4142 on the upper surface of the second cutting tool 414 and inclined downwards gradually to the edge, the end of the guide surface 4142 is connected with an arc engaging surface 4143 extending downwards, the end of the arc surface 4141 is connected with an inclined engaging surface 4144 extending upwards, and the intersection of the arc engaging surface 4143 and the inclined engaging surface 4144 forms a cutting edge 4145 of the second cutting tool 414.

By adopting the above structure, the arc face 4141 of the arc structure on the second cutter 414 can be precisely matched with the first cutter 413, the grinding and cutting precision is improved, the guide face 4142 can be in guide fit with the comb pins b and the lower end of the plastic sleeve d, and the blade 4145 formed by the intersection of the arc engaging face 4143 and the inclined engaging face 4144 is positioned below the guide face 4142, so that the comb pins b which are matched and slipped through the guide face 4142 can be smoothly received, a certain abdicating space can be provided for the plastic sleeve d, and the blade can be ground to the comb pins b without contacting with the end part of the plastic sleeve s.

At the top edge of the group 41 of fly cutters, which is opposite to the second cutter 414, an arc-shaped baffle 419 is provided, which extends in the direction of the second cutter 414 and is arched upwards, and a fly opening 411 is formed between the edge of the arc-shaped baffle 419 and the corresponding edge of the second cutter 414. The edge of the arc-shaped baffle 419 is located above the cutting edge 4145 of the second cutter 414, the flexible blocking member 6 is horizontally arranged above the second cutter 414, the first edge is constrained at the edge of the fly cutter group 41, the second edge is constrained on the side wall in the arc-shaped baffle 419 through the fly opening 411, and the upper surface of the flexible blocking member 6 and the top of the arc-shaped baffle 419 are mutually jointed and smoothly transited.

By adopting the structure, the arc-shaped baffle 419 provides support for the installation of the flexible blocking piece 6 on one hand, and on the other hand, can guide the end part of the plastic sleeve d blocked by the flexible blocking piece 6 and the card wire b rotating from the lower part to the upper part of the flexible blocking piece 6, so that the grinding and cutting position is prevented from having too large flexible rebound force, and the grinding and cutting precision is improved.

The upper surface of the flexible blocking member 6 is provided with a sanding cloth (not shown) capable of sanding the end of the plastic sleeve d. The structure can simultaneously grind and cut the end part of the plastic sleeve d, so that the plastic sleeve d is more friendly to the scalp of a human body.

As shown in fig. 8 and 9, the through-hole 61 is arranged corresponding to the top of the second cutter 414 and extends transversely, the first end of the through-hole 61 is located at the outer edge of the guide surface 4142, the second end is located at the outer edge of the cutting edge 4145 of the second cutter 414 in the burr 411, and the abrasive cloth is integrated on the flexible blocking member 6 and arranged corresponding to the area where the through-hole 61 is arranged. Adopt above-mentioned structure to install flexible blocking piece 6, make its and second cutter 414, the assembly between cowl 419 compact and ingenious, the structure that forms after making the three connect can compromise comb b's grinding and cut, the polishing effect of plastic sheath d tip, can compromise comb b, the guide effect of plastic sheath d tip again, and this guide effect and comb b, plastic sheath d elasticity are supported and are pressed the cooperation, be favorable to controlling the elastic deformation volume of the comb of grinding department, and with grinding cut volume control in comparatively accurate within range, improve the grinding precision.

As shown in fig. 12, the first limiting assembly 42 includes a third base 422, a second guide rail 423, a second sliding block 424, a first air cylinder 425, a first mounting block 426, and a first positioning column 421, and the third base 422 is vertically arranged on the operation platform 1 and located outside the fly cutter group 41; the second rail 423 is vertically arranged on the third base 422; the second slider 424 is connected to the second guide rail 423 in a manner of sliding up and down; a first cylinder 425 is provided on the second slider 424 and has a piston rod arranged transversely towards the carousel 2; the first mounting block 426 is connected with a piston rod of the first air cylinder 425 and can move back and forth relative to the comb under the pushing of the piston rod; the first positioning column 421 is installed on the side of the first installation block 426 facing the comb.

The end of the first positioning column 421 is formed as a tapered portion 4211 with a diameter gradually decreasing toward the comb direction, and the first positioning column 421 is further provided with a roller 4211 positioned outside the tapered portion 421, and the roller 4211 is rotatably sleeved on the periphery of the first positioning column 421. The structure can reduce the friction between the comb and the comb in the process of positioning the comb.

As shown in fig. 8, the first driving assembly 43 includes a fourth base 432, a second air cylinder 433, a third driving element 434, and a first roller 431, wherein the fourth base 432 is vertically arranged on the fixed disk above the turntable 2 and located inside the positioning assembly 3; the second cylinder 433 is provided at the upper part of the fourth base 432 and has a piston rod arranged downward; the third driving element 434 is arranged at the lower end of the piston rod of the second air cylinder 433 and can move up and down under the driving of the second air cylinder, and the third driving element 434 is provided with a power output shaft which is transversely arranged towards the fly-hair cutter group 41; the third driving member 434 is a motor; the first roller 431 is connected to the power output shaft of the third driving member 434 and can be driven to rotate, and the first roller 431 is located on the follower 37 of the positioning assembly 3.

The follower 37 may be made of rubber, silica gel or other materials with large friction, and the first roller 431 may have a rib arranged on its outer circumference to increase the friction between the first roller and the follower 37, so as to improve the driving effect and reliability.

Two sets of the adjacent and closely arranged jackets 31 and the followers 37 can be arranged on one set of the positioning assemblies 3, so that the first roller 431 can be arranged above the space between the two followers 37, and after the first roller 431 descends, one first roller 431 can simultaneously contact with the two followers 37 and drive the two followers 37 to rotate through friction, thereby reducing the number of the first driving assemblies 43 and the equipment cost.

With the hair flying mechanism 4 of the embodiment, when the positioning assembly 3 conveys the comb to the work station of the abrasive cutting mechanism 41 by rotating the turntable 2, the second cylinder 433 of the first driving assembly 43 drives the first roller 431 to move downwards against the elastic force of the elastic member, and the first roller 431 presses and holds the follower 37 to move the comb downwards until the comb needle b of the comb passes through the flexible blocking member 6 to contact with the blade 4145 of the second cutter 414; the first positioning column 421 on the first position-limiting component 42 is matched by moving up and down and back and forth, so that the first positioning column is inserted into the front end opening a1 of the comb body a, and the comb is pressed on the jacket 31 and cannot fall off in the rotating process; at this time, the second driving member 418 drives the first cutter 413 to rotate, and the third driving member 434 drives the follower 37 to drive the comb to rotate through the first roller 431, so as to grind and cut the end of the comb pin b.

In the present embodiment, as shown in fig. 13 to 16, the dyeing head mechanism 5 includes a third guide rail 52, a third slider 53, a fourth driving component 54, a tray 51, a second limiting component 55, and a second driving component 56, wherein the third guide rail 52 is disposed on the operation platform 1 perpendicular to the axial direction of the jacket 31; the third slider 53 is provided on the third rail 52 so as to be capable of reciprocating along the third rail 52; the fourth driving member 54 is a motor, and is disposed below the tray 51 to drive the third slider 53 to reciprocate along the third guide rail 52.

The tray 51 is provided on the third slider 53 and can reciprocate along the third guide rail 52 with the third slider 53.

The second position-limiting component 55 is arranged outside the tray 51, and is provided with a second positioning column 551 which can move up and down and move back and forth relative to the jacket 31, and the second positioning column 551 is used for being inserted into the front end opening a1 of the comb body a and restraining the comb on the jacket 31.

The second driving assembly 56 is disposed on the fixed disk on the turntable 2 and located inside the positioning assembly 3, and includes a second roller 561 capable of moving up and down and rotating circumferentially, the second roller 561 contacts the follower 37 in a downward moving state, and is used for pressing the comb down until the comb pins b contact the hair oil in the tray 51, and the second roller 561 is used for driving the follower 37 to rotate and further driving the comb to rotate in a rotating state.

In this embodiment, the specific structure of the second position-limiting assembly 55 is the same as that of the first position-limiting assembly 42, but a plurality of positioning columns can be disposed on the second position-limiting assembly 55, so as to limit a plurality of combs at the same time; the second driving assembly 56 is identical to the first driving assembly 43 in specific structure. And will not be described herein.

The dyeing head mechanism 5 further comprises an oil head adding structure 57 and a head oil leveling structure 58, wherein the oil head adding structure 57 is arranged on the outer side of the tray 51 and comprises a storage hopper 571 and a feeding rod 572, an adding port 5711 is formed in the bottom of the storage hopper 571, and the feeding rod 572 can be arranged in the storage hopper 571 in a vertically moving mode and moves upwards to open the adding port 5711 and moves downwards to block the adding port 5711. The head oil leveling structure 58 is provided outside the tray 51, and includes a scraper 581 which is movable up and down, moves down in the tray 51, and levels the head oil in accordance with the movement of the tray, and moves up to be separated from the tray 51.

The operating platform 1 is provided with a fifth base 59 arranged vertically, the storage hopper 571 is arranged on the side portion of the fifth base 59 and located above the tray 51, the upper end of the feeding rod 572 is exposed above the storage hopper 571, and the top of the fifth base 59 is provided with a third air cylinder 573 for driving the feeding rod 572 to move up and down. At the addition port 5711 is provided a vertically extending feed channel 5712, and the lower end of the feed bar 572 is shaped as a tapered portion 5721 that is inserted into the feed channel 5712.

The fourth air cylinder 591 and the fifth air cylinder 592 are symmetrically arranged on two sides of the fifth base 59, the fourth air cylinder 591 and the fifth air cylinder 592 are respectively provided with a piston rod facing downwards, the lower end of each piston rod is connected with a scraper 581, the two scrapers 581 form an enclosing frame 582 which is relatively enclosed at the corresponding tray 51, when the crude oil is fed, the crude oil is added into the enclosing frame 582 and uniformly scraped by the scrapers 581, and uneven distribution of the crude oil can be avoided.

The positioning assemblies 3 can be adjacently arranged, two combs are placed on each positioning assembly 3, four combs can be simultaneously processed through reasonably arranging grinding and cutting stations, and finally, the four combs are dyed at one time. The space between two adjacent combs is not less than the peripheral perimeter of one comb, thus, when dyeing the hair, the combs can be ensured to be not interfered with each other, and each comb needle can be wrapped with the same amount of hair oil.

When the hair dyeing mechanism 5 is used, firstly, the tray 51 is pushed to the position below the corresponding positioning component 3 at the hair dyeing mechanism 5, in the process of pushing the tray 51, the hair oil scraping structure 58 synchronously scrapes the hair oil on the tray 51, after the tray 51 is in place, the comb is pressed downwards by the second driving component 56 until the comb needle is contacted with the hair oil in the tray 51, and meanwhile, the outer end of the comb is limited by the second limiting component 55; at this time, the second driving assembly 56 and the fourth driving assembly 54 operate synchronously, the second driving assembly 56 drives the comb to roll, meanwhile, the fourth driving assembly 54 drives the tray 51 to slowly move downstream, the rolling linear speed of the comb is consistent with the moving speed of the tray 51, so that the areas of each comb needle dipped with the hair oil are not interfered with each other and have no repetition, and the comb is uniformly and fully stained with the hair oil.

In the embodiment, the full-automatic comb needle grinding and hair dyeing of the comb can be realized by matching the corresponding positioning component 3, the hair flying mechanism 4 and the hair dyeing mechanism 5 in a rotating disc type conveying mode. At a feeding and blanking station, manually or by adopting a robot, transferring a comb to be processed to a positioning component 3 on a turntable 2 at the station; the turntable 2 rotates to bring the comb to a downstream fly hair mechanism 4, and the comb needle b is ground and cut; the turntable 2 rotates to drive the comb to drive the downstream dyeing mechanism 5 to dye the comb needles; the rotary disc 2 rotates to bring the comb to the downstream feeding and discharging stations, the processed comb is manually or by a robot moved away, and the comb to be processed is moved in. The process is carried out in a reciprocating manner, manual participation is not needed, and the operation is convenient.

Directional terms such as "front", "rear", "upper", "lower", "left", "right", "side", "top", "bottom", and the like are used in the description and claims of the present invention to describe various example structural portions and elements of the present invention, but these terms are used herein for convenience of description only and are determined based on example orientations shown in the drawings. Because the disclosed embodiments may be arranged in different orientations, these directional terms are for illustrative purposes only and should not be construed as limiting, and for example, "upper" and "lower" are not necessarily limited to orientations opposite or consistent with the direction of gravity.

Claims (10)

1. The utility model provides a comb flying dyes all-in-one which characterized in that includes:

the rotary table is disc-shaped and can rotate in the circumferential direction, and the edge of the rotary table is provided with a plurality of operation stations which are arranged at intervals in the circumferential direction;

the positioning assemblies are arranged on the operation stations respectively, a jacket for clamping a handle of the comb is arranged on the outer side of each positioning assembly, and the jacket can move up and down and is arranged on the positioning assemblies in a circumferential rotating mode; the comb is transversely placed, and the front end of the comb faces outwards;

the hair flying mechanism is arranged on the assembly platform close to the edge of the turntable and is provided with a hair flying cutter group which can be contacted with a comb needle of the comb under the state that the jacket moves downwards so as to grind and cut the comb needle;

the flexible blocking piece is integrated with the fly hair mechanism and is used for enabling a comb needle of the comb to penetrate through the plastic sleeve matched with the fly hair cutter set for sanding so as to prevent the plastic sleeve on the periphery of the comb needle from contacting with the fly hair cutter set;

the hair dyeing mechanism is arranged on the assembly platform close to the edge of the rotary table and located at the downstream of the hair flying mechanism, a tray which is horizontally arranged and used for containing hair oil is arranged, the tray is located below the comb clamped by the clamping sleeve at intervals when the clamping sleeve of the positioning assembly moves upwards, and the hair oil in the tray is in contact with the comb needle head of the comb clamped by the clamping sleeve when the clamping sleeve of the positioning assembly moves downwards.

2. A comb fly-dyeing all-in-one machine according to claim 1, characterized in that the positioning assembly comprises:

the first base is vertically arranged on the turntable and is positioned at the edge of the turntable;

the first guide rail is vertically arranged on the outer wall surface of the first base;

the first sliding block is arranged on the first guide rail in a vertically movable mode and is positioned on the outer side of the first base;

the first support block is arranged on the outer side of the first sliding block and slides up and down along with the first sliding block, and a shaft hole penetrating through the first base outwards is formed in the first support block;

the clamping sleeve can be rotatably inserted into the shaft hole, the outer end of the clamping sleeve is exposed out of the first supporting block, and a clamping opening for clamping the comb handle is formed in the outer end of the clamping sleeve;

the elastic piece is arranged on the turntable, abuts against the bottom of the first supporting block and keeps a trend of moving upwards all the time;

the follower is shaped into a ring, is arranged at the front side of the first supporting block, is sleeved on the periphery of the jacket and synchronously moves up and down with the jacket and the first supporting block, and the upper end of the follower is higher than the top of the first supporting block when the first supporting block moves up to the limit state.

3. A comb and flydyeing all-in-one machine according to claim 2, wherein the flying mechanism comprises:

the fly cutter set is supported on the assembly platform, a fly opening which is positioned outside the jacket and extends along the axial direction of the jacket is formed in the top of the fly cutter set, and a cutter for grinding and cutting the end part of the card wire is arranged at the fly opening;

the flexible blocking piece covers the burr opening and is provided with a penetrating opening which allows the comb needle to penetrate and prevents the plastic sleeve from penetrating;

the first limiting assembly is arranged on the outer side of the hair cutter group and is provided with a first positioning column which can move up and down and move back and forth relative to the jacket, and the first positioning column is used for being inserted into the front end opening of the comb body and restraining the comb on the jacket;

the first driving assembly is arranged on the fixed disc above the rotary disc and located on the inner side of the positioning assembly and comprises a first roller capable of moving up and down and rotating in the circumferential direction, the first roller is in contact with the follower in the downward moving state and is used for pressing the comb down to the comb needle to be in contact with the hair flying knife group, and the first roller is used for driving the follower to rotate in the rotating state so as to drive the comb to rotate.

4. A comb and flydyeing all-in-one machine according to claim 3, wherein the flyer knife set comprises:

the second base is fixed on the assembly platform, the upper part of the second base is hollow, an installation space is formed in the upper part of the second base, and the burr hole is positioned at the top of the installation space;

the first cutter can be rotatably arranged in the mounting space, the axial direction of the first cutter is consistent with the axial direction of the jacket, the first cutter comprises a shaft positioned in the center and blades radially distributed on the outer peripheral wall of the shaft at intervals, the blades extend along the length direction of the burr flying opening, and blades are formed at the outer edge of the blades;

the second cutter is transversely arranged at the top of the second base, the edge of the burr opening and the edge of the second cutter are formed by the edge of the first side part, the edge of the first cutter is close to the edge of the second cutter, and a gap is formed between the edge of the first cutter and the edge of the second cutter.

5. A comb flying and dyeing all-in-one machine according to claim 4, characterized in that: the second cutter gradually inclines upwards from the outer edge of the second cutter to the burr flying position, an arc structure matched with the rotation track of the first cutter is formed on the part, located above the burr flying position, of the second cutter, the arc structure comprises an arc surface located on the lower surface of the second cutter and a guide surface located on the upper surface of the second cutter and gradually inclining downwards to the edge, the end portion of the guide surface is connected with an arc connecting surface extending downwards, the end portion of the arc surface is connected with an inclined connecting surface extending upwards, and the arc connecting surface and the inclined connecting surface form a cutting edge of the second cutter at the intersection.

6. A comb flying and dyeing all-in-one machine according to claim 5, characterized in that: an arc-shaped baffle plate which extends towards the second cutter and is arched upwards is arranged at the edge of the top of the burr flying cutter group, which is opposite to the second cutter, and a burr opening is formed between the edge of the arc-shaped baffle plate and the corresponding edge of the second cutter; the edge of cowl is located the cutting edge of second cutter, flexible blockking piece level arrange on the second cutter and first edge restraint fly on the edge of hair knife tackle, the second edge passes and flies on the lateral wall that the hair mouth retrains in the cowl, the upper surface that flexible blockked piece links up each other and smooth transition with the top of cowl.

7. A comb flying and dyeing all-in-one machine according to claim 3, wherein the first limiting assembly comprises:

the third base is vertically arranged on the operating platform and is positioned on the outer side of the fly cutter group;

the second guide rail is vertically arranged on the third base;

the second sliding block can be connected to the second guide rail in a vertically sliding manner;

the first cylinder is arranged on the second sliding block and is provided with a piston rod transversely arranged towards the rotary table;

the first mounting block is connected with a piston rod of the first air cylinder and can move in a reciprocating manner relative to the comb under the pushing action of the piston rod;

and the first positioning column is arranged on one side of the first mounting block, which faces the comb.

8. A comb fly-dyeing all-in-one machine according to claim 3, characterized in that the first driving assembly comprises:

the fourth base is vertically arranged on the fixed disc above the turntable and is positioned on the inner side of the positioning assembly;

the second cylinder is arranged at the upper part of the fourth base and is provided with a piston rod arranged downwards;

the third driving piece is arranged at the lower end of the piston rod of the second cylinder and can move up and down under the driving of the second cylinder, and the third driving piece is provided with a power output shaft which is transversely arranged towards the group of the fly cutters;

the first roller is connected to the power output shaft of the third driving piece and can rotate under the driving of the third driving piece, and the first roller is located on the follower of the positioning component.

9. A comb flying-dyeing all-in-one machine according to claim 3, characterized in that the dyeing head mechanism comprises:

the third guide rail is arranged on the operating platform in a manner of being vertical to the axial direction of the jacket;

the third sliding block is arranged on the third guide rail in a reciprocating manner along the third guide rail;

the tray is arranged on the third sliding block and can reciprocate along the third guide rail along with the third sliding block;

the second limiting assembly is arranged on the outer side of the tray and is provided with a second positioning column which can move up and down and move back and forth relative to the clamping sleeve, and the second positioning column is used for being inserted into the front end opening of the comb body and restraining the comb on the clamping sleeve;

the second driving assembly is arranged on the fixed disc above the rotary disc and located on the inner side of the positioning assembly and comprises a second roller capable of moving up and down and rotating in the circumferential direction, the second roller is in contact with the follower in the downward moving state and is used for pressing the comb down to the hair oil in the comb needle and the tray, and the second roller is used for driving the follower to rotate in the rotating state and further driving the comb to rotate.

10. A comb flying-dyeing all-in-one machine according to claim 8, characterized in that the dyeing head mechanism further comprises:

the oil head adding structure is arranged on the outer side of the tray and comprises a storage hopper and a feeding rod, wherein an adding opening is formed in the bottom of the storage hopper, the feeding rod can be arranged in the storage hopper in a vertically moving mode and moves upwards to open the adding opening and moves downwards to block the adding opening;

the first oil strickles off the structure, locates the outside of tray, including the scraper blade that can reciprocate, this scraper blade downstream is located the tray and cooperates the removal of tray and strickles off first oil, and this scraper blade rebound breaks away from the tray.

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