CN112323156A - Full-automatic spinning production equipment for wig fibers of hair products - Google Patents

Abstract

The invention particularly relates to full-automatic spinning production equipment for wig fibers of hair products, which comprises a box body mechanism, wherein a shearing mechanism is arranged at the lower right part of the box body mechanism, the box body mechanism comprises a box body, a first roller frame, a second roller frame, a third roller frame and a fourth roller frame, the front part of the right side of the box body is of a stepped structure, a pair of roller shaft mechanisms is respectively arranged in the first roller frame, the second roller frame, the third roller frame and the fourth roller frame, and a pair of roller shaft mechanisms is also arranged in the middle of the bottom of the front surface of the box body; the left side surface of the box body is provided with a controller, and the left side of the front surface of the box body is provided with a cooling mechanism and a screw distributing rod mechanism; the invention carries out centralized production on the wig fiber production process, and centralizes some equipment mechanisms needed in each process, thereby greatly saving the occupied area of the production line; the integrated production can save the production time, the process steps are processed in a centralized way, the carrying work of the hair fiber is reduced, the production efficiency is improved, and the production cost is saved.

Description

Full-automatic spinning production equipment for wig fibers of hair products

Technical Field

The invention belongs to a chemical fiber production device for hair, and particularly relates to full-automatic spinning production equipment for wig fibers of hair products.

Background

Wigs are ornaments for decoration that are hair manufactured by artificial technology. Can be worn by bald or thin hair, or as part of a costume, official or professional outfit or fashion accessory. The wig belongs to the hair product industry in the light industry manufacturing industry, and the hair product industry is divided into: the wig comprises human hair, chemical fiber and blended human hair.

The production process of the hair chemical fiber needs a large number of process steps to meet the quality requirement of the predetermined hair chemical fiber; however, the production process of the chemical fiber for hair is more, and each process step comprises a large number of working procedures, so that more equipment is needed when the chemical fiber for hair is prepared, and the occupied space is larger; the chemical fiber for hair in the previous process needs to be transported by a transfer trolley between each process. Therefore, a large amount of manpower and material resources are needed for each process and transportation.

Chemical fibre for hair need in the production process with the chemical fiber winding of hair in the just production and the transportation of back end process above the silk roller, need cut it after carrying out the chemical fiber rolling of hair, there is very big potential safety hazard in artifical shearing, because take the scissors to go to cut easily to take place to run into the current situation that causes the fracture with other positions of the chemical fiber of hair, and artifical shearing probably has certain risk, the rotation of machine probably causes the chemical fiber winding of hair to cause the injury to the staff on scissors or hand.

In order to enable the product quality to be better, the production efficiency to be faster, the production cost to be saved and the occupied space of equipment to be reduced, the full-automatic spinning production equipment for the wig fibers of the hair products is provided.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides full-automatic spinning production equipment for wig fibers of hair products.

The purpose of the invention is realized as follows: the full-automatic spinning production equipment for the wig fibers of hair products comprises a box body mechanism, wherein a shearing mechanism is arranged at the lower right side of the box body mechanism, the box body mechanism comprises a box body, a first roller frame, a second roller frame, a third roller frame and a fourth roller frame, the front part of the right side of the box body is of a stepped structure, the stepped structure of the box body is sequentially provided with the first roller frame, the second roller frame, the third roller frame and the fourth roller frame from top to bottom, the left sides of the second roller frame, the second roller frame and the fourth roller frame are positioned on the same plane, and the left side of the first roller frame and the middle part of the second roller frame are positioned on the same plane; a pair of roll shaft mechanisms are respectively arranged in the first roll shaft frame, the second roll shaft frame, the third roll shaft frame and the fourth roll shaft frame, and a pair of roll shaft mechanisms is also arranged in the middle of the bottom of the front surface of the box body; the left surface of box is provided with the controller, and the front surface left side of box is provided with cooling body and divides lead screw mechanism, and the cooling body below is provided with the bar basin, and the left side of box is provided with main drain pipe, and the below of main drain pipe is provided with the stock solution bucket, is provided with the connecting pipe between bar basin and the main drain pipe.

Furthermore, a first wire outlet is formed in the right side of the lower frame of the first roller shaft frame, and a first wire inlet is formed in the lower part of the left frame of the first roller shaft frame; a second wire outlet is formed in the middle of the upper frame of the second roller frame, and a second wire inlet is formed in the left part of the lower frame of the second roller frame; a third wire outlet is formed in the left part of the upper frame of the third roller frame, and a third wire inlet is formed in the left part of the lower frame of the third roller frame; a fourth wire outlet is formed in the left part of the upper frame of the fourth roller frame, and a fourth wire inlet is formed in the left part of the lower frame of the fourth roller frame; and the first wire inlet, the second wire inlet, the third wire inlet, the fourth wire inlet and the left upper corners of the pair of roller shaft mechanisms at the bottom are provided with wire guide rods.

Further, the roller mechanism comprises a roller, a fixing plate, a fixing bolt, a fastening bolt, an adjusting bolt, a roller shaft bracket, a motor, a rotating rod, a bearing, a motor lug plate and a bracket lug plate, wherein the fixing plate is fixed on a box body through the fixing bolt, a roller shaft hole is formed in the middle of the fixing plate, the roller shaft bracket is positioned in the roller shaft hole, the box body is provided with a motor hole with the same size as the roller shaft hole, the rear side surface of the fixing plate is provided with a cross-shaped groove, the outer side surface of the roller shaft bracket is fixedly connected with the rotating rod, the roller shaft bracket is rotatably connected with the fixing plate through the rotating rod, four bracket lug plates are uniformly distributed on the outer side surface of the roller shaft bracket, the bracket lug plates are positioned in the cross-shaped groove, the motor is connected with the roller shaft bracket through the bearing, the four motor lug, four adjusting bolts are arranged on the fixing plate, and the bottoms of the adjusting bolts are positioned in the arc-shaped grooves of the lug plates of the support.

Furthermore, the cooling mechanism comprises a roller, a liquid accumulation groove, a driven wheel, a roller shaft, a first connecting plate, a second connecting plate, a liquid supply groove, a liquid inlet pipe, a communicating pipe and a branch liquid discharge pipe, wherein two rectangular holes are formed in the front surface of the box body, one roller is arranged in each rectangular hole, the two ends of each roller are connected with the roller shaft, the two ends of each roller are respectively rotatably connected with the rear side surface of the box body through the first connecting plate and the second connecting plate, the driven wheel is fixedly connected with the left end of each roller, the liquid accumulation groove is arranged below each roller, the liquid accumulation groove is fixed in the rectangular through hole of the box body, the lower part of each roller is positioned in the liquid accumulation groove, the liquid accumulation groove is connected with the liquid; the communication pipe and the branch liquid discharge pipe penetrate through the bottom surface of the liquid accumulation tank, the ports of the communication pipe and the branch liquid discharge pipe are higher than the bottom surface of the liquid accumulation tank and lower than the upper surface of the liquid accumulation tank frame, the bottom surface of the liquid accumulation tank and the bottom surface of the liquid supply tank are positioned on the same plane, and the upper part of the liquid supply tank is connected with the liquid inlet pipe; the inside backup pad that is provided with of box rear side, the backup pad middle part is provided with the cooling motor, and the output of cooling motor is provided with the action wheel, and the action wheel is connected through the chain between two follow driving wheels that distribute from top to bottom.

Further, the shearing mechanism top be provided with the silk mechanism that draws, the silk mechanism that draws is including drawing a silk platform, the delivery pipe, draw the lead screw, receive the lead screw, the water guide plate, water supply switch, the knob, the drainage head, the swash plate, draw silk platform rear end face fixed connection on the box, the basin has been seted up to draw silk platform bottom, draw fixedly connected with water guide plate in the silk platform, fixedly connected with water supply switch on the water guide plate, water supply switch top is provided with the knob, the output of water supply switch left surface runs through the drainage head, drainage head lower part is the inclined plane, the drainage head middle part is seted up flutedly, drainage head inclined plane department is connected with the swash plate, water supply switch is connected with the delivery pipe, the water.

Furthermore, the wire dividing rod mechanism comprises a wire dividing rod seat and a wire dividing rod, two ends of the wire dividing rod are respectively rotatably connected with the wire dividing rod, the wire dividing rod seat is fixedly connected to the box body, and the wire dividing rod mechanism is located in the middle of the two rollers.

When the device is used, silk fibers move downwards from the upper part of the cooling mechanism, the silk fibers pass through the upper roller and then pass through the splitting rod to be uniformly distributed, the silk fibers pass through the lower roller, the silk fibers move downwards along the front side wall of the strip-shaped water tank, the silk fibers enter the thread guide rod at the lower left part to be bundled, and the silk fibers are wound on the pair of roller shaft mechanisms at the lowest part; the silk fiber is wound to a silk guide rod at a fourth inlet from a roller shaft at the right side at the lowest part, and the silk fiber is wound on a pair of roller shaft mechanisms in a fourth roller shaft frame; the silk fiber is wound to a silk guide rod at a third inlet port by a roller mechanism on the left side in a fourth roller frame, and the silk fiber is wound on a pair of roller mechanisms in a third roller frame; the silk fiber is wound to the silk guide rod at the second inlet port by the roller mechanism on the left side in the third roller frame, and the silk fiber is wound on the pair of roller mechanisms in the second roller frame; the silk fiber is wound to the silk guide rod at the first inlet opening by the roller mechanism on the left side in the second roller frame, and the silk fiber is wound on the pair of roller mechanisms in the first roller frame; the silk fiber is led out from the first outlet by the roller mechanism on the right side in the first roller frame, enters the silk leading rod of the silk leading mechanism, passes through the groove on the drainage head and is led out in the wire groove formed on the inclined plate, and the silk fiber passes through the silk collecting rod and enters the shearing mechanism.

Supplying water to a water supply pipe of the filament guiding mechanism, supplying cooling liquid to a liquid inlet pipe, controlling the motor, the cooling motor and the shearing mechanism to rotate through the controller, and driving the filament fibers to rotate by the five pairs of roller mechanisms; the coolant liquid flows to the liquid supply tank through the liquid inlet pipe, the coolant liquid in the liquid supply tank flows to the liquid accumulation tank through the communicating pipe, and when the coolant liquid level in the liquid accumulation tank is higher than the height of one end of the branch liquid discharge pipe in the liquid accumulation tank, the coolant liquid enters the main liquid discharge pipe through the branch liquid discharge pipe and flows to the liquid storage cylinder. The cooling motor drives the driven wheel to rotate through the chain, so as to drive the roller to rotate, the roller attaches the cooling liquid in the liquid accumulation tank to the surface, and the cooling liquid wets and cools the silk fibers during rotation; the silk fibre is pressing close to bar basin front frame after the cooling, and bar basin's front frame upper portion is outstanding, is convenient for extrude the liquid on the silk fibre and filters out, scrapes unnecessary liquid on the silk fibre down to the bar basin, and the hydrops in the bar basin enters into main drain pipe through the connecting pipe again. The delivery pipe supplies water to the water supply switch, can control the size of working capacity through rotatory knob, and the water supply switch carries out the fine moist cooling of silk, and unnecessary water is scraped out through the swash plate, and unnecessary water flows to the water deflector through the lower extreme of swash plate, and water rethread water deflector flows to the basin, and the water in the basin can be discharged through setting up the drain pipe, and technical scheme is comparatively simple, as long as can with the water discharge can, be no longer giving unnecessary details.

The beneficial effect of this device, each process steps in will sending out the fibre production process is concentrated the installation and is placed, reduces production line area for the distance between each technology becomes compacter, improves production efficiency, has avoided the manual handling operation between each technology, uses this equipment to produce and has reduced personnel's use amount, and then realizes practicing thrift manufacturing cost.

Drawings

Fig. 1 is a schematic structural diagram of the invention.

Fig. 2 is a rear side sectional view of the invention.

Fig. 3 is a partial structural schematic diagram of the invention.

Fig. 4 is a structural cross-sectional view of the left side of the invention.

FIG. 5 is a partial sectional view of the left rear side box of the present invention.

Fig. 6 is a partial structural schematic diagram of the cooling mechanism of the invention. .

Fig. 7 is a schematic structural view of the roller mechanism of the invention.

Fig. 8 is a rear view structural schematic diagram of the roller mechanism of the invention.

Fig. 9 is a partial structural sectional view of the rear side of the roller mechanism of the invention.

Fig. 10 is a cross-sectional view of the roller of the inventive roller mechanism.

Fig. 11 is a schematic structural view of the thread guiding mechanism of the invention.

Fig. 12 is a partial structure schematic diagram of the thread guiding mechanism of the invention.

Fig. 13 is a schematic structural view of the shearing device of the invention.

FIG. 14 is a partial structural cross-sectional view of the shearing device of the invention.

FIG. 15 is a schematic view of a thread-guiding mechanism of the shearing device of the present invention.

Fig. 16 is a structural schematic diagram of a wire drawing and tensioning mechanism of the shearing device.

Fig. 17 is a schematic structural diagram of a shearing mechanism of the shearing device of the invention.

Fig. 18 is a partial structural sectional view of a shearing mechanism of the shearing device of the invention.

List of reference numerals

1. The automatic cutting machine comprises a box mechanism, a box body 101, a box body 102, a first roller shaft frame, a second roller shaft frame 103, a third roller shaft frame 104, a third roller shaft frame 105, a fourth roller shaft frame 2, a wire leading mechanism 201, a wire leading table 202, a wire leading rod 203, a water supply pipe 204, a knob 205, a water supply switch 206, a wire collecting rod 207, a water guide plate 208, a water discharge head 209, an inclined plate 3, a shearing device 4, a liquid storage cylinder 4, a roller shaft mechanism 5, a roller 501, a fixing plate 502, a fixing bolt 503, a fixing bolt 504, an adjusting bolt 505, a fastening bolt, a motor 506, a 507 rotating rod 508, a motor lug plate 508, a 509 support lug plate 510, a roller shaft support, a 511 bearing 6, a controller 7, a main liquid discharge pipe 7, a cooling mechanism 8, a 801, a roller, an 802, a liquid supply tank 803, a connecting plate 804, a chain 805, a cooling motor, 806, a supporting plate 807, a liquid accumulating tank 808, a connecting plate, a connecting, 809. A branch liquid discharge pipe 810, a connecting plate I, a roller shaft 811, a driven wheel 812, a driving wheel 813, a driving wheel 814, a liquid inlet pipe 9, a branch screw rod mechanism 901, a branch screw rod 902, a branch screw rod seat 10, a strip-shaped water tank 11, a connecting pipe 12 and a wire guide rod; 13. a shearing table, 1301, a bottom plate, 1302, a right side plate, 1303, a left side plate, 1304, a front plate, 1305, a top plate, 1306 and a rear plate; 14. a winding roller mechanism, 1401, a motor base, 1402, a winding roller motor, 1403, a bearing I, 1404 and a winding roller; 15. the device comprises a wire drawing tensioning mechanism, 1501, a support rod, 1502, a large guide wheel, 1503, a bearing four, 1504, an air spring seat, 1505, an air spring, 1506, a bearing two, 1507, a rotating shaft two, 1508, a Z-shaped rod, 1509, a small guide wheel, 1510, a bearing three, 1511 and a rotating shaft one; 16. the device comprises a wire guiding mechanism, 1601, a wire guiding motor, 1602, a rotary table, 1603, a rotary rod, 1604, a connecting rod, 1605, a guide rod, 1606, a wire guiding plate, 1607, a guide groove and 1608, a wire guiding ring; 17. the cutting mechanism, 1701. longitudinal electric cylinder, 1702. transverse electric cylinder, 1703. small electric cylinder, 1704. sliding block, 1705. upper blade, 1706. convex guide groove, 1707. connecting block, 1708. convex guide rail, 1909. sliding rod, 1910. rotating rod one, 1911. lower blade, 1912, rotating rod two, 1913. rotating rod three; 20. a shear table controller.

Detailed Description

Embodiment 1, as shown in fig. 1 to 12, a full-automatic spinning production apparatus for wig fiber of hair products includes a box mechanism 1, a shearing device 3 is disposed at the lower right side of the box mechanism 1, the box mechanism 1 includes a box 101, a first roller frame 102, a second roller frame 103, a third roller frame 104, and a fourth roller frame 105, the front portion of the right side of the box 101 is a stepped structure, the stepped structure of the box 101 is sequentially provided with the first roller frame 102, the second roller frame 103, the third roller frame 104, and the fourth roller frame 105 from top to bottom, the left side surfaces of the second roller frame 103, the second roller frame, and the fourth roller frame 105 are located on the same plane, and the left side surface of the first roller frame 102 and the middle portion of the second roller frame 103 are located on the same plane; a pair of roller shaft mechanisms 5 are respectively arranged in the first roller shaft frame 102, the second roller shaft frame 103, the third roller shaft frame 104 and the fourth roller shaft frame 105, and a pair of roller shaft mechanisms 5 are also arranged in the middle of the bottom of the front surface of the box body 101; a first wire outlet is formed in the right side of the lower frame of the first roller frame 102, and a first wire inlet is formed in the lower portion of the left frame of the first roller frame 102; a second wire outlet is formed in the middle of the upper frame of the second roller frame 103, and a second wire inlet is formed in the left part of the lower frame of the second roller frame 103; a third wire outlet is formed in the left part of the upper frame of the third roller frame 104, and a third wire inlet is formed in the left part of the lower frame of the third roller frame 104; a fourth wire outlet is formed in the left part of the upper frame of the fourth roller frame 105, and a fourth wire inlet is formed in the left part of the lower frame of the fourth roller frame 105; and the first wire inlet, the second wire inlet, the third wire inlet, the fourth wire inlet and the left upper corners of the pair of roller shaft mechanisms 5 at the lowest part are provided with wire guide rods 12.

The left side surface of the box body 101 is provided with a controller 6, the left side of the front surface of the box body 101 is provided with a cooling mechanism 8 and a dividing screw rod mechanism 9, the dividing screw rod mechanism 9 comprises a dividing screw rod seat 902 and a dividing screw rod 901, two ends of the dividing screw rod 901 are respectively rotatably connected with the dividing screw rod 901, the dividing screw rod seat 902 is fixedly connected on the box body 101, and the dividing screw rod mechanism 9 is positioned in the middle of the two rollers 801. A strip-shaped water tank 10 is arranged below the cooling mechanism 8, a main liquid discharge pipe 7 is arranged on the left side of the box body 101, a liquid storage barrel is arranged below the main liquid discharge pipe 7, and a connecting pipe 11 is arranged between the strip-shaped water tank 10 and the main liquid discharge pipe 7.

The roller shaft mechanism 5 comprises a roller 501, a fixing plate 502, a fixing bolt 503, a fastening bolt 505, an adjusting bolt 504, a roller shaft bracket 510, a motor 506, a rotating rod 507, a bearing 511, a motor lug plate 508 and a bracket lug plate 509, wherein the fixing plate 502 is fixed on the box body 101 through the fixing bolt 503, the middle part of the fixing plate 502 is provided with a roller shaft 811 hole, the roller shaft bracket 510 is positioned in the roller shaft 811 hole, the box body 101 is provided with the motor 506 hole with the same size as the roller shaft 811 hole, the rear side surface of the fixing plate 502 is provided with a cross-shaped groove, the outer side surface of the roller shaft bracket 510 is fixedly connected with the rotating rod 507, the roller shaft bracket 510 is rotatably connected with the fixing plate 502 through the rotating rod 507, the outer side surface of the roller shaft bracket 510 is uniformly distributed with four bracket lug plates 509, the bracket lug plates 509 are positioned, the motor ear plate 508 is connected with the support ear plate 509 through a fastening bolt 505, an arc-shaped groove is formed in the middle of the front side face of the support ear plate 509, four adjusting bolts 504 are arranged on the fixing plate 502, and the bottoms of the adjusting bolts 504 are located in the arc-shaped groove of the support ear plate 509.

The cooling mechanism 8 comprises a roller 801, a liquid accumulation groove 807, a driven wheel 812, a roller shaft 811, a first connecting plate 810, a second connecting plate 803, a liquid supply groove 802, a liquid inlet pipe 814, a communicating pipe 808 and a liquid branch and discharge pipe 809, wherein the front surface of the box 101 is provided with two rectangular holes, the two ends of the roller 801 are respectively provided with one roller 801, the two ends of the roller 801 are connected with the roller shaft 811, the two ends of the roller shaft 811 are respectively rotatably connected with the rear side surface of the box 101 through the first connecting plate 810 and the second connecting plate 803, the left end of the roller shaft 811 is fixedly connected with the driven wheel 812, the liquid accumulation groove 807 is arranged below the roller 801, the liquid accumulation groove 807 is fixed in the rectangular through hole of the box 101, the lower part of the roller 801 is positioned in the liquid accumulation groove 807, the liquid accumulation groove; the communicating pipe 808 and the branch liquid discharge pipe 809 penetrate through the bottom surface of the liquid accumulation groove 807, the ports of the communicating pipe 808 and the branch liquid discharge pipe 809 are higher than the bottom surface of the liquid accumulation groove 807 and lower than the upper surface of the frame of the liquid accumulation groove 807, the bottom surface of the liquid accumulation groove 807 and the bottom surface of the liquid supply groove 802 are positioned on the same plane, and the upper part of the liquid supply groove 802 is connected with the liquid inlet pipe 814; a supporting plate 806 is arranged in the rear side of the box body 101, a cooling motor 805 is arranged in the middle of the supporting plate 806, a driving wheel 813 is arranged at the output end of the cooling motor 805, and the driving wheel 813 is connected with two driven wheels 812 which are distributed up and down through a chain 804.

The thread guiding mechanism 2 is arranged above the shearing device 3, the thread guiding mechanism 2 comprises a thread guiding table 201, a water supply pipe 203, a thread guiding rod 202, a thread collecting rod 206, a water guide plate 207, a water supply switch 205, a knob 204, a drainage head 208 and an inclined plate 209, the rear end face of the thread guiding table 201 is fixedly connected to the box body 101, a water groove is formed in the bottom of the thread guiding table 201, the water guide plate 207 is fixedly connected to the inside of the thread guiding table 201, the water supply switch 205 is fixedly connected to the water guide plate 207, the knob 204 is arranged above the water supply switch 205, the output end of the left side face of the water supply switch 205 penetrates through the drainage head 208, the lower portion of the drainage head 208 is an inclined plane, a groove is formed in the middle of the drainage head 208, the inclined plane of the drainage head 208.

When the cooling device is used, silk fibers move downwards from the upper part of the cooling mechanism 8, the silk fibers pass through the upper roller 801 and then pass through the silk splitting rod 901 to be uniformly distributed, the silk fibers pass through the lower roller 801 and then move downwards along the front side wall of the strip-shaped water tank 10, the silk fibers enter the silk guide rod 12 at the lower left part to be bundled, and then the silk fibers are wound on the pair of roller shaft mechanisms 5 at the lowest part; the silk fiber is wound on the silk guide rod 12 at the fourth inlet from the roller 811 at the lowest right side, and the silk fiber is wound on the pair of roller mechanisms 5 in the fourth roller frame 105; the silk fiber is wound to the silk guide rod 12 at the third inlet port by the roller mechanism 5 at the left side in the fourth roller frame 105, and the silk fiber is wound on the pair of roller mechanisms 5 in the third roller frame 104; the silk fiber is wound to the silk guide rod 12 at the second inlet port by the roller mechanism 5 at the left side in the third roller frame 104, and the silk fiber is wound on the pair of roller mechanisms 5 in the second roller frame 103; the silk fiber is wound to the silk guide rod 12 at the first inlet opening by the roller mechanism 5 at the left side in the second roller frame 103, and the silk fiber is wound on the pair of roller mechanisms 5 in the first roller frame 102; the fiber is led out from the first outlet by the roller mechanism 5 on the right side in the first roller frame 102, enters the leading screw 202 of the leading mechanism 2, passes through the groove of the water discharge head 208, is led out in the line groove arranged on the inclined plate 209, and passes through the take-up screw 206 to enter the shearing device 3.

Supplying water to the water supply pipe 203 of the filament guiding mechanism 2, supplying cooling liquid to the liquid inlet pipe 814, and controlling the motor 506, the cooling motor 805 and the shearing device 3 to rotate through the controller 6, wherein the five pairs of roller mechanisms 5 drive the filament to rotate; the cooling liquid flows into the liquid supply tank 802 through the liquid inlet pipe 814, the cooling liquid in the liquid supply tank 802 flows into the liquid accumulation tank 807 through the communicating pipe 808, and when the cooling liquid level in the liquid accumulation tank 807 is higher than the height of one end of the branch liquid discharge pipe 809 in the liquid accumulation tank 807, the cooling liquid enters the main liquid discharge pipe 7 through the branch liquid discharge pipe 809 and flows to the liquid storage cylinder 4. The cooling motor 805 drives the driven wheel 812 to rotate through the chain 804, and further drives the roller 801 to rotate, the roller 801 attaches the cooling liquid in the liquid accumulation groove 807 to the surface, and the cooling liquid wets and cools the fiber during rotation; the silk fibre is pressing close to bar basin 10 front frame after the cooling, and bar basin 10 front frame upper portion is outstanding, is convenient for extrude the liquid on the silk fibre and filters out, scrapes down to bar basin 10 with the unnecessary liquid on the silk fibre, and the hydrops in the bar basin 10 gets into to main drain pipe 7 through connecting pipe 11 again. The delivery pipe 203 supplies water to the water supply switch 205, can control the size of water supply through rotatory knob 204, the water supply switch 205 carries out the wet cooling with silk fibre, unnecessary water is scraped out through swash plate 209, unnecessary water flows to water deflector 207 through the lower extreme of swash plate 209, water rethread water deflector 207 flows to the basin, the water in the basin can be discharged through setting up the drain pipe, technical scheme is comparatively simple, as long as can with the water discharge can, be no longer giving unnecessary details.

The shearing device can be customized according to needs, and particularly provides a shearing device for shearing silk fibers, as shown in fig. 13-18, the shearing device comprises a shearing table 13, wherein the shearing table 13 comprises a bottom plate 1301, a left side plate 1303, a right side plate 1302, a top plate 1305, a front plate 1304 and a rear plate 1306, the bottom plate 1301, the left side plate 1303, the right side plate 1302, the top plate 1305, the front plate 1304 and the rear plate 1306 are connected with each other to form a rectangular shearing table, and the right side of the rear plate 1306 extends out of the shearing table 13; a winding roller mechanism 14 is arranged at the lower part of the right side of the shearing table 13, a wire drawing and tensioning mechanism 15 is arranged at the upper part of the right side of the shearing table 13, a wire leading mechanism 16 is arranged at the middle part of the right side of the shearing table 13, a shearing mechanism 17 is arranged at the middle part of the front side of the right part of the back plate 1306, a shearing table controller 20 is arranged at the middle part of the right side of the back plate 1306, the shearing table controller 20 is preferably a Mitsubishi FX2N-64MT-001 shearing table controller 20, the shearing table controller 20 is used for controlling the start and stop of the winding roller motor 1402 and the wire leading motor 1601, the winding roller motor 1402 and the wire leading motor 1601 are preferably a Serian 42HS08 stepping motor to meet the set function of the shearing table controller 20, the wire leading ring 1608 is always positioned at the right end of the guide groove 1607 when the winding roller motor 1402 and the wire leading motor 1601 are stopped, the shearing mechanism 1701 is set to move forwards, driving a sliding rod 1709 to move forwards, so that the chemical fiber for hair is positioned at a position which is horizontal to an included angle between a lower blade 1711 and an upper blade 1705, a transverse electric cylinder 1702 drives a sliding block 1704 to move rightwards, a convex guide rail 1708 moves rightwards along a convex guide groove 1706 until the sliding block 1704 moves to the rightmost end, at the moment, the chemical fiber for hair is positioned in the included angle between the lower blade 1711 and the upper blade 1705, the upper blade 1705 is rotatably connected with the output end of a small electric cylinder 1703 through a third rotating rod 1713, and the small electric cylinder 1703 is rotatably connected with the sliding block 1704 through a second rotating rod 1712, so that the small electric cylinder 1703 contracts to drive the left end of the upper blade 1705 to move backwards around a sliding rod 1710, the right end of the upper blade 1705 moves around the sliding rod 1710 to the direction of the lower blade 1711, and the lower blade 171; after the shearing is completed, the small electric cylinder 1703, the transverse electric cylinder 1702 and the shearing mechanism 1701 are reset.

The winding roller mechanism 14 comprises a winding roller motor 1402, a motor seat 1401, a first bearing 1403 and a winding roller 1404, wherein the motor seat 1401 is fixedly connected to the upper surface of the bottom plate 1301, the winding roller motor 1402 is arranged on the motor seat 1401, the winding roller 1404 is fixedly connected to the output end of the winding roller motor 1402, the output end of the winding roller motor 1402 penetrates through the right side plate 1302, and the output end of the winding roller motor 1402 is connected with the right side plate 1302 through the first bearing 1403.

The wire drawing tensioning mechanism 15 comprises a gas spring 1505, a gas spring seat 1504, a first rotating shaft 1511, a second rotating shaft 1507, a second bearing 1506, a Z-shaped rod 1508, a third bearing 1510, a small guide wheel 1509, a support rod 1501, a large guide wheel 1502 and a fourth bearing 1503, wherein the middle parts of the outer side surfaces of the large guide wheel 1502 and the small guide wheel 1509 are provided with annular grooves, and the middle positions of the outer side surfaces of the large guide wheel 1502 and the small guide wheel 1509 are positioned on the same plane; the Z-shaped bar 1508 is located forwardly and downwardly of the support bar 1501. The gas spring seat 1504 is rotatably connected with the upper part of the right side plate 1302 through a first rotating shaft 1511, a gas spring 1505 is arranged on the gas spring seat 1504, the output end of the gas spring 1505 is connected with the front end of the middle part of the Z-shaped rod 1508 through a second rotating shaft 1507, the left end of the Z-shaped rod 1508 is rotatably connected with the right side plate 1302 through a second bearing 1506, and the right end of the Z-shaped rod 1508 is connected with a small guide wheel 1509 through a third bearing 1510; support bar 1501 is fixedly connected to the middle position of the upper portion of right side plate 1302, and the right end of support bar 1501 is rotatably connected with big guide wheel 1502 through bearing four 1503.

The wire guiding mechanism 16 comprises a wire guiding motor 1601, a rotary table 1602, a rotary rod 1603, a connecting rod 1604, a guide rod 1605, a wire guiding plate 1606, a guide groove 1607 and a wire guiding ring 1608, wherein the wire guiding motor 1601 is fixedly connected to the middle of the right side of the front surface of the rear plate 1306, the output end of the wire guiding motor 1601 is fixedly connected with the rotary table 1602, the outer edge of the rotary table 1602 is rotatably connected with the connecting rod 1604 through the rotary rod 1603, the connecting rod 1604 is rotatably connected with the guide rod 1605, the right end of the front side of the guide rod 1605 is fixedly connected with a wire guiding ring 1608, the wire guiding plate 1606 is fixedly connected to the middle of the right middle of the front side of the rear plate 1306, the wire guiding plate 1606 penetrates through the right side plate 1302, the front side of the wire guiding plate 1606 is provided with the guide groove 1607, the wire guiding ring 1608 is divided into a rod; the guide rod 1605 is slidably disposed in the guide plate 1606, and the guide ring 1608 extends through the guide slot 1607 and can move left and right in the guide slot 1607.

The shearing mechanism 17 comprises a shearing mechanism 1701, a transverse electric cylinder 1702, a small electric cylinder 1703, a sliding rod 1709, a sliding block 1704, a convex guide rail 1708, a connecting block 1707, an upper blade 1705 and a lower blade 1711, wherein the shearing mechanism 1701 and the transverse electric cylinder 1702 are preferably MPOO P045 electric cylinders of Shanghai Yi Multi Automation technology Limited, and the small electric cylinder 1703 is preferably a DDA micro electric cylinder of KSS brand; the output end of the upper blade 1705 is rotatably connected with the output end of the small electric cylinder 1703 through a rotating rod three 1713, and the small electric cylinder 1703 is rotatably connected with the sliding block 1704 through a rotating rod two 1712, so that the small electric cylinder 1703 contracts to drive the left end of the upper blade 1705 to move backwards around the sliding rod 1710, two ends of the sliding rod 1709 are fixedly connected with connecting blocks 1707, the rear end of each connecting block 1707 is fixedly connected with a shearing mechanism 1701, the shearing mechanism 1701 is vertically and fixedly connected with the middle position of the right part of the front side surface of the rear plate 1306, the left upper surface of the sliding rod 1709 is fixedly connected with a transverse electric cylinder 1702, the output end of the transverse electric cylinder 1702 is fixedly connected with the sliding block 1704, the middle part of the lower surface of the sliding block 1704 is fixedly connected with a convex guide rail 1708, the middle part of the upper surface of the sliding rod 1709 is provided. The small electric cylinder 1703 is rotatably connected to the left part of the upper surface of the sliding block 1704, the output end of the small electric cylinder 1703 is rotatably connected to the left end of the upper blade 1705, the lower blade 1711 is fixedly connected to the right part of the upper surface of the sliding block 1704, and the upper blade 1705 is rotatably connected to the middle part of the lower blade 1711.

When the chemical fiber drawing machine is used, the wire roller is sleeved on the winding roller 1404 on the winding roller mechanism 14, then the chemical fiber for hair is wound from the lower part of the small guide wheel 1509 of the wire drawing tensioning mechanism 15 and then from the upper part of the large guide wheel 1502, when the chemical fiber for hair is tight, the small guide wheel 1509 is forced upwards, the air spring 1505 is compressed and contracted, the small guide wheel 1509 moves upwards, the distance between the small guide wheel 1509 and the large guide wheel 1502 is shortened, the tensioning force of the chemical fiber for hair is relieved, and the chemical fiber for hair is prevented from being pulled apart; the chemical fiber for hair is threaded through a thread guiding ring 1608 of the thread guiding mechanism 16, and then the chemical fiber for hair is wound on a thread roller on the winding roller mechanism 14; the cutting table controller 20 controls the winding roller motor 1402 and the wire leading motor 1601 to rotate, the winding roller motor 1402 drives the wire roller to rotate, the wire roller winds the hair chemical fiber, the wire leading motor 1601 drives the rotary table 1602 to rotate, the right end of the connecting rod 1604 drives the guide rod 1605 to move left and right when the rotary table 1602 rotates, the guide rod 1605 moves in the wire leading plate 1606, and the guide rod 1605 drives the wire leading ring 1608 to move left and right along the guide groove 1607; at this time, the hair chemical fiber is driven by the wire guiding ring 1608 to move left and right to wind around the wire winding roller, so that the hair chemical fiber is prevented from being wound only at a certain position of the wire winding roller, the hair chemical fiber is uniformly distributed on the wire winding roller, when the hair chemical fiber is wound, the cutting table controller 20 controls the winding roller motor 1402 and the wire guiding motor 1601 to stop rotating, and the cutting table controller 20 sets that the wire guiding ring 1608 stops at the rightmost end in the guide groove 1607 when the wire guiding motor 1601 and the winding roller motor 1402 stop.

Then the shearing mechanism 17 is controlled by the shearing table controller 20 to shear the chemical fiber filament, at this time, the shearing mechanism 1701 moves forward to drive the sliding rod 1709 to move forward, so that the chemical fiber filament for hair is positioned at a position horizontal to an included angle between the lower blade 1711 and the upper blade 1705, the transverse electric cylinder 1702 drives the sliding block 1704 to move rightward, the convex guide rail 1708 moves rightward along the convex guide groove 1706 until the sliding block 1704 moves to the rightmost end, at this time, the chemical fiber for hair is positioned at an included angle between the lower blade 1711 and the upper blade 1705, the upper blade 1705 is rotatably connected with the output end of the small electric cylinder 1703 through the rotating rod three 1713, the small electric cylinder 1703 is rotatably connected with the sliding block 1704 through a rotating rod II 1712, so that the small electric cylinder 1703 contracts to drive the left end of the upper blade 1705 to move backwards around the sliding rod 1710, the right end of the upper blade 1705 moves towards the lower blade 1711 around the sliding rod 1710, and the lower blade 1711 and the upper blade 1705 complete shearing of the chemical fiber for hair; after the shearing is completed, the small electric cylinder 1703, the transverse electric cylinder 1702 and the shearing mechanism 1701 are reset.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

Claims (6)

1. The full-automatic spinning production equipment for the wig fibers of hair products comprises a box body mechanism, wherein a shearing mechanism is arranged at the lower right side of the box body mechanism, the box body mechanism comprises a box body, a first roller frame, a second roller frame, a third roller frame and a fourth roller frame, the front part of the right side of the box body is of a stepped structure, the stepped structure of the box body is sequentially provided with the first roller frame, the second roller frame, the third roller frame and the fourth roller frame from top to bottom, the left sides of the second roller frame, the second roller frame and the fourth roller frame are positioned on the same plane, and the left side of the first roller frame and the middle part of the second roller frame are positioned on the same plane; a pair of roll shaft mechanisms are respectively arranged in the first roll shaft frame, the second roll shaft frame, the third roll shaft frame and the fourth roll shaft frame, and a pair of roll shaft mechanisms is also arranged in the middle of the bottom of the front surface of the box body; the left surface of box is provided with the controller, and the front surface left side of box is provided with cooling body and divides lead screw mechanism, and the cooling body below is provided with the bar basin, and the left side of box is provided with main drain pipe, and the below of main drain pipe is provided with the stock solution bucket, is provided with the connecting pipe between bar basin and the main drain pipe.

2. The full-automatic spinning production equipment for the wig fibers of the hair product according to claim 1, characterized in that: a first wire outlet is formed in the right side of the lower frame of the first roller shaft frame, and a first wire inlet is formed in the lower part of the left frame of the first roller shaft frame; a second wire outlet is formed in the middle of the upper frame of the second roller frame, and a second wire inlet is formed in the left part of the lower frame of the second roller frame; a third wire outlet is formed in the left part of the upper frame of the third roller frame, and a third wire inlet is formed in the left part of the lower frame of the third roller frame; a fourth wire outlet is formed in the left part of the upper frame of the fourth roller frame, and a fourth wire inlet is formed in the left part of the lower frame of the fourth roller frame; and the first wire inlet, the second wire inlet, the third wire inlet, the fourth wire inlet and the left upper corners of the pair of roller shaft mechanisms at the bottom are provided with wire guide rods.

3. The full-automatic spinning production equipment for the wig fibers of the hair product according to claim 1, characterized in that: the roll shaft mechanism comprises a roll, a fixed plate, a fixing bolt, a fastening bolt, an adjusting bolt, a roll shaft bracket, a motor, a rotating rod, a bearing, a motor lug plate and a bracket lug plate, wherein the fixed plate is fixed on a box body through the fixing bolt, the middle part of the fixed plate is provided with a roll shaft hole, the roll shaft bracket is positioned in the roll shaft hole, the box body is provided with a motor hole with the same size as the roll shaft hole, the back side surface of the fixed plate is provided with a cross-shaped groove, the outer side surface of the roll shaft bracket is fixedly connected with the rotating rod, the roll shaft bracket is rotatably connected with the fixed plate through the rotating rod, the outer side surface of the roll shaft bracket is uniformly distributed with four bracket lug plates, the bracket lug plates are positioned in the cross-shaped groove, the motor is connected with the roll shaft bracket through the bearing, four adjusting bolts are arranged on the fixing plate, and the bottoms of the adjusting bolts are positioned in the arc-shaped grooves of the lug plates of the support.

4. The full-automatic spinning production equipment for the wig fibers of the hair product according to claim 1, characterized in that: the cooling mechanism comprises a roller, a liquid accumulation groove, a driven wheel, a roller shaft, a first connecting plate, a second connecting plate, a liquid supply groove, a liquid inlet pipe, a communicating pipe and a branch liquid discharge pipe, wherein two rectangular holes are formed in the front surface of the box body, one roller is arranged in each rectangular hole, the two ends of the roller are connected with the roller shaft, the two ends of the roller shaft are respectively rotatably connected with the rear side surface of the box body through the first connecting plate and the second connecting plate, the driven wheel is fixedly connected with the left end of the roller shaft, the liquid accumulation groove is arranged below the roller and fixed in the rectangular through hole of the box body, the lower part of the roller is positioned in the liquid accumulation groove, the liquid accumulation groove is connected with the liquid supply; the communication pipe and the branch liquid discharge pipe penetrate through the bottom surface of the liquid accumulation tank, the ports of the communication pipe and the branch liquid discharge pipe are higher than the bottom surface of the liquid accumulation tank and lower than the upper surface of the liquid accumulation tank frame, the bottom surface of the liquid accumulation tank and the bottom surface of the liquid supply tank are positioned on the same plane, and the upper part of the liquid supply tank is connected with the liquid inlet pipe; the inside backup pad that is provided with of box rear side, the backup pad middle part is provided with the cooling motor, and the output of cooling motor is provided with the action wheel, and the action wheel is connected through the chain between two follow driving wheels that distribute from top to bottom.

5. The full-automatic spinning production equipment for the wig fibers of the hair product according to claim 1, characterized in that: the shearing mechanism top be provided with the silk mechanism that draws, the silk mechanism that draws is including drawing the silk platform, the delivery pipe, draw the lead screw, receive the lead screw, the water deflector, water supply switch, the knob, the drainage head, the swash plate, draw silk platform rear end face fixed connection on the box, draw silk platform bottom and seted up the basin, draw fixedly connected with water deflector in the silk platform, fixedly connected with water supply switch on the water deflector, the water supply switch top is provided with the knob, the output of water supply switch left surface runs through the drainage head, the drainage head lower part is the inclined plane, drainage head middle part is seted up flutedly, drainage head inclined plane department is connected with the swash plate, water supply switch is connected with the delivery pipe, the water deflector cross.

6. The full-automatic spinning production equipment for the wig fibers of the hair product according to claim 1, characterized in that: the wire dividing rod mechanism comprises a wire dividing rod seat and a wire dividing rod, two ends of the wire dividing rod are respectively rotatably connected with the wire dividing rod, the wire dividing rod seat is fixedly connected to the box body, and the wire dividing rod mechanism is located in the middle of the two rollers.

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