CN112323156B - Full-automatic spinning production equipment for wig fibers of hair products - Google Patents

Abstract

The invention 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 right lower part of the box body mechanism, the box body mechanism comprises a box body, a first roll shaft frame, a second roll shaft frame, a third roll shaft frame and a fourth roll shaft frame, the front part of the right side of the box body is of a stepped structure, 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 are 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 dividing mechanism; according to the invention, the wig fiber production process is intensively produced, and some equipment mechanisms needed in each process are intensively arranged, so that the occupied area of a production line is greatly saved; the integrated production can save production time, process steps are intensively processed, 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 refer to hair manufactured by artificial techniques and used as ornamental articles. Can be worn by balding or hair-thinning people as headwear or as part of a dress, official or professional harness or fashion decor. Wigs belong to the hair product industry in the light industry manufacturing industry, and the hair product industry is divided into: the wig is made of materials including human hair, chemical fiber and chemical fiber.

The quality requirements of the preset chemical fiber for hair can be met by a large number of process steps in the production process of the chemical fiber for hair; 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 the equipment needed for preparing the chemical fiber for hair is more and the occupied space is larger; a transfer vehicle is required to transport the chemical fibers for the next step between the steps. Therefore, a large amount of manpower and material resources are required for each process and transportation.

The chemical fiber for hair needs to be wound on the silk roller for the production and the transportation of the subsequent process in the production process, the chemical fiber for hair needs to be sheared after the winding of the chemical fiber for hair is completed, the manual shearing has great potential safety hazards, the shearing is carried out by holding the scissors, other parts of the chemical fiber for hair are easy to touch and cause the cracked current situation, and the manual shearing possibly has certain risks, and the rotation of the machine can possibly cause the winding of the chemical fiber for hair on the scissors or cause injury to staff.

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 fiber of the hair product is provided.

Disclosure of Invention

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

The purpose of the invention is realized in the following way: the full-automatic spinning production equipment for 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 roll shaft frame, a second roll shaft frame, a third roll shaft frame and a fourth roll shaft frame, the front part of the right side of the box body is of a step-shaped structure, a first roll shaft frame, a second roll shaft frame, a third roll shaft frame and a fourth roll shaft frame are sequentially arranged at the step-shaped structure of the box body from top to bottom, the left side surfaces of the second roll shaft frame, the second roll shaft frame and the fourth roll shaft frame are positioned on the same plane, and the left side surface of the first roll shaft frame and the middle part of the second roll shaft 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 are also arranged in the middle of the bottom of the front surface of the box body; the left side 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 the main fluid-discharge tube, and the below of main fluid-discharge tube is provided with the stock solution bucket, is provided with the connecting pipe between bar basin and the main fluid-discharge tube.

Further, a first wire outlet is formed in the right side of the lower frame of the first roll shaft frame, and a first wire inlet is formed in the lower portion of the left frame of the first roll shaft frame; the middle part of the upper frame of the second roll shaft frame is provided with a second outlet, and the left part of the lower frame of the second roll shaft frame is provided with a second inlet; the left part of the upper frame of the third roll shaft frame is provided with a third outlet, and the left part of the lower frame of the third roll shaft frame is provided with a third inlet; the left part of the upper frame of the fourth roll shaft frame is provided with a fourth wire outlet, and the left part of the lower frame of the fourth roll shaft frame is provided with a fourth wire inlet; the left upper corner of the pair of roller shaft mechanisms at the lowest part is provided with a lead screw.

Further, roller mechanism including roller, fixed plate, fixing bolt, fastening bolt, adjusting bolt, roller support, motor, bull stick, bearing, motor otic placode, support otic placode, the fixed plate passes through fixing bolt to be fixed on the box, the roller shaft hole has been seted up at the fixed plate middle part, the roller support is located the roller shaft hole, set up the motor hole with the same size in roller shaft hole on the box, the cross recess has been seted up to the fixed plate trailing flank, roller support lateral surface fixedly connected with bull stick, the roller support passes through the bull stick and rotates with the fixed plate to be connected, roller support lateral surface evenly distributed has four support otic placodes, the support otic placode is located the cross recess, the motor passes through bearing and roller leg joint, the lateral surface evenly distributed of motor otic placode has four motor otic placodes, motor otic placode passes through fastening bolt with support otic placode to be connected, arc recess has been seted up at the support otic placode leading flank middle part, be provided with four adjusting bolt on the fixed plate, the adjusting bolt bottom is located the arc recess of support otic placode.

Further, 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 liquid discharge supporting pipe, two rectangular holes are formed in the front surface of the box body, the roller is respectively arranged in each rectangular hole, the roller shafts are connected to the two ends of the roller, the two ends of the roller shafts are respectively and 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 to the left end of the roller shaft, the liquid accumulation groove is arranged below the roller, the liquid accumulation groove is 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 groove through the communicating pipe, and the bottom of the liquid accumulation groove is connected with the main liquid discharge pipe through the liquid discharge supporting pipe; the communication pipe and the branch liquid drain pipe penetrate through the bottom surface of the liquid accumulation groove, which is higher than the Yu Ji liquid drain pipe, is lower than the upper surface of the frame of the liquid accumulation groove, the bottom surface of the liquid accumulation groove and the bottom surface of the liquid supply groove are positioned on the same plane, and the upper part of the liquid supply groove is connected with a liquid inlet pipe; the inside backup pad that is provided with of box rear side, backup pad middle part are provided with cooling motor, and cooling motor's output is provided with the action wheel, is connected through the chain between action wheel and the two follow driving wheels of upper and lower distribution.

Further, the shearing mechanism top be provided with the guide wire mechanism, the guide wire mechanism is including leading silk platform, delivery pipe, lead screw, receipts lead screw, guide plate, water supply switch, knob, drainage head, swash plate, guide silk platform rear end face fixed connection is on the box, the basin has been seted up to leading silk platform bottom, guide silk bench fixedly connected with guide plate, fixedly connected with water supply switch on the guide plate, water supply switch top is provided with the knob, water supply switch left surface's output 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 guide plate cross-section is L shape.

Further, the feed-separating rod mechanism comprises a feed-separating rod seat and a feed-separating rod, two ends of the feed-separating rod are respectively and rotatably connected with the feed-separating rod, the feed-separating rod seat is fixedly connected to the box body, and the feed-separating rod mechanism is positioned at the middle position of the two rollers.

When the device is used, the silk fiber moves downwards from the cooling mechanism, the silk fiber passes through the upper roller and then passes through the screw dividing rod to uniformly distribute the silk fiber, the silk fiber passes through the lower roller, the silk fiber moves downwards against the front side wall of the strip-shaped water tank, the silk fiber enters the screw guide rod at the left lower part again, the silk fiber is clustered, and the silk fiber is rewound on the pair of roller shaft mechanisms at the lowest part; the silk fiber is wound on a guide rod at a fourth wire inlet by 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 on the guide screw rod at the third wire inlet by a roller mechanism at the left side in the fourth roller frame, and the silk fiber is wound on a pair of roller mechanisms in the third roller frame; the silk fiber is wound on the guide screw rod at the second wire inlet by a roller mechanism at the left side in the third roller frame, and the silk fiber is wound on a pair of roller mechanisms in the second roller frame; the silk fiber is wound on the guide screw rod at the first wire inlet by a roller mechanism at the left side in the second roller frame, and the silk fiber is wound on a pair of roller mechanisms in the first roller frame; the silk is exported from first outlet by the roller mechanism on the right side in the first roller frame, enters into the guide screw department of guide screw mechanism, passes through in the recess of drainage head department again, and in pressing close to the wire casing of seting up on the swash plate again, silk fine passes and receives the lead screw and get into shearing mechanism.

Supplying water to a water supply pipe of the yarn guiding mechanism, supplying cooling liquid to a liquid inlet pipe, controlling a motor, the cooling motor and the shearing mechanism to rotate through a controller, and driving the yarn fibers to rotate by the five pairs of roller shaft mechanisms; the cooling liquid flows into the liquid supply tank through the liquid inlet pipe, the cooling liquid in the liquid supply tank flows into the liquid accumulation tank through the communicating pipe, and when the cooling 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 cooling liquid enters the main liquid discharge pipe through the branch liquid discharge pipe and flows into 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 cooling liquid in the liquid accumulation tank to the surface, and the cooling liquid wets and cools the silk fiber during rotation; the silk is cooling the back and is pressing close to the front frame of bar basin, and the front frame upper portion of bar basin is outstanding, is convenient for squeeze out the liquid on the silk, scrapes down to the bar basin with the unnecessary liquid on the silk, and the hydrops rethread connecting pipe in the bar basin gets into main fluid-discharge tube. The delivery pipe is supplied water to the water supply switch, can control the size of supply volume through rotatory knob, and the water supply switch wets the cooling with silk fine, and unnecessary water is scraped through the swash plate, and unnecessary water flows to the water guide plate through the lower extreme of swash plate, and water rethread water guide plate 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 discharge water can, not be in the description.

The beneficial effect of this device is concentrated the installation with each process step in the fiber production process of sending out and is placed, reduces production line area for 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 saving manufacturing cost.

Drawings

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

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

Fig. 3 is a schematic view of a partial structure of the invention.

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

Fig. 5 is a partial structural cross-sectional view of the left rear side case of the invention.

Fig. 6 is a schematic view of a partial structure of the cooling mechanism of the invention. .

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

Fig. 8 is a schematic rear view of the inventive roller mechanism.

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

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

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

Fig. 12 is a schematic view of a part of the structure of the yarn guiding mechanism of the invention.

Fig. 13 is a schematic view of the structure 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 yarn guiding mechanism of the shearing device of the invention.

Fig. 16 is a schematic structural view of a filament tensioning mechanism of the shearing device of the invention.

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

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

List of reference numerals parts

1. The box mechanism, 101, box, 102, first roller frame, 103, second roller frame, 104, third roller frame, 105, fourth roller frame, 2, wire guide mechanism, 201, wire guide table, 202, wire guide rod, 203, water supply pipe, 204, knob, 205, water supply switch, 206, wire receiving rod, 207, water guide plate, 208, water drain head, 209, inclined plate, 3, shearing device, 4, liquid storage cylinder, 5, roller, 501, 502, fixing plate, 503, fixing bolt, 504, adjusting bolt, 505, fastening bolt, 506, motor, 507, rotary rod, and the like. 508, motor ear plate, 509, bracket ear plate, 510, roller shaft bracket, 511, bearing, 6, controller, 7, main drain, 8, cooling mechanism, 801, roller, 802, liquid supply tank, 803, connecting plate two, 804, chain, 805, cooling motor, 806, support plate, 807, liquid accumulation tank, 808, communication pipe, 809, branch drain, 810, connecting plate one, 811, roller shaft, 812, driven wheel, 813, driving wheel, 814, liquid inlet pipe, 9, feed-distributing rod mechanism, 901, feed-distributing rod, 902, feed-distributing rod seat, 10, strip water tank, 11, connecting pipe, 12. 13. Shearing tables, 1301, bottom plate, 1302, right side plate, 1303, left side plate, 1304, front plate, 1305, top plate, 1306, rear plate; 14. roller mechanism 1401, motor base 1402, roller motor 1403, bearing one 1404 and roller; 15. a wire tensioning mechanism, 1501, a support rod, 1502, a large guide wheel, 1503, a fourth bearing, 1504, a gas spring seat, 1505, a gas spring, 1506, a second bearing, 1507, a second rotating shaft, 1508, a Z-shaped rod, 1509, a small guide wheel, 1510, a third bearing and 1511, and a first rotating shaft; 16. the wire guiding mechanism comprises a wire guiding motor 1601, a turntable 1602, a rotary rod 1603, a 1604 connecting rod 1605, a guide rod 1606, a wire guiding plate 1607, a guide groove 1608 and a wire guiding ring. 17. Shearing mechanism, 1701, longitudinal cylinder, 1702, transverse cylinder, 1703, small cylinder, 1704, slider, 1705, upper blade, 1706, male guide slot, 1707, connecting block, 1708, male 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

1, as shown in fig. 1-12, a full-automatic spinning production device for wig fibers of hair products comprises a box body mechanism 1, wherein a shearing device 3 is arranged at the right lower part of the box body mechanism 1, the box body mechanism 1 comprises a box body 101, a first roll shaft frame 102, a second roll shaft frame 103, a third roll shaft frame 104 and a fourth roll shaft frame 105, the front part of the right side of the box body 101 is of a step-shaped structure, the step-shaped structure of the box body 101 is sequentially provided with the first roll shaft frame 102, the second roll shaft frame 103, the third roll shaft frame 104 and the fourth roll shaft frame 105 from top to bottom, the left side surfaces of the second roll shaft frame 103, the first roll shaft frame and the fourth roll shaft frame 105 are positioned on the same plane, and the left side surface of the first roll shaft frame 102 and the middle part of the second roll shaft frame 103 are positioned on the same plane; a pair of roll shaft mechanisms 5 are respectively arranged in the first roll shaft frame 102, the second roll shaft frame 103, the third roll shaft frame 104 and the fourth roll shaft frame 105, and a pair of roll shaft mechanisms 5 are also arranged in the middle of the bottom of the front surface of the box body 101; the right side of the lower frame of the first roll shaft frame 102 is provided with a first wire outlet, and the lower part of the left frame of the first roll shaft frame 102 is provided with a first wire inlet; a second outlet is formed in the middle of the upper frame of the second roll shaft frame 103, and a second inlet is formed in the left of the lower frame of the second roll shaft frame 103; a third outlet is formed in the left part of the upper frame of the third roll shaft frame 104, and a third inlet is formed in the left part of the lower frame of the third roll shaft frame 104; a fourth wire outlet is formed in the left part of the upper frame of the fourth roll shaft frame 105, and a fourth wire inlet is formed in the left part of the lower frame of the fourth roll shaft frame 105; the left upper corner of the pair of roller shaft mechanisms 5 at the lowest part is provided with a lead screw 12.

The left side of box 101 is provided with controller 6, and the front surface left side of box 101 is provided with cooling body 8 and branch lead screw mechanism 9, and branch lead screw mechanism 9 is including branch lead screw seat 902, branch lead screw 901, and branch lead screw 901 both ends are connected with branch lead screw 901 rotation respectively, and branch lead screw seat 902 fixed connection is on box 101, and branch lead screw mechanism 9 is located two roller 801 intermediate positions. 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 roll shaft mechanism 5 comprises a roller 501, a fixed plate 502, a fixed bolt 503, a fastening bolt 505, an adjusting bolt 504, a roll shaft support 510, a motor 506, a rotating rod 507, a bearing 511, a motor lug plate 508 and a support lug plate 509, wherein the fixed plate 502 is fixed on the box 101 through the fixed bolt 503, a roll shaft 811 hole is formed in the middle of the fixed plate 502, the roll shaft support 510 is positioned in the roll shaft 811 hole, a motor 506 hole with the same size as the roll shaft 811 hole is formed in the box 101, a cross-shaped groove is formed in the rear side surface of the fixed plate 502, the rotating rod 507 is fixedly connected with the outer side surface of the roll shaft support 510, the roll shaft support 510 is rotationally connected with the fixed plate 502 through the rotating rod 507, four support lug plates 509 are uniformly distributed on the outer side surface of the roll shaft support 510, the support lug plate 509 is positioned in the cross-shaped groove, the motor lug plate 508 is connected with the support lug plate 509 through the bearing 511, an arc-shaped groove is formed in the middle of the front side surface of the support lug plate 509, four adjusting bolts 504 are arranged on the fixed plate 502, and the bottom of the adjusting bolt 504 is positioned in the arc-shaped groove of the support lug 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 communication pipe 808 and a liquid discharge branch pipe 809, two rectangular holes are formed in the front surface of the box body 101, one roller 801 is respectively arranged in each rectangular hole, the two ends of the roller 801 are connected with the roller shaft 811, the two ends of the roller shaft 811 are respectively and rotatably connected with the rear side surface of the box body 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 body 101, the lower part of the roller 801 is positioned in the liquid accumulation groove 807, the liquid accumulation groove 807 is connected with the liquid supply groove 802 through the communication pipe 808, and the bottom of the liquid accumulation groove 807 is connected with the main liquid discharge pipe 7 through the liquid discharge branch pipe 809; the communication pipe 808 and the branch liquid drain pipe 809 penetrate through the bottom surface of the liquid accumulation groove 807, which is higher Yu Ji than the ports of the communication pipe 808 and the branch liquid drain pipe 809, is 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 inside 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 cutting device 3 top is provided with wire guiding mechanism 2, wire guiding mechanism 2 is including guiding silk platform 201, delivery pipe 203, guide screw 202, receipts lead screw 206, water guide plate 207, water supply switch 205, knob 204, drainage head 208, swash plate 209, the terminal surface fixed connection is on box 101 behind the guide silk platform 201, the basin has been seted up to guide silk platform 201 bottom, fixedly connected with water guide plate 207 in the guide silk platform 201, fixedly connected with water supply switch 205 on the water guide plate 207, water supply switch 205 top is provided with knob 204, the output of water supply switch 205 left surface runs through drainage head 208, drainage head 208 lower part is the inclined plane, the recess has been seted up at drainage head 208 middle part, drainage head 208 inclined plane department is connected with swash plate 209, water supply switch 205 is connected with delivery pipe 203, the cross-section of water guide plate 207 is L shape.

When the device is used, silk fiber moves downwards from the cooling mechanism 8, the silk fiber passes through the upper roller 801 and then passes through the dividing screw 901 to be uniformly distributed, the silk fiber passes through the lower roller 801, the silk fiber moves downwards against the front side wall of the strip-shaped water tank 10, the silk fiber enters the left lower guide screw 12 again to be clustered, and the silk fiber is rewound on the lowermost pair of roller shaft mechanisms 5; the silk fiber is wound on the lead screw 12 at the fourth wire inlet by the roller shaft 811 at the right side at the lowest part, and the silk fiber is wound on the pair of roller shaft mechanisms 5 in the fourth roller shaft frame 105; the silk fiber is wound on the guide screw 12 at the third wire inlet by the left roller mechanism 5 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 on the guide screw 12 at the second wire inlet by the left roller mechanism 5 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 on the guide screw 12 at the first wire inlet by the left roller mechanism 5 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 silk fiber is guided out from the first outlet by the roller mechanism 5 on the right side in the first roller frame 102, enters the lead screw 202 of the lead screw mechanism 2, passes through the groove at the water drainage head 208, is guided out in the wire slot arranged on the inclined plate 209, and passes through the lead screw 206 to enter the shearing device 3.

The water supply pipe 203 of the yarn guiding mechanism 2 is supplied with water, the liquid inlet pipe 814 is supplied with cooling liquid, the motor 506, the cooling motor 805 and the shearing device 3 are controlled to rotate by the controller 6, and at the moment, the five pairs of roller mechanisms 5 drive the yarn fibers 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 communication pipe 808, and when the cooling liquid level in the liquid accumulation tank 807 is higher than the height of the branch liquid discharge pipe 809 at one end 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 into the liquid storage cylinder 4. The cooling motor 805 drives the driven wheel 812 to rotate through the chain 804, so as to drive 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 silk fiber during rotation; the silk fine is pressing close to bar basin 10 preceding frame after the cooling, and bar basin 10's preceding frame upper portion is outstanding, is convenient for squeeze out the liquid on the silk fine, scrapes down to bar basin 10 with the unnecessary liquid on the silk fine, and the hydrops rethread connecting pipe 11 in the bar basin 10 gets into main fluid-discharge tube 7. The delivery pipe 203 supplies water to the water supply switch 205, can control the size of supply water volume through rotatory knob 204, and the water supply switch 205 wets the silk fine cooling, and unnecessary water is scraped through swash plate 209, and unnecessary water flows to water guide plate 207 through the lower extreme of swash plate 209, and water rethread water guide plate 207 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 discharge water can, and unnecessary description.

The shearing device can be customized according to the need, and a shearing device for shearing fibers is specifically provided, as shown in fig. 13-18, the shearing device comprises a shearing table 13, 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 mutually connected to form a rectangular shearing table, and the right side of the rear plate 1306 is extended out of the shearing table 13; the lower right part of the shearing table 13 is provided with a roller mechanism 14, the upper right part of the shearing table 13 is provided with a wire pulling tensioning mechanism 15, the middle part of the right side surface of the shearing table 13 is provided with a wire guiding mechanism 16, the middle part of the right front side surface of the rear plate 1306 is provided with a shearing mechanism 17, the middle part of the right rear side surface of the rear plate 1306 is provided with a shearing table controller 20, 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 a roller motor 1402 and a wire guiding motor 1601, the roller motor 1402 and the wire guiding motor 1601 are preferably a Serrater 42HS08 stepping motor to meet the setting function of the shearing table controller 20, the wire guiding ring 1608 is always positioned at the right end of the guide groove 1607 when the roller motor 1402 and the wire guiding motor 1601 stop is set by the shearing table controller 20, the shearing mechanism 1701 is set to move forward through the shearing station controller 20 when the shearing function is started, the sliding rod 1709 is driven to move forward, the chemical fiber wires for hair are positioned at a position which is horizontal to the 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 the moment, the chemical fiber wires for hair are positioned in the included angle between the lower blade 1711 and the upper blade 1705, the output end of the upper blade 1705 is connected with the output end of the small electric cylinder 1703 in a rotating way through the third 1713 rotating way, and the small electric cylinder 1703 is connected with the sliding block 1704 in a rotating way through the second 1712 rotating way, so that the small electric cylinder 1703 contracts to drive the left end of the upper blade 1705 to move backward around the sliding rod 1710, the right end of the upper blade 1705 moves rightward around the sliding rod 1710 in the direction of the lower blade 1711, and the lower blade 1711 shearing the chemical fiber wires for hair are completed; after shearing is completed, small cylinder 1703, lateral cylinder 1702 and shearing mechanism 1701 are reset.

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

The wire pulling 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 supporting rod 1501, a large guide wheel 1502 and a fourth bearing 1503, wherein annular grooves are formed in the middle of the outer side surfaces of the large guide wheel 1502 and the small guide wheel 1509, and the middle positions of the outer side surfaces of the large guide wheel 1502 and the small guide wheel 1509 are located on the same plane; the Z-bar 1508 is located forwardly and downwardly of the support bar 1501. The air spring seat 1504 is rotationally connected with the upper part of the right side plate 1302 through a first rotating shaft 1511, the air spring seat 1504 is provided with an air spring 1505, the output end of the air 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 rotationally 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; the supporting rod 1501 is fixedly connected to the middle position of the upper portion of the right side plate 1302, and the right end of the supporting rod 1501 is rotatably connected with the large guide wheel 1502 through a bearing IV 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 part 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 side edge of the rotary table 1602 is rotationally connected with the connecting rod 1604 through the rotary rod 1603, the connecting rod 1604 is rotationally connected with the guide rod 1605, the right end of the front side surface of the guide rod 1605 is fixedly connected with the wire guiding ring 1608, the wire guiding plate 1606 is fixedly connected to the middle position of the right side surface of the front side surface of the rear plate 1306, the guide groove 1607 is formed in the front side surface of the guide plate 1606, the wire guiding ring 1608 is divided into two parts of a rod and a ring, the rod is fixed on the outer side surface of the ring, the tail end of the rod is connected with the guide rod 1605, and the rod part is slidably positioned in the guide groove 1607; guide rod 1605 is slidably positioned within guide plate 1606, and guide ring 1608 extends through guide slot 1607 and is movable laterally within 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 Shanghai multi-automation technology limited company Maplaro P045 electric cylinders, and the small electric cylinder 1703 is preferably a KSS brand DDA miniature electric cylinder; the output ends of the upper blade 1705 and the small electric cylinder 1703 are connected in a rotating way through a rotating rod III 1713, the small electric cylinder 1703 and the sliding block 1704 are connected in a rotating way through a rotating rod II 1712, the small electric cylinder 1703 is contracted to drive the left end of the upper blade 1705 to move backwards around the sliding rod 1710, the two ends of the sliding rod 1709 are fixedly connected with a connecting block 1707, the rear end of the connecting block 1707 is fixedly connected with a shearing mechanism 1701, the shearing mechanism 1701 is vertically and fixedly connected to the middle position of the right part of the front side surface of the rear plate 1306, the upper surface of the left part 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 with a convex guide groove 1706, the convex guide rail 1708 is slidingly positioned in the convex guide groove 1706, and the convex guide rail 1708 and the convex guide groove 1706 are in a clearance fit and can slide relatively. 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 with 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 with the middle part of the lower blade 1711.

When the device is used, a wire roller is sleeved on a roller 1404 on a roller mechanism 14, and then the chemical fiber for hair is wound around from the lower part of a small guide wheel 1509 of a wire pulling tensioning mechanism 15 and then wound around from the upper part of a large guide wheel 1502, when the chemical fiber for hair is tighter, the small guide wheel 1509 is stressed and contracted by a gas spring 1505, 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 breaking of the chemical fiber for hair is avoided; then the chemical fiber for hair passes through the yarn guiding ring 1608 of the yarn guiding mechanism 16, and the chemical fiber for hair is wound on a yarn roller on the roller winding mechanism 14; the shearing table controller 20 controls the roller motor 1402 and the yarn guiding motor 1601 to rotate, the roller motor 1402 drives the yarn roller to rotate, the yarn roller winds up the used chemical fibers, the yarn guiding motor 1601 drives the rotary table 1602 to rotate, when the rotary table 1602 rotates, the right end of the connecting rod 1604 drives the guide rod 1605 to move left and right, the guide rod 1605 moves in the yarn guiding plate 1606, and the guide rod 1605 drives the yarn guiding ring 1608 to move left and right along the guide groove 1607; at this time, the chemical fiber for hair is driven by the yarn guiding ring 1608 to move and wind around the yarn winding roller, so that the chemical fiber for hair is prevented from winding at a certain position of the yarn winding roller, the chemical fiber for hair is uniformly distributed on the yarn winding roller, when the chemical fiber for hair winding is completed, the yarn winding motor 1402 and the yarn guiding motor 1601 are controlled to stop rotating by the shearing table controller 20, and the yarn guiding ring 1608 is set to stop at the rightmost end in the guide groove 1607 when the yarn guiding motor 1601 and the yarn winding motor 1402 stop by the shearing table controller 20.

Then, the shearing mechanism 17 is controlled by the shearing station controller 20 to shear the chemical fiber, at this moment, the shearing mechanism 1701 moves forward, the sliding rod 1709 is driven to move forward, the chemical fiber for hair is positioned at a position which is horizontal to the included angle between the lower blade 1711 and the upper blade 1705, the transverse electric cylinder 1702 drives the sliding block 1704 to move rightwards, the convex guide rail 1708 moves rightwards along the convex guide groove 1706 until the sliding block 1704 moves to the rightmost end, at this moment, the chemical fiber for hair is positioned in the included angle between the lower blade 1711 and the upper blade 1705, the output end of the upper blade 1705 is connected with the output end of the small electric cylinder 1703 in a rotating way through the third 1713 of the rotating rod, and the small electric cylinder 1703 is connected with the sliding block 1704 in a rotating way through the second 1712 of the rotating rod, so that the small electric cylinder 1703 contracts, the left end of the upper blade 1705 is driven to move backwards around the sliding rod 1710, the right end of the upper blade 1705 moves rightwards around the sliding rod 1711, and the lower blade 1711 finishes shearing the chemical fiber for hair; after shearing is completed, small cylinder 1703, lateral cylinder 1702 and shearing mechanism 1701 are reset.

In the description of the present invention, it should 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", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The above description is not intended to limit the invention to the particular embodiments disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (4)

1. The full-automatic spinning production equipment for 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 roll shaft frame, a second roll shaft frame, a third roll shaft frame and a fourth roll shaft frame, the front part of the right side of the box body is of a step-shaped structure, a first roll shaft frame, a second roll shaft frame, a third roll shaft frame and a fourth roll shaft frame are sequentially arranged at the step-shaped structure of the box body from top to bottom, the left side surfaces of the second roll shaft frame, the second roll shaft frame and the fourth roll shaft frame are positioned on the same plane, and the left side surface of the first roll shaft frame and the middle part of the second roll shaft 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 are 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 dividing mechanism;

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 liquid supporting and discharging pipe, wherein two rectangular holes are formed in the front surface of the box body, the roller is respectively arranged in each rectangular hole, the roller shafts are connected to the two ends of the roller, the two ends of the roller shafts are respectively and 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 to the left end of the roller shaft, the liquid accumulation groove is arranged below the roller, the liquid accumulation groove is 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 groove through the communicating pipe, and the bottom of the liquid accumulation groove is connected with the main liquid discharging pipe through the liquid supporting and discharging pipe; the communication pipe and the branch liquid drain pipe penetrate through the bottom surface of the liquid accumulation groove, which is higher than the Yu Ji liquid drain pipe, is lower than the upper surface of the frame of the liquid accumulation groove, the bottom surface of the liquid accumulation groove and the bottom surface of the liquid supply groove are positioned on the same plane, and the upper part of the liquid supply groove is connected with a liquid inlet pipe; a supporting plate is arranged in the rear side of the box body, a cooling motor is arranged in the middle of the supporting plate, a driving wheel is arranged at the output end of the cooling motor, and the driving wheel is connected with two driven wheels which are distributed up and down through a chain;

a strip-shaped water tank is arranged below the cooling mechanism, a main liquid discharge pipe is arranged on the left side of the box body, a liquid storage barrel is arranged below the main liquid discharge pipe, and a connecting pipe is arranged between the strip-shaped water tank and the main liquid discharge pipe; the roll shaft mechanism comprises a roller, a fixed plate, a fixed bolt, a fastening bolt, an adjusting bolt, a roll shaft support, a motor, a rotating rod, a bearing, motor lug plates and support lug plates, wherein the fixed plate is fixed on a box body through the fixed bolt, a roll shaft hole is formed in the middle of the fixed plate, the roll shaft support is positioned in the roll shaft hole, a motor hole with the same size as the roll shaft hole is formed in the box body, a cross-shaped groove is formed in the rear side surface of the fixed plate, the rotating rod is fixedly connected with the outer side surface of the roll shaft support, the roll shaft support is rotationally connected with the fixed plate through the rotating rod, four support lug plates are uniformly distributed on the outer side surface of the roll shaft support, the support lug plates are positioned in the cross-shaped groove, the motor is connected with the roll shaft support lug plates through the bearing, the arc-shaped groove is formed in the middle of the front side surface of the support lug plates, and four adjusting bolts are arranged on the fixed plate, and the bottom of the adjusting bolts are positioned in the arc-shaped groove of the support lug plates;

the shearing mechanism comprises a shearing table, the shearing table comprises a bottom plate, a left side plate, a right side plate, a top plate, a front plate and a rear plate, the bottom plate, the left side plate, the right side plate, the top plate, the front plate and the rear plate are mutually connected to form a rectangular shearing table, and the right side of the rear plate extends out of the shearing table; the lower part of the right side of the shearing table is provided with a roller mechanism, the upper part of the right side of the shearing table is provided with a wire pulling tensioning mechanism, the middle part of the right side surface of the shearing table is provided with a wire guiding mechanism II, the middle part of the front side surface of the right part of the rear plate is provided with a shearing mechanism, the middle part of the rear side surface of the right part of the rear plate is provided with a shearing table controller, an upper blade is rotationally connected with the output end of the small electric cylinder through a rotating rod III, and the small electric cylinder is rotationally connected with the sliding block through a rotating rod II.

2. The full-automatic spinning production equipment for wig fibers of hair products according to claim 1, wherein: the right side of the lower frame of the first roll shaft frame is provided with a first wire outlet, and the lower part of the left frame of the first roll shaft frame is provided with a first wire inlet; the middle part of the upper frame of the second roll shaft frame is provided with a second outlet, and the left part of the lower frame of the second roll shaft frame is provided with a second inlet; the left part of the upper frame of the third roll shaft frame is provided with a third outlet, and the left part of the lower frame of the third roll shaft frame is provided with a third inlet; the left part of the upper frame of the fourth roll shaft frame is provided with a fourth wire outlet, and the left part of the lower frame of the fourth roll shaft frame is provided with a fourth wire inlet; the left upper corner of the pair of roller shaft mechanisms at the lowest part is provided with a lead screw.

3. The full-automatic spinning production equipment for wig fibers of hair products according to claim 1, wherein: the shearing mechanism top be provided with the guide wire mechanism, the guide wire mechanism is including guiding silk platform, delivery pipe, guide screw, receipts lead screw, water guide plate, water supply switch, knob, drainage head, swash plate, guide silk platform rear end face fixed connection is on the box, the basin has been seted up to guide silk platform bottom, guide silk bench fixedly connected with water guide plate, fixedly connected with water supply switch on the water guide plate, water supply switch top is provided with the knob, water supply switch left surface's output 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 guide plate cross-section is L shape.

4. The full-automatic spinning production equipment for wig fibers of hair products according to claim 1, wherein: the feed-separating rod mechanism comprises a feed-separating rod seat and a feed-separating rod, two ends of the feed-separating rod are respectively and rotatably connected with the feed-separating rod, the feed-separating rod seat is fixedly connected to the box body, and the feed-separating rod mechanism is positioned at the middle position of the two rollers.

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