CN117119624B - Coil winding equipment of electric hair drier heating module - Google Patents

Abstract

The invention discloses coil winding equipment of an electric hair dryer heating module, which comprises a base, wherein a winding drum is fixedly connected to the top of the base, a first working table is fixedly connected to the top of the base, a coiling machine is fixedly connected to the top of the first working table, bare wires penetrate through the side face of the coiling machine and extend into the interior, and heating wires penetrate through and are connected with one side, far away from the bare wires, of the coiling machine in a sliding manner. According to the coil winding equipment of the electric hair dryer heating module, one end of the ejector rod, which is close to the heating wire, is in a pointed cone shape, when the rotary drum rotates, the ejector rod rotates in the heating wire, and the heating wire is in a spiral shape, so that after the ejector rod rotates along with the rotary drum, the heating wire can be pushed forward along a spiral path of the heating wire, the purpose of moving the heating wire is achieved, and the method does not cause the heating wire to deviate in the transported process, but moves along one direction under the constraint of the ejector rod.

Description

Coil winding equipment of electric hair drier heating module

Technical Field

The invention relates to the technical field of electric hair dryers, in particular to coil winding equipment of an electric hair dryer heating module.

Background

The hair dryer is mainly used for drying and shaping hair, but can also be used for local drying, heating and physiotherapy in the aspects of laboratories, physiotherapy rooms, industrial production, artists and the like. The motor type used in the motor type can be classified into an ac series excitation type, an ac shaded pole type and a dc permanent magnet type. The series excited blower has the advantages of large starting torque and high rotating speed, and is suitable for manufacturing high-power blowers; the disadvantage is that the noise is loud and the commutator has a certain interference to the telecommunication equipment. The shaded pole type blower has the advantages of low noise, long service life and no interference to telecommunication equipment; the disadvantage is low rotational speed, poor starting performance and heavy weight. The permanent magnet hair dryer has the advantages of light weight, high rotating speed, simple manufacturing process, low manufacturing cost, high quality and low price, and in order to obtain hot air, the electric hair dryer is generally internally provided with an electric heating element, the electric heating element of the hair dryer is wound by an electric heating wire and is arranged at an air outlet of the hair dryer, and the air exhausted by the motor is heated by the electric heating wire at the air outlet and becomes hot air to be sent out.

The heating wire in the electric hair drier is generally a spiral heating wire, and because the shape of the spiral heating wire is complex, compared with a straight bare wire, the spiral heating wire has a certain internal structure, so that more dust can be accumulated on the spiral surface, and the heat conduction efficiency is affected after winding.

Disclosure of Invention

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an hairdryer heating module coil winding equipment, includes the base, the top fixedly connected with reel of base, the outer wall winding of reel has bare wire, the top fixedly connected with work table one of base, the top fixedly connected with winder of work table one, bare wire runs through the side of winder and extends to inside, the one side of winder far away from bare wire runs through and sliding connection has the heating wire, the one end cover that the heating wire kept away from winder is equipped with pretreatment mechanism, the top fixedly connected with work table two of base, the side fixedly connected with shell of work table two, the top fixedly connected with winding mechanism of work table two, the inner wall sliding connection of winding mechanism has well core frame;

the pretreatment mechanism comprises a rotary drum, a first motor, a belt, a treatment box and an air outlet, wherein the first rotary drum is rotationally connected to the top of the first working table through a support, the first motor is fixedly connected to the top of the first working table, the belt is respectively sleeved on the output end of the first motor and the outer wall of the rotary drum through belt pulleys, the treatment box is fixedly connected to the top of the first working table, the treatment box is arranged at the edge of the top of the treatment box, and the pretreatment mechanism is used for conducting dust removal operation on electric heating wires.

Further, the pretreatment mechanism further comprises a push rod and bristles, the electric heating wire penetrates through the rotary drum and extends to the outside, the push rod is fixedly connected to the inner wall of the rotary drum, one end of the push rod, far away from the rotary drum, extends to the inside of the electric heating wire and is slidably connected to the inner side surface of the electric heating wire, the bristles are fixedly connected to one side, far away from the rotary drum, of the inner wall of the rotary drum, one side, far away from the rotary drum, of the bristle extends to the inside of the electric heating wire, one end, close to the electric heating wire, of the push rod is in a pointed cone shape, when the rotary drum rotates, the push rod rotates in the inside of the electric heating wire, and because the electric heating wire is in a spiral shape, the electric heating wire can be pushed forwards along a spiral path of the electric heating wire after the rotary drum rotates, so that the aim of moving the electric heating wire is achieved, and the method does not lead the electric heating wire to deviate in a transported process, but runs along one direction under the constraint of the push rod.

Further, pretreatment mechanism still includes pulley one, pulley two and leading wheel, pulley one and pulley two rotate and connect the inner wall at the processing box, pulley two are located pulley one and keep away from the one side of rotary drum, heating wire sliding connection is at pulley one and pulley two outer walls, the leading wheel rotates and connects the inner wall at the processing box, heating wire sliding connection is at the outer wall of leading wheel, the heating wire runs through the processing box and extends to outside, brush hair and processing box, at the in-process that the heating wire advances, the brush hair rotates around the heating wire along with the rotary drum, and the brush hair can be with the inside of self soft special extension income heating wire this moment to reach the purpose of clearance heating wire surface dust, and in order to prevent that the brush hair from being pressed from both sides in the heating wire, can pass pulley one and pulley two pulleys respectively with one side of heating wire prop open certain distance, from this more will putting up the inside brush hair of heating wire, in the processing box, by the pulley prop up in the back, the fan can produce suction and utilize suction to inhale the storage water tank, thereby will clear up and collect brush hair.

Further, the pretreatment mechanism further comprises an air suction fan and a water storage tank, the water storage tank is fixedly connected to the inside of the treatment tank, clear water is stored in the water storage tank, the air suction fan is communicated with the inner side surface of the water storage tank, and the air suction fan is provided with two air suction fans which are respectively located on different side surfaces of the pulley I and the pulley II.

Further, the winding mechanism comprises a supporting plate, a guide cylinder and a supporting rod, wherein the supporting plate is fixedly connected to the center of the two tops of the working table, the guide cylinder is fixedly connected to the side face of the supporting plate, the supporting rod is located at the center of the guide cylinder and is fixedly connected to the side face of the supporting plate, one end, far away from the supporting plate, of the supporting rod is provided with threads, and the winding mechanism is used for winding an electric heating wire on the side face of the middle core frame and automatically replacing the middle core frame.

Further, winding mechanism still includes tooth post, splint one, splint two and spring, the side at the bracing piece is established and threaded connection to the inner wall cover of tooth post, splint one fixed connection is kept away from the one end of bracing piece at tooth post, and the recess is seted up to splint one's side, splint two rotate the inner wall of connecting at the recess, the both ends fixed connection of spring is at splint two's side, well core frame's side sliding connection is at splint one and splint two's inner wall, and when electric putter extension, the slip ring is driven forward, and the slip ring drives the roof again and extrudees the plectane, drives splint one after the plectane is extrudeed to the purpose of pressing from both sides tight core frame has been reached, and too big the reason of shrinkage force that produces when the heating wire is in the rolling rocks, and splint two just can utilize the spring to provide buffering and support for well core frame's marginal board, prevents well core frame's marginal board to be extruded to broken.

Further, the winding mechanism further comprises an electric push rod, a sliding ring, a top plate and a circular plate, wherein a groove is formed in the interface between the first clamping plate and the tooth column, the electric push rod is fixedly connected to the inner wall of the groove, the sliding ring is sleeved on the side face of the first clamping plate in a sleeved mode and is slidingly connected to the inner wall of the sliding ring, the circular plate is fixedly connected to the side face of the first clamping plate, and the side face of the top plate is slidingly connected to the side face of the circular plate.

Further, winding mechanism still includes motor two and gear, the guide cylinder is kept away from the terminal surface of backup pad one side and is seted up flutedly, motor two fixed connection is at the inner wall of recess, gear fixed connection is at motor two's output, the gear is located the outer wall of tooth post and meshes with the tooth post, when needs rolling, the core frame can be realized the translation in the pivoted, and can drive tooth post rotation after the gear rotates, the gear can drive the core frame rotation again, thereby reach and drive core frame pivoted purpose, simultaneously, when the gear rotates, its inside and bracing piece threaded connection's part can begin along axial displacement under the effect of bracing piece screw thread, again because the tooth of tooth post is longer, so the tooth post remove can not influence with the meshing of gear, thereby reach and drive well core frame rotation and translation's combination motion effect simultaneously.

Further, the winding mechanism further comprises a conveying device, a motor III, a thread cylinder and a clamp plate III, the conveying device is rotationally connected to the inner wall of the shell, the motor III is fixedly connected to the side face of the shell through a support, the output end of the motor III is provided with threads, the thread cylinder is sleeved with the thread cylinder and is in threaded connection to the side face of the output end of the motor III, the clamp plate III is rotationally connected to the end face of the thread cylinder, which is far away from the motor III, in order to improve the fixing efficiency and the accuracy of the middle core frame, the conveying device clamps the edge plates of the middle core frames by utilizing gaps formed by surface bumps, so that the stability of the middle core frame is kept during transportation, then when the middle core frame is transported to the top of the transmission belt, the motor III drives the thread cylinder to move by means of the threads of the output end, the clamp plate III is driven to clamp the side edge of the middle core frame after the thread cylinder moves, and then the middle core frame is pushed to the inside the clamp plate I and the clamp plate II along with the rotation of the motor III, and therefore the automatic replacement of the middle core frame is completed, and the fixing efficiency and the accuracy of the middle core frame replacement and the clamp plate I and the clamp plate II are ensured.

Further, the conveying devices are provided with a pair of symmetrical conveying devices which are arranged on two sides of the center of the side face of the shell, the middle core frame is connected between the two conveying devices in a sliding mode when the conveying devices rotate, and the center of the clamping plate III and the center of the clamping plate I are located on the same axis.

The invention provides coil winding equipment of an electric hair drier heating module. The beneficial effects are as follows:

1. the coil winding equipment of the electric hair drier heating module is provided with the ejector rod, one end of the ejector rod, which is close to the heating wire, is in a pointed cone shape, when the rotary drum rotates, the ejector rod rotates in the heating wire, and the heating wire is pushed forward along a spiral path of the heating wire after the ejector rod rotates along with the rotary drum, so that the purpose of moving the heating wire is achieved, and the method does not cause the heating wire to deviate in the transported process, but to move along one direction under the constraint of the ejector rod.

2. This hairdryer heating module coil winding equipment is provided with brush hair and treatment box, at the in-process that the heating wire advances, the brush hair rotates around the heating wire along with the rotary drum, the brush hair can be with the help of the inside of self soft specific extension into the heating wire this moment, thereby reach the purpose of clearance heating wire surface dust, and in order to prevent the brush hair to be pressed from both sides into the heating wire, can pass through pulley one and pulley two after the heating wire gets into the treatment box, two pulleys prop out certain distance with one side of heating wire respectively, thereby more easily take out the brush hair of frame inside the heating wire, in the treatment box, the heating wire is propped out by the pulley after, the suction fan can produce the suction and utilize the suction to inhale the storage water tank with the brush hair, thereby clear up and collect the brush hair.

3. This hairdryer heating module coil winding equipment is provided with splint one and splint two, and when electric putter extension, the slip ring is driven forward, and the slip ring drives the roof again and removes the extrusion plectane, and the plectane is tightened up by driving splint one after the extrusion to the purpose of clamping well core frame has been reached, and the shrinkage force that produces when the heating wire when the rolling is too big leads to well core frame edge to rock, and splint two just can utilize the spring to provide buffering and support for the marginal board of well core frame, prevents that the marginal board of well core frame from being extruded to broken.

4. This hairdryer heating module coil winding equipment is provided with gear and tooth post, when needs rolling, the core frame can realize the translation in the pivoted while in the requirement, and can drive the tooth post after the gear rotates and rotate, the gear can drive in the core frame rotation again to reach and drive in the pivoted purpose of core frame, simultaneously, when the gear rotates, its inside and bracing piece threaded connection's part can begin along axial displacement under the effect of bracing piece screw thread, again because the tooth of tooth post is longer, so the removal of tooth post can not influence the meshing with the gear, thereby reach and drive in the core frame pivoted and translational combined motion effect simultaneously.

5. This hairdryer heating module coil winding equipment is provided with conveyer, in order to improve the fixed efficiency and the accuracy of well core frame, conveyer utilizes the gap that the surface lug formed to keep the stability of well core frame in the marginal board centre gripping of a single, then when well core frame is transported to the top of drive belt, the screw thread that the motor three will utilize the output drives the screw thread section of thick bamboo and removes, drive the side centre gripping of splint three with well core frame after the screw thread section of thick bamboo removes, then along with the rotation of motor three, well core frame is pushed to the inside of splint one and splint two by the screw thread section of thick bamboo, thereby the automatic replacement of well core frame has been accomplished, fixed efficiency and the accuracy to splint one and splint two when having guaranteed well core frame and having changed.

Drawings

FIG. 1 is a schematic diagram of a coil winding apparatus of a hair dryer heating module according to the present invention;

FIG. 2 is a schematic view of a top structure of a table according to the present invention;

FIG. 3 is a schematic view of the drum and treatment tank of the present invention in semi-section;

FIG. 4 is a schematic view of the ejector rod according to the present invention;

FIG. 5 is a schematic view of the internal structure of the treatment tank of the present invention;

FIG. 6 is a schematic view of a winding mechanism according to the present invention;

FIG. 7 is a schematic view of a semi-sectional structure of a guide cylinder according to the present invention;

FIG. 8 is a schematic view of a clamping plate according to the present invention;

fig. 9 is a schematic view of the internal structure of the housing of the present invention.

In the figure: 1. a base; 11. a reel; 12. bare wires; 13. a first working table; 14. a wire winder; 15. heating wires; 16. a second working table; 17. a housing; 18. a middle core frame; 2. a pretreatment mechanism; 201. a rotating drum; 202. a first motor; 203. a belt; 204. a treatment box; 205. an air outlet hole; 206. a push rod; 207. brushing; 208. a pulley I; 209. a second pulley; 210. a guide wheel; 211. a suction fan; 212. a water storage tank; 3. a winding mechanism; 301. a support plate; 302. a guide cylinder; 303. a support rod; 304. tooth columns; 305. a clamping plate I; 306. a clamping plate II; 307. a spring; 308. an electric push rod; 309. a slip ring; 310. a top plate; 311. a circular plate; 312. a second motor; 313. a gear; 314. a transfer device; 315. a third motor; 316. a thread cylinder; 317. and a clamping plate III.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a hairdryer heating module coil winding equipment, includes base 1, the top fixedly connected with reel 11 of base 1, the outer wall winding of reel 11 has bare wire 12, the top fixedly connected with first 13 of work table of base 1, the top fixedly connected with winder 14 of first 13 of work table, bare wire 12 runs through the side of winder 14 and extends to inside, winder 14 is kept away from the side of bare wire 12 and runs through and sliding connection has heating wire 15, the one end cover that heating wire 15 kept away from winder 14 is equipped with pretreatment mechanism 2, the top fixedly connected with work table second 16 of base 1, the side fixedly connected with shell 17 of work table second 16, the top fixedly connected with winding mechanism 3 of work table second 16, the inner wall sliding connection of winding mechanism 3 has well core frame 18.

In use, the bare wire 12 wound on the surface of the winding drum 11 is inserted into the winding machine 14, the winding machine 14 makes the bare wire 12 into the spiral heating wire 15, then the worker passes the heating wire 15 through the pretreatment mechanism 2 and fixes the heating wire 15 at the edge plate of the middle core frame 18 at the winding mechanism 3, then the winding mechanism 3 is started, the winding mechanism 3 drives the middle core frame 18 to rotate and move, the heating wire 15 is wound on the side surface of the middle core frame 18 in the process of moving the middle core frame 18, and meanwhile, in order to ensure the continuity of work, the worker needs to take down the wound middle core frame 18 and slide a plurality of middle core frames 18 into the conveying device 314 through the shell 17 at one time.

Referring to fig. 2-5, the present invention provides a technical solution: the pretreatment mechanism 2 comprises a rotary drum 201, a motor 202, a belt 203, a treatment box 204 and an air outlet 205, wherein the rotary drum 201 is rotationally connected to the top of the first working table 13 through a support, the motor 202 is fixedly connected to the top of the first working table 13, the belt 203 is respectively sleeved on the output end of the motor 202 and the outer wall of the rotary drum 201 through the belt 203, the treatment box 204 is fixedly connected to the top of the first working table 13, the treatment box 204 is arranged at the top edge of the treatment box 204, the pretreatment mechanism 2 further comprises a push rod 206 and bristles 207, the heating wire 15 penetrates through the rotary drum 201 and extends to the outside, the push rod 206 is fixedly connected to the inner wall of the rotary drum 201, one end of the push rod 206, far away from the rotary drum 201, extends to the inside of the heating wire 15 and is slidingly connected to the inner side of the heating wire 15, the bristles 207 are fixedly connected to one side, far away from the push rod 206, of the inner wall of the rotary drum 201, and one side, far away from the rotary drum 201, extends to the inside of the heating wire 15.

The drum 201 is driven to rotate by the belt 203 after the electric starting, the drum 201 is driven to rotate after the electric starting, wherein when the electric heating wires 15 are placed between the drum 206, the electric heating wires 206 are placed from top to bottom along the radial direction of the drum 201, so that the electric heating wires 15 enter the drum 201, the drum 206 slides along the electric heating wires 15 when the drum 201 rotates and drives the electric heating wires 15 to advance by utilizing the thread path of the electric heating wires 15, the electric heating wires 15 enter bristles 207 in the advancing process, the bristles 207 are extruded into the inner parts of the electric heating wires 15 due to softness, and the bristles 207 start to rotate simultaneously and clean dust of the electric heating wires 15 in the rotating process.

The pretreatment mechanism 2 further comprises a pulley I208, a pulley II 209 and a guide wheel 210, the pulley I208 and the pulley II 209 are rotationally connected to the inner wall of the treatment box 204, the pulley II 209 is located at one side, far away from the rotary drum 201, of the pulley I208, the electric heating wire 15 is slidingly connected to the outer wall of the pulley I208 and the pulley II 209, the guide wheel 210 is rotationally connected to the inner wall of the treatment box 204, the electric heating wire 15 is slidingly connected to the outer wall of the guide wheel 210, the electric heating wire 15 penetrates through the treatment box 204 and extends to the outside, the pretreatment mechanism 2 further comprises an air suction fan 211 and a water storage tank 212, the water storage tank 212 is fixedly connected to the inside of the treatment box 204, clear water is stored in the water storage tank 212, the air suction fan 211 is communicated to the inner side surface of the water storage tank 212, and the air suction fan 211 is provided with two air suction fans and is respectively located on different side surfaces of the pulley I208 and the pulley II 209.

Under the pushing of the ejector rod 206, the heating wire 15 enters the treatment box 204, in the treatment box 204, the heating wire 15 slides on the outer walls of the pulley I208, the pulley II 209 and the guide wheel 210, wherein under the action of the pulley I208 and the pulley II 209, one side of the heating wire 15 is spread, and due to the suction force of the suction fan 211, if the dropped bristles 207 exist on the spread side of the heating wire 15, the bristles 207 are easily absorbed, the absorbed bristles 207 enter the water storage tank 212, the bristles 207 fall into water under the action of gravity and cannot drift again, redundant gas in the water storage tank 212 is discharged through the air outlet holes 205, and finally when the heating wire 15 passes through the guide wheel 210, the advancing direction of the heating wire 15 is consistent with that before entering the treatment box 204, thereby ensuring that the advancing direction of the heating wire 15 is not deviated.

In use, the drum 201 is driven to rotate by the belt 203 after the electric start, the drum 201 rotates and then the push rods 206 are driven to rotate, wherein when the electric heating wires 15 are placed between the push rods 206, the push rods 206 are placed from top to bottom along the radial direction of the drum 201, so that the electric heating wires 15 enter the inside of the electric heating wires 15, the push rods 206 slide along the electric heating wires 15 and drive the electric heating wires 15 to advance by utilizing the thread paths of the electric heating wires 15 when the drum 201 rotates, the electric heating wires 15 enter bristles 207 in the advancing process, the bristles 207 are extruded into the inside of the electric heating wires 15 due to softness, the bristles 207 simultaneously start to rotate and clean dust of the electric heating wires 15 in the rotating process when the drum 201 rotates, the electric heating wires 15 enter the treatment box 204 under the pushing of the push rods 206, in the treatment box 204, the heating wire 15 slides on the outer walls of the pulley one 208, the pulley two 209 and the guide wheel 210, wherein one side of the heating wire 15 is stretched under the action of the pulley one 208 and the pulley two 209, and if the brush hair 207 falls off on the stretched side of the heating wire 15 due to the suction force of the suction fan 211, the brush hair 207 is easily absorbed, the brush hair 207 after being absorbed enters the water storage tank 212, the brush hair 207 falls into water under the action of gravity and cannot float again, and redundant gas in the water storage tank 212 is discharged through the air outlet hole 205, and finally, when the heating wire 15 passes through the guide wheel 210, the advancing direction of the heating wire 15 is consistent with that before entering the treatment box 204, thereby ensuring that the advancing direction of the heating wire 15 is not deviated.

In a third embodiment, please refer to fig. 6-9, the present invention provides a technical solution: the winding mechanism 3 comprises a supporting plate 301, a guide cylinder 302 and a supporting rod 303, wherein the supporting plate 301 is fixedly connected to the center of the top of the second working table 16, the guide cylinder 302 is fixedly connected to the side face of the supporting plate 301, the supporting rod 303 is located at the center of the guide cylinder 302 and is fixedly connected to the side face of the supporting plate 301, one end, far away from the supporting plate 301, of the supporting rod 303 is provided with threads, the winding mechanism 3 further comprises a second motor 312 and a gear 313, the end face, far away from one side of the supporting plate 301, of the guide cylinder 302 is provided with a groove, the second motor 312 is fixedly connected to the inner wall of the groove, the gear 313 is fixedly connected to the output end of the second motor 312, and the gear 313 is located on the outer wall of the toothed column 304 and meshed with the toothed column 304.

When the middle core frame 18 is rolled, the motor II 312 is started firstly, the motor II 312 is started and then drives the gear 313 to rotate, the gear 313 drives the tooth column 304 to rotate, the support rod 303 starts to drive the tooth column 304 to move by utilizing threads due to the rotation of the tooth column 304, when the tooth column 304 moves, the outer walls of the tooth column 304 and the gear 313 are in relative rotation due to meshing and sliding on the surface, the tooth column 304 gradually slides into the guide cylinder 302 after rotating, the action of the middle core frame 18 is synchronous with the tooth column 304, and the heating wire 15 is wound on the outer wall of the middle core frame 18 along with the rotation of the middle core frame 18, and the heating wire 15 can be spirally wound on the outer wall of the middle core frame 18 due to the translation of the middle core frame 18.

The winding mechanism 3 further comprises a tooth post 304, a first clamping plate 305, a second clamping plate 306 and a spring 307, wherein the inner wall of the tooth post 304 is sleeved with and in threaded connection with the side face of the supporting rod 303, the first clamping plate 305 is fixedly connected with one end of the tooth post 304 far away from the supporting rod 303, the side face of the first clamping plate 305 is provided with a groove, the second clamping plate 306 is rotationally connected with the inner wall of the groove, two ends of the spring 307 are fixedly connected with the side face of the second clamping plate 306, the side face of the middle core frame 18 is in sliding connection with the inner walls of the first clamping plate 305 and the second clamping plate 306, the winding mechanism 3 further comprises an electric push rod 308, a sliding ring 309, a top plate 310 and a circular plate 311, the interface between the first clamping plate 305 and the tooth post 304 is provided with a groove, the electric push rod 308 is fixedly connected with the inner wall of the groove, the sliding ring 309 is sleeved with and in sliding connection with the side face of the first clamping plate 305, the ejector rod 206 is fixedly connected with the inner wall of the sliding ring 309, the circular plate 311 is fixedly connected with the side face of the first clamping plate 305, and the side face of the top plate 310 is in sliding connection with the side face of the circular plate 311.

When the winding mechanism 3 works, the middle core frame 18 needs to be fixed, and when the winding mechanism is fixed, the electric push rod 308 is started to push the sliding ring 309 to move towards the middle core frame 18, the sliding ring 309 drives the top plate 310 to move, the top plate 310 presses the circular plate 311 after moving, the circular plate 311 transfers pressure to the clamping plate I305 after being pressed, the clamping plate clamps the middle core frame 18 after being pressed, and when the contraction force generated by the electric heating wire 15 during winding is overlarge, the edge of the middle core frame 18 shakes, the clamping plate II 306 can provide buffering and support for the edge plate of the middle core frame 18 by utilizing the spring 307, and the edge plate of the middle core frame 18 is prevented from being pressed to be broken.

The winding mechanism 3 further comprises a conveying device 314, a third motor 315, a threaded cylinder 316 and a third clamping plate 317, the conveying device 314 is rotationally connected to the inner wall of the outer shell 17, the third motor 315 is fixedly connected to the side face of the outer shell 17 through a support, the output end of the third motor 315 is provided with threads, the threaded cylinder 316 is sleeved and is in threaded connection with the side face of the output end of the third motor 315, the third clamping plate 317 is rotationally connected to the end face of the threaded cylinder 316, which is far away from one side of the third motor 315, the conveying device 314 is provided with a pair of symmetrical two sides arranged at the center of the side face of the outer shell 17, the middle core frame 18 is slidingly connected between the two conveying devices 314 when the conveying device 314 rotates, and the center of the third clamping plate 317 and the center of the first clamping plate 305 are located on the same axis.

When the middle core frame 18 needs to be replaced, the conveying device 314 is started, the conveying device 314 drives the middle core frames 18 to ascend, when the middle core frame 18 at the topmost position reaches the top of the shell 17, the conveying device 314 is closed, the motor III 315 is started, the motor III 315 drives the threaded cylinder 316 to move after rotating, the threaded cylinder 316 drives the clamping plate III 317 to move towards the middle core frame 18, the middle core frame 18 is clamped into the clamping plate III 317 along with the movement of the clamping plate III 317, the clamping plate III 317 drives the middle core frame 18 to gradually approach the clamping plate I305 along with the continued rotation of the motor III 315, then the clamping plate II 306 is squeezed out from the side face of the middle core frame 18 and slides into the clamping plate I305, and finally the middle core frame 18 is closed by the clamping plate I305, so that the replacement of the middle core frame 18 is completed.

When in use, when the middle core frame 18 is rolled, the motor II 312 is started firstly, the motor II 312 is started and then drives the gear 313 to rotate, the gear 313 drives the tooth column 304 to rotate, the support rod 303 starts to drive the tooth column 304 to move by utilizing threads due to the rotation of the tooth column 304, when the tooth column 304 moves, the outer walls of the tooth column 304 and the gear 313 rotate relatively because of meshing, and the tooth column 304 slides relatively on the surface, the tooth column 304 slides into the guide cylinder 302 gradually after rotating, the action of the middle core frame 18 is synchronous with the tooth column 304, and the heating wire 15 is wound on the outer wall of the middle core frame 18 along with the rotation of the middle core frame 18, and because of the translation of the middle core frame 18, the heating wire 15 can be spirally wound on the outer wall of the middle core frame 18, when the rolling mechanism 3 works, the middle core frame 18 needs to be fixed, when the electric push rod 308 is started and pushes the sliding ring 309 to move towards the middle core frame 18, the sliding ring 309 drives the top plate 310 to move, the top plate 310 presses the circular plate 311 after moving, the circular plate 311 transfers pressure to the first clamping plate 305 after being pressed, the middle core frame 18 is clamped by the first clamping plate, the edge of the middle core frame 18 shakes due to overlarge contraction force generated by the heating wire 15 when being wound, the second clamping plate 306 can provide buffering and support for the edge plate of the middle core frame 18 by using the spring 307, the edge plate of the middle core frame 18 is prevented from being pressed to be crushed, when the middle core frame 18 needs to be replaced, the conveying device 314 is started, the conveying device 314 drives the plurality of middle core frames 18 to rise upwards, when the middle core frame 18 at the top position reaches the top of the outer shell 17, the conveying device 314 is closed, the third motor 315 is started, the third motor 315 drives the threaded cylinder 316 to move after being driven to rotate, the third threaded cylinder 316 drives the third clamping plate 317 to move towards the middle core frame 18, and the third clamping plate 317 moves along with the movement of the third clamping plate 317, the middle core frame 18 is clamped in the clamping plate III 317, along with the continuing rotation of the motor III 315, the clamping plate III 317 drives the middle core frame 18 to gradually approach the clamping plate I305, then the clamping plate II 306 is squeezed out from the side surface of the middle core frame 18 and slides into the clamping plate I305, and finally the middle core frame 18 is closed by the clamping plate I305, so that the replacement of the middle core frame 18 is completed.

The drum 201 is driven to rotate by the belt 203 after the drum 201 is started by electric power, the drum 201 is driven to rotate after the drum 201 rotates, wherein when the electric heating wires 15 are placed between the drum 206, the electric heating wires 206 are conveniently placed from top to bottom along the radial direction of the drum 201, the electric heating wires 15 are conveniently placed into the electric heating wires 15, the drum 206 slides along the electric heating wires 15 when the drum 201 rotates and drives the electric heating wires 15 to advance by utilizing the thread path of the electric heating wires 15, the electric heating wires 15 enter the bristles 207 in the advancing process, the bristles 207 are relatively soft and squeeze into the inner parts of the electric heating wires 15, the bristles 207 simultaneously start to rotate and clean dust of the electric heating wires 15 in the rotating process, the electric heating wires 15 enter the treatment box 204 under the pushing of the drum 206, the electric heating wires 15 slide on the outer walls of the pulley one 208, the pulley two 209 and the guide wheel 210 in the treatment box 204, one side of the electric heating wires 15 is stretched under the action of the pulley one 208 and the pulley two 209, and if the electric heating wires 15 are stretched one side, the electric heating wires 15 are easy to be absorbed, the absorbed bristles 207 enter the water storage box 212 due to the fact that the falling side of the electric heating wires 15 is easy to fall, the bristles 207 are easy to enter the gravity box 205, the electric heating wires 207 can fall into the water storage box 205 under the action, the suction force of the electric heating wires 205 can not fall into the suction force of the air outlet box 205 and can not pass through the air outlet box 15 after the air is identical with the suction box, and finally, and the air can flow into the air outlet box 204 through the air outlet box through the air inlet boxes, and the air outlet box 15.

When the middle core frame 18 is rolled, the motor II 312 is started firstly, the motor II 312 is started and then drives the gear 313 to rotate, the gear 313 drives the tooth column 304 to rotate, the support rod 303 starts to drive the tooth column 304 to move by utilizing threads due to the rotation of the tooth column 304, when the tooth column 304 moves, the outer walls of the tooth column 304 and the gear 313 are in relative rotation due to meshing and sliding on the surface, the tooth column 304 gradually slides into the guide cylinder 302 after rotating, the action of the middle core frame 18 is synchronous with the tooth column 304, and the heating wire 15 is wound on the outer wall of the middle core frame 18 along with the rotation of the middle core frame 18, and the heating wire 15 can be spirally wound on the outer wall of the middle core frame 18 due to the translation of the middle core frame 18.

When the winding mechanism 3 works, the middle core frame 18 needs to be fixed, and when the winding mechanism is fixed, the electric push rod 308 is started to push the sliding ring 309 to move towards the middle core frame 18, the sliding ring 309 drives the top plate 310 to move, the top plate 310 presses the circular plate 311 after moving, the circular plate 311 transfers pressure to the clamping plate I305 after being pressed, the clamping plate clamps the middle core frame 18 after being pressed, and when the contraction force generated by the electric heating wire 15 during winding is overlarge, the edge of the middle core frame 18 shakes, and the clamping plate II 306 can provide buffering and support for the edge plate of the middle core frame 18 by using the spring 307.

When the middle core frame 18 needs to be replaced, the conveying device 314 is started, the conveying device 314 drives the middle core frames 18 to ascend, when the middle core frame 18 at the topmost position reaches the top of the shell 17, the conveying device 314 is closed, the motor III 315 is started, the motor III 315 drives the threaded cylinder 316 to move after rotating, the threaded cylinder 316 drives the clamping plate III 317 to move towards the middle core frame 18, the middle core frame 18 is clamped into the clamping plate III 317 along with the movement of the clamping plate III 317, the clamping plate III 317 drives the middle core frame 18 to gradually approach the clamping plate I305 along with the continued rotation of the motor III 315, then the clamping plate II 306 is squeezed out from the side face of the middle core frame 18 and slides into the clamping plate I305, and finally the middle core frame 18 is closed by the clamping plate I305, so that the replacement of the middle core frame 18 is completed.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (9)

1. The utility model provides a hairdryer heating module coil winding equipment, includes base (1), its characterized in that: the device comprises a base (1), wherein a winding drum (11) is fixedly connected to the top of the base (1), bare wires (12) are wound on the outer wall of the winding drum (11), a first working table (13) is fixedly connected to the top of the base (1), a winding machine (14) is fixedly connected to the top of the first working table (13), the bare wires (12) penetrate through the side face of the winding machine (14) and extend into the inside, an electric heating wire (15) penetrates through and is slidingly connected to one side, far away from the bare wires (12), of the winding machine (14), a pretreatment mechanism (2) is sleeved at one end, far away from the winding machine (14), of the electric heating wire (15), a second working table (16) is fixedly connected to the top of the base (1), a shell (17) is fixedly connected to the side face of the second working table (16), a winding mechanism (3) is fixedly connected to the top of the second working table, and a middle core frame (18) is slidingly connected to the inner wall of the winding mechanism (3);

the pretreatment mechanism (2) comprises a rotary drum (201), a first motor (202), a belt (203), a treatment box (204) and an air outlet hole (205), wherein the first rotary drum (201) is rotationally connected to the top of the first working table (13) through a bracket, the first motor (202) is fixedly connected to the top of the first working table (13), the belt (203) is respectively sleeved at the output end of the first motor (202) and the outer wall of the rotary drum (201) through the belt (203) in a wheel sleeved mode, the treatment box (204) is fixedly connected to the top of the first working table (13), and the treatment box (204) is arranged at the edge of the top of the treatment box (204);

the pretreatment mechanism (2) further comprises a push rod (206) and bristles (207), the electric heating wires (15) penetrate through the rotary drum (201) and extend to the outside, the push rod (206) is fixedly connected to the inner wall of the rotary drum (201), one end of the push rod (206) away from the rotary drum (201) extends to the inside of the electric heating wires (15) and is slidably connected to the inner side surface of the electric heating wires (15), the bristles (207) are fixedly connected to one side of the inner wall of the rotary drum (201) away from the push rod (206), and one side of the bristles (207) away from the rotary drum (201) extends to the inside of the electric heating wires (15).

2. A hair dryer heating module coil winding apparatus as claimed in claim 1, wherein: the pretreatment mechanism (2) further comprises a pulley I (208), a pulley II (209) and a guide wheel (210), the pulley I (208) and the pulley II (209) are rotationally connected to the inner wall of the treatment box (204), the pulley II (209) is located at one side, far away from the rotary drum (201), of the pulley I (208), the electric heating wire (15) is slidingly connected to the outer wall of the pulley I (208) and the pulley II (209), the guide wheel (210) is rotationally connected to the inner wall of the treatment box (204), the electric heating wire (15) is slidingly connected to the outer wall of the guide wheel (210), and the electric heating wire (15) penetrates through the treatment box (204) and extends to the outside.

3. A hair dryer heating module coil winding apparatus as claimed in claim 2, wherein: the pretreatment mechanism (2) further comprises an air suction fan (211) and a water storage tank (212), wherein the water storage tank (212) is fixedly connected to the inside of the treatment tank (204), clear water is stored in the water storage tank (212), the air suction fan (211) is communicated with the inner side surface of the water storage tank (212), and the air suction fan (211) is provided with two air suction fans which are respectively located on different side surfaces of the pulley I (208) and the pulley II (209).

4. A hair dryer heating module coil winding apparatus as claimed in claim 3, wherein: the winding mechanism (3) comprises a supporting plate (301), a guide cylinder (302) and a supporting rod (303), wherein the supporting plate (301) is fixedly connected to the center of the top of the work table II (16), the guide cylinder (302) is fixedly connected to the side face of the supporting plate (301), the supporting rod (303) is located at the center of the guide cylinder (302) and is fixedly connected to the side face of the supporting plate (301), and one end, far away from the supporting plate (301), of the supporting rod (303) is provided with threads.

5. The electric hair dryer heating module coil winding apparatus as set forth in claim 4, wherein: the winding mechanism (3) further comprises a tooth post (304), a first clamping plate (305), a second clamping plate (306) and a spring (307), wherein the inner wall of the tooth post (304) is sleeved with the side face of the supporting rod (303) in a threaded mode, the first clamping plate (305) is fixedly connected to one end, far away from the supporting rod (303), of the tooth post (304), the side face of the first clamping plate (305) is provided with a groove, the second clamping plate (306) is rotationally connected to the inner wall of the groove, the two ends of the spring (307) are fixedly connected to the side face of the second clamping plate (306), and the side face of the middle core frame (18) is slidably connected to the inner walls of the first clamping plate (305) and the second clamping plate (306).

6. The electric hair dryer heating module coil winding apparatus as set forth in claim 5, wherein: the winding mechanism (3) further comprises an electric push rod (308), a sliding ring (309), a top plate (310) and a circular plate (311), wherein a groove is formed in the interface between the clamping plate I (305) and the tooth column (304), the electric push rod (308) is fixedly connected to the inner wall of the groove, the sliding ring (309) is sleeved on the side surface of the clamping plate I (305) in a sliding manner, the ejector rod (206) is fixedly connected to the inner wall of the sliding ring (309), the circular plate (311) is fixedly connected to the side surface of the clamping plate I (305), and the side surface of the top plate (310) is slidably connected to the side surface of the circular plate (311).

7. The electric hair dryer heating module coil winding apparatus as set forth in claim 6, wherein: the winding mechanism (3) further comprises a second motor (312) and a gear (313), the end face of one side, far away from the supporting plate (301), of the guide cylinder (302) is provided with a groove, the second motor (312) is fixedly connected to the inner wall of the groove, the gear (313) is fixedly connected to the output end of the second motor (312), and the gear (313) is located on the outer wall of the tooth column (304) and meshed with the tooth column (304).

8. The electric hair dryer heating module coil winding apparatus as set forth in claim 7, wherein: the winding mechanism (3) further comprises a conveying device (314), a motor III (315), a thread cylinder (316) and a clamping plate III (317), the conveying device (314) is rotationally connected to the inner wall of the shell (17), the motor III (315) is fixedly connected to the side face of the shell (17) through a support, the output end of the motor III (315) is provided with threads, the thread cylinder (316) is sleeved on the side face of the output end of the motor III (315), and the clamping plate III (317) is rotationally connected to the end face of the side, far away from the motor III (315), of the thread cylinder (316).

9. The electric hair dryer heating module coil winding apparatus as set forth in claim 8, wherein: the conveying devices (314) are provided with a pair of symmetrical two sides at the center of the side face of the shell (17), the middle core frame (18) is connected between the two conveying devices (314) in a sliding mode when the conveying devices (314) rotate, and the center of the clamping plate III (317) and the center of the clamping plate I (305) are located on the same axis.