Production of a synthetic hair wig by means of a cutting process

Abstract

The present application relates to the technical field of wig production cutting strip, more specifically, it is a kind of production cutting strip process for chemical fiber wig, including the following specific steps: install the prepared chemical fiber wig on the rotating gyroscope, and control the rotation of the rotating gyroscope;Heater is installed on the outside of the rotating gyroscope, so that the rotating gyroscope and wig rotate in the heater, while controlling the heater to heat treat the chemical fiber wig;The chemical fiber wig that has been heat treated and straightened by the rotating gyroscope is installed on the cutting strip equipment, and the wig is cut according to the length requirement.The present application can not only avoid the disintegration of the wig after cutting, but also facilitate the subsequent unified storage of different types of wig strips, effectively protecting the wig strips, compared with the traditional cutting strip equipment directly cutting mode.

Description

Technical Field

[0001] This invention relates to the field of wig production cutting technology, and more specifically, to a wig production cutting process for synthetic fiber wigs. Background Technology

[0002] Chemical fibers are fibers with textile properties produced from natural or synthetic polymers through processes such as preparing spinning solutions, spinning, and post-treatment. The length, thickness, whiteness, and luster of the fibers can be adjusted during production. They possess advantages such as light resistance, abrasion resistance, easy washing and drying, resistance to mildew and rot, and resistance to insects. They are widely used in the manufacture of clothing fabrics, filter cloths, conveyor belts, fire hoses, ropes, fishing nets, electrical insulation wires, medical sutures, tire cord fabrics, and parachutes. Generally, the polymer compound is prepared as a solution or melt, extruded through the fine orifices of a spinneret, and then solidified to form fibers. Products can be continuous filaments, short fibers cut to a certain length, or uncut tows.

[0003] Due to the excellent properties of synthetic fibers, they can also be used as raw materials for wig production. However, after the production of synthetic fiber wigs, long wig strips need to be cut into sections using a strip-cutting device to meet the requirements for wig production of different lengths. Currently, when cutting wig strips, workers need to hold the wig in place by hand; otherwise, the wig will fall apart at the moment of cutting. Furthermore, different types of wigs cannot be stored together, which can easily cause mixing and confusion. Summary of the Invention

[0004] The purpose of this invention is to provide a cutting process for producing synthetic fiber wigs, in order to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention provides the following technical solution:

[0006] A cutting process for producing synthetic fiber wigs, the specific steps of which are as follows:

[0007] S100: Install the prepared synthetic fiber wig onto a rotating gyroscope and control the rotation of the rotating gyroscope;

[0008] S200: The heater is installed on the outside of the rotating gyroscope, so that the rotating gyroscope and the wig rotate inside the heater, while controlling the heater to heat treat the synthetic fiber wig.

[0009] S300: The heat-treated and straightened synthetic fiber wigs are installed on the cutting device, and the wigs are cut according to the required length.

[0010] A further technical solution of this application: The specific steps of the heater heating process are as follows:

[0011] S201: Control the internal heating of the heater and maintain the heating temperature at 100-110℃ for 3 minutes;

[0012] S202: Control the internal heating of the heater and maintain the heating temperature at 110-120℃ for 3 minutes;

[0013] S203: Control the internal heating of the heater and maintain the heating temperature at 120-130℃ for 6 minutes.

[0014] A further technical solution of this application: The strip-cutting device includes a base, a controller, a feeding box, a mounting frame, and a strip-cutting system. The controller and the mounting frame are both mounted on the base, the feeding box is mounted on the mounting frame, and the strip-cutting system is mounted on the base and located on one side of the feeding box, for strip-cutting wigs.

[0015] The cutting system includes a guide seat, a side plate, a primary motor, a threaded rod, a traction assembly, and a cutting module. The guide seat is mounted on a base, the side plate is mounted on one side of the base, the primary motor is mounted on the side plate, the threaded rod is movably mounted on the side plate and connected to the output end of the primary motor, the traction assembly is movably mounted on the guide seat, and the traction assembly includes at least a threaded sleeve that engages with the threaded rod. When the traction assembly is working, it pulls the wig output from the feed box and performs a wrapping and protective treatment on the wig. The cutting module is located on the other side of the base and is arranged opposite to the guide seat. The cutting module is used to cut the wig.

[0016] A further technical solution of this application: a scale plate is provided on the side plate.

[0017] A further technical solution of this application: The traction assembly includes a front moving seat, a rear moving seat, a strapping tube, a clamping tube, a wrapping module, and a power output structure. The front moving seat and the rear moving seat are both movably mounted on a guide seat, and the guide seat is provided with damping. The front moving seat and the rear moving seat are both provided with electromagnets that attract each other when energized. The strapping tube is mounted on the rear moving seat, the clamping tube is mounted on the front moving seat, the screw sleeve is mounted on the rear moving seat, the wrapping module is mounted on the strapping tube, and the power output structure is located between the base and the wrapping module. When the strapping tube moves along the base, it controls the power output structure to work and provides power to the wrapping module. The wrapping module can perform wrapping and protective treatment on the wig. The clamping tube is provided with clamping parts for clamping and fixing the wig.

[0018] A further technical solution of this application: The wrapping module includes a gear, a toothed ring, a second motor, a take-up roller, a fixing block, and fixed pulleys. The toothed ring is movably disposed within a wrapping window formed on the wrapping tube. The gear is movably disposed on the wrapping tube and meshes with the toothed ring. The gear is connected to a power output structure. The take-up roller is movably disposed on the wrapping tube. The second motor is disposed on the wrapping tube, and its output end is coaxially connected to the take-up roller. There are several fixed pulleys, which are movably disposed on the wrapping tube. The fixing block is disposed inside the toothed ring. The free end of the protective tape wound on the take-up roller is connected along the fixed pulleys and the fixing block.

[0019] A further technical solution of this application: The power output structure includes a drive disc, raised strips, a drive wheel, a driven wheel, and a ratchet assembly. A guide groove is formed on the base. The number of raised strips is several and they are equidistantly arranged in the guide groove. The drive disc is movably mounted on the strap cylinder. The drive disc is movably mounted in the guide groove and cooperates with the raised strips. The drive wheel and the driven wheel are both movably mounted on the strap cylinder. The drive wheel and the drive disc are coaxially connected. The driven wheel and the gear are coaxially connected. The drive wheel and the driven wheel are both bevel gears. The drive wheel and the driven wheel mesh with each other. The ratchet assembly is arranged between the drive wheel and the drive disc.

[0020] A further technical solution of this application: The clamping component includes a first electric telescopic rod, an upper clamping plate, a lower clamping plate, and rubber strips. The upper clamping plate is movably disposed inside the clamping cylinder, and the lower clamping plate is disposed inside the clamping cylinder and located on one side of the upper clamping plate. The upper and lower clamping plates cooperate and interlock when in contact. There are several rubber strips, and several rubber strips are equidistantly disposed on the opposite surfaces of the upper and lower clamping plates. The first electric telescopic rod is disposed on the clamping cylinder, and its movable end is connected to the upper clamping plate.

[0021] A further technical solution of this application: The cutting module includes a cutting plate, a cutting seat, a second electric telescopic rod, and a cutting component. The cutting plate is located on the other side of the base, the cutting seat is movably mounted on the cutting plate, the second electric telescopic rod is mounted on the cutting plate and its movable end is connected to the cutting seat, and the cutting component is mounted on the cutting seat for performing the cutting process of the wig.

[0022] A further technical solution of this application: The cutting component includes a fixed cutting blade, a movable cutting blade, an insert, and a slider. The fixed cutting blade is disposed on the cutting seat and on the side near the feed box. The movable cutting blade is movably disposed on the cutting seat via the slider. An insert is disposed on the slider and is slidably inserted into the clamping cylinder and the two are elastically connected.

[0023] Compared with the prior art, the technical solution provided by the embodiments of the present invention has the following beneficial effects:

[0024] This invention, through the setting of a wrapping module and a power output structure, allows the power output structure to operate when the electromagnet is de-energized, causing the front and rear moving seats to disengage and the rear moving seat to move independently. This enables the wrapping module to perform wrapping processing on the wig between the clamping cylinder and the feeding box. Compared to traditional cutting equipment that directly cuts the wig, this device automatically wraps a protective strip around the surface of the wig before cutting. This not only prevents the wig from disintegrating after cutting but also facilitates the unified storage of different types of wigs, effectively protecting the wigs. Attached Figure Description

[0025] Figure 1 This is a flowchart of the production and cutting process for synthetic fiber wigs in this embodiment of the invention;

[0026] Figure 2 This is a flowchart of the heating process in the production and cutting process of synthetic fiber wigs in an embodiment of the present invention;

[0027] Figure 3 This is a schematic diagram of the cutting equipment used in the production cutting process of synthetic fiber wigs in an embodiment of the present invention;

[0028] Figure 4 This is a schematic diagram of the strip-cutting system in the strip-cutting device according to an embodiment of the present invention;

[0029] Figure 5 This is a schematic diagram of the power output structure in the strip cutting device according to an embodiment of the present invention;

[0030] Figure 6 This is a schematic diagram of the traction component in the strip-cutting device according to an embodiment of the present invention;

[0031] Figure 7 This is a diagram showing the fit between the upper clamping plate and the lower clamping plate in the strip-cutting device of this invention.

[0032] Figure 8 This is a schematic diagram of the tape winding module in the strip cutting device according to an embodiment of the present invention;

[0033] Figure 9 This is a schematic diagram of the cutting module in the strip cutting device of this invention.

[0034] Explanation of the labels in the diagram:

[0035] 1-Base, 2-Controller, 3-Feeding box, 4-Mounting bracket, 5-Scale plate, 6-Guide seat, 7-Cut plate, 8-Side plate, 9-Motor No. 1, 10-Threaded rod, 11-Front moving seat, 12-Clamping cylinder, 13-Electric telescopic rod No. 1, 14-Upper clamping plate, 15-Lower clamping plate, 16-Rubber strip, 17-Drive disc, 18-Guide groove, 19-Raised strip, 20-Drive wheel, 21-Ratchet group, 22-Rear moving seat, 23-Binding tube, 24-Motor No. 2, 25-Take-up roller, 26-Driven wheel, 27-Gear, 28-Fixing block, 29-Threaded sleeve, 30-Cut seat, 31-Electric telescopic rod No. 2, 32-Fixed cutting blade, 33-Movable cutting blade, 34-Insertion strip, 35-Slider, 36-Fixed pulley, 37-Gear ring. Detailed Implementation

[0036] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention. The present invention will be further described below with reference to the embodiments.

[0037] Please see Figure 1 as well as Figure 2 In one embodiment of this application, a cutting process for producing synthetic fiber wigs is described, the specific steps of which are as follows:

[0038] S100: Install the prepared synthetic fiber wig onto a rotating gyroscope and control the rotation of the rotating gyroscope;

[0039] S200: The heater is installed on the outside of the rotating gyroscope, so that the rotating gyroscope and the wig rotate inside the heater, while controlling the heater to heat treat the synthetic fiber wig.

[0040] S300: The heat-treated and straightened synthetic fiber wigs are installed on the cutting device, and the wigs are cut according to the required length.

[0041] In this embodiment, the specific steps of the heater heating process are as follows:

[0042] S201: Control the internal heating of the heater and maintain the heating temperature at 100-110℃ for 3 minutes;

[0043] S202: Control the internal heating of the heater and maintain the heating temperature at 110-120℃ for 3 minutes;

[0044] S203: Control the internal heating of the heater and maintain the heating temperature at 120-130℃ for 6 minutes.

[0045] Please see Figures 3-6 As another preferred embodiment of this application, the strip-cutting device includes a base 1, a controller 2, a feeding box 3, a mounting frame 4, and a strip-cutting system. The controller 2 and the mounting frame 4 are both mounted on the base 1, the feeding box 3 is mounted on the mounting frame 4, and the strip-cutting system is mounted on the base 1 and located on one side of the feeding box 3, and is used for strip-cutting wigs.

[0046] The cutting system includes a guide seat 6, a side plate 8, a primary motor 9, a threaded rod 10, a traction assembly, and a cutting module. The guide seat 6 is mounted on the base 1, the side plate 8 is mounted on one side of the base 1, the primary motor 9 is mounted on the side plate 8, the threaded rod 10 is movably mounted on the side plate 8 and connected to the output end of the primary motor 9, the traction assembly is movably mounted on the guide seat 6, and the traction assembly includes at least a threaded sleeve 29 that is threadedly engaged with the threaded rod 10. When the traction assembly is working, it pulls the wig output from the feed box 3 to move and performs a wrapping and protective treatment on the wig. The cutting module is mounted on the other side of the base 1 and is arranged opposite to the guide seat 6. The cutting module is used to cut the wig.

[0047] In one specific embodiment, a scale plate 5 is provided on the side plate 8.

[0048] In another specific embodiment, the traction assembly includes a front movable seat 11, a rear movable seat 22, a strapping tube 23, a clamping tube 12, a wrapping module, and a power output structure. The front movable seat 11 and the rear movable seat 22 are both movably mounted on a guide seat 6, and the guide seat 6 is equipped with damping. Both the front movable seat 11 and the rear movable seat 22 are equipped with electromagnets that attract each other when energized. The strapping tube 23 is mounted on the rear movable seat 22, the clamping tube 12 is mounted on the front movable seat 11, the screw sleeve 29 is mounted on the rear movable seat 22, the wrapping module is mounted on the strapping tube 23, and the power output structure is located between the base 1 and the wrapping module. When the strapping tube 23 moves along the base 1, it controls the power output structure to work and provides power to the wrapping module. The wrapping module can perform wrapping and protective treatment on the wig. The clamping tube 12 is equipped with clamping elements for clamping and fixing the wig.

[0049] It should be noted that this embodiment is not limited to the electromagnet described above for controlling the synchronous movement between the front moving seat 11 and the rear moving seat 22. Velcro or other snap-fit ​​mechanical structures can also be used instead, which will not be listed here.

[0050] In practical applications, the finished wig hair extensions are fed into the feeding box 3. The feeding box 3 controls the feeding of the wig hair extensions, which pass through the binding tube 23 and the clamping tube 12 in sequence. The clamping device clamps and fixes the wig in place. Simultaneously, the controller 2 controls the electromagnet to be energized and attracted, thereby controlling the adsorption between the front moving seat 11 and the rear moving seat 22. By controlling the first motor 9 to rotate, the threaded rod 10 is driven to rotate. Under the threaded engagement between the threaded rod 10 and the threaded sleeve 29, the front moving seat 11 and the rear moving seat 22 move synchronously along the guide seat 6. The scale plate 5 allows for constant monitoring of the wig hair extensions. When the extension length of the wig meets the processing requirements, the electromagnet is de-energized, and the No. 1 motor 9 is reversed, causing the rear moving seat 22 and the strapping tube 23 to move towards the feeding box 3. During this process, the power output structure is activated, which controls the wrapping module to wrap a protective strip around the wig surface between the clamping tube 12 and the feeding box 3, thus protecting the wig during later storage. After the protective strip is wrapped, the cutting module is activated to cut strips at both ends of the wig between the clamping tube 12 and the feeding box 3, thereby completing the wig cutting process.

[0051] Please see Figures 3-9 In another preferred embodiment of this application, the wrapping module includes a gear 27, a toothed ring 37, a second motor 24, a take-up roller 25, a fixing block 28, and fixed pulleys 36. The toothed ring 37 is movably disposed within a wrapping window formed on the strapping cylinder 23. The gear 27 is movably disposed on the strapping cylinder 23 and meshes with the toothed ring 37. The gear 27 is connected to a power output structure. The take-up roller 25 is movably disposed on the strapping cylinder 23. The second motor 24 is disposed on the strapping cylinder 23, and its output end is coaxially connected to the take-up roller 25. There are several fixed pulleys 36, which are movably disposed on the strapping cylinder 23. The fixing block 28 is disposed inside the toothed ring 37. The free end of the protective tape wound on the take-up roller 25 is connected along the fixed pulleys 36 and the fixing block 28.

[0052] In one specific embodiment, the power output structure includes a drive disc 17, raised strips 19, a drive wheel 20, a driven wheel 26, and a ratchet assembly 21. A guide groove 18 is formed on the base 1. Several raised strips 19 are equidistantly arranged within the guide groove 18. The drive disc 17 is movably mounted on the strapping cylinder 23 and engages with the raised strips 19 within the guide groove 18. Both the drive wheel 20 and the driven wheel 26 are movably mounted on the strapping cylinder 23. The drive wheel 20 and the drive disc 17 are coaxially connected. The driven wheel 26 is coaxially connected with a gear 27. Both the drive wheel 20 and the driven wheel 26 are bevel gears 27, meshing with each other. The ratchet assembly 21 is located between the drive wheel 20 and the drive disc 17.

[0053] In another specific embodiment, the clamping component includes a first electric telescopic rod 13, an upper clamping plate 14, a lower clamping plate 15, and rubber strips 16. The upper clamping plate 14 is movably disposed within the clamping cylinder 12, and the lower clamping plate 15 is disposed within the clamping cylinder 12 and located on one side of the upper clamping plate 14. The upper clamping plate 14 and the lower clamping plate 15 cooperate and interlock when in contact. There are several rubber strips 16, and several rubber strips 16 are equidistantly disposed on the opposite surfaces of the upper clamping plate 14 and the lower clamping plate 15. The first electric telescopic rod 13 is disposed on the clamping cylinder 12, and its movable end is connected to the upper clamping plate 14.

[0054] When the wig output from the feed box 3 enters the clamping cylinder 12, the operation of the first electric telescopic rod 13 is controlled, causing the upper clamping plate 14 and the lower clamping plate 15 to approach and engage, thereby clamping and fixing the wig. When the front moving seat 11 and the rear moving seat 22 move synchronously, the electromagnets attract each other, and under the action of the ratchet assembly 21, the drive disc 17 and the raised strip 19 remain in contact without rotation. When the electromagnets are de-energized and the rear moving seat 22 and the strapping cylinder 23 are moved towards the feed box 3, the drive disc 17 can be controlled to rotate under the cooperation between the raised strip 19 and the drive disc 17, thus... The drive wheel 20 is controlled to rotate. Under the meshing action between the drive wheel 20 and the driven wheel 26, the driven wheel 26 and the gear 27 are controlled to rotate. Under the meshing action between the gear 27 and the gear ring 37, the gear ring 37 and the fixing block 28 are controlled to rotate relative to the wig. At this time, the controller 2 controls the second motor 24 to rotate synchronously, driving the take-up roller 25 to rotate synchronously, thereby releasing the protective tape. Under the action of the gear ring 37 driving the fixing block 28 to rotate, the protective tape can be wrapped around the surface of the wig, thereby completing the protective treatment of the wig. After the subsequent cutting is completed, the protective tape is manually cut to complete the removal of the protective tape.

[0055] Please see Figure 3 , Figure 6as well as Figure 9 In another preferred embodiment of this application, the cutting module includes a cutting plate 7, a cutting seat 30, a second electric telescopic rod 31, and a cutting component. The cutting plate 7 is disposed on the other side of the base 1. The cutting seat 30 is movably disposed on the cutting plate 7. The second electric telescopic rod 31 is disposed on the cutting plate 7 and its movable end is connected to the cutting seat 30. The cutting component is disposed on the cutting seat 30 and is used to perform the cutting process on the wig.

[0056] In this embodiment, the cutting component includes a fixed cutting blade 32, a movable cutting blade 33, an insert 34, and a slider 35. The fixed cutting blade 32 is disposed on the cutting seat 30 and on one side of the feed box 3. The movable cutting blade 33 is movably disposed on the cutting seat 30 via the slider 35. The slider 35 is provided with an insert 34, which is slidably inserted into the clamping cylinder 12 and the two are elastically connected.

[0057] As the front moving seat 11 moves along the guide seat 6, the movable cutting blade 33 and the slider 35 can move synchronously with the front moving seat 11. When the front moving seat 11 and the clamping cylinder 12 move to the set position, the second electric telescopic rod 31 can be energized and extended, thereby driving the cutting seat 30 to move relative to the cutting plate 7. At this time, the movable cutting blade 33 and the fixed cutting blade 32 both move towards the wig, thereby performing cutting and trimming work on both ends of the wig between the feeding box 3 and the clamping cylinder 12.

[0058] The working principle of the strip-cutting device in this application is as follows:

[0059] The finished wig hair extensions are fed into the feeding box 3. The feeding box 3 controls the feeding of the wig hair extensions, which pass through the binding tube 23 and the clamping tube 12 in sequence. When the wig hair output from the feeding box 3 enters the clamping tube 12, the first electric telescopic rod 13 is controlled to move, causing the upper clamping plate 14 and the lower clamping plate 15 to approach and engage, thereby clamping and fixing the wig hair. At the same time, the controller 2 controls the electromagnet to be energized and attracted, thereby controlling the adsorption between the front moving seat 11 and the rear moving seat 22. The first motor 9 is energized and rotated, driving the threaded rod 10 to rotate. Under the threaded engagement between the threaded rod 10 and the threaded sleeve 29, the front moving seat 11 and the rear moving seat 22 move synchronously along the guide seat 6. The extension length of the wig hair extension can be monitored at any time through the scale plate 5. When the extension length of the wig hair extension meets the processing requirements, the electromagnet is controlled to disconnect. When the first motor 9 reverses, controlling the rear moving seat 22 and the strapping tube 23 to move towards the feed box 3, the drive disc 17 rotates under the cooperation between the protruding strip 19 and the drive disc 17, which in turn controls the drive wheel 20 to rotate. Under the meshing action between the drive wheel 20 and the driven wheel 26, the driven wheel 26 and the gear 27 rotate. Under the meshing action between the gear 27 and the gear ring 37, the gear ring 37 and the fixing block 28 rotate relative to the wig. At this time, the controller 2 controls the second motor 24 to rotate synchronously, driving the take-up roller 25 to rotate synchronously, thereby releasing the protective tape. Under the action of the gear ring 37 driving the fixing block 28 to rotate, the protective tape can be wrapped around the surface of the wig, thus completing the protective treatment of the wig. After the subsequent cutting is completed, the protective tape is manually cut to complete the removal of the protective tape. As the front moving seat 11 moves along the guide seat 6, the movable cutting blade 33 and the slider 35 can move synchronously with the front moving seat 11. When the front moving seat 11 and the clamping cylinder 12 move to the set position, the second electric telescopic rod 31 can be energized and extended, thereby driving the cutting seat 30 to move relative to the cutting plate 7. At this time, the movable cutting blade 33 and the fixed cutting blade 32 both move towards the wig, thereby performing cutting and trimming work on both ends of the wig between the feeding box 3 and the clamping cylinder 12.

[0060] The present invention and its embodiments have been described above illustratively. This description is not restrictive, and the figures shown are only one embodiment of the present invention; the actual structure is not limited thereto. Therefore, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the spirit of the present invention, such designs should fall within the protection scope of the present invention.

[0061] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims

1. A production strip cutting apparatus for a synthetic hair wig, characterized by, The strip-cutting device includes a base, a controller, a feeding box, a mounting frame, and a strip-cutting system. The controller and the mounting frame are both mounted on the base, the feeding box is mounted on the mounting frame, and the strip-cutting system is mounted on the base and located on one side of the feeding box, and is used for strip-cutting wigs. The cutting system includes a guide seat, a side plate, a No. 1 motor, a threaded rod, a traction assembly, and a cutting module. The guide seat is mounted on the base, the side plate is mounted on one side of the base, the No. 1 motor is mounted on the side plate, the threaded rod is movably mounted on the side plate and connected to the output end of the No. 1 motor, the traction assembly is movably mounted on the guide seat, and the traction assembly includes at least a threaded sleeve that engages with the threaded rod. When the traction assembly is working, it pulls the wig output from the feed box and performs a wrapping and protective treatment on the wig. The cutting module is located on the other side of the base and is arranged opposite to the guide seat. The cutting module is used to cut the wig. The traction assembly includes a front movable seat, a rear movable seat, a strapping tube, a clamping tube, a wrapping module, and a power output structure. The front and rear movable seats are both movably mounted on a guide seat, and the guide seat is equipped with damping. Both the front and rear movable seats are equipped with electromagnets that attract each other when energized. The strapping tube is mounted on the rear movable seat, the clamping tube is mounted on the front movable seat, the screw sleeve is mounted on the rear movable seat, and the wrapping module is mounted on the strapping tube. The power output structure is located between the base and the wrapping module. When the strapping tube moves along the base, it controls the power output structure to work and provides power to the wrapping module. The wrapping module can perform wrapping and protection treatment on the wig. The clamping tube is equipped with clamping parts for clamping and fixing the wig. The wrapping module includes a gear, a toothed ring, a second motor, a take-up roller, a fixing block, and fixed pulleys. The toothed ring is movably disposed within a wrapping window formed on the wrapping tube. The gear is movably disposed on the wrapping tube and meshes with the toothed ring. The gear is connected to a power output structure. The take-up roller is movably disposed on the wrapping tube. The second motor is disposed on the wrapping tube, and its output end is coaxially connected to the take-up roller. There are several fixed pulleys, which are movably disposed on the wrapping tube. The fixing block is disposed inside the toothed ring. The free end of the protective tape wound on the take-up roller is connected along the fixed pulleys and the fixing block.

2. The synthetic hair production striping apparatus according to claim 1, wherein A scale plate is provided on the side plate.

3. The synthetic filament wig production striping apparatus according to claim 2, wherein, The power output structure includes a drive disc, raised strips, a drive wheel, a driven wheel, and a ratchet assembly. A guide groove is formed on the base. Several raised strips are equidistantly arranged within the guide groove. The drive disc is movably mounted on the strap sleeve, within the guide groove, and engages with the raised strips. Both the drive wheel and the driven wheel are movably mounted on the strap sleeve. The drive wheel and drive disc are coaxially connected, and the driven wheel is coaxially connected to a gear. Both the drive wheel and the driven wheel are bevel gears, meshing with each other. The ratchet assembly is located between the drive wheel and the drive disc.

4. The production and cutting equipment for chemical fiber wigs according to claim 3, characterized in that, The clamping component includes a first electric telescopic rod, an upper clamping plate, a lower clamping plate, and rubber strips. The upper clamping plate is movably disposed inside the clamping cylinder, and the lower clamping plate is disposed inside the clamping cylinder and located on one side of the upper clamping plate. The upper and lower clamping plates cooperate and interlock when in contact. There are several rubber strips, and several rubber strips are equidistantly arranged on the opposite surfaces of the upper and lower clamping plates. The first electric telescopic rod is disposed on the clamping cylinder, and its movable end is connected to the upper clamping plate.

5. The production and cutting equipment for chemical fiber wigs according to claim 1, characterized in that, The cutting module includes a cutting plate, a cutting seat, a second electric telescopic rod, and a cutting component. The cutting plate is located on the other side of the base, the cutting seat is movably mounted on the cutting plate, the second electric telescopic rod is mounted on the cutting plate and its movable end is connected to the cutting seat, and the cutting component is mounted on the cutting seat for performing the cutting process on the wig.

6. The production and cutting equipment for chemical fiber wigs according to claim 5, characterized in that, The cutting component includes a fixed cutting blade, a movable cutting blade, an insert, and a slider. The fixed cutting blade is mounted on the cutting seat and is located on the side of the feed box. The movable cutting blade is movably mounted on the cutting seat via the slider. The slider is provided with an insert, which is slidably inserted into the clamping cylinder and the two are elastically connected.

7. A cutting process for producing synthetic fiber wigs, using the cutting equipment for producing synthetic fiber wigs as described in any one of claims 1-6, characterized in that, The specific steps of the strip cutting process are as follows: S100: Install the prepared synthetic fiber wig onto a rotating gyroscope and control the rotation of the rotating gyroscope; S200: The heater is installed on the outside of the rotating gyroscope, so that the rotating gyroscope and the wig rotate inside the heater, while controlling the heater to heat treat the synthetic fiber wig. S300: The heat-treated and straightened synthetic fiber wigs are installed on the cutting device, and the wigs are cut according to the required length.

8. The production cutting process for chemical fiber wigs according to claim 7, characterized in that, The specific steps of the heater heating process are as follows: S201: Control the internal heating of the heater and maintain the heating temperature at 100-110℃ for 3 minutes; S202: Control the internal heating of the heater and maintain the heating temperature at 110-120℃ for 3 minutes; S203: Control the internal heating of the heater and maintain the heating temperature at 120-130℃ for 6 minutes.

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