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CN-122006133-A - Hair growing equipment and manufacturing method thereof

CN122006133ACN 122006133 ACN122006133 ACN 122006133ACN-122006133-A

Abstract

The application belongs to the technical field of phototherapy beauty equipment manufacturing, and provides hair growing equipment and a manufacturing method thereof, wherein the hair growing equipment comprises an outer cloth layer, a flexible circuit layer and an inner cloth layer which are sequentially arranged, and a plurality of luminous elements are arranged on one side of the flexible circuit layer; the method comprises the steps of forming corresponding clearance holes in the inner cloth layer according to the mounting positions of the luminous pieces on the flexible circuit layer, pre-fixing the flexible circuit layer between the outer cloth layer and the inner cloth layer to enable the luminous pieces to be embedded into the corresponding clearance holes, performing three-dimensional hot-pressing integrated forming treatment on the pre-fixed outer cloth layer, the flexible circuit layer and the inner cloth layer to enable the outer cloth layer, the flexible circuit layer and the inner cloth layer to be integrated, and performing cooling shaping on the outer cloth layer, the flexible circuit layer and the inner cloth layer after hot pressing.

Inventors

  • WANG YANG
  • CHEN SHAOWEI

Assignees

  • 深圳瑞识智能科技有限公司

Dates

Publication Date
20260512
Application Date
20260319

Claims (10)

  1. 1. The manufacturing method of the hair growing device comprises an outer cloth layer, a flexible circuit layer and an inner cloth layer which are sequentially arranged, wherein one side of the flexible circuit layer is provided with a plurality of luminous elements, and the manufacturing method is characterized by comprising the following steps: According to the installation position of the luminous element on the flexible circuit layer, corresponding clearance holes are formed in the inner cloth layer; pre-fixing the flexible circuit layer between the outer cloth layer and the inner cloth layer to enable the luminous piece to be embedded into the corresponding clearance hole; And carrying out three-dimensional hot-pressing integrated forming treatment on the outer cloth layer, the flexible circuit layer and the inner cloth layer which are subjected to pre-fixing, so that the outer cloth layer, the flexible circuit layer and the inner cloth layer are integrally formed, and cooling and shaping the outer cloth layer, the flexible circuit layer and the inner cloth layer after hot pressing.
  2. 2. The method of claim 1, wherein the hair-growing apparatus further comprises a main structure, and before the inner cloth layer is provided with the corresponding clearance holes according to the mounting position of the light emitting element on the flexible circuit layer, the apparatus further comprises: And acquiring the size information of the outer cloth layer, the flexible circuit layer and the inner cloth layer according to the main body size of the main body structure so as to complete cutting of the outer cloth layer, the flexible circuit layer and the inner cloth layer.
  3. 3. The method of manufacturing according to claim 2, further comprising, after the cooling-shaping of the outer cloth layer, the flexible circuit layer, and the inner cloth layer after the hot pressing: and the outer cloth layer, the flexible circuit layer and the inner cloth layer after hot pressing are attached to the inner side of the main body structure by the outer cloth layer.
  4. 4. The method according to claim 1, wherein the step of forming the corresponding clearance hole in the inner cloth layer according to the mounting position of the light emitting element on the flexible circuit layer comprises: And acquiring the arrangement position and the outline dimension of each light-emitting element on the flexible circuit layer, and according to the arrangement position and the outline dimension, arranging a clearance hole corresponding to the light-emitting element on one side of the inner cloth layer, which is away from the outer cloth layer, wherein the size of the clearance hole is matched with the outline dimension of the light-emitting element so as to ensure that light emitted by the light-emitting element is output without shielding.
  5. 5. The method according to claim 1, wherein the three-dimensional hot press integrated molding process is performed on the pre-fixed outer cloth layer, flexible circuit layer and inner cloth layer, and includes: And (3) placing the pre-fixed outer cloth layer, the flexible circuit layer and the inner cloth layer into a preset three-dimensional hot-pressing die, performing hot-pressing treatment at preset temperature and pressure parameters, forming a positioning imprinting structure corresponding to the flexible circuit layer on the inner cloth layer in the hot-pressing process, and finishing the three-dimensional hot-pressing integrated forming treatment.
  6. 6. The method according to claim 5, wherein the cooling and shaping the outer cloth layer, the flexible circuit layer, and the inner cloth layer after the hot pressing comprises: And placing the outer cloth layer, the flexible circuit layer and the inner cloth layer which are subjected to hot pressing treatment in the three-dimensional hot pressing mold, standing and cooling in a preset constant temperature environment, and demolding after the outer cloth layer, the flexible circuit layer and the inner cloth layer are completely shaped.
  7. 7. The manufacturing method according to claim 1, further comprising, before the mounting position according to the light emitting element on the flexible circuit layer: and correspondingly welding a plurality of luminous elements to the preset bonding pad positions of the flexible circuit board, and matching and welding corresponding electronic components and power supply components to prepare the flexible circuit layer.
  8. 8. The method of manufacturing according to claim 7, further comprising, before the three-dimensional thermo-compression integrated forming process is performed on the pre-fixed outer cloth layer, flexible circuit layer, and inner cloth layer: And carrying out high-temperature-resistant insulation protection treatment on the electronic components corresponding to the flexible circuit layer and the power supply part so as to ensure that the power supply part is not damaged in the hot pressing process.
  9. 9. The method of manufacturing according to claim 7, wherein the corresponding soldering of the plurality of light emitting members to the predetermined pad positions of the flexible circuit board comprises: And the vertical cavity surface emitting laser is selected as the light emitting part, and the size of the corresponding clearance hole on the inner cloth layer is adjusted to be matched with the outline size of the vertical cavity surface emitting laser, so that laser emitted by the vertical cavity surface emitting laser can be irradiated to the scalp area of a wearer through the clearance hole without shielding.
  10. 10. A hair growing apparatus, characterized by being prepared by the method according to any one of claims 1-9.

Description

Hair growing equipment and manufacturing method thereof Technical Field The invention belongs to the technical field of manufacturing of phototherapy beauty equipment, and particularly relates to hair growing equipment and a manufacturing method thereof. Background With the promotion of health and beauty consciousness of residents, the problem of alopecia presents a younger trend, and the noninvasive phototherapy hair growing technology is rapidly developed. The head-wearing hair-growing cap is a main stream of phototherapy hair-growing equipment because of the advantages of convenient use, household use, no invasive damage and the like. The core structure of the existing head-mounted hair growing cap is mostly of a sandwich type composite structure, the main stream manufacturing process is a traditional sewing and splicing process, a flexible circuit board with a luminous piece is clamped between two cloth layers, and fixing and forming of each layer are achieved through sewing and viscose splicing. The technology inevitably forms sutures and spliced bone positions on the inner wall of the cap body, so that the flatness of the inner wall is poor, the problems of partial compression and insufficient fitting degree are easy to occur when the cap is worn, the wearing comfort level is reduced, uneven distance between a luminous piece and scalp is caused, the phototherapy hair growing effect is affected, meanwhile, the suture pinholes and the spliced gaps can damage the structural tightness, the internal circuit components cannot be effectively protected, sweat erosion, circuit short circuit and other faults are easy to occur after long-term use, the service life of the product is short, in addition, the suture and splicing technology relies on manual alignment, the alignment precision of the luminous piece and a light hole is low, light shielding is easy to occur, and the phototherapy efficiency is further reduced. Disclosure of Invention The application provides hair growing equipment and a manufacturing method thereof, and aims to solve the problems that the core structure of the existing head-mounted hair growing hat is mostly of a sandwich type composite structure, the main stream manufacturing process is a traditional sewing and splicing process, and the inner wall of the hat body is poor in flatness due to the fact that a sewing line and a splicing bone position are formed on the inner wall, partial compression is easy to occur when the hat is worn, the fitting degree is insufficient, and the like. In a first aspect, the present application provides a method for manufacturing a hair growing apparatus, the hair growing apparatus including an outer cloth layer, a flexible circuit layer, and an inner cloth layer sequentially disposed, one side of the flexible circuit layer being provided with a plurality of light emitting members, the method including: According to the installation position of the luminous element on the flexible circuit layer, corresponding clearance holes are formed in the inner cloth layer; pre-fixing the flexible circuit layer between the outer cloth layer and the inner cloth layer to enable the luminous piece to be embedded into the corresponding clearance hole; And carrying out three-dimensional hot-pressing integrated forming treatment on the outer cloth layer, the flexible circuit layer and the inner cloth layer which are subjected to pre-fixing, so that the outer cloth layer, the flexible circuit layer and the inner cloth layer are integrally formed, and cooling and shaping the outer cloth layer, the flexible circuit layer and the inner cloth layer after hot pressing. In some embodiments, the hair growing device further comprises a main body structure, and before the corresponding clearance holes are formed in the inner cloth layer according to the installation position of the light emitting piece on the flexible circuit layer, the hair growing device further comprises obtaining the size information of the outer cloth layer, the flexible circuit layer and the inner cloth layer according to the main body size of the main body structure so as to complete cutting of the outer cloth layer, the flexible circuit layer and the inner cloth layer. In some embodiments, after the cooling and shaping of the outer cloth layer, the flexible circuit layer and the inner cloth layer after the hot pressing, the method further comprises the step of attaching the outer cloth layer, the flexible circuit layer and the inner cloth layer after the hot pressing to the inner side of the main body structure through the outer cloth layer. In some embodiments, the step of forming the corresponding void hole in the inner cloth layer according to the mounting position of the light emitting element on the flexible circuit layer includes obtaining the arrangement position and the external dimension of each light emitting element on the flexible circuit layer, and forming the void hole corresponding to the light em