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CN-122006140-A - Multifunctional light-weight hair growing instrument based on laser component

CN122006140ACN 122006140 ACN122006140 ACN 122006140ACN-122006140-A

Abstract

The invention discloses a multifunctional light-weight hair growing instrument based on a laser component, which mainly comprises a helmet main body and a laser hair growing component arranged in the helmet main body, wherein the laser hair growing component comprises a flexible heat conducting layer, and a heat insulating layer is adhered to one side, close to the helmet main body, of the flexible heat conducting layer. The invention has the advantages that the heat conduction uniformity of the heat conduction strip outside the heat conduction sleeve can be enhanced, and the heat conduction silicone grease on the inner wall of the heat conduction sleeve is matched with the heat conduction bulge to improve the heat conduction efficiency of the miniature PTC heater. The device solves the problem of poor hair growing effect of the existing hair growing instrument by a single laser means, comprises photo-biological stimulation of laser lamp beads, hair follicle channel dredging of a low-frequency ultrasonic transducer, oil regulation and metabolism activation of a microcurrent generation electrode plate, and blood circulation promotion of a miniature PTC heater to form synergistic effect, improves scalp environment from multiple dimensions, activates hair follicles, ensures proper heating temperature by the cooperation of a temperature sensor and a controller, avoids damaging scalp, and remarkably improves hair growing effect and use safety.

Inventors

  • GAO SHAOHUA
  • MA ZHIWEI

Assignees

  • 深圳市致尚通信有限公司
  • 深圳浙伏医疗科技有限公司

Dates

Publication Date
20260512
Application Date
20260203

Claims (10)

  1. 1. The utility model provides a appearance is grown to multi-functional lightweight based on laser subassembly, its characterized in that includes helmet main part (1) and sets up the laser of growing in helmet main part (1) inside subassembly, the laser grows subassembly and includes flexible heat conduction layer (2), one side that flexible heat conduction layer (2) is close to helmet main part (1) bonds there is insulating layer (3), one side that flexible heat conduction layer (2) was kept away from to insulating layer (3) bonds there is first flexible circuit board (4), one side that insulating layer (3) was kept away from to first flexible circuit board (4) is laminated with the inner wall of helmet main part (1), bonding layer (5) have been paintd to one side that flexible heat conduction layer (2) kept away from helmet main part (1), one side that flexible heat conduction layer (2) was kept away from to first bonding layer (5) bonds there is second flexible circuit board (6), one side of second flexible circuit board (6) is provided with laser lamp pearl (7) and a plurality of evenly setting and a plurality of low frequency ultrasonic transducer (8) that evenly set up, a plurality of low frequency ultrasonic transducer (8) output end and flexible circuit board (2) are through flexible circuit (2) and insulating layer (2) are all glued with electric conduction layer (10) and are connected with little electric property cover (10), the inner wall bonding of heat conduction cover (10) has miniature PTC heater (11), the embedded temperature sensor (12) that have a plurality of circumference array of bonding in one side that flexible heat conduction layer (2) are close to insulating layer (3), a plurality of temperature sensor (12) and miniature PTC heater (11)'s wiring end all have wire (13) through soldering tin welding, a plurality of wire (13) are close to helmet main part (1) one end and first flexible circuit board (4) electric connection.
  2. 2. The multifunctional light-weight hair restorer based on the laser assembly of claim 1, wherein the helmet main body (1) is made of ABS engineering plastic, two symmetrically arranged elastic adjusting belts (14) are fixedly connected inside the helmet main body (1), and adjusting ends of the two elastic adjusting belts (14) are bonded together through a magic tape.
  3. 3. The multifunctional light-weight hair growing instrument based on the laser assembly according to claim 2, wherein the controller (15) is embedded on the outer surface of the helmet main body (1), the controller (15) mainly comprises a main control circuit module, a Bluetooth module and a power supply module, two symmetrically arranged speakers (16) are embedded on the bottom of the helmet main body (1), and the first flexible circuit board (4), the second flexible circuit board (6) and the two speakers (16) are electrically connected with the controller (15).
  4. 4. The multifunctional light-weight hair restorer based on the laser component according to claim 3, wherein the flexible heat conducting layer (2) is made of flexible silica gel heat conducting sheets, and the heat insulating layer (3) is made of ceramic fiber heat insulating cotton.
  5. 5. The multifunctional light-weight hair growing instrument based on the laser component of claim 4, wherein the laser lamp beads (7) are low-energy laser diodes, the shell is made of quartz glass with high light transmittance, the low-frequency ultrasonic transducer (8) is a piezoelectric ceramic transducer, and the shell of the low-frequency ultrasonic transducer (8) is encapsulated by waterproof and insulating epoxy resin.
  6. 6. The laser-assembly-based multifunctional light-weight hair growth device of claim 5, wherein the bonding layer (5) is made of heat-conducting glue, the micro-current generating electrode plate (9) is a conductive silica gel electrode plate, and the surface of the micro-current generating electrode plate (9) is coated with conductive gel.
  7. 7. The multifunctional light-weight hair growing instrument based on the laser assembly of claim 6, wherein a plurality of circumferentially arrayed heat conducting strips (17) are fixedly connected to the outer surface of the heat conducting sleeve (10), the plurality of heat conducting strips (17) are embedded and adhered to one side of the flexible heat conducting layer (2), and the heat conducting strips (17) and the heat conducting sleeve (10) are made of copper.
  8. 8. The laser-assembly-based multifunctional light-weight hair growing instrument as claimed in claim 7, wherein the outer surface of the miniature PTC heater (11) is fixedly connected with a heat conduction protrusion (18), a plurality of grooves (19) matched with the heat conduction protrusion (18) are formed in the inner wall of the heat conduction sleeve (10), and a layer of heat conduction silicone grease is coated on the inner wall of the heat conduction sleeve (10).
  9. 9. The multifunctional light-weight hair restorer based on the laser assembly of claim 8, wherein a plurality of through holes (20) which are uniformly arranged are formed in one side of the heat insulation layer (3) in a penetrating mode, and a plurality of conducting wires (13) are respectively positioned in the through holes (20).
  10. 10. The multifunctional light-weight hair restorer based on the laser assembly of claim 9, wherein a plurality of clamping pins (21) in a circumferential array are inserted on one side of the second flexible circuit board (6), and clamping joints of the plurality of clamping pins (21) penetrate through the first flexible circuit board (4) to be clamped inside the helmet main body (1).

Description

Multifunctional light-weight hair growing instrument based on laser component Technical Field The invention relates to the technical field of hair growth instruments, in particular to a multifunctional light-weight hair growth instrument based on a laser component. Background The multifunctional light-weight hair growing instrument based on the laser component is intelligent hair growing equipment integrating a laser biological stimulation technology and a portable wearing design, and is characterized in that a head-mounted structure is used as a carrier, low-energy laser with specific wavelength is output through a built-in laser emitting component to act on hair follicle tissues of human scalp, and the intelligent control and adaptive wearing design are combined to realize activation of hair follicle activity and improvement of scalp microcirculation, so that the portable intelligent wearing equipment for waking up telogen hair follicles, promoting hair growth and improving hair loss is achieved. Most of the existing hair growing apparatuses only stimulate the scalp through a single laser means, and the design of the single hair growing mechanism has obvious defects, so that the hair growing effect is poor, and the actual requirements of users on hair regeneration are difficult to meet. Firstly, the effect dimension of single laser stimulation is limited, but the problem of hair growth inhibition caused by poor scalp environment cannot be solved, for example, partial hair loss people have the problems of excessive scalp grease secretion, thickening of horny layer, unbalanced flora and the like, the problems can block hair follicle openings, prevent effective penetration of laser energy, deprive nutrition required by hair follicle growth, even if laser continues to stimulate, the hair follicle is difficult to smoothly enter into the growing period, and the hair growth effect is greatly reduced. Disclosure of Invention 1. Technical problem to be solved Aiming at the defects of the prior art, the invention provides a multifunctional light-weight hair growing instrument based on a laser component. (II) technical scheme The laser hair growing assembly comprises a flexible heat conducting layer, wherein a heat insulating layer is adhered to one side, close to the helmet body, of the flexible heat conducting layer, a first flexible circuit board is adhered to one side, far away from the heat insulating layer, of the heat insulating layer, one side, far away from the heat insulating layer, of the first flexible circuit board is attached to the inner wall of the helmet body, an adhesive layer is smeared on one side, far away from the helmet body, of the flexible heat conducting layer, a second flexible circuit board is adhered to one side, far away from the flexible heat conducting layer, of the first flexible circuit board, a plurality of uniformly arranged laser lamp beads and a plurality of uniformly arranged low-frequency ultrasonic transducers are arranged on one side, output ends of the plurality of low-frequency ultrasonic transducers are adhered to microcurrent generating electrode plates electrically connected with the second flexible circuit board through insulating glue, a micro-current generating electrode plate is adhered to one side, close to the heat insulating layer, a micro-conductive sleeve is adhered to the inner wall of the heat conducting sleeve, a second flexible heat conducting layer is adhered to one side, a second flexible heat conducting layer is adhered to a second flexible circuit board, a second flexible circuit board is adhered to one side, a plurality of uniformly arranged on the flexible heat conducting layer is adjacent to the heat conducting layer, a plurality of temperature sensors are electrically connected with a plurality of micro-conductive wires, and a plurality of temperature sensor are electrically connected with a plurality of micro-conductive wires, and each temperature sensor is electrically connected with a plurality of temperature sensor through a micro wire. Preferably, the helmet main body is made of ABS engineering plastic, two elastic adjusting belts which are symmetrically arranged are fixedly connected inside the helmet main body, and the adjusting ends of the two elastic adjusting belts are bonded together through a magic tape. Preferably, the outer surface embedded type of helmet main part installs the controller, the controller mainly includes main control circuit module, bluetooth module and power module, the embedded speaker that installs two symmetries settings in helmet main part's bottom, first flexible circuit board, second flexible circuit board and two speakers all with controller electric connection. Preferably, the flexible heat conduction layer is made of flexible silica gel heat conduction sheets, and the heat insulation layer is made of ceramic fiber heat insulation cotton. Preferably, the laser lamp bead is a low-energy laser diode, the shell is