CN-121987023-A - Collateral-activating health-care comb based on graphene and negative oxygen ions and preparation method thereof

Abstract

The invention relates to the technical field of health care combs, in particular to a movable health care comb based on graphene and negative oxygen ions and a preparation method thereof, comprising comb teeth and a comb seat, wherein the comb teeth are fixedly arranged on the comb seat, a mounting groove is formed in the comb seat, a negative oxygen ion generating component is arranged in the mounting groove and comprises a negative oxygen ion module, a boosting module and a power supply, the boosting module is electrically connected with the negative oxygen ion module and the power supply, the comb seat is provided with an air duct hole which is communicated with the mounting groove, the transmitting needle on the negative oxygen ion module is close to the air duct hole, the mounting groove is covered with a protective cover, the comb seat is provided with a switch, and the switch is electrically connected between the boosting module and the power supply.

Inventors

• Ye Zhende

Assignees

• 厦门上合洋塑胶工业有限公司

Dates

Publication Date

20260508

Application Date

20260226

Claims (9)

1. 1. The movable health care comb based on graphene and negative oxygen ions comprises comb teeth (1) and a comb seat (2), wherein the comb teeth (1) are fixedly arranged on the comb seat (2), the movable health care comb is characterized in that an installation groove (3) is formed in the comb seat (2), a negative oxygen ion generation assembly is arranged in the installation groove (3), the negative oxygen ion generation assembly comprises a negative oxygen ion module (4), a boosting module (5) and a power supply (6), the boosting module (5) is electrically connected to the negative oxygen ion module (4) and the power supply (6), an air duct hole (7) is formed in the comb seat (2), the air duct hole (7) is communicated with the installation groove (3), a transmitting needle (8) on the negative oxygen ion module (4) is close to the air duct hole (7), a protective cover (13) is covered on the installation groove (3), and a switch (9) is arranged on the comb seat (2), and the switch (9) is electrically connected between the boosting module (5) and the power supply (6).
2. 2. The collateral-flow-activating health care comb based on graphene and negative oxygen ions, which is characterized in that the negative oxygen ion module (4) is a 5V fan-free miniature negative oxygen ion module (4).
3. 3. The collateral-flow-activating health-care comb based on graphene and negative oxygen ions, as claimed in claim 2, is characterized in that the boosting module (5) is a 5V boosting module (5).
4. 4. The collateral-flow-activating health-care comb based on graphene and negative oxygen ions, as claimed in claim 1, is characterized in that the aperture of the air duct hole (7) is 1mm-1.5 mm.
5. 5. The collateral-flow-activating health-care comb based on graphene and negative oxygen ions, which is characterized in that a transmitting needle (8) in the negative oxygen ion module (4) is positioned in the air duct hole (7), and meanwhile, the transmitting needle (8) is partially positioned outside the comb seat (2).
6. 6. The collateral-flow-activating health-care comb based on graphene and negative oxygen ions, as set forth in claim 4, is characterized in that the air duct holes (7) are obliquely arranged.
7. 7. The movable health care comb based on graphene and negative oxygen ions, which is disclosed in claim 1, is characterized in that an electric heating plate (12) is arranged in the mounting groove (3), the electric heating plate (12) is electrically connected with a power supply (6) and a switch (9), a mounting cavity (10) is formed in the comb teeth (1), a heat conducting rod (11) is arranged in the mounting cavity (10), the heat conducting rod (11) is connected with the electric heating plate (12), and one end of the heat conducting rod (11) is close to the end part of the comb teeth (1).
8. 8. A preparation method of the movable health care comb according to claims 1-7 is characterized by comprising the following steps of 1, preprocessing and molding a comb body matrix, namely, mixing graphene powder with a high polymer base material according to the mass ratio of 5% -15%, carrying out melt blending and granulation by a double-screw extruder to obtain graphene composite particles, 2, molding a comb seat (2) and a comb tooth (1), namely, putting the graphene composite particles into an injection mold, processing to form an integrated structure of the comb seat (2) and the comb tooth (1) by an injection molding process, or respectively molding, fixedly connecting the integrated structure by an ultrasonic welding and hot melting bonding mode, enabling the comb tooth (1) to be vertically and uniformly distributed on the bottom surface of the comb seat (2), and 3, processing a mounting groove (3), namely, processing the mounting groove (3) in a preset area of the comb seat (2) by adopting a CNC engraving machine, uniformly coating an insulating coating with the thickness of 0.1-0.3mm after the inner wall of the mounting groove (3) is subjected to polishing and deburring treatment, naturally airing, 4, namely, processing a chip (7) by adopting a micro air duct (7) in a smooth air duct (7) by adopting a hole (7) to be processed, and a hole (7) to be processed in the air duct (7); The method comprises the steps of (1) carrying out component pretreatment, namely derusting and cleaning pins of a negative oxygen ion module (4), a boosting module (5) and a power supply (6) and removing a surface oxide layer, and (2) carrying out electric connection assembly, namely welding the input end of the boosting module (5) and the positive and negative poles of the power supply (6) by adopting a soldering process, welding the output end of the boosting module (5) and the input end of the power supply (6) of the negative oxygen ion module (4), sleeving an insulating heat shrinkage pipe at a welding position, and heating, shrinking and fixing to form the negative oxygen ion generation component; Embedding the pre-tested qualified negative oxygen ion generating component into the mounting groove (3) of the comb seat (2), calibrating the position of the negative oxygen ion module (4) through a positioning tool, coaxially aligning the transmitting needle (8) with the air duct hole (7) with a positioning error not exceeding +/-0.2 mm, and respectively adhering and fixing the negative oxygen ion module (4), the boosting module (5) and the power supply (6) at preset positions on the inner wall of the mounting groove (3) by adopting high-temperature resistant and insulating fixing glue to ensure that parts are not loosened; step 4, the cover and the seal of the protective cover (13) are realized by detachably fixing the protective cover (13) and the comb seat (2) in a mode of clamping by a buckle or fastening by a cross groove countersunk head screw; The method comprises the steps of (1) arranging a switch (9) hole at a preset mounting position of a holding area of a comb seat (2), embedding the switch (9) with a waterproof function into the hole, and fixing the switch by nuts or buckles, (2) connecting the switch (9) in series in a main circuit between a boosting module (5) and a power supply (6) in a wire welding or terminal plugging mode, and winding an insulating tape at the connecting position of the wire and fixing the wire to avoid mess of the circuit; And 6, primary detection of a finished product, namely switching on a power supply (6), and testing the on-off response speed and the negative oxygen ion emission state of a circuit by pressing a switch (9) to ensure that the switch (9) is sensitive in action and the negative oxygen ion generation assembly works normally.
9. 9. The preparation method of the movable health care comb is characterized by further comprising the steps of assembling and debugging an electric heating structure, and specifically comprises the steps of (1) selecting a flexible electric heating plate (12) with power of 5-10W, coating high-temperature resistant heat conduction silicone grease on the surface of the flexible electric heating plate (12), fixing the flexible electric heating plate on one side, close to comb teeth (1), of a mounting groove (3) through a high-temperature resistant bolt or heat conduction glue to ensure tight adhesion of the electric heating plate (12) and a comb seat (2), (2) correspondingly connecting positive and negative electrode leads of the electric heating plate (12) with branch output ends of a switch (9) and negative electrodes of a power supply (6) in a welding mode, sleeving a high-temperature resistant sleeve on the outer sides of the leads, and (3) pasting a temperature detection unit on the surface of the electric heating plate (12), electrically connecting the temperature detection unit with a constant-temperature control module, wherein the constant-temperature control module is integrated in the booster module (5) or independently arranged, and the temperature control range is preset to be 38-45 ℃; The method comprises the steps of (1) assembling a heat conducting rod (11) made of red copper or aluminum alloy, wherein the diameter of the heat conducting rod (11) is 2-3mm, the length of the heat conducting rod is matched with the length of a comb tooth (1), the surface of the heat conducting rod is subjected to anodic oxidation or galvanization rust prevention treatment, (2) machining a mounting cavity (10) at the axis position of the comb tooth (1), the diameter of the mounting cavity (10) is 0.1-0.2mm larger than that of the heat conducting rod (11), inserting one end of the heat conducting rod (11) into the mounting cavity (10), and adhering and fixing the other end of the heat conducting rod with an electric heating plate (12) through heat conducting silica gel, filling a heat conducting insulating material between the heat conducting rod (11) and the inner wall of the mounting cavity (10), and (3) reserving a gap of 1-2mm on one side, close to the end of the comb tooth (1), of the heat conducting rod (11) to avoid overhigh temperature; And (3) heating function debugging, namely switching on a power supply (6), starting a heating mode, monitoring the temperature of the end part of the comb teeth (1) in real time through a temperature detection unit, adjusting parameters of a constant temperature control module, and ensuring that the temperature is stable in a preset range and the heating time is not more than 3 minutes.

Description

Collateral-activating health-care comb based on graphene and negative oxygen ions and preparation method thereof Technical Field The invention relates to the technical field of health care combs, in particular to a collateral-activating health care comb based on graphene and negative oxygen ions and a preparation method thereof. Background As health needs are upgraded as a basic appliance for daily hair grooming and head care, combs have evolved from single grooming functions to multi-functional health care. The existing common health care comb is generally oblong, the front part is provided with a row of teeth, the rear part is provided with a handle, the comb is integrated, wood, plastic, metal or ox horn and the like are selected as materials, the front part is designed to be oval or rectangular, and a plurality of rows of teeth are fixed on the transverse wide surface. For the technical conditions, the massage function is single, and the requirements of the current life cannot be met. Based on the above, the invention designs a collateral-activating health care comb based on graphene and negative oxygen ions and a preparation method thereof, so as to solve the problems. Disclosure of Invention In order to achieve the purpose, the invention provides the technical scheme that the movable health care comb based on graphene and negative oxygen ions comprises comb teeth and a comb seat, wherein the comb teeth are fixedly arranged on the comb seat, a mounting groove is formed in the comb seat, a negative oxygen ion generation assembly is arranged in the mounting groove, the negative oxygen ion generation assembly comprises a negative oxygen ion module, a boosting module and a power supply, the boosting module is electrically connected to the negative oxygen ion module and the power supply, an air duct hole is formed in the comb seat, the air duct hole is communicated with the mounting groove, a transmitting needle on the negative oxygen ion module is close to the air duct hole, a protective cover is covered on the mounting groove, and a switch is arranged on the comb seat and is electrically connected between the boosting module and the power supply. By adopting the technical scheme, when the comb is used, the physical massage function of the comb teeth and the health care function of the negative oxygen ions are combined, the negative oxygen ions can act on the scalp, the microcirculation of the scalp is improved, the fatigue is relieved, the double effects of activating collaterals and protecting health of the negative oxygen ions are realized, and the effect of improving the comb function is achieved. Preferably, the negative oxygen ion module adopts a 5V fan-free miniature negative oxygen ion module. By adopting the technical scheme, the 5V low-voltage design safety is high, the electric shock risk in the use process is avoided, and the portable use scene is adapted. Preferably, the boosting module is a 5V boosting module. By adopting the technical scheme, a voltage adaptation system is formed with the 5V negative oxygen ion module and the power supply, so that the power supply stability is ensured, and module faults or insufficient emission concentration of the negative oxygen ions caused by voltage mismatch are avoided. Preferably, the aperture of the air duct hole is between 1mm and 1.5 mm. By adopting the technical scheme, the aperture size balance ion guiding-out and protection requirements are met, so that negative oxygen ions can be ensured to smoothly pass through, foreign matters such as external dust, hair and the like can be prevented from entering the mounting groove, and the internal electronic components are protected. Preferably, the transmitting needle in the negative oxygen ion module is positioned in the air duct hole, and meanwhile, the transmitting needle part is positioned outside the comb seat. By adopting the technical scheme, the air duct holes are arranged in the emitting needle, so that the contact loss between the generated ions and the inner wall of the comb body can be reduced, the ions can be directly led out along the channel, the ion emitting end is closer to the scalp due to the partially exposed design, the substantivity and the concentration of negative oxygen ions on the scalp are improved, and the health care effect is enhanced. Preferably, the air duct holes are obliquely arranged. By adopting the technical scheme, the inclined design can prevent water flow and dust from directly and vertically entering the air duct hole, enhance the waterproof and dustproof capabilities, reduce the dust accumulation of the orifice and facilitate cleaning. Preferably, an electric heating plate is arranged in the mounting groove and is electrically connected with a power supply and a switch, a mounting cavity is formed in the comb teeth, a heat conducting rod is arranged in the mounting cavity and is connected with the electric heating plate, and one end of the heat conducting rod is c