CN111558129A

CN111558129A - Take micropin physiotherapy glasses of micropin module structure

Info

Publication number: CN111558129A
Application number: CN202010533673.9A
Authority: CN
Inventors: 张志平; 欧阳晓勇; 许生炎; 张国军; 眭婷婷
Original assignee: Danyang Jingtong Glasses Technology Innovation Service Central Co ltd
Current assignee: Jiangsu Wanxin Optical Co Ltd
Priority date: 2020-06-12
Filing date: 2020-06-12
Publication date: 2020-08-21

Abstract

The invention discloses a pair of micro-needle physiotherapy glasses with a micro-needle module structure, which relate to the technical field of special glasses design, production and manufacture and comprise a frame, a micro-needle module, a control circuit and a skin-care essence film part, wherein the micro-needle module comprises a micro-needle module shell, a micro-needle template, a heating diaphragm layer, a phase-change constant temperature layer, a temperature sensor, an ultrasonic penetration head, fixed magnetic steel and a plane elastic patch board; the micro-needle module is characterized in that the micro-needle template, the heating diaphragm layer, the phase change constant temperature layer, the temperature sensor and the ultrasonic penetration head are sequentially attached and installed in the micro-needle module shell from front to back, and the fixed magnetic steel and the plane elastic attaching plate are installed and fixed on two sides of the micro-needle module shell. The invention carries out regular water replenishing and beauty treatment on eye skin by mounting the microneedle matrix module at the lower part of the glasses, plays the roles of eliminating and lightening eye pouch wrinkles, filling skin plumpness and improving facial youth, and has certain application value.

Description

Take micropin physiotherapy glasses of micropin module structure

Technical Field

The invention relates to the technical field of design, production and manufacturing of special glasses, in particular to micro-needle physiotherapy glasses with a micro-needle module structure.

Background

The micro-needle physiotherapy is a beauty treatment mode which can make skin better, the micro-needle is a tiny needle tool and is composed of a matrix formed by orderly arranging fine needle heads of dense hemp, the current finest needle head reaches the micron level and is only 0.08 mm, and the micro-needle is widely applied to the field of medical beauty treatment in this year; at present, most of the microneedles are formed on a metal plate by various manufacturing modes such as laser, etching, optical mask and the like, a plurality of small needles are formed on the metal plate, the small needles are used for stimulating the skin to achieve the purpose of skin rejuvenation, and the microneedles can also remove acne marks and scars, so that the microneedles are a very comprehensive medical and aesthetic mode. The micro needle is used for micro needle physical therapy to penetrate the stratum corneum on the surface of the skin in a short time, so that medicines (components such as whitening, repairing and anti-inflammatory) can penetrate into the skin in a large amount, and the aims of whitening, wrinkle removal, acne mark removal, pit removal and the like are fulfilled. With the increase of age, collagen around eyes of people is lost, eye wrinkles are formed, and the dermis layer needs to be stimulated to produce collagen, so that the eye wrinkles are smoothed, and the metabolism of the eyes is promoted, so that melanin is metabolized. The roller micro-needle and the electric micro-needle can effectively bring in components for beautifying the eye, the reconstruction of an eye fiber structure and the regeneration of collagen are promoted, most of the reason for generating striae gravidarum is that abdominal skin fibers are broken, the broken fibers are recombined by using the single needle, the pick needle, the roller micro-needle and the radio frequency micro-needle when the striae gravidarum is required to be repaired, the collagen with high purity is sent to the subcutaneous part, the fiber recovery growth is promoted, and the abdominal striae gravidarum is faded. The microneedle is used for moisturizing and beautifying the skin, so that the skin can recover elasticity, and the function of supporting the skin is achieved; the water-light micro-needle is used for effectively supplementing water to the skin of eyes, and the water supplementing effect of 4000 times of ordinary nursing is equal to that of the primary water-light micro-needle. The micro-needle physiotherapy beauty treatment has many benefits, however, so far, no relevant patent literature reports and commercial products are found for functional glasses for realizing wrinkle removing beauty treatment of eyes by mounting micro-needle devices on the glasses.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the micro-needle physiotherapy glasses with the micro-needle module structure, the glasses can be used for periodically moisturizing and beautifying the skin of the eyes by mounting the micro-needle matrix module at the lower part of the glasses, so that the effects of eliminating and relieving pouch wrinkles, filling the skin plumpness and improving the facial youth are achieved, and the micro-needle physiotherapy glasses have certain application value.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a take micropin physiotherapy glasses of micropin module structure comprises mirror holder, micropin module, control circuit, skin care essence membrane part, and it states as follows respectively:

the mirror frame comprises a mirror frame, mirror legs, lenses, a magnetic attraction type fixing frame, fixed magnetic steel, a flat wiring board, flexible connecting wires and a mirror leg inner cover plate, wherein the magnetic attraction type fixing frame is designed at the lower part of the mirror frame, the fixed magnetic steel and the flat wiring board are arranged on two sides of the fixing frame respectively, and the flexible connecting wires are arranged in grooves in the back of the mirror frame and are connected with the flat wiring board and a control circuit respectively; the inner cover plates of the glasses legs are respectively buckled and installed on the inner sides of the left and right glasses legs.

The micro-needle module consists of a micro-needle module shell, a micro-needle template, a heating diaphragm layer, a phase-change constant-temperature layer, a temperature sensor, an ultrasonic penetration head, fixed magnetic steel and a planar elastic wiring board; the micro-needle template, the heating diaphragm layer, the phase-change constant-temperature layer, the temperature sensor and the ultrasonic penetration head are sequentially attached and installed in the micro-needle module shell from front to back, the fixed magnetic steel and the planar elastic patch board are installed and fixed on two sides of the micro-needle module shell, the installation positions of the fixed magnetic steel and the planar elastic patch board correspond to those of the fixed magnetic steel and the planar patch board on two sides of the magnetic type fixing frame, and the micro-needle module working module is combined into a whole and is connected with the control circuit through a flexible connecting;

the control circuit constitute its characterized in that by control circuit board, ultrasonic oscillation circuit, electrical heating thermostatic control circuit, bluetooth transceiver circuit module, touch switch, lithium cell, charge management circuit and charging socket: the control circuit board is provided with a touch switch, an ultrasonic oscillation circuit, an electric heating constant temperature control circuit, a Bluetooth transceiving circuit module, a charging management circuit and a charging socket, the control circuit board is arranged in the right side of the glasses leg, and the lithium battery is internally arranged in the left side of the glasses leg;

and fourthly, the skin care essence film is a skin moistening, skin care and water retention film product which is provided by a manufacturer and used in cooperation with the product, has the same shape, length and width dimensions as those of the microneedle template, and is attached to the surface of the microneedle module when in use.

The glasses frame, the glasses legs and the inner cover plates of the glasses legs are made of TR90 memory plastic through injection molding. The back of the mirror frame is provided with a wire groove for internally arranging flexible connecting wires, the mirror legs are internally provided with grooves respectively for placing a control circuit board and a lithium battery, and the grooves are formed when the mirror frame and the mirror legs are manufactured by injection molding.

The lens is manufactured by adopting a conventional optical plastic filling and thermosetting process.

The magnetic attraction type fixing frame is 30-45mm long, 6-10mm wide and 4-5mm thick, is designed below the mirror frame and connected with the lower edge of the mirror ring together, and is synchronously formed when the mirror frame is molded, and the inner sides of two sides of the magnetic attraction type fixing frame are respectively provided with an installation neodymium iron boron magnetic steel and a plane wiring board for magnetic attraction fixation and electrical connection when the microneedle module is inserted.

The magnetic steel adopts neodymium iron boron magnetic steel with the diameter of 1.5-2mm and the thickness of 1 mm.

The planar wiring board is a copper foil circuit board with the length of 4-5mm, the width of 4-5mm and the thickness of 0.5mm, 6 gold-plated copper electrodes are processed on the surface in an etching mode and are respectively used as electrical connection leads corresponding to the heating diaphragm layer, the temperature sensor and the ultrasonic penetration head.

The flexible connecting lead is made of a strip-shaped flexible circuit board, is 140mm long, 2-3mm wide and 0.1mm thick, and is used for electrically connecting the microneedle module, the control circuit board and the lithium battery.

The glasses leg inner cover plate is 30-40mm long, 8-10mm wide and 1.0mm thick, is made of TR90 memory plastic through injection molding, and is respectively used for buckling, closing and protecting the groove placing elements on the inner sides of the left and right glasses legs.

The microneedle mould plate is 30-45mm long and 6-10mm wide, microneedles 0.2-0.3mm high and 0.1-0.2mm in diameter are engraved on the surface of the plate by laser by adopting a stainless steel sheet with the thickness of 0.3-0.5, the distance between the microneedles is 0.2-0.3mm, and the microneedles can be manufactured into a pointed top shape, a round head shape and a triangular prism shape.

The micro-needle module shell is made of ABS plastic through injection molding, the thickness of the micro-needle module shell is 30-45mm, the width of the micro-needle module shell is 6-10mm, the thickness of the micro-needle module shell is 6-8mm, the wall thickness of the micro-needle module shell is 0.5mm, and a micro-needle template, a heating diaphragm layer, a phase change constant temperature layer, a temperature sensor, an ultrasonic penetration head, fixed magnetic steel arranged on two sides of the micro-needle module shell and a plane elastic pasting.

The heating film layer adopts a graphene electric heating plastic film, the external dimension is the same as that of the micro-needle template, the thickness of the heating plastic film is 0.2mm, the internal resistance per square centimeter is 5-10 ohms, the heating voltage is 3-5V, the heating power is 100-200ma, the heating power is 0.5-1.0W, and the highest heating temperature is controlled at 45-55 ℃.

The phase-change constant-temperature gasket has the same overall dimension as that of a microneedle template, the length is 30-45mm, the width is 6-10mm, a cotton fabric gasket subjected to adsorption treatment is dip-coated by 45-degree phase-change liquid, a temperature sensor is attached to the surface of cotton fabric, a strip hole is formed in the gasket, the aperture is 10mm long and 3-4mm wide, an ultrasonic penetration head is installed in the middle of the gasket, and the ultrasonic penetration head is attached to the back of a heating membrane layer.

The temperature sensor adopts a diaphragm type thermistor with the specification size of 2x2x1.0mm and the normal-temperature internal resistance of 10-100K, and is used for detecting the temperature change in the phase-change constant-temperature gasket and controlling the highest heating temperature of the heating diaphragm layer.

The ultrasonic penetration head adopts a piezoelectric ceramic ultrasonic transduction piece with the length of 6-8mm and the width of 3-4mm, and the ultrasonic transduction piece has the resonant frequency of 120-150KMz, the working voltage of 3-12V, the power range of 0.2-0.5W, the static interelectrode capacitance of 1200-1500PF and the resonant impedance of 1.5-2.5 ohm.

The touch switch adopts capacitive SD82 8223LC and JL8022B capacitive sensing type single-key touch switch IC, and is welded and installed on the functional circuit board.

The control circuit board is prepared by adopting an epoxy resin laminated fiber copper foil plate with the thickness of 0.6-1.0mm through an etching COB process, and an ultrasonic oscillation circuit, an electric heating constant temperature control circuit, a Bluetooth transceiving circuit module, a touch switch, a charging management circuit and a charging socket are arranged on the control circuit board

The ultrasonic oscillation circuit adopts a patch type time base circuit CN555 to generate 120-150KC ultrasonic driving voltage, and the ultrasonic driving voltage is boosted and then provided for the ultrasonic penetration head to generate ultrasonic mechanical vibration, so that the penetration effect of the microneedle skin care essence elements into the skin is enhanced.

The electric heating constant temperature control circuit adopts a chip circuit LM393 of a patch type wide voltage comparator to control the temperature.

The Bluetooth transceiving circuit module adopts Dialog latest Bluetooth 5.1 version high-integration SoC DA14531, the module packaging size is 2.0x 1.7mm, the DA14531 Rx working current is 2.2mA, the sleep current is 240nA, a 32-bit ARM cortex 0+ inner core, the power management of the chip with an integrated memory and a set of complete analog and digital peripherals integrates step-down/step-up DCDC, the latest Bluetooth 5.1 core specification protocol is supported, and the maximum of 3 Bluetooth low-power consumption connections are supported; the built-in 16MHz 32-bit ARM Cortex-M0+ has an SWD interface and comprises a special link layer processor and an AES-128 encryption processor. In the product of the invention, the wireless link of the Bluetooth circuit is used for realizing the manual control of the working state of the beauty glasses by the mobile phone.

The charging management circuit is packaged by adopting a patch type SOT23-5 with input voltage of 5V, output voltage of 4.2V and 500mA, and is an intelligent management circuit of a model SX5055/TP4055 series and used for charging a lithium battery configured in the mirror.

The lithium battery adopts a polymer lithium ion battery with the model of 401003, the voltage of 3.7V and the capacity of 200-400 mA/h.

The charging socket adopts a V8-5P type android mobile phone universal charging socket.

The skin-care essence film is 30-45mm long, 6-10mm wide and 0.3-1.0mm thick, and is prepared by a manufacturer according to different specific requirements of users by adopting corresponding materials such as hydrogel, hyaluronic acid, animal protein, vitamins, anti-aging and wrinkle-removing NMN, herbal essence and the like.

(III) advantageous effects

The invention provides micro-needle physiotherapy glasses with a micro-needle module structure, which have the following beneficial effects:

this take micropin physiotherapy glasses of micropin module structure, its micropin module comprises micropin module casing, micropin template, heating diaphragm layer, phase transition thermostatic layer, temperature sensor, ultrasonic wave infiltration head, fixed magnet steel, plane elasticity wiring board, and carries out regular moisturizing cosmetic to eye skin through the mode of having installed micropin matrix module in the glasses lower part, plays the elimination and alleviates eye bag wrinkle, full skin plumpness, improves facial young effect, has certain using value.

Drawings

FIG. 1 is a schematic view of the overall structure of the product of the present invention;

FIG. 2 is a schematic diagram of the installation position of the control circuit of the product of the invention;

FIG. 3 is a schematic diagram of a routing structure of a frame of the present invention;

fig. 4 is a schematic structural diagram of a microneedle module of the product of the present invention;

fig. 5 is a block schematic diagram of the electrical principle of operation of the product of the invention.

Fig. 1 a frame; 2, a micro-needle module; 3 a control circuit; 4 skin care essence film.

The spectacle frame 1 comprises: the glasses comprise a glasses frame 11, glasses legs 12, lenses 13, a magnetic attraction type fixing frame 14, a first fixing magnetic steel 15, a plane wire pasting plate 16, a flexible connecting wire 17 and a glasses leg inner cover plate 18;

the micro-needle module 2 consists of a micro-needle module shell 21, a micro-needle template 22, a heating film layer 23, a phase-change constant-temperature layer 24, a temperature sensor 25, an ultrasonic penetration head 26, second fixed magnetic steel 27 and a plane elastic wiring board 28;

the control circuit 3 consists of a control circuit board 31, an ultrasonic oscillation circuit 32, an electric heating constant temperature control circuit 33, a Bluetooth transceiving circuit module 34, a touch switch 35, a charging management circuit 36, a lithium battery 37 and a charging socket 38;

the skin care essence film 4 is a skin care and water retention film product which is provided by a manufacturer and used in cooperation with the product, has the same shape and size as the microneedle template, and is attached to the surface of the microneedle module when in use.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the microneedle physiotherapy eyeglasses with a microneedle module structure of the invention comprises an eyeglass frame 1, a microneedle module 2, a control circuit 3 and a skin care essence film 4, and the production process flow is as follows:

1. and (3) injection molding to manufacture the spectacle frame 1: fixing special molds of the injection molding spectacle frame 11, the spectacle legs 2 and the spectacle leg inner cover plate 18 on an injection molding machine, and turning on a preheating power switch to preheat the molds; and pouring dried and dehumidified TR90 plastic particles into a material barrel of an injection molding machine, starting the injection molding machine, and performing injection molding to obtain plastic parts of the mirror frame 11, the mirror legs 2 and the mirror leg inner cover plate 18.

2. Manufacturing a microneedle module 2: the micro-needle module 2 with the integral structure is formed by sequentially installing a micro-needle template 22, a heating membrane layer 23, a phase-change constant temperature layer 24, a temperature sensor 25 and an ultrasonic penetration head 26 in a micro-needle module shell 21, installing second fixed magnetic steel 27 and a plane elastic wiring board 28 on two sides, and welding outgoing lines of the heating membrane layer 23, the temperature sensor 25 and the ultrasonic penetration head 26 with corresponding electrodes of the plane elastic wiring board 28.

3. Manufacturing a control circuit 3: an ultrasonic oscillation circuit 32, an electric heating constant temperature control circuit 33, a bluetooth transceiver circuit module 34, a touch switch 35, a charging management circuit 36, circuit chips of accessory electronic components and a charging socket 38 are ultrasonically welded on the control circuit board 31 to form a complete control circuit 3.

4. And (3) integral assembly: welding the assembled control circuit board 31 with the flexible connecting lead 17 at the reserved centralized terminal; welding the positive and negative electrode lead wires of the lithium battery 37 with the flexible connecting lead 17; welding a flexible connecting lead 17 with a plane welting plate 16 at the side of the magnetic type fixed frame 14; placing the control circuit board 31 into the groove of the right temple 12; placing a lithium battery 37 in the left temple groove; the inner cover plates 18 of the glasses legs are respectively buckled on the grooves of the left and the right glasses legs and are fixed by screws at two sides, and the integral assembly work of the product is completed.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the using method and the working electrical principle process of the microneedle cosmetic eyeglasses of the invention are described as follows:

1) before use, the skin care essence film 4 is firstly attached to the surface of the microneedle template 22;

2) the micro-needle module 2 is inserted into the magnetic attraction type fixing frame 14, so that the first fixing magnetic steel 15 and the plane wire sticking plate 16 are respectively adsorbed with the second fixing magnetic steel 27 and the plane elastic wire sticking plate 28 and are electrically contacted and connected.

3) The glasses are worn, so that the skin care essence film 4 attached to the front of the microneedle module 2 is tightly attached to the lower eyelids of the left and right eyes, then the right hand touches the outside of the right side of the glasses leg 2 for 3 seconds, the touch switch 35 circuit is started to switch on a power supply loop in an induction mode, at the moment, the ultrasonic oscillation circuit 32, the electric heating constant temperature control circuit 33 and the Bluetooth transceiving circuit module 34 on the control circuit board 31 start to work, and the comprehensive maintenance and beauty effects of hot compress, vibration, microneedle stimulation and drug permeation are transmitted to the eye bags through the microneedle template 22, so that the moisture and the micromolecule protein of the skin of the eyes are fully supplemented, the skin is full, the eye bags are converged, and the wrinkles of the eyes are lightened; the cosmetic operation as described above is frequently performed to give a certain desired cosmetic effect. After the beauty treatment is finished, the outer side of the right side of the glasses leg is touched for 3 seconds, and the touch switch 35 circuit senses and cuts off a power supply loop for the next use. When the electric quantity is about to be exhausted, the intelligent charging management circuit LED flashes to send a charging prompt, and at the moment, the mobile phone charger can be inserted into the charging socket 38 for charging.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A pair of micro-needle physiotherapy glasses with a micro-needle module structure is composed of a glasses frame (1), a micro-needle module (2), a control circuit (3) and a skin care essence film (4); the method is characterized in that: the micro-needle module (2) is composed of a micro-needle module shell (21), a micro-needle template (22), a heating film sheet layer (23), a phase-change constant-temperature layer (24), a temperature sensor (25), an ultrasonic penetration head (26), second fixed magnetic steel (27) and a plane elastic wiring board (28); the micro-needle template (22), the heating film layer (23), the phase-change constant-temperature layer (24), the temperature sensor (25) and the ultrasonic penetration head (26) are sequentially attached and installed in the micro-needle module shell (21) from front to back; the second fixed magnetic steel (27) and the plane elastic wiring board (28) are fixedly arranged at two sides of the micro needle module shell (21), the mounting positions of the second fixed magnetic steel (27) and the plane elastic wiring board correspond to the positions of the second fixed magnetic steel (27) and the plane wiring board (28) at two sides of the magnetic type fixed frame (14), and the second fixed magnetic steel and the plane elastic wiring board are combined into a whole micro needle module working module which is connected with the control circuit (3) through a flexible connecting lead (17).

2. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 1, wherein: the control circuit (3) is composed of a control circuit board (31), an ultrasonic oscillation circuit (32), an electric heating constant temperature control circuit (33), a Bluetooth transceiving circuit module (34), a touch switch (35), a lithium battery (37), a charging management circuit (36) and a charging socket (38).

3. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 2, wherein: the solar electric heating glasses are characterized in that a touch switch (35), an ultrasonic oscillation circuit (32), an electric heating constant-temperature control circuit (33), a Bluetooth transceiving circuit module (34), a charging management circuit (36) and a charging socket (38) are installed on the control circuit board (31), the control circuit board (31) is installed in the right side glasses legs (12), and the lithium battery (37) is installed in the left side glasses legs (12) in a built-in mode.

4. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 1, wherein: the micro-needle module shell (21) is made of ABS plastic through injection molding, the width is 6-10mm, the thickness is 6-8mm, the wall thickness of the shell is 0.5mm, and second fixed magnetic steel (27) and a plane elastic line pasting plate (28) are arranged on two sides of the micro-needle module shell (1) to form an element of the micro-needle module (2).

5. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 1, wherein: the microneedle mould plate (22) is 30-45mm long and 6-10mm wide, and microneedles 0.2-0.3mm high and 0.1-0.2mm in diameter are engraved on the surface of the plate by laser by adopting a stainless steel sheet with the thickness of 0.3-0.5; the distance between the needles is 0.2-0.3mm, and the microneedle can be made into a tip shape, a round head shape or a triangular shape.

6. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 5, wherein: the heating membrane layer (23) adopts a graphene electric heating plastic membrane, the external dimension is the same as that of the microneedle template (22), the thickness of the heating plastic membrane is 0.2mm, the internal resistance per square centimeter is 5-10 ohms, the heating voltage is 3-5V, the heating power is 100-200ma, the heating power is 0.5-1.0W, and the highest heating temperature is controlled at 45-55 ℃.

7. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 5, wherein: the phase change constant temperature layer (24) overall dimension is 30-45mm long and 6-10mm wide with the microneedle template (22), a cotton fabric pad which is dip-coated and adsorbed by 45-degree phase change liquid is adopted, the temperature sensor (25) is attached to the surface of cotton fabric, a long hole is formed in the pad, the aperture is 10mm long and 3-4mm wide, the ultrasonic penetration head (26) is arranged in the middle, and the ultrasonic penetration head (26) is attached to the back of the heating membrane layer (23).

8. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 1, wherein: the temperature sensor (25) adopts a diaphragm type thermistor with the specification size of 2x2x1.0mm and the normal-temperature internal resistance of 10-100K, and is used for detecting the temperature change in the phase-change constant-temperature gasket and controlling the highest heating temperature of the heating diaphragm layer (23).

9. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 1, wherein: the ultrasonic penetration head (26) adopts a piezoelectric ceramic ultrasonic transduction piece with the length of 6-8mm and the width of 3-4mm, and the ultrasonic transduction piece has the resonant frequency of 120-150KMz, the working voltage of 3-12V, the power range of 0.2-0.5W, the static inter-electrode capacitance of 1200-1500PF and the resonant impedance of 1.5-2.5 ohm.

10. The microneedle physiotherapy eyeglasses with the microneedle module structure according to claim 1, wherein: the shape, length and width of the skin care essence film (4) are the same as those of the microneedle template, and the skin care essence film can be attached to the surface of the microneedle module (2).