CN212730736U - Radio frequency head and radio frequency instrument with same - Google Patents

Abstract

The utility model relates to a radio frequency head and have radio frequency appearance of this radio frequency head, a radio frequency head include the casing and install semi-transparent mirror, reflection of light subassembly and light subassembly in the casing, reflection of light subassembly with semi-transparent mirror sets up relatively, light subassembly locates semi-transparent mirror with between the reflection of light subassembly. Above-mentioned radio frequency head of radio frequency appearance is through setting up half printing opacity mirror, reflection of light subassembly and light subassembly to locate light subassembly between half printing opacity mirror and the reflection of light subassembly, the light that light subassembly sent out reflects many times between half printing opacity mirror and the reflection of light subassembly, and light energy output is even, forms the tunnel lamp effect in the casing, can give other people and bring strong visual effect, effectively promotes the user to the experience effect of radio frequency appearance.

Description

Radio frequency head and radio frequency instrument with same

Technical Field

The utility model relates to the technical field of medical beauty equipment, in particular to a radio frequency head and a radio frequency instrument with the radio frequency head.

Background

With the continuous improvement of living standard of people, people pay more and more attention to the image quality of the people; especially for women, how to keep the skin youthful and beautiful becomes a focus of their living attention, so that under the rapid advance of science and technology, various skin beautifying instruments are also operated to promote skin tightness by using radio frequency instruments, for example.

Cosmetic radio frequency instrument for general can set up the luminescent light, gives out light through the luminescent light and carries out some interactive or striking feelings of reminding the formula for the user, but the luminescent light on the traditional radio frequency instrument shows singlely, can't give people and bring strong visual effect for the user is not good to the experience effect of product.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a radio frequency head and a radio frequency instrument having the same, which effectively improve the experience effect of the user on the product, in order to solve the problem of the conventional technology.

The utility model provides a radio frequency head, includes the casing and installs semi-transparent mirror, reflection of light subassembly and light subassembly in the casing, reflection of light subassembly with semi-transparent mirror sets up relatively, light subassembly is located semi-transparent mirror with between the reflection of light subassembly.

Above-mentioned radio frequency head of radio frequency appearance is through setting up half printing opacity mirror, reflection of light subassembly and light subassembly to locate light subassembly between half printing opacity mirror and the reflection of light subassembly, the light that light subassembly sent out reflects many times between half printing opacity mirror and the reflection of light subassembly, and light energy output is even, forms the tunnel lamp effect in the casing, can give other people and bring strong visual effect, effectively promotes the user to the experience effect of radio frequency appearance.

In one embodiment, the light reflecting device further comprises a transparent cover mounted at one end of the shell, and the transparent cover is arranged on one side, away from the light reflecting component, of the semi-transparent mirror.

In one embodiment, the device further comprises an electrode embedded in the transparent cover.

In one embodiment, the lamp driving device further comprises a lamp driving board and a conductor, the lamp driving board is installed in one end of the shell far away from the transparent cover, and one end of the conductor penetrates through the lamp driving board and is connected with the electrode.

In one embodiment, the reflector further comprises an infrared lamp, and the infrared lamp is arranged on one side of the reflecting component, which faces away from the semi-transparent mirror.

In one embodiment, the temperature controller is further included and is installed in the shell.

In one of them embodiment, light subassembly includes the lamp plate, connects the light source of lamp plate and locates semi-transparent mirror with printing opacity piece between the reflection of light subassembly, printing opacity piece with the light source corresponds the setting.

In one embodiment, the lamp plate is arranged on one side of the reflecting component, which deviates from the semi-transparent mirror, the light source is arranged along the peripheral side of the lamp plate, and the light source is arranged between the outer peripheral side wall of the reflecting component and the inner peripheral side wall of the shell.

In one embodiment, the light reflecting device further comprises a first light shading ring and a second light shading ring, wherein the first light shading ring is arranged between the light transmitting piece and the light reflecting component, and the second light shading ring is arranged between the light transmitting piece and the semi-light transmitting mirror.

A radio frequency instrument comprises a machine body and the radio frequency head, wherein the radio frequency head is connected with one end of the machine body.

Above-mentioned radio frequency appearance through set up semi-light transmitting mirror, reflection of light subassembly and light subassembly in the casing of radio frequency head to locate light subassembly between semi-light transmitting mirror and the reflection of light subassembly, the light that light subassembly sent out reflects many times between semi-light transmitting mirror and the reflection of light subassembly, and light energy output is even, forms the tunnel lamp effect in the casing, can give other people and bring strong visual effect, effectively promotes the user to the experience effect of radio frequency appearance.

Drawings

Fig. 1 is a schematic structural diagram of a radio frequency instrument of the present invention;

FIG. 2 is an exploded view of the RF meter of FIG. 1;

FIG. 3 is a cross-sectional view of the RF head of the RF meter of FIG. 2;

fig. 4 is an exploded view of the rf head of the rf meter of fig. 2.

The meaning of the reference symbols in the drawings is:

the portable infrared lamp comprises a body 190, a radio frequency head 200, a shell 10, a base 11, a shell 12, a containing cavity 13, a heat dissipation plate 14, a transparent cover 20, a mounting groove 21, a fixing seat 22, an electrode 30, a semi-transparent mirror 40, a reflecting component 50, a groove 51, a through hole 52, a convex ring 53, a lamp component 60, a lamp panel 61, a light source 62, a light-transmitting piece 63, a light-entering part 64, a light-exiting part 65, a support 66, an annular protrusion 67, a first shading ring 70, a second shading ring 80, an infrared lamp 90, a lamp driving plate 100, an electric conductor 110, a vibrating motor 120 and a temperature controller 130.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Please refer to fig. 1 to 4, which are the rf apparatus of the present invention, please refer to fig. 1 and 2, the rf apparatus includes a body 190 and an rf head 200, a power module and a control module are installed in the body 190, the rf head 200 is connected to one end of the body 190, further, a part of the rf head 200 is inserted into one end of the body 190, and the rf head 200 is connected to the body 190, and the rf head 200 is electrically connected to the power module and the control module of the body 190. In one embodiment, the rf device further includes a protective cap covering the rf head 200 to protect the rf head 200 when the rf device is not in use.

Referring to fig. 3 and 4, the rf head 200 includes a housing 10, a half-transparent mirror 40 installed in the housing 10, a reflective component 50 and a lamp component 60, wherein the reflective component 50 is disposed opposite to the half-transparent mirror 40, and the lamp component 60 is disposed between the half-transparent mirror 40 and the reflective component 50.

When the light emitted by the light assembly 60 of the radio frequency head 200 passes through the semi-transparent mirror 40, a part of the light penetrates through the semi-transparent mirror 40, the other part of the light is reflected to the light reflecting assembly 50 from the semi-transparent mirror 40, the light reflected by the light reflecting assembly 50 irradiates the semi-transparent mirror 40 again, at this time, a part of the light penetrates through the semi-transparent mirror 40 again, the other part of the light is reflected back to the light reflecting assembly 50 through the semi-transparent mirror 40 again, and is reflected back to the semi-transparent mirror 40 again, because a part of the light penetrates through the semi-transparent mirror 40, the light emitted by the light assembly 60 can be gradually attenuated after the light passes through the multiple reflection of the light reflecting assembly 50 and the multiple reflection and refraction of the semi-transparent mirror 40, and a tunnel lamp effect is formed in the casing 10. Understandably, the light emitted by the light assembly 60 is reflected for multiple times between the semi-transparent mirror 40 and the light reflecting assembly 50, a tunnel lamp effect is formed on the light reflecting assembly 50, a strong visual effect can be brought to people, and the experience effect of a user on a radio frequency instrument is effectively improved.

The heat dissipation plate 14 is disposed in the housing 10, the heat dissipation plate 14 is disposed on a side of the reflective component 50 away from the semi-transparent mirror 40, the heat dissipation plate 14 has good heat dissipation performance, and the heat dissipation plate 14 is used for dissipating heat of the lamp component 60. Specifically, the housing 10 includes a base 11 and a casing 12, and the casing 12 is detachably connected to the base 11 for easy assembly, disassembly and maintenance. In this embodiment, the housing 12 is disposed on the base 11. The housing 10 is composed of a base 11 and a casing 12, and facilitates assembly of the rf head 200. Further, an accommodating cavity 13 is formed in the base 11, and a heat dissipation plate 14 is transversely arranged in the accommodating cavity 13. In this embodiment, the heat dissipation plate 14 and the base 11 are integrally formed, so as to facilitate manufacturing, and meanwhile, the base 11 also has heat dissipation property, so that heat on the lamp assembly 60 is transferred to the heat dissipation plate 14, and then dissipated out through the base 11, thereby effectively accelerating heat dissipation and prolonging the service life of the lamp assembly 60. Of course, in the embodiment, the heat dissipation plate 14 may also be detachably connected to the base 11, for example, the heat dissipation plate 14 is clamped in the accommodating cavity 13 of the base 11, so that when the heat dissipation plate 14 is damaged, the damaged heat dissipation plate 14 can be removed and replaced with a new heat dissipation plate 14, which is beneficial to prolonging the service life of the rf head 200.

In one embodiment, the rf head 200 further includes a transparent cover 20 mounted on one end of the housing 10, the transparent cover 20 is disposed on a side of the half-transparent mirror 40 facing away from the reflector assembly 60, and the transparent cover 20 is disposed opposite to the half-transparent mirror 40. Specifically, the transparent cover 20 is mounted in the housing 12, and a side surface of the transparent cover 20 facing away from the half-transmission mirror 40 smoothly meets an outer surface of the housing 12. The transparent cover 20 is provided with a mounting groove 21 at a side facing the half-transmitting mirror 40, and the mounting groove 21 is used for accommodating the half-transmitting mirror 40.

The rf head 200 further includes an electrode 30 embedded in the transparent cover 20, a portion of the electrode 30 being exposed at a surface of the transparent cover 20 on a side facing away from the half-transparent mirror 40, the electrode 30 being for emitting rf energy. In the present embodiment, the number of the electrodes 30 is plural, and the plural electrodes 30 are distributed at intervals in a ring shape, so that the emitted rf energy is more uniform. Of course, in other embodiments, the number of the electrodes 30 may be one, and when the number of the electrodes 30 is one, the electrodes 30 may be embedded in the central position of the transparent cover 20.

The half-transparent mirror 40 is installed in the housing 12, and particularly, the half-transparent mirror 40 is accommodated in the installation groove 21 of the transparent cover 20, which effectively improves the stability of the half-transparent mirror 40 installed in the housing 10. In the present embodiment, the half-transmissive mirror 40 has a flat plate shape. The number of the half-transmission mirror 40 may be one or more, and may be designed according to the requirement. It should be noted that, when the number of the half-transparent mirrors 40 is plural, the plural half-transparent mirrors 40 are stacked, so that the light can be reflected by multiple layers of sloshing, thereby achieving a better reflection effect and providing a better tunnel lamp effect for users. Specifically, the half mirror 40 includes a transparent mirror and a semi-permeable membrane, and the semi-permeable membrane is plated on a side surface of the transparent mirror facing the reflective component 50, so as to implement light projected onto the half mirror 40, wherein a part of the light is transmitted to the transparent cover 20 after passing through the half mirror 40, and the other part of the light is reflected from the half mirror 40 back to the reflective component 50. In the embodiment, the transparent mirror is an acrylic lens.

The light reflecting component 50 is installed in the accommodating cavity 13 of the base 11, and the light reflecting component 50 is arranged on the side of the semi-transparent mirror 40 facing away from the transparent cover 20. One side that reflection of light subassembly 50 deviates from semi-transparent mirror 40 is equipped with recess 51, is equipped with through-hole 52 on reflection of light subassembly 50, and through-hole 52 runs through the upper and lower both sides surface of reflection of light subassembly 50, and the week side that reflection of light subassembly 50 corresponds through-hole 52 is equipped with bulge loop 53, and bulge loop 53 sets up on one side that reflection of light subassembly 50 moves towards semi-transparent mirror 40. In this embodiment, the collar 53 is integrally formed with the reflector assembly 50. Specifically, the light reflecting assembly 50 includes a transparent body and a total reflection film, and the total reflection film is plated on a surface of one side of the transparent body facing the half-transparent mirror 40, so as to realize total reflection of light.

Light subassembly 60 includes lamp plate 61, connects lamp plate 61's light source 62 and locates the printing opacity piece 63 between semi-transparent mirror 40 and the reflection of light subassembly 50, and printing opacity piece 63 corresponds the setting with light source 62 to the light that light source 62 sent shines between semi-transparent mirror 40 and the reflection of light subassembly 50 through printing opacity piece 63, and light is swagged the reflection between semi-transparent mirror 40 and reflection of light subassembly 50 to form the tunnel lamp effect.

Lamp plate 61 is the PCB board, and one side that reflection of light subassembly 50 deviates from semi-transparent mirror 40 is located to lamp plate 61, and furtherly, lamp plate 61 is located between heating panel 14 and reflection of light subassembly 50, and the lamp plate 61 laminating is on heating panel 14 to heat on the lamp plate 61 can in time be transmitted to heating panel 14 on, effectively prevent that lamp plate 61 from being heated too high and impaired. The light source 62 is disposed along the peripheral side of the lamp panel 61, and the light source 62 is disposed between the outer peripheral side wall of the reflector assembly 50 and the inner peripheral side wall of the housing 10.

The light source 62 may be a lamp bead or a ring lamp, and it should be noted that the light source 62 is a common LED lamp, and the light emitted by the light source 62 may be white light, red light, blue light, or violet light, etc.

In this embodiment, the light source 62 is a light bead, and the light-transmitting member 63 is a light-guiding ring, so that light emitted from the light bead enters the light-guiding ring, the light is diffused in the light-guiding ring and then uniformly emitted from the light-guiding ring to a position between the semi-transparent mirror 40 and the reflective component 50, the light is reflected by the semi-transparent mirror 40 and the reflective component 50 in a multiple-oscillation manner, and an infinite number of annular light bands are generated on the reflective component 50, thereby forming a tunnel lamp effect of the infinite number of light bands. Further, the quantity of lamp pearl is a plurality of, and a plurality of lamp pearls set up along the marginal week side equidistance interval of lamp plate 61 for light in the light guiding ring is more even. In addition, the shape of the light guide ring can be a triangular ring, a polygonal ring, a circular ring, an elliptical ring, an arc ring, or the like, i.e., the shape of the light strip includes, but is not limited to, a triangle, a polygon, a circle, an ellipse, an arc, or the like.

Of course, when the light source 62 is an annular lamp, the light guiding ring may be omitted, the annular lamp is directly disposed between the semi-transparent mirror 40 and the light reflecting component 50, the light emitted by the annular lamp is directly emitted to the space between the semi-transparent mirror 40 and the light reflecting component 50, the light is reflected by the semi-transparent mirror 40 and the light reflecting component 50, and the tunnel lamp effect of numerous lamp strips can also be formed. When the light source 62 is a ring lamp, the diaphragm may not be omitted, and whether the diaphragm is necessary or not may be selected according to the installation position of the ring lamp.

In one of the embodiments, the light source 62 is a lamp bead, and the quantity of lamp bead is a plurality of, a plurality of lamp beads set up and set up at the edge week side interval along lamp plate 61, light-permeable member 63 is the transparent circle, the light that the lamp bead sent directly sees through the transparent circle and launches to between semi-transparent mirror 40 and the reflection of light subassembly 50, form a plurality of single lamp bead light spots, a plurality of single lamp bead light spots are swagged the reflection between semi-transparent mirror 40 and reflection of light subassembly 50, produce countless single lamp bead light spot on reflection of light subassembly 50, thereby form the tunnel lamp effect of countless single lamp bead.

Of course, also can omit transparent circle, directly set up a plurality of lamp pearls between semi-transparent mirror 40 and reflection of light subassembly 50, when a plurality of lamp pearls were luminous, a plurality of single lamp pearl light spots were swagged the reflection between semi-transparent mirror 40 and reflection of light subassembly 50, produced numerous single lamp pearl light spot on reflection of light subassembly 50, also can form the tunnel lamp effect of countless single lamp pearl.

In addition, it should be noted that the tunnel lamp effect of the present application includes, but is not limited to, the tunnel lamp effect of the lamp strip and the tunnel lamp effect of the single lamp bead.

In one of them embodiment, light subassembly 60 can also only include lamp plate 61 and connect the light source 62 of lamp plate 61, and light source 62 directly locates between semi-transparent mirror 40 and the reflection of light subassembly 50 to the light that light source 62 sent directly penetrates to between semi-transparent mirror 40 and the reflection of light subassembly 50, and light is swagged the reflection between semi-transparent mirror 40 and reflection of light subassembly 50, so as to form the tunnel lamp effect, also can be according to the demand simultaneously, through the shape of design light source, form different tunnel lamp effects.

Specifically, in the present embodiment, the light-transmitting member 63 includes a light incident portion 64 and a light emergent portion 65, both the light incident portion 64 and the light emergent portion 65 are annular, the light incident portion 64 is disposed between the outer peripheral sidewall of the light-reflecting component 50 and the inner peripheral sidewall of the housing 10, and a portion of the light incident portion 64 extends out of the light-reflecting component 50 toward the semi-light-transmitting mirror 40. The light outlet portion 65 is disposed on the inner peripheral sidewall of the light inlet portion 64, and the light outlet portion 65 is located between the semi-transparent mirror 40 and the light reflecting component 50, so that the light emitted from the light source 62 is emitted to the light inlet portion 64, then transmitted from the light inlet portion 64 to the light outlet portion 65, and then emitted from the light outlet portion 65 to the space between the semi-transparent mirror 40 and the light reflecting component 50. In the present embodiment, the light emergent portion 65 is located on the peripheral side between the half-transmitting mirror 40 and the light reflecting member 50. Of course, in other embodiments, the light-emitting portion 65 may also be located at an intermediate position between the semi-transparent mirror 40 and the light-reflecting component 50, or suspended between the semi-transparent mirror 40 and the light-reflecting component 50.

Further, light subassembly 60 still includes support 66, and support 66 installs in casing 10, and support 66 locates the one side that heating panel 14 deviates from lamp plate 61, is provided with annular protrusion 67 on support 66, and annular protrusion 67 locates support 66 towards the one side of heating panel 14, and the one end of annular protrusion 67 passes heating panel 14, lamp plate 61 in proper order and extends to reflector assembly 50's through-hole 52, and annular protrusion 67 corresponds the intercommunication with bulge loop 53.

In one embodiment, the radio frequency head further includes a first light-shielding ring 70 and a second light-shielding ring 80, the first light-shielding ring 70 is disposed between the light-transmitting member 63 and the light-reflecting member 50, specifically, the first light-shielding ring 70 is disposed between the light-emitting portion 65 and one side of the light-reflecting member 50 facing the half-light-transmitting mirror 40, the second light-shielding ring 80 is disposed between the light-transmitting member 63 and the half-light-transmitting mirror 40, specifically, the second light-shielding ring 80 is disposed between the light-emitting portion 65 and one side of the half-light-transmitting mirror 40 facing the light-reflecting member 50, by disposing the first light-shielding ring 70 and the second light-shielding ring 80, the annular lamp strips are prevented from being connected together, and the interval between the annular lamp strips is ensured to be. In the present embodiment, the outer peripheral side wall of the second light-shielding ring 80 is connected to the inner peripheral side wall of the housing 12, and the second light-shielding ring 80 is integrally formed with the housing 12.

In one embodiment, the rf head further includes an infrared lamp 90, the infrared lamp 90 is installed in the housing 10, the infrared lamp 90 is disposed on a side of the reflective member 50 away from the semi-transparent mirror 40, and the infrared lamp 90 is disposed corresponding to the groove 51 on the reflective member 50. Specifically, infrared lamp 90 sets up on lamp plate 61, and infrared lamp 90 is connected with lamp plate 61 electricity promptly, and infrared lamp 90 is used for the transmission infrared ray, and the infrared ray that infrared lamp 90 launches can pierce through reflection of light subassembly 50, semi-light-transmitting mirror 40 and translucent cover 20. It can be understood that, during operation, the infrared rays emitted from the infrared lamp 90 can sequentially penetrate through the reflective component 50, the semi-transparent mirror 40 and the transparent cover 20 to the skin of the human body, so as to heat the skin of the human body, thereby achieving the effect of promoting the skin to absorb the beauty treatment liquid.

The rf head further includes a lamp driving board 100 and a conductive body 110, the lamp driving board 100 is a PCB board, and the lamp driving board 100 is installed in an end of the housing 10 far from the transparent cover 20, that is, the lamp driving board 100 is installed in the bottom of the housing 10. Specifically, lamp drive board 100 is located the one side that support 66 deviates from heating panel 14, and lamp drive board 100, support 66, heating panel 14, light-transmitting member 63, second shading ring 80 are connected with electrode 30 in proper order passed to the one end of conductor 110, and conductor 110 not only is used for fixing each part, still is used for electrically conducting for electrode 30, effectively practices thrift radio frequency head 200's design space, reduces radio frequency head 200's whole volume, the miniaturized design of the radio frequency appearance of being convenient for, practices thrift the cost simultaneously. In this embodiment, the conductive body 110 is a screw, and the number of the conductive bodies 110 is plural, so that the plurality of electrodes 30 are electrified, and meanwhile, the connection stability between the parts is effectively improved. It should be noted that the electrical conduction may be achieved by connecting the power source to the electrodes 30 by a single screw and then transmitting the electricity to each electrode 30 by an electrical conduction scheme.

In one embodiment, the rf head further includes a vibration motor 120, the vibration motor 120 is electrically connected to the lamp driving board 100, the vibration motor 120 is configured to vibrate for prompting, for example, when the rf apparatus is started, the vibration motor 120 vibrates to prompt a user that the rf apparatus is turned on, and the vibration of the vibration motor helps the rf apparatus to increase a holding experience when the user holds the rf apparatus, and the skin and the rf apparatus can be attached to each other by a certain degree of vibration to the rf head.

In one embodiment, the radio frequency head further comprises a temperature controller 130, the temperature controller 130 is installed in the housing 10, the temperature controller 130 detects and controls the temperature of the outer surface of the transparent cover 20, when the radio frequency head is used by a user, the temperature of the contact part of the control face is conveniently kept relatively constant without being too high, and the comfort of the user is improved. Specifically, the fixing seat 22 is embedded in the transparent cover 20, one end of the temperature controller 130 is electrically connected to the lamp driving board 100, and the head of the temperature controller 130 sequentially passes through the bracket 66, the annular protrusion 67, the convex ring 53 and the semi-transparent mirror 40 and extends into the fixing seat 22.

The utility model discloses a radio frequency head 200 of radio frequency appearance, through setting up semi-light-transmitting mirror 40, reflecting component 50 and lighting component 60, and locate semi-light-transmitting mirror 40 and reflecting component 50 with lighting component 60 between, the light that lighting component 60 sent out is through the multiple reflection between semi-light-transmitting mirror 40 and the reflecting component 50, light energy output is even, the user follows the watching of translucent cover 20, make the tunnel lamp effect have in the casing 10, can give other people and bring strong visual effect, effectively promote the user to the experience effect of radio frequency appearance. Through setting up infrared lamp 90, the infrared ray that infrared lamp 90 launches can pierce through reflecting component 50, half printing opacity mirror 40 and translucent cover 20 to human skin in proper order on, heat the skin for the human body, effectively promote the absorption of skin to cosmetic liquid. By additionally arranging the temperature controller 130 in the shell 10, when a user uses the temperature control device, the temperature of the part of the radio frequency head 200 contacting with the face of the human body can be conveniently controlled not to be too high and kept relatively constant, and the comfort of the user is effectively improved. By arranging the lamp driving board 100 at the bottom of the casing 10, the fixed connection of each component is realized through the conductor 110, and the electric conduction of the electrode 30 is realized, so that the overall volume of the radio frequency head is reduced, and the miniaturization design of the radio frequency instrument is facilitated. The infrared ray and the tunnel lamp effect that send out through electrode 30 cooperation infrared lamp 90 realize promoting the absorption of user's epidermis to nutrient element to drive certain massage of user through setting up of electrode 30 and feel, promote the working property of radio frequency appearance.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The radio frequency head is characterized by comprising a shell, a semi-transparent mirror, a reflecting component and a light component, wherein the semi-transparent mirror, the reflecting component and the light component are arranged in the shell, the reflecting component and the semi-transparent mirror are arranged oppositely, and the light component is arranged between the semi-transparent mirror and the reflecting component.

2. The rf head of claim 1, further comprising a transparent cover mounted on an end of the housing, the transparent cover being disposed on a side of the half-mirror facing away from the reflective assembly.

3. The rf head of claim 2, further comprising an electrode embedded in the transparent cover.

4. The rf head of claim 3, further comprising a lamp driver board mounted in an end of said housing remote from said transparent cover, and a conductor having an end connected to said electrode through said lamp driver board.

5. The rf head of claim 1, further comprising an infrared lamp disposed on a side of the reflector assembly facing away from the semi-opaque mirror.

6. The radio head of claim 1, further comprising a thermostat, the thermostat being mounted within the housing.

7. The radio frequency head according to claim 1, wherein the light assembly comprises a lamp panel, a light source connected to the lamp panel, and a light transmitting member disposed between the semi-light transmitting mirror and the light reflecting assembly, and the light transmitting member is disposed corresponding to the light source.

8. The radio frequency head of claim 7, wherein the lamp panel is disposed on a side of the reflector assembly away from the semi-transparent mirror, the light source is disposed along an edge of the lamp panel, and the light source is disposed between an outer peripheral sidewall of the reflector assembly and an inner peripheral sidewall of the housing.

9. The rf head of claim 7, further comprising a first light-blocking ring and a second light-blocking ring, wherein the first light-blocking ring is disposed between the light-transmissive member and the light-reflective member, and the second light-blocking ring is disposed between the light-transmissive member and the semi-light-transmissive mirror.

10. A radio frequency instrument comprising a body and a radio frequency head as claimed in any one of claims 1 to 9, the radio frequency head being connected to one end of the body.

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