CN210931778U - Ice-cold radio frequency instrument - Google Patents

Abstract

The utility model relates to an ice-cold radio frequency instrument, fixed shell surface mid-mounting has the control panel, and the control panel downside is provided with the infrared induction hole, fixed shell below and base fixed connection, and electrically conductive piece below right side is provided with the radiating piece, and electrically conductive piece below left side is installed and is passed through light, and the baffle is installed to pass through light below, and red blue light LED lamp is installed to the baffle below, and semiconductor refrigeration wafer is installed to second grade PCB below, and the semiconductor refrigeration wafer outside is provided with the radiating piece, the utility model discloses an electrically conductive piece and skin contact, with pulse current transmission to the human body, the reflection speed of device has been strengthened, has improved the efficiency that the device used, the chip control signals on the one-level PCB, and semiconductor refrigeration wafer work, very big improvement cooling skin, the effect in shrink pore provides the benefit to.

Description

Ice-cold radio frequency instrument

Technical Field

The utility model relates to a relevant technical field of radio frequency appearance specifically is an ice-cold radio frequency appearance.

Background

The red and blue light treatment technology has been used for a long time, and the working mechanism of the technology is to utilize the specific wavelength of the technology to react with physiological tissues to produce special effects. The mitochondria in the cells absorb the red light most, and after the red light is irradiated, the catalase activity of the mitochondria is increased, so that the metabolism of the cells can be increased, the glycogen content is increased, the protein synthesis is increased, and the adenosine triphosphate decomposition is increased, thereby enhancing the regeneration of the cells, and promoting the growth of granulation tissues and the healing of wound surfaces. While for acne caused by propionibacterium, the specific wavelength of blue light has a highly effective killing effect. The absorption light band of bilirubin is 400-500 nanometers, particularly, the light decomposition effect is strongest when the wavelength is 420-440 nanometers, and the wavelength of blue light is just between 425-475 nanometers. The application of micro-current technology in the cosmetic industry is generally divided into ems (electrical multimedia stimulation) and Radio Frequency RF (Radio Frequency, Frequency over 300 KHz) according to the Frequency. EMS usually can penetrate skin to generate effect on the dermis layer, promote ATP hyperplasia, and further promote collagen production, and has quick effect but short retention time. The radio frequency can penetrate into subcutaneous tissues to enable the natural resistance movement of the subcutaneous tissues to generate heat energy, the principle that collagen fibers in a dermis layer can be immediately contracted at 55-70 ℃ is utilized to promote the skin and promote the regeneration of collagen, and the collagen can immediately contract and simultaneously stimulate the dermis layer to secrete more new collagen fibers to be regenerated, so that a bracket of the skin is lifted again, the thickness and the density of the dermis layer of the skin are increased, wrinkles are filled and the looseness is improved. Radio frequency RF has higher penetration depth, larger energy and longer retention time compared with EMS, but the instant display effect is not good as that of EMS, so we improve the above, and provide an ice-cold radio frequency instrument to solve the above problems.

SUMMERY OF THE UTILITY MODEL

For solving the defect that prior art exists, the utility model provides an ice-cold radio frequency instrument.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model relates to an ice-cold radio frequency instrument, which comprises a damping ring and a base, wherein an electric conduction piece is arranged below the outer side of the damping ring, a fixed shell is arranged below the damping ring, the lower part of the damping ring is fixedly connected with the fixed shell, the outer side of the damping ring is fixedly connected with a snap ring, a display panel is arranged in the middle of the surface of the fixed shell, an infrared induction hole is arranged at the lower side of the display panel, the lower part of the fixed shell is fixedly connected with the base, the electric conduction piece is arranged above the inner part of the fixed shell, a heat dissipation piece is arranged at the right side below the electric conduction piece, a light transmission piece is arranged at the left side below the electric conduction piece, a blue light baffle is arranged below the light transmission piece, a red LED lamp is arranged below the baffle, a rib plate is arranged in the middle of the inner, the one-level PCB is fixedly connected with the fixed shell through a connecting plate, the bonding plate is installed below the connecting plate, the battery is installed above the right side of the base, and a base plate is arranged above the battery.

As an optimal technical scheme of the utility model, the panel comprises transparent plastic, panel and baffle fixed connection, the baffle middle part is provided with the LED lamp small opening.

As an optimal technical scheme of the utility model, red blue light LED lamp below and second grade PCB fixed connection, second grade PCB's component material is FR-4.

As a preferred technical scheme of the utility model, the base still includes fixed block, spliced pole, an upper fixed plate, U template, fixed column, PMKD and pressure boost pad, the fixed block is installed in base left side top, the spliced pole is installed to the fixed block top, PMKD and base fixed connection, the U template is installed to the PMKD top, the fixed column is installed on U template right side, U template below is provided with the pressure boost pad, the upper fixed plate is installed to pressure boost pad top.

As a preferred technical scheme of the utility model, the fixed block passes through spliced pole and connecting plate fixed connection, the pressure boost pad is installed in the upper fixed plate below, the pressure boost pad comprises rubber and sponge bonding.

As an optimal technical scheme of the utility model, semiconductor refrigeration wafer is installed to second grade PCB below, the semiconductor refrigeration wafer outside is provided with the radiating piece, semiconductor refrigeration wafer and radiating piece fixed connection, the component material of radiating piece is the aluminum alloy, semiconductor refrigeration wafer is the semiconductor refrigeration wafer of s model.

As an optimal technical scheme of the utility model, semiconductor refrigeration wafer and electrically connected of electrically conductive piece, electrically conductive piece is provided with three groups, electrically conductive component material is the stainless steel, electrically conductive both sides are installed the sealing member, the sealing member is provided with three groups, the sealing member comprises resistant chemical rubber.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) this kind of ice-cold radio frequency instrument electrically conductive piece is installed in the inside top of fixed shell, and red blue light LED lamp is installed to the baffle below, red blue light LED lamp below and second grade PCB fixed connection, and the device is when using, through electrically conductive piece and skin contact, second grade PCB can discern the affirmation to skin rapidly, with pulse current transmission to the human body, has strengthened the reflection speed of device, has improved the efficiency that the device used, provides the benefit for the effect of protecting the skin.

(2) The semiconductor refrigeration wafer is installed below the second-stage PCB of the ice-cold radio frequency instrument, a heat dissipation piece is arranged on the outer side of the semiconductor refrigeration wafer, the first-stage PCB is installed in the middle of the upper portion of the base, a chip on the first-stage PCB controls and sends a signal, the semiconductor refrigeration wafer works, the skin is cooled, the effect of shrinking pores is greatly improved, and the benefit is provided for the nursing effect of the skin.

(3) The conductive piece is installed to this kind of ice-cold radio frequency instrument damping ring outside below, semiconductor refrigeration wafer is installed to second grade PCB below, semiconductor refrigeration wafer and heat dissipation piece fixed connection, the another side of a refrigeration heats, conductive piece is connected with the refrigeration face on the semiconductor wafer, with skin contact after with the heat conduction of ice-cold sensation to skin, the heat is derived to the heating face that the heat dissipation piece is connected on semiconductor refrigeration wafer, very big reduction device internal element receives the influence of temperature.

(4) The light-transmitting part is installed on the left side of the below of the ice-cold radio frequency instrument conductive part, the partition board is installed below the light-transmitting part, the red blue light LED lamp is installed below the partition board, the state of the current device can be effectively identified, meanwhile, the face skin is nursed from the surface to the inside, at different levels, different depths are implemented, the effect of skin tendering, sterilization and acne removal on the surface is achieved, and the instantaneity of the red blue light phototherapy, the EMS effect and the long-acting property of the RF are achieved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is an internal cross-sectional view of the present invention.

In the figure: the LED lamp comprises a conductive component 1, a sealing component 2, a semiconductor refrigerating wafer 3, a heat sink 4, a red-blue LED lamp 5, a primary PCB6, a secondary PCB7, a partition plate 8, a panel 9, a battery 10, a display panel 11, a shock absorption ring 12, a base 13, a fixing block 131, a connecting column 132, an upper fixing plate 133, a U-shaped plate 134, a fixing column 135, a fixing bottom plate 136, a pressurizing pad 137, a fixing shell 14, a connecting plate 15, an exhaust hole 16, a rib plate 17, a locking bolt 18, a shock absorption pad 19, a base plate 20, an adhesive plate 21, an infrared induction hole 22, a clamping ring 23 and a.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1 and fig. 2, the utility model relates to an ice-cold rf instrument, which comprises a damping ring 12 and a base 13, wherein a conductive piece 1 is installed below the outer side of the damping ring 12, a fixed shell 14 is arranged below the damping ring 12, the lower side of the damping ring 12 is fixedly connected with the fixed shell 14, the outer side of the damping ring 12 is fixedly connected with a snap ring 23, a display panel 11 is installed in the middle of the surface of the fixed shell 14, an infrared induction hole 22 is arranged below the display panel 11, the lower side of the fixed shell 14 is fixedly connected with the base 13, the conductive piece 1 is installed above the inner part of the fixed shell 14, a heat dissipation piece 4 is arranged on the right side below the conductive piece 1, the conductive piece 1 is connected with a refrigerating surface on a semiconductor wafer 3, and conducts ice-cold to the skin after contacting with the skin, the heat dissipation piece 4 is connected with a, the device is when using, through electrically conductive 1 and skin contact, transparent 24 is installed in 1 below left side of electrically conductive, baffle 8 is installed to transparent 24 below, red blue light LED lamp 5 is installed to baffle 8 below, by table to interior to the nursing of facial skin, from different levels, the effect is implemented to the different degree of depth, not only possess the surperficial skin tenderization of red blue phototherapy and disinfect the acne removal effect, the instantaneity of EMS effect and RF's long-term effect in addition, fixed shell 14 inboard mid-mounting has gusset 17, gusset 17 below sets up in exhaust hole 16, adhesive plate 21 is installed to gusset 17 inboard, connecting plate 15 is installed to exhaust hole 16 below, one-level PCB6 passes through connecting plate 15 and fixed shell 14 fixed connection, adhesive plate 21 is installed to connecting plate 15 below, battery 10 is installed to base 13 right side top, battery 10 top is provided with backing plate 20.

Wherein, panel 9 comprises transparent plastic, and panel 9 and baffle 8 fixed connection, baffle 8 middle part are provided with the LED lamp small opening.

The lower part of the red and blue LED lamp 5 is fixedly connected with the secondary PCB7, so that the state of the current device can be effectively identified, the secondary PCB7 is made of FR-4, the secondary PCB7 can rapidly identify and confirm the skin, the pulse current is transmitted to the human body, the reflection speed of the device is increased, and the use efficiency of the device is improved.

Wherein, base 13 still includes fixed block 131, spliced pole 132, upper fixed plate 133, U template 134, fixed column 135, PMKD 136 and pressure boost pad 137, fixed block 131 installs in base 13 left side top, spliced pole 132 is installed to fixed block 131 top, PMKD 136 and base 13 fixed connection, U template 134 is installed to PMKD 136 top, fixed column 135 is installed on U template 134 right side, U template 134 below is provided with pressure boost pad 137, upper fixed plate 133 is installed to pressure boost pad 137 top.

Wherein, the fixed block 131 is fixedly connected with the connecting plate 15 through the connecting column 132, the pressurizing pad 137 is installed below the upper fixing plate 133, and the pressurizing pad 137 is formed by bonding rubber and sponge.

Wherein, semiconductor refrigeration wafer 3 is installed to second grade PCB7 below, and semiconductor refrigeration wafer 3 outside is provided with heat sink 4, and semiconductor refrigeration wafer 3 and heat sink 4 fixed connection, the component material of heat sink 4 are the aluminum alloy, and semiconductor refrigeration wafer 3 is the semiconductor refrigeration wafer of s02071 model.

The semiconductor refrigeration wafer 3 is electrically connected with the conductive piece 1, a chip on the primary PCB6 controls to send signals, the semiconductor refrigeration wafer 3 works, the skin cooling and pore shrinking effects are greatly improved, and the skin care effect is facilitated, the conductive piece 1 is provided with three groups, the conductive piece 1 is made of stainless steel, the sealing pieces 2 are installed on two sides of the conductive piece 1, the sealing pieces 2 are provided with three groups, and the sealing pieces 2 are made of chemical-resistant rubber.

The working principle is as follows: in actual operation, a worker firstly starts the device, places the device above proper skin, sends a signal by a chip integrated on the primary PCB6, transmits the signal to the secondary PCB7 after the signal is adjusted by an amplifying circuit, and then contacts the skin by the conductive piece 1 connected to the secondary PCB7 to transmit pulse current to a human body; the red and blue LED lamp 5 is welded on the secondary PCB7, and when a signal transmitted by the primary PCB6 is received, the red and blue LED lamp 5 works; chip control/signal on one-level PCB6, semiconductor refrigeration wafer 3 works, one side is refrigerated and the other side is heated, conductive piece 1 is connected with the refrigeration face on semiconductor wafer 3, ice-cold sensation is conducted to skin after contacting with skin, the heating face of heat sink 4 connected on semiconductor refrigeration wafer 3 conducts heat away, shock ring 12 is installed outside conductive piece 1, the position of conductive piece 1 can be effectively fixed, the vibration of the device is reduced, meanwhile, fixed block 131 inside base 13 is fixedly connected with connecting plate 15 through connecting column 132, pressurizing pad 137 is installed below upper fixing plate 133, the components inside the device can be effectively fixed, the influence of the device on the internal components when in use is greatly reduced, and the safety of the device is benefited. This is the method of using the ice-cold rf apparatus, and the details not described in the present specification are prior art known to those skilled in the art.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. Ice-cold radiofrequency device comprising a damping ring (12) and a base (13), characterized in that: the shock absorption ring is characterized in that a conductive piece (1) is installed below the outer side of the shock absorption ring (12), a fixed shell (14) is arranged below the shock absorption ring (12), the lower side of the shock absorption ring (12) is fixedly connected with the fixed shell (14), the outer side of the shock absorption ring (12) is fixedly connected with a clamping ring (23), a display panel (11) is installed in the middle of the surface of the fixed shell (14), an infrared induction hole (22) is formed in the lower side of the display panel (11), the lower side of the fixed shell (14) is fixedly connected with a base (13), the conductive piece (1) is installed above the inner portion of the fixed shell (14), a radiating piece (4) is arranged on the right side of the lower portion of the conductive piece (1), a light transmission piece (24) is installed on the left side of the lower portion of the conductive piece (1), a partition plate (8) is installed below the, fixed shell (14) inboard mid-mounting has gusset (17), gusset (17) below sets up in exhaust hole (16), adhesive sheet (21) are installed to gusset (17) inboard, connecting plate (15) are installed to exhaust hole (16) below, fixed shell (14) pass through connecting plate (15) and one-level PCB (6) fixed connection, adhesive sheet (21) are installed to connecting plate (15) below, battery (10) are installed to base (13) right side top, battery (10) top is provided with backing plate (20).

2. The ice-cold radio frequency instrument according to claim 1, wherein: the LED lamp is characterized in that the partition plate (8) is fixedly connected with the panel (9), the panel (9) is made of transparent plastic, and an LED lamp hole is formed in the middle of the partition plate (8).

3. The ice-cold radio frequency instrument according to claim 1, wherein: the lower part of the red blue LED lamp (5) is fixedly connected with a secondary PCB (7), and the secondary PCB (7) is made of FR-4.

4. The ice-cold radio frequency instrument according to claim 1, wherein: base (13) still include fixed block (131), spliced pole (132), upper fixed plate (133), U template (134), fixed column (135), PMKD (136) and pressure boost pad (137), fixed block (131) are installed in base (13) left side top, spliced pole (132) are installed to fixed block (131) top, PMKD (136) and base (13) fixed connection, PMKD (134) are installed to PMKD (136) top, fixed column (135) are installed on U template (134) right side, U template (134) below is provided with pressure boost pad (137), upper fixed plate (133) are installed to pressure boost pad (137) top.

5. The ice-cold radio frequency instrument according to claim 4, wherein: the fixed block (131) is fixedly connected with the connecting plate (15) through a connecting column (132), the pressurizing pad (137) is arranged below the upper fixed plate (133), and the pressurizing pad (137) is formed by bonding rubber and sponge.

6. The ice-cold rf instrument according to claim 3, wherein: semiconductor refrigeration wafer (3) are installed to second grade PCB (7) below, semiconductor refrigeration wafer (3) outside is provided with radiating piece (4), semiconductor refrigeration wafer (3) and radiating piece (4) fixed connection, the component material of radiating piece (4) is the aluminum alloy, semiconductor refrigeration wafer (3) is the semiconductor refrigeration wafer of s02071 model.

7. The ice-cold radio frequency instrument according to claim 6, wherein: semiconductor refrigeration wafer (3) and electrically connected with electrically conductive piece (1), electrically conductive piece (1) is provided with three groups, the component material of electrically conductive piece (1) is the stainless steel, electrically conductive piece (1) both sides are installed sealing member (2), sealing member (2) are provided with three groups, sealing member (2) are by resisting chemical rubber and constitute.

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