CN219167355U - Novel impedance matching ultrasonic beauty probe - Google Patents

Abstract

The utility model provides a novel impedance matching ultrasonic beauty probe, which comprises a probe, a handle, an ultrasonic unit and an atomization unit, wherein the ultrasonic unit and the atomization unit are arranged in the probe; the probe comprises a probe body, an ultrasonic hole, an atomization hole and a back plate, wherein the ultrasonic unit is fixed in the ultrasonic hole, and the atomization unit is fixed in the atomization hole; the ultrasonic unit comprises a matching layer, piezoelectric ceramics and a back lining, and the atomization unit comprises an atomization diaphragm, a ceramic ring and a silica gel pad. The utility model combines ultrasonic atomization and ultrasonic massage effects by using impedance matching technology, and can better realize ultrasonic massage, thereby achieving beauty effect; the method is simple, and the prepared novel impedance matching ultrasonic beauty probe device can effectively promote the skin to absorb nutrient solution, massage and the like.

Description

Novel impedance matching ultrasonic beauty probe

Technical Field

The utility model relates to the technical field of physiotherapy devices, in particular to a novel impedance matching ultrasonic beauty probe.

Background

The existing ultrasonic beauty equipment has single performance, can not fuse a plurality of ultrasonic technologies, is independent equipment for atomization, dispersion, beauty treatment, anti-inflammation and the like, and has larger performance difference. In addition, the existing ultrasonic beauty equipment is characterized in that piezoelectric ceramics are directly arranged on stainless steel to emit energy, the frequency is fixed, the common selection of multiple frequencies cannot be carried out, the impedance matching of ultrasonic waves cannot be realized, the continuous impedance requirement cannot be met, and the defects of uneven output energy and the like are caused.

There is a need for an ultrasonic cosmetic probe that can achieve impedance matching.

Disclosure of Invention

The utility model provides a novel impedance matching ultrasonic beauty probe, which aims to solve the problems that the existing beauty probe cannot realize impedance matching of ultrasonic waves and can not integrate ultrasonic wave technology with atomization technology, and combines ultrasonic wave atomization and ultrasonic wave massage effects by utilizing the impedance matching technology, so that ultrasonic wave massage can be better realized, and the beauty effect is achieved; the method is simple, and the prepared novel impedance matching ultrasonic beauty probe device can effectively promote the skin to absorb nutrient solution, massage and the like.

The utility model provides a novel impedance matching ultrasonic beauty probe, which comprises a probe, a handle connected with the rear end of the probe, an ultrasonic unit and an atomization unit, wherein the ultrasonic unit and the atomization unit are arranged in the probe;

the probe comprises a probe body, an ultrasonic hole, an atomization hole and a back plate, wherein the ultrasonic hole and the atomization hole are arranged at the front end of the probe body, the back plate is connected inside the probe body and positioned at the rear parts of the ultrasonic hole and the atomization hole, the ultrasonic hole and the atomization hole are through holes, the ultrasonic unit is fixed in the ultrasonic hole, and the atomization unit is fixed at the front end of the atomization hole;

the ultrasonic unit comprises a matching layer, piezoelectric ceramics and a back lining which are sequentially connected, the back lining is fixedly adhered to the back board, and the matching layer is arranged at the front end of the ultrasonic hole;

the atomizing unit includes the atomizing diaphragm, fixes the ceramic ring at atomizing diaphragm rear end, fixes the silica gel pad at ceramic ring rear end and atomizing diaphragm front end, and the quantity of silica gel pad is two, and the silica gel pad bonds fixedly with the lateral wall in atomizing hole, and the silica gel pad middle part trompil of front side.

The utility model relates to a novel impedance matching ultrasonic beauty probe, which is characterized in that an ultrasonic unit further comprises an ultrasonic unit lead connected with a backing, wherein the ultrasonic unit lead passes through a back plate and is arranged in a probe body and a handle, and the ultrasonic unit lead comprises an ultrasonic unit positive lead and an ultrasonic unit negative lead;

the atomizing unit further comprises an atomizing unit lead wire which is connected with the ceramic ring and penetrates through the back plate to be arranged inside the probe body and the handle, and the atomizing unit lead wire comprises an atomizing unit positive electrode lead wire and an atomizing unit negative electrode lead wire.

The utility model relates to a novel impedance matching ultrasonic beauty probe, which is characterized in that the ultrasonic frequency of an ultrasonic unit is any one of the following as a preferable mode: 125kHz, 160kHz, 200kHz, 1MHz, 2MHz, 3MHz, 4MHz, and 5MHz.

According to the novel impedance matching ultrasonic beauty probe, as an optimal mode, the number of ultrasonic holes, atomization holes, ultrasonic units and atomization units is 2 or more.

According to the novel impedance matching ultrasonic beauty probe, as a preferable mode, the number of ultrasonic holes and ultrasonic units is 4, the number of atomization holes and atomization units is 2, the atomization holes are arranged in the middle of the front end of the probe body, and the ultrasonic holes are arranged on the outer sides of the atomization holes.

According to the novel impedance matching ultrasonic beauty probe, as a preferable mode, the diameter ratio of the matching layer to the piezoelectric ceramic is 0.05:1-1:0.05;

the thickness ratio of the matching layer to the piezoelectric ceramic is 0.05:1-1:0.05.

The novel impedance matching ultrasonic beauty probe is characterized in that the thickness ratio of the backing to the piezoelectric ceramic is 0.05:1-1:0.05 as a preferable mode.

The novel impedance matching ultrasonic beauty probe is characterized in that the diameter of the piezoelectric ceramic is 2-50 mm as an optimal mode.

According to the novel impedance matching ultrasonic beauty probe, as a preferable mode, the outer diameter of the ceramic ring is 11.3mm, the inner diameter of the ceramic ring is 3.1mm, and the thickness of the ceramic ring is 0.6mm.

According to the novel impedance matching ultrasonic beauty probe, as a preferable mode, the shell is arranged outside the piezoelectric ceramic and the backing, the shell is fixedly adhered to the back plate, the shell is made of metal or organic matters, and the thickness of the emitting surface of the shell is 0.2mm.

A novel impedance matching ultrasonic beauty probe device has the following design principle:

the ultrasonic impedance matching technology is utilized, so that the problem that the energy uniformity cannot be achieved by a single probe in the current ultrasonic beauty market is solved; the energy can be greatly promoted to enter the skin through impedance matching, the response of the skin is greatly improved, and the treatment effect is good; through a plurality of ultrasonic wave units simultaneous action, a part of atomizing unit carries out atomizing spraying, and another part utilizes the ultrasonic massage effect.

The technical proposal is as follows:

the novel impedance matching ultrasonic beauty probe comprises the components of an ultrasonic unit, an atomization unit, a probe and a handle.

The ultrasonic unit is composed of a piezoelectric ceramic sheet, a matching layer, a backing and a lead;

the size of the piezoelectric ceramic piece of the ultrasonic unit is 2 mm-50 mm;

the size of the piezoelectric ceramic of the atomizing unit is 11.3mm in outer diameter, 3.1mm in inner diameter and 0.6mm in thickness;

the ratio of the diameter of the matching layer of the ultrasonic unit to the diameter of the piezoelectric ceramic plate is 0.05:1-1:0.05;

the ratio of the thickness of the matching layer of the ultrasonic unit to the thickness of the piezoelectric ceramic plate is 0.05:1-1:0.05;

the ratio of the thickness of the backing of the ultrasonic unit to the thickness of the piezoelectric ceramic sheet is 0.05:1-1:0.05;

the shell of the ultrasonic unit is made of metal or organic matter, and the thickness of the emitting surface of the shell is 0.001-10 mm;

the handle size adopts a conventional hand-held die-sinking handle.

The number of ultrasonic units and atomizing units is determined by the probe area used.

The utility model has the following advantages:

(1) By utilizing the impedance matching technology, ultrasonic atomization and ultrasonic massage effects are combined, and ultrasonic massage can be better realized, so that the beautifying effect is achieved.

(2) The method is simple, and the prepared novel impedance matching ultrasonic beauty probe device can effectively promote the skin to absorb nutrient solution, massage and the like.

Drawings

FIG. 1 is a schematic diagram of a novel impedance matching ultrasonic cosmetic probe device;

FIG. 2 is a schematic view of a probe part in semi-section of a novel impedance matching ultrasonic cosmetic probe;

FIG. 3 is a schematic view of an ultrasonic unit structure of a novel impedance matching ultrasonic cosmetic probe device;

fig. 4 is a schematic diagram of the structure of an atomization membrane, a ceramic ring and a silica gel pad in an atomization unit of the novel impedance matching ultrasonic beauty probe device.

Reference numerals:

1. a probe; 11. a probe body; 12. an ultrasonic hole; 13. an atomization hole; 2. a handle; 3. an ultrasonic unit; 31. a matching layer; 32. piezoelectric ceramics; 33. a backing; 4. an atomizing unit; 41. an atomizing membrane; 42. a ceramic ring; 43. and a silica gel pad.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Example 1

As shown in fig. 1, the novel impedance matching ultrasonic beauty probe comprises a probe 1, a handle 2 connected with the rear end of the probe 1, an ultrasonic unit 3 and an atomization unit 4 which are arranged in the probe 1;

as shown in fig. 2, the probe 1 comprises a probe body 11, an ultrasonic hole 12, an atomization hole 13 and a back plate 14, wherein the ultrasonic hole 12 and the atomization hole 13 are arranged at the front end of the probe body 11, the back plate 14 is connected inside the probe body 11 and positioned at the rear parts of the ultrasonic hole 12 and the atomization hole 13, the ultrasonic hole 12 and the atomization hole 13 are through holes, the ultrasonic unit 3 is fixed in the ultrasonic hole 12, and the atomization unit 4 is fixed at the front end of the atomization hole 13;

as shown in fig. 3, the ultrasonic unit 3 comprises a matching layer 31, a piezoelectric ceramic 32, a backing 33 and an ultrasonic unit lead connected with the backing 33, wherein the matching layer 31, the piezoelectric ceramic 32, the backing 33 and the ultrasonic unit lead are sequentially connected, the backing 33 is fixedly adhered to the back plate 14, the matching layer 31 is arranged at the front end of the ultrasonic hole 12, the ultrasonic unit lead passes through the back plate 14 and is arranged in the probe body 11 and the handle 2, and the ultrasonic unit lead comprises an ultrasonic unit positive lead and an ultrasonic unit negative lead; the outer parts of the piezoelectric ceramics 32 and the back lining 33 can be provided with a shell, and the shell is adhered and fixed with the back plate 14;

as shown in fig. 2 and 4, the atomizing unit 4 comprises an atomizing diaphragm 41, a ceramic ring 42 fixed at the rear end of the atomizing diaphragm 41, a silica gel pad 43 fixed at the rear end of the ceramic ring 42 and the front end of the atomizing diaphragm 41, and atomizing unit leads connected with the ceramic ring 42 and arranged in the probe body 11 and the handle 2 through the back plate 14, wherein the number of the silica gel pads 43 is two, the silica gel pads 43 are adhered and fixed with the side walls of the atomizing holes 13, the middle part of the silica gel pad 43 at the front side is provided with holes, and the atomizing unit leads comprise atomizing unit positive electrode leads and atomizing unit negative electrode leads;

the ultrasonic frequency of the ultrasonic unit 3 is any one of the following: 125kHz, 160kHz, 200kHz, 1MHz, 2MHz, 3MHz, 4MHz and 5MHz;

the number of the ultrasonic holes 12, the atomizing holes 13, the ultrasonic units 3 and the atomizing units 4 is 2 or more;

the number of the ultrasonic holes 12 and the ultrasonic units 3 is 4, the number of the atomization holes 13 and the number of the atomization units 4 are 2, the atomization holes 13 are arranged in the middle of the front end of the probe body 11, and the ultrasonic holes 12 are arranged on the outer sides of the atomization holes 13;

the diameter ratio of the matching layer 31 to the piezoelectric ceramic 32 is 0.05:1-1:0.05;

the thickness ratio of the matching layer 31 to the piezoelectric ceramic 32 is 0.05:1-1:0.05;

the thickness ratio of the backing 33 to the piezoelectric ceramic 32 is 0.05:1-1:0.05;

the diameter of the piezoelectric ceramic 32 is 2 mm-50 mm;

the ceramic ring 42 has an outer diameter of 11.3mm, an inner diameter of 3.1mm, and a thickness of 0.6mm;

the probe 1 and the handle 2 are made of metal or organic matters, and the thickness of the emitting surface of the shell is 0.2mm.

Example 2

As shown in fig. 1-4, a novel impedance matching ultrasonic beauty probe comprises a probe 1, a handle 2, an ultrasonic unit 3 and an atomization unit 4;

the ultrasonic unit 3 is divided into a matching layer 31, a piezoelectric ceramic plate 32, a backing 33 and leads; the size of the piezoelectric ceramic plate 32 is 10mm;

the ceramic ring 42 has a size of 11.3mm in outer diameter, 3.1mm in inner diameter, and 0.6mm in thickness;

the ratio of the diameter of the matching layer 31 of the ultrasonic unit 3 to the diameter of the piezoelectric ceramic plate 32 is 1:1, a step of;

the ratio of the thickness of the matching layer 31 to the thickness of the piezoelectric ceramic sheet 32 of the ultrasonic unit 3 is 1:1, a step of;

the ratio of the thickness of the backing 33 of the ultrasonic unit 3 to the thickness of the piezoelectric ceramic sheet 32 is 2:1, a step of;

the shell of the ultrasonic unit 3 is made of metal or organic matter, and the thickness of the emitting surface of the shell is 0.2mm;

the handle 2 is sized using a conventional hand-held, die-cut handle.

The number of atomizing units 4 is 2, and the number of ultrasonic units 3 is 6.

Example 3

As shown in fig. 1-4, the novel impedance matching ultrasonic beauty probe comprises the components of a probe 1, a handle 2, an ultrasonic unit 3 and an atomization unit 4;

the ultrasonic unit 3 is divided into a matching layer 31, a piezoelectric ceramic plate 32, a backing 33 and leads; the size of the piezoelectric ceramic plate 32 is 16mm;

the ceramic ring 42 of the atomizing unit 4 has a size of 11.3mm in outer diameter, 3.1mm in inner diameter and 0.6mm in thickness;

matching layer 31 diameter to piezoelectric ceramic sheet 32 diameter ratio 1:1, a step of;

the ratio of the thickness of the matching layer 31 to the thickness of the piezoelectric ceramic sheet 32 is 1:1, a step of;

the ratio of the thickness of the backing 33 to the thickness of the piezoelectric ceramic sheet 32 is 2:1, a step of;

the shell of the ultrasonic unit 3 is made of metal or organic matter, and the thickness of the emitting surface of the shell is 0.2mm;

the handle size adopts a conventional hand-held die-sinking handle.

The number of the atomizing units is 2, and the number of the ultrasonic units is 4.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (10)

1. The utility model provides a novel impedance match ultrasonic wave cosmetic probe which characterized in that: comprises a probe (1), a handle (2) connected with the rear end of the probe (1), an ultrasonic unit (3) and an atomization unit (4) which are arranged in the probe (1);

the probe (1) comprises a probe body (11), an ultrasonic hole (12) arranged at the front end of the probe body (11), an atomization hole (13) and a back plate (14) connected inside the probe body (11) and positioned at the rear part of the ultrasonic hole (12) and the atomization hole (13), wherein the ultrasonic hole (12) and the atomization hole (13) are through holes, the ultrasonic unit (3) is fixed in the ultrasonic hole (12), and the atomization unit (4) is fixed at the front end of the atomization hole (13);

the ultrasonic unit (3) comprises a matching layer (31), piezoelectric ceramics (32) and a back lining (33) which are sequentially connected, wherein the back lining (33) is fixedly adhered to the back board (14), and the matching layer (31) is arranged at the front end of the ultrasonic hole (12);

the atomizing unit (4) comprises an atomizing membrane (41), a ceramic ring (42) fixed at the rear end of the atomizing membrane (41), a silica gel pad (43) fixed at the rear end of the ceramic ring (42) and the front end of the atomizing membrane (41), the number of the silica gel pads (43) is two, the silica gel pad (43) is fixedly adhered to the side wall of the atomizing hole (13), and the middle of the silica gel pad (43) at the front side is provided with a hole.

2. The novel impedance matching ultrasonic cosmetic probe of claim 1, wherein: the ultrasonic unit (3) further comprises an ultrasonic unit lead connected with the backing (33), the ultrasonic unit lead penetrates through the back plate (14) and is arranged inside the probe body (11) and the handle (2), and the ultrasonic unit lead comprises an ultrasonic unit positive electrode lead and an ultrasonic unit negative electrode lead;

the atomizing unit (4) further comprises an atomizing unit lead wire which is connected with the ceramic ring (42) and penetrates through the back plate (14) to be arranged inside the probe body (11) and the handle (2), and the atomizing unit lead wire comprises an atomizing unit positive electrode lead wire and an atomizing unit negative electrode lead wire.

3. The novel impedance matching ultrasonic cosmetic probe of claim 1, wherein: the ultrasonic frequency of the ultrasonic unit (3) is any one of the following: 125kHz, 160kHz, 200kHz, 1MHz, 2MHz, 3MHz, 4MHz, and 5MHz.

4. The novel impedance matching ultrasonic cosmetic probe of claim 1, wherein: the number of the ultrasonic holes (12), the atomizing holes (13), the ultrasonic units (3) and the atomizing units (4) is 2 or more.

5. The novel impedance matching ultrasonic cosmetic probe of claim 4, wherein: the ultrasonic hole (12) with the quantity of ultrasonic wave unit (3) is 4, atomizing hole (13) with the quantity of atomizing unit (4) is 2, atomizing hole (13) set up in the front end middle part of probe body (11), ultrasonic hole (12) set up in the outside of atomizing hole (13).

6. The novel impedance matching ultrasonic cosmetic probe of claim 1, wherein: the diameter ratio of the matching layer (31) to the piezoelectric ceramic (32) is 0.05:1-1:0.05, and the thickness ratio is 0.05:1-1:0.05.

7. The novel impedance matching ultrasonic cosmetic probe of claim 1, wherein: the thickness ratio of the backing (33) to the piezoelectric ceramic (32) is 0.05:1-1:0.05.

8. The novel impedance matching ultrasonic cosmetic probe of claim 1, wherein: the diameter of the piezoelectric ceramic (32) is 2 mm-50 mm.

9. The novel impedance matching ultrasonic cosmetic probe of claim 1, wherein: the ceramic ring (42) has an outer diameter of 11.3mm, an inner diameter of 3.1mm and a thickness of 0.6mm.

10. The novel impedance matching ultrasonic cosmetic probe of claim 1, wherein: the piezoelectric ceramic (32) and the back lining (33) are externally provided with a shell, the shell is fixedly bonded with the back board (14), the shell is made of metal or organic matters, and the thickness of the emitting surface of the shell is 0.2mm.

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