CN218305847U

CN218305847U - Beauty treatment hand tool

Info

Publication number: CN218305847U
Application number: CN202221791192.9U
Authority: CN
Inventors: 李建辉
Original assignee: Shenzhen Shengdayu Technology Co ltd
Current assignee: Shenzhen Shengdayu Technology Co ltd
Priority date: 2022-07-12
Filing date: 2022-07-12
Publication date: 2023-01-17
Anticipated expiration: 2032-07-12

Abstract

The utility model provides a beauty hand tool, which comprises a hollow shell, a hollow rotary sleeve, a sensing device and a control mainboard, wherein the rotary sleeve is rotatably sleeved on the shell; the sensing device is electrically connected with the control main board, when the sensing device senses that the rotary sleeve rotates, the control main board is used for adjusting the intensity of laser emitted by the laser emitter, so that a user can adjust the intensity of the laser emitted by the laser emitter by rotating the rotary sleeve, and when the intensity of the laser emitted by the laser emitter is reduced, the density of the laser is low, the energy is weak, and the laser is suitable for repairing slight skin damage; when the intensity of the laser emitted by the laser emitter is adjusted to be high, the laser has high density and high energy, and is suitable for repairing severe skin injury, such as scar removal.

Description

Beauty treatment hand tool

Technical Field

The utility model relates to a cosmetic technical field, in particular to cosmetic hand utensil.

Background

With the increasing living standard of people, beauty instruments become necessities of life of consumers, such as laser beauty instruments and the like. The laser beauty instrument focuses and irradiates laser on human skin through the focusing mirror so as to achieve the effect of repairing the human skin. However, the irradiation intensity provided by the existing beauty instrument on the market at present cannot be adjusted, the laser intensity cannot be adjusted according to actual requirements, targeted repair is difficult to be made according to the actual damage degree of skin, and user experience is greatly influenced. Therefore, there is a need in the market to provide an adjustable beauty hand set with adjustable laser irradiation intensity, so that a user can make targeted repair according to the actual damage degree of skin, and the user experience is improved.

Disclosure of Invention

In order to overcome the not enough of prior art, the utility model provides a cosmetic hand utensil with adjustable laser irradiation intensity adjustable to the user can make the restoration of pertinence according to the actual damage degree of skin, with the experience that improves the user.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a beauty hand tool, which comprises a hollow shell, a hollow rotary sleeve, an induction device and a control mainboard, wherein the rotary sleeve is rotatably sleeved on the shell; the sensing device is electrically connected with the control main board, and when the sensing device senses that the rotary sleeve rotates, the control main board is used for adjusting the intensity of laser emitted by the laser emitter.

As an improvement of the present invention, the control main board and the sensing device are both disposed inside the rotating sleeve, and the inside of the rotating sleeve is rotatably sleeved on the outside of the housing; the shell is provided with a first sensing area, a second sensing area, a third sensing area and a fourth sensing area, the sensing device comprises a first sensor, a second sensor, a third sensor and a fourth sensor, when the first sensor rotates to the first sensing area along with the rotating sleeve, the second sensor does not rotate to the second sensing area, the third sensor does not rotate to the third sensing area, and the fourth sensor does not rotate to the fourth sensing area, the control main board is used for controlling the laser emitter to emit laser with first intensity; when the fourth sensor rotates to the fourth sensing area along with the rotating sleeve, the first sensor does not rotate to the first sensing area, the second sensor does not rotate to the second sensing area, and the third sensor does not rotate to the third sensing area, the control main board is used for controlling the laser emitter to emit laser with a second intensity.

As an improvement of the present invention, when the first sensor rotates to the first sensing area along with the rotating sleeve, the second sensor rotates to the second sensing area, the third sensor does not rotate to the third sensing area, and the fourth sensor does not rotate to the fourth sensing area, the control main board is used to control the laser emitter to emit laser with a third intensity; when the first sensor rotates to the first sensing area along with the rotating sleeve, the third sensor rotates to the third sensing area, the second sensor does not rotate to the second sensing area, and the fourth sensor does not rotate to the fourth sensing area, the control main board is used for controlling the laser emitter to emit laser with fourth intensity; when the first sensor rotates to the first sensing area along with the rotating sleeve, the fourth sensor rotates to the fourth sensing area, the second sensor does not rotate to the second sensing area, and the third sensor does not rotate to the third sensing area, the control main board is used for controlling the laser emitter to emit laser with fifth intensity.

As an improvement of the present invention, when the first sensor rotates to the first sensing area along with the rotating sleeve, the second sensor rotates to the second sensing area, the third sensor rotates to the third sensing area, and the fourth sensor does not rotate to the fourth sensing area, the control main board is used to control the laser emitter to emit laser with a sixth intensity; when the first sensor rotates to the first sensing area along with the rotating sleeve, the second sensor rotates to the second sensing area, the fourth sensor rotates to the fourth sensing area, and the third sensor does not rotate to the third sensing area, the control main board is used for controlling the laser emitter to emit laser with seventh intensity; when the first sensor rotates to the first sensing area along with the rotating sleeve, the third sensor rotates to the third sensing area, the fourth sensor rotates to the fourth sensing area, and the second sensor does not rotate to the second sensing area, the control main board is used for controlling the laser emitter to emit laser with eighth intensity; when the first sensor does not rotate to the first sensing area along with the rotating sleeve, the second sensor does not rotate to the second sensing area, the third sensor does not rotate to the third sensing area, and the fourth sensor does not rotate to the fourth sensing area, the control main board is used for controlling the laser emitter to emit laser with ninth intensity.

As the utility model discloses an improvement, first response region, second response region third response region and fourth response region are followed the axis direction of casing is from last to arranging the setting in proper order down, first sensor, second sensor, third sensor and fourth sensor are followed rotatory telescopic axis direction is from last to arranging the setting in proper order down.

As an improvement of the present invention, the first sensing area is a first sensing opening, the second sensing area is a second sensing opening, the third sensing area includes a third sensing opening and a fourth sensing opening, the fourth sensing area includes a fifth sensing opening and a sixth sensing opening, the first sensing opening includes a first left side and a first right side, the second sensing opening includes a second left side and a second right side, the third sensing opening includes a third left side and a third right side, the fourth sensing opening includes a fourth left side and a fourth right side, the fifth sensing opening includes a fifth left side and a fifth right side, the sixth sensing opening includes a sixth left side and a sixth right side, the second right side and the third right side all with first right side parallel and level sets up, the second left side is located the first left side with between the first right side, the third left side is located the second left side with between the first right side, the fourth right side and the fourth left side is all located the first left side with between the second left side, the fifth right side is located the second left side with between the third left side, the fifth left side is located the fourth right side with between the fourth left side, the sixth left side with the sixth right side all with stagger setting about first response mouth, second response mouth, third response mouth, fourth response mouth and fifth response mouth.

As an improvement of the utility model, the first sensor the second sensor the third sensor and the fourth sensor are infrared sensor.

As an improvement of the utility model, still include display device, the control mainboard and induction system all with the display device electricity is connected, display device is used for showing the intensity of laser.

As the utility model discloses an improvement, be provided with into light mouth and light-emitting window on the casing, rotatory muffjoint is located the light mouth department that advances of casing, rotatory sleeve still is provided with the opening, still includes plano-convex lens and plano-concave lens, plano-convex lens locates advance the light mouth with between the light-emitting window, plano-concave lens locates plano-convex lens with between the light-emitting window, laser loops through the opening, advance the light mouth plano-convex lens plano-concave lens and the light-emitting window.

As an improvement of the utility model, the scanner further comprises a scanning head, the scanning head is connected with the casing through a hollow connecting sleeve.

The utility model has the advantages that: through the structure, the rotary sleeve is rotatably sleeved on the shell as the rotary sleeve comprises the hollow shell, the hollow rotary sleeve, the sensing device and the control main board; the sensing device is electrically connected with the control main board, when the sensing device senses that the rotating sleeve rotates, the control main board is used for adjusting the intensity of laser emitted by the laser emitter, so that a user can adjust the intensity of the laser emitted by the laser emitter by rotating the rotating sleeve, wherein when the intensity of the laser emitted by the laser emitter is reduced, the density of the laser is low, the energy is weak, and the laser is suitable for repairing slight skin damage, for example, the laser can be used for shrinking pores; when the intensity of the laser emitted by the laser emitter is adjusted to be high, the laser has high density and high energy, and is suitable for repairing severe skin injury, such as scar removal.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

The present invention will be further explained with reference to the drawings and examples.

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

fig. 2 is an exploded view of the present invention;

FIG. 3 is an enlarged view at A of FIG. 2;

FIG. 4 is a cross-sectional view taken along the plano-concave lens, the plano-convex lens, the dust mirror, the sensing device, and the control main board;

FIG. 5 is an enlarged view at B of FIG. 4;

FIG. 6 is an enlarged view at C of FIG. 4;

FIG. 7 is a partial schematic view of a first sensing region, a second sensing region, a third sensing region, and a fourth sensing region;

FIG. 8 is a further partial schematic view of the first sensing region, the second sensing region, the third sensing region, and the fourth sensing region;

FIG. 9 is a partial schematic view of a first sensing region, a third sensing region, and a fourth sensing region;

Detailed Description

Referring to fig. 1 to 9, a beauty hand tool comprises a hollow casing 1, a hollow rotary sleeve 3, a sensing device 4 and a control main board 5, wherein the rotary sleeve 3 is rotatably sleeved on the casing 1; sensing device 4 is connected with control mainboard 5 electricity, and when sensing device 4 sensed rotatory sleeve 3 and rotated, control mainboard 5 was used for adjusting the intensity of the laser that laser emitter launches. Through the structure, the rotary sleeve is rotatably sleeved on the shell as the rotary sleeve comprises the hollow shell, the hollow rotary sleeve, the sensing device and the control main board; the sensing device is electrically connected with the control main board, when the sensing device senses that the rotating sleeve rotates, the control main board is used for adjusting the intensity of laser emitted by the laser emitter, so that a user can adjust the intensity of the laser emitted by the laser emitter by rotating the rotating sleeve, wherein when the intensity of the laser emitted by the laser emitter is reduced, the density of the laser is low, the energy is low, and the laser is suitable for repairing slight skin injury, for example, the laser can be used for shrinking pores; when the intensity of the laser emitted by the laser emitter is adjusted to be high, the laser has high density and high energy, and is suitable for repairing severe skin injury, such as scar removal.

In this embodiment, the control main board 5 and the sensing device 4 are both disposed on the inner side of the rotating sleeve 3, and the inner side of the rotating sleeve 3 is rotatably sleeved on the outer side of the housing 1; the shell 1 is provided with a first sensing area 6, a second sensing area 7, a third sensing area 8 and a fourth sensing area 9, the sensing device 4 comprises a first sensor 41, a second sensor 42, a third sensor 43 and a fourth sensor 44, and when the first sensor 41 rotates to the first sensing area 6 along with the rotating sleeve 3, the second sensor 42 does not rotate to the second sensing area 7, the third sensor 43 does not rotate to the third sensing area 8 and the fourth sensor 44 does not rotate to the fourth sensing area 9, the control main board 5 is used for controlling the laser emitter to emit laser with a first intensity; when the fourth sensor 44 rotates to the fourth sensing area 9 along with the rotating sleeve 3, the first sensor 41 does not rotate to the first sensing area 6, the second sensor 42 does not rotate to the second sensing area 7, and the third sensor 43 does not rotate to the third sensing area 8, the control main board 5 is used for controlling the laser emitter to emit the laser with the second intensity. When the first sensor 41 rotates to the first sensing area 6 along with the rotating sleeve 3, the second sensor 42 rotates to the second sensing area 7, the third sensor 43 does not rotate to the third sensing area 8, and the fourth sensor 44 does not rotate to the fourth sensing area 9, the control main board 5 is used for controlling the laser emitter to emit laser with a third intensity; when the first sensor 41 rotates to the first sensing area 6 along with the rotating sleeve 3, the third sensor 43 rotates to the third sensing area 8, the second sensor 42 does not rotate to the second sensing area 7, and the fourth sensor 44 does not rotate to the fourth sensing area 9, the control main board 5 is used for controlling the laser emitter to emit laser with a fourth intensity; when the first sensor 41 rotates to the first sensing area 6 along with the rotating sleeve 3, the fourth sensor 44 rotates to the fourth sensing area 9, the second sensor 42 does not rotate to the second sensing area 7, and the third sensor 43 does not rotate to the third sensing area 8, the control main board 5 is used for controlling the laser emitter to emit the laser with the fifth intensity. Specifically, when the first sensor 41 rotates to the first sensing area 6 along with the rotating sleeve 3, the second sensor 42 rotates to the second sensing area 7, the third sensor 43 rotates to the third sensing area 8, and the fourth sensor 44 does not rotate to the fourth sensing area 9, the control main board 5 is used for controlling the laser emitter to emit laser with a sixth intensity; when the first sensor 41 rotates to the first sensing area 6 along with the rotating sleeve 3, the second sensor 42 rotates to the second sensing area 7, the fourth sensor 44 rotates to the fourth sensing area 9, and the third sensor 43 does not rotate to the third sensing area 8, the control main board 5 is used for controlling the laser emitter to emit laser with a seventh intensity; when the first sensor 41 rotates to the first sensing area 6 along with the rotating sleeve 3, the third sensor 43 rotates to the third sensing area 8, the fourth sensor 44 rotates to the fourth sensing area 9, and the second sensor 42 does not rotate to the second sensing area 7, the control main board 5 is used for controlling the laser emitter to emit laser with eighth intensity; when the first sensor 41 does not rotate to the first sensing area 6 along with the rotating sleeve 3, the second sensor 42 does not rotate to the second sensing area 7, the third sensor 43 does not rotate to the third sensing area 8, and the fourth sensor 44 does not rotate to the fourth sensing area 9, the control main board 5 is used for controlling the laser emitter to emit laser with a ninth intensity. Further, the first sensing area 6, the second sensing area 7, the third sensing area 8 and the fourth sensing area 9 are sequentially arranged from top to bottom along the axial direction of the housing 1, and the first sensor 41, the second sensor 42, the third sensor 43 and the fourth sensor 44 are sequentially arranged from top to bottom along the axial direction of the rotating sleeve 3. Furthermore, the first sensing region 6 is a first sensing opening 61, the second sensing region 7 is a second sensing opening 71, the third sensing region 8 includes a third sensing opening 81 and a fourth sensing opening 82, the fourth sensing region 9 includes a fifth sensing opening 91 and a sixth sensing opening 92, the first sensing opening 61 includes a first left side 611 and a first right side 612, the second sensing opening 72 includes a second left side 711 and a second right side 712, the third sensing opening 81 includes a third left side 811 and a third right side 812, the fourth sensing opening 82 includes a fourth left side 821 and a fourth right side 822, the fifth sensing opening 91 includes a fifth left side 911 and a fifth right side 912, the sixth sensing opening 92 includes a sixth left side 921 and a sixth right side 922, second right side 712 and third right side 812 are both flush with first right side 612, second left side 711 is disposed between first left side 611 and first right side 612, third left side 811 is disposed between second left side 711 and first right side 612, fourth right side 822 and fourth left side 821 are both disposed between first left side 611 and second left side 711, fifth right side 912 is disposed between second left side 711 and third left side 811, fifth left side 911 is disposed between fourth right side 822 and fourth left side 821, and sixth left side 921 and sixth right side 922 are both offset from first sensing opening 61, second sensing opening 71, third sensing opening 81, fourth sensing opening 82 and fifth sensing opening 91. Further, the first sensor 41, the second sensor 42, the third sensor 43, and the fourth sensor 44 are all infrared sensors. Through above-mentioned structure, first sensor, second sensor, third sensor and fourth sensor accessible response itself are located the induction port to obtain different induced signal combination, adjust the laser intensity that laser emitter sent through different induced signal combination, for example: when the first sensor rotates to first response mouth along with rotatory sleeve, the second sensor does not rotate to second response mouth, and the third sensor does not rotate to third response mouth and fourth response mouth, and the fourth sensor does not rotate to fifth response mouth and sixth response mouth when, forms first group sensing signal, and the control mainboard is according to the laser that first group sensing signal control laser emitter launches first intensity. Another example is: when the fourth sensor rotates to the sixth induction port along with the rotary sleeve, the first sensor does not rotate to the first induction port, the second sensor does not rotate to the second induction port, and the third sensor does not rotate to the third induction port and the fourth induction port, a second group of induction signals are formed, and the control mainboard controls the laser emitter to emit laser with second intensity according to the second group of induction signals. Another example is: when the first sensor rotates to first induction port along with rotatory sleeve, the second sensor rotates to second induction port, and the third sensor does not rotate to third induction port and fourth induction port, and the fourth sensor does not rotate to fifth induction port and sixth induction port, forms third group's sensing signal, and the control mainboard is according to the laser that third group's sensing signal control laser emitter launches the third intensity. Another example is: when the first sensor rotates to the first induction port along with the rotating sleeve, the third sensor rotates to the fourth induction port, the second sensor does not rotate to the second induction port, and the fourth sensor does not rotate to the fifth induction port and the sixth induction port, a fourth group of induction signals are formed, and the control main board controls the laser emitter to emit laser with fourth intensity according to the fourth group of induction signals. Another example is: when the first sensor rotates to the first induction port along with the rotating sleeve, the fourth sensor rotates to the fifth induction port, the second sensor does not rotate to the second induction port, and the third sensor does not rotate to the third induction port and the fourth induction port, a fifth group of induction signals are formed, and the control mainboard controls the laser transmitter to transmit laser with fifth intensity according to the fifth group of induction signals. Another example is: when the first sensor rotates to the first induction port along with the rotating sleeve, the second sensor rotates to the second induction port, the third sensor rotates to the third induction port, and the fourth sensor does not rotate to the fifth induction port and the sixth induction port, a sixth group of induction signals are formed, and the control mainboard controls the laser emitter to emit laser with sixth intensity according to the sixth group of induction signals. Another example is: when the first sensor rotates to the first induction port along with the rotating sleeve, the second sensor rotates to the second induction port, the third sensor does not rotate to the third induction port and the fourth induction port, and the fourth sensor rotates to the fifth induction port, a seventh group of induction signals are formed, and the control mainboard controls the laser transmitter to transmit laser with seventh intensity according to the seventh group of induction signals. Another example is: when the first sensor rotates to first response mouth along with rotatory sleeve, the second sensor does not rotate to second response mouth, and the third sensor rotates to fourth response mouth, and the fourth sensor rotates when reaching the fifth response mouth, forms eighth group's sensing signal, and the control mainboard is according to eighth group's sensing signal control laser emitter and launches the laser of eighth intensity. Another example is: when the first sensor does not rotate to the first induction port along with the rotating sleeve, the second sensor does not rotate to the second induction port, the third sensor does not rotate to the third induction port and the fourth induction port, and the fourth sensor does not rotate to the fifth induction port and the sixth induction port, a ninth group of induction signals are formed, and the control mainboard controls the laser emitter to emit laser with ninth intensity according to the ninth group of induction signals.

In this embodiment, the laser device further includes a display device 10, the control main board 5 and the sensing device 4 are electrically connected to the display device 10, and the display device 10 is used for displaying the intensity of the laser. Through the structure, the display device can display the intensity of the corresponding laser according to the combination of the induction signals acquired by the induction device, for example, when the induction device acquires the first group of induction signals, the display device displays the intensity of the laser as the first intensity.

In this embodiment, the housing 1 is provided with a light inlet 13 and a light outlet 14, the rotating sleeve 3 is sleeved on the light inlet 13 of the housing, the rotating sleeve 3 is further provided with an opening 31, and further includes a plano-convex lens 11 and a plano-concave lens 12, the plano-convex lens 11 is disposed between the light inlet 13 and the light outlet 14, the plano-concave lens 12 is disposed between the plano-convex lens 11 and the light outlet 14, and the laser sequentially passes through the opening 31, the light inlet 13, the plano-convex lens 11, the plano-concave lens 12 and the light outlet 14. Through the structure, because be provided with into light mouth 13 and light-emitting window 14 on the casing 1, the light mouth 13 department of advancing of casing is located to rotatory sleeve 3 cover, rotatory sleeve 3 still is provided with opening 31, still include planoconvex lens 11 and planoconcave lens 12, planoconcave lens 11 locates between light mouth 13 and the light-emitting window 14, planoconcave lens 12 locates between planoconcave lens 11 and the light-emitting window 14, the laser loops through opening 31, light mouth 13, planoconcave lens 11, planoconcave lens 12 and light-emitting window 14, make after the laser enters into planoconcave lens through the opening, the planoconcave lens focuses on the laser, penetrate into planoconcave lens again, planoconcave lens can diverge the laser, in order to reach the increase facula and adjust the effect that reduces laser energy, so that YAG chinese name of high strength: the solid laser can act on the surface of the skin, the laser irradiation range is large, the energy is weak, and the laser is suitable for repairing mild skin injury, for example, the laser can be used for shrinking pores, further, the function of adjusting the laser intensity is realized, and the user experience is improved.

In this embodiment, the scanner further includes a scanning head 2, and the scanning head 2 is connected to the housing 1 through a hollow connection kit 21. The connection kit 21 includes a first mounting opening 211 and a second mounting opening 212, the first mounting opening 211 is sleeved on the light outlet 14, and the second mounting opening 212 is sleeved on the scanning head 2. Specifically, the scanning head 2 has a scanning port 22. Further, a dust-proof mirror 213 is provided between the first mounting port 211 and the second mounting port 212, and the laser light passes through the light inlet 13, the plano-convex lens 11, the plano-concave lens 12, the light outlet 14, the first mounting port 211, the dust-proof mirror 213, the second mounting port 212, and the scanning port 22 in this order. Further, the scanning head 2 is a scanning head which is narrow at the bottom and wide at the top. Through the structure, the installation of the scanning head is effectively realized, and the scanning head can be used for accurately applying laser to the skin to be repaired. And because the dustproof mirror is arranged, impurities such as dust can be prevented from entering the shell, so that the impurities such as dust can be effectively prevented from being attached to the plano-concave lens and the plano-convex lens, and the beauty handpieces can work stably for a long time.

In this embodiment, the lens module further includes a first lens mounting bracket 111, and the plano-convex lens 11 is connected to the housing 1 through the first lens mounting bracket 111. The lens module further comprises a second lens mounting frame 121, and the plano-concave lens 12 is connected with the shell 1 through the second lens mounting frame 121. Specifically, the convex surface 112 of the plano-convex lens 11 is disposed toward the light entrance 13, and the flat surface 113 of the plano-convex lens 11 is disposed toward the light exit 14. Further, the flat surface 122 of the plano-concave lens 12 is provided in a direction toward the light entrance, and the concave surface 123 of the plano-concave lens 12 is provided in a direction toward the light exit 14. Through the structure, the design is reasonable, the structure is simple, and the installation of the plano-concave lens and the plano-convex lens is effectively realized.

The foregoing is a description of one or more embodiments provided in connection with the detailed description and is not intended to limit the invention to the precise form disclosed. All with the utility model discloses a method, structure etc. are similar, the same, or to the utility model discloses make a plurality of technological deductions or replacement under the design prerequisite, all should regard as the utility model discloses a protection scope.

Claims

1. The beauty hand tool is characterized by comprising a hollow shell (1), a hollow rotating sleeve (3), a sensing device (4) and a control main board (5), wherein the rotating sleeve (3) is rotatably sleeved on the shell (1); the sensing device (4) is electrically connected with the control main board (5), and when the sensing device (4) senses that the rotating sleeve (3) rotates, the control main board (5) is used for adjusting the intensity of laser emitted by the laser emitter.

2. The beauty hand tool according to claim 1, wherein the control main board (5) and the sensing device (4) are both arranged at the inner side of the rotating sleeve (3), and the inner side of the rotating sleeve (3) is rotatably sleeved at the outer side of the shell (1); a first sensing area (6), a second sensing area (7), a third sensing area (8) and a fourth sensing area (9) are arranged on the shell (1), the sensing device (4) comprises a first sensor (41), a second sensor (42), a third sensor (43) and a fourth sensor (44), when the first sensor (41) rotates to the first sensing area (6) along with the rotating sleeve (3), the second sensor (42) does not rotate to the second sensing area (7), the third sensor (43) does not rotate to the third sensing area (8), and the fourth sensor (44) does not rotate to the fourth sensing area (9), the control main board (5) is used for controlling the laser emitter to emit laser with a first intensity; when the fourth sensor (44) rotates to the fourth sensing area (9) along with the rotating sleeve (3), the first sensor (41) does not rotate to the first sensing area (6), the second sensor (42) does not rotate to the second sensing area (7), and the third sensor (43) does not rotate to the third sensing area (8), the control main board (5) is used for controlling the laser emitter to emit laser with a second intensity.

3. A cosmetic hand piece according to claim 2, wherein when the first sensor (41) is rotated with the rotating sleeve (3) to the first sensing area (6), the second sensor (42) is rotated to the second sensing area (7), the third sensor (43) is not rotated to the third sensing area (8), and the fourth sensor (44) is not rotated to the fourth sensing area (9), the control main board (5) is configured to control the laser emitter to emit laser light of a third intensity; when the first sensor (41) rotates to the first sensing area (6) along with the rotating sleeve (3), the third sensor (43) rotates to the third sensing area (8), the second sensor (42) does not rotate to the second sensing area (7), and the fourth sensor (44) does not rotate to the fourth sensing area (9), the control main board (5) is used for controlling the laser emitter to emit laser with fourth intensity; when the first sensor (41) rotates to the first sensing area (6) along with the rotating sleeve (3), the fourth sensor (44) rotates to the fourth sensing area (9), the second sensor (42) does not rotate to the second sensing area (7), and the third sensor (43) does not rotate to the third sensing area (8), the control main board (5) is used for controlling the laser emitter to emit laser with a fifth intensity.

4. A beauty hand tool according to claim 3, characterized in that when the first sensor (41) rotates with the rotating sleeve (3) to the first sensing area (6), the second sensor (42) rotates to the second sensing area (7), the third sensor (43) rotates to the third sensing area (8), and the fourth sensor (44) does not rotate to the fourth sensing area (9), the control main board (5) is used to control the laser emitter to emit laser light of sixth intensity; when the first sensor (41) rotates to the first sensing area (6) along with the rotating sleeve (3), the second sensor (42) rotates to the second sensing area (7), the fourth sensor (44) rotates to the fourth sensing area (9), and the third sensor (43) does not rotate to the third sensing area (8), the control main board (5) is used for controlling the laser emitter to emit laser with seventh intensity; when the first sensor (41) rotates to the first sensing area (6) along with the rotating sleeve (3), the third sensor (43) rotates to the third sensing area (8), the fourth sensor (44) rotates to the fourth sensing area (9), and the second sensor (42) does not rotate to the second sensing area (7), the control main board (5) is used for controlling the laser emitter to emit laser with eighth intensity; when the first sensor (41) does not rotate to the first sensing area (6) along with the rotating sleeve (3), the second sensor (42) does not rotate to the second sensing area (7), the third sensor (43) does not rotate to the third sensing area (8), and the fourth sensor (44) does not rotate to the fourth sensing area (9), the control main board (5) is used for controlling the laser emitter to emit laser with ninth intensity.

5. A cosmetic hand piece according to claim 4, wherein the first sensing area (6), the second sensing area (7), the third sensing area (8) and the fourth sensing area (9) are arranged in sequence from top to bottom along the axial direction of the housing (1), and the first sensor (41), the second sensor (42), the third sensor (43) and the fourth sensor (44) are arranged in sequence from top to bottom along the axial direction of the rotary sleeve (3).

6. A cosmetic hand piece according to claim 5, wherein the first sensing area (6) is a first sensing opening (61), the second sensing area (7) is a second sensing opening (71), the third sensing area (8) comprises a third sensing opening (81) and a fourth sensing opening (82), the fourth sensing area (9) comprises a fifth sensing opening (91) and a sixth sensing opening (92), the first sensing opening (61) comprises a first left side (611) and a first right side (612), the second sensing opening (71) comprises a second left side (711) and a second right side (712), the third sensing opening (81) comprises a third left side (811) and a third right side (812), the fourth sensing opening (82) comprises a fourth left side (821) and a fourth right side (822), the fifth sensing opening (91) comprises a fifth left side (911) and a fifth right side (912), the sixth sensing opening (92) comprises a sixth left side (811) and a sixth right side (812), the first left side (711) and the second right side (711) are arranged between the first left side (811) and the second right side (611), the fifth sensing opening (612) are arranged between the third left side (811) and the fourth right side (711), the third side (711) are arranged between the sixth side (711, the third side (812) and the fourth side (711), and the right side (711) are arranged between the fourth side (711), and the fourth side (812) respectively (612) Between, fourth right side (822) and fourth left side (821) all locate first left side (611) with between second left side (711), fifth right side (912) are located second left side (711) with between third left side (811), fifth left side (911) are located fourth right side (822) with between fourth left side (821), sixth left side (921) with sixth right side (922) all with first response mouth (61), second response mouth (71), third response mouth (81), fourth response mouth (82) and fifth response mouth (91) stagger the setting about.

7. Cosmetic hand piece according to claim 6, characterized in that said first sensor (41), said second sensor (42), said third sensor (43) and said fourth sensor (44) are all infrared sensors.

8. The beauty hand tool according to claim 7, further comprising a display device (10), wherein the control main board (5) and the sensing device (4) are electrically connected to the display device (10), and the display device (10) is used for displaying the intensity of the laser.

9. The beauty hand tool according to claim 1, wherein the housing (1) is provided with a light inlet (13) and a light outlet (14), the rotary sleeve (3) is sleeved on the light inlet (13) of the housing, the rotary sleeve (3) is further provided with an opening (31), the beauty hand tool further comprises a planoconvex lens (11) and a planoconcave lens (12), the planoconvex lens (11) is arranged between the light inlet (13) and the light outlet (14), the planoconcave lens (12) is arranged between the planoconvex lens (11) and the light outlet (14), laser sequentially passes through the opening (31), and the light inlet (13), the planoconvex lens (11), the planoconcave lens (12) and the light outlet (14).

10. Cosmetic hand piece according to claim 9, further comprising a scanning head (2), the scanning head (2) being connected to the housing (1) by a hollow connection kit (21).