CN108378890B

CN108378890B - Skin treater

Info

Publication number: CN108378890B
Application number: CN201710395732.9A
Authority: CN
Inventors: 白戈; 易晓兵; 朱昊轩
Original assignee: Beijing Eazy Tek Bio Technology Co ltd
Current assignee: Beijing Eazy Tek Bio Technology Co ltd
Priority date: 2017-05-27
Filing date: 2017-05-27
Publication date: 2023-08-04
Anticipated expiration: 2037-05-27
Also published as: CN108378890A

Abstract

The invention discloses a skin treater, which comprises a handle body with a hollow structure, wherein the front end of the handle body is provided with a mounting opening communicated with an inner cavity of the handle body, and the mounting opening is provided with a front end treatment assembly. The handle body inner chamber is equipped with treater circuit subassembly, power supply unit and motor, and the motor sets up in the lower part of the handle body inner chamber, and the output shaft of motor stretches out to the installing port outside. The power supply device supplies power to the processor circuit assembly and the motor. The motor is electrically connected with the processor circuit assembly. On the one hand, the invention can efficiently and rapidly treat the skin of the person to be detected, thereby improving the efficiency of blood sugar detection work; on the other hand, the noninvasive treatment not only reduces the pain of the person to be detected, but also avoids wound infection, and effectively improves the working condition of blood sugar detection work.

Description

Skin treater

Technical Field

The present invention relates to a skin treater.

Background

Along with the rapid development of national economy and the change of ecological environment, the pace of life of people is gradually increased, diabetes becomes increasingly a public health problem threatening human health, and the higher incidence rate of diabetes and complications caused by the diabetes seriously affect the physical health and the quality of life of patients. Diabetes mellitus has become the third most non-infectious disease which endangers human health after malignant tumors and cardiovascular and cerebrovascular diseases at present. Under the urgent situation, the fight between human beings and diseases is not stopped, the research of diabetes is continuously progressed, and new control strategies and methods are continuously applied to clinic, so that the final radical cure of diabetes by human beings is not quite inadvisable.

The biochemical blood sugar detection method is a main blood sugar detection method at present, although the detection method has been developed and matured, the current blood sugar detection equipment also needs to collect blood samples of a person to be detected in the use process, so that the complexity of operation is increased, meanwhile, the pain of the person to be detected is increased, and related equipment for blood sugar monitoring is urgently needed to be designed to meet the actual use requirement.

Disclosure of Invention

It is an object of the present invention to provide a skin treater.

The technical scheme for realizing the aim of the invention is as follows: the skin treater comprises a handle body with a hollow structure, wherein the front end of the handle body is provided with a mounting port communicated with the inner cavity of the handle body, and the mounting port is provided with a front end treatment assembly; the handle body inner cavity is provided with a processor circuit component, a power supply device and a motor, the motor is arranged at the front end of the handle body inner cavity, and an output shaft of the motor extends out of the mounting port; the power supply device supplies power to the processor circuit component and the motor; the motor is connected with the processor circuit component.

The processor circuit component comprises a circuit board, a main control module arranged on the circuit board, a skin impedance acquisition module connected with the main control module and a motor driving module; the motor driving module receives a control signal of the main control module through the motor driving chip so as to control the rotation of the motor.

The front end processing assembly comprises a head cover detachably connected to the handle body outside the mounting port, a top end cover sleeved on the head cover and a disposable processing head.

The machine head cover is of a cover body structure with an opening at the rear end, which is made of conductive materials, and the front end face of the machine head cover is provided with a cover body through hole which penetrates up and down, and the machine head cover is detachably connected to the mounting opening of the handle body through the opening at the rear end; the head cover is connected with the processor circuit component through a power supply wire arranged inside;

the top end cover comprises a connecting cover at the bottom end and a hollow contact end arranged on the front end surface of the connecting cover; the rear end of the connecting cover is clamped at the front end of the head cover; the front end face and the outer surface of the top end cover are provided with conductive coatings at the parts matched and connected with the head cover; and a connecting cover through hole is formed in the connecting cover in the contact end.

The disposable treatment head is a cylinder body with an opening at the rear end and made of conductive materials, and the front end surface of the cylinder body is provided with a convex grinding strip;

the machine head cover is matched with the top end cover and then connected to the mounting opening of the handle body, and an output shaft of the motor sequentially penetrates through the cover body through hole and the connecting cover through hole and then protrudes out of the front end surface of the connecting cover; the disposable treatment head is sleeved at the outer end of the motor output shaft, and the motor output shaft is connected with the skin impedance acquisition module of the processor circuit assembly through a feedback wire arranged inside.

The motor comprises a shell and an output shaft rotatably arranged in the inner cavity of the shell; the rear end of the shell is provided with a rear end opening, and two sides of the shell are provided with symmetrical ports which are symmetrically arranged; the shell is internally provided with a conductive piece, and the conductive piece comprises a first connecting sheet in the middle and contact sheets arranged at two ends of the first connecting sheet; the first connecting piece is of a U-shaped plate structure which is bent downwards, and the first connecting piece bypasses below the output shaft when being fixed in the inner cavity of the shell; the contact piece is a bending plate structure capable of being compressed and restored; the conductive piece passes through the rear end opening of the shell through a power supply wire and is connected with a main control module of the processor circuit assembly;

the contact clamping grooves are formed in two sides of the front end of the handle body and are communicated with the mounting openings, and when the motor is mounted in a matched mode with the inner cavity of the handle body, contact pieces on two sides of the conducting piece fixed in the motor are clamped in the contact clamping grooves and protrude out of the two sides; when the head cover is arranged at the mounting opening of the handle body, the contact piece is propped against the inner wall of the head cover.

The skin impedance acquisition module comprises a sine wave generator, an amplifying circuit and a differential amplifying circuit; the main control module controls the sine wave generator to generate sine wave signals, the sine wave signals are coupled with analog signals generated by the main control module, the signals enter the amplifying circuit and are coupled with signals generated by skin, the signals enter the differential amplifying circuit, and the signals are output to the main control module to be calculated, analyzed and processed to judge the current impedance.

The processor circuit assembly further comprises a charging management module, a voltage control module, a Bluetooth module, a storage module, an LED module, a radio frequency module and a buzzer module which are arranged on the circuit board.

The charging management module comprises a charging management chip and a thermistor; the charging management chip is connected with the power supply device and charges or discharges according to the power supply input condition; the thermistor is arranged on the surface of the power supply device, and the temperature of the battery is collected in real time, so that the power supply device can work safely.

The voltage control module outputs voltage through the voltage stabilizer to supply power to the corresponding circuit.

The Bluetooth module realizes information sending and receiving functions through communication connection with the main control module.

The storage module is connected with the main control module to store and read data.

The LED module is connected with the main control module, and the main control module outputs a level signal to control the LED to be on or off.

The radio frequency module realizes the function of receiving and transmitting radio frequency through communication with the main control module and the Bluetooth module.

The buzzer module is connected with the main control module, and the main control module controls the on-off of the buzzer.

An induction coil is arranged on the inner side of the handle body; the induction coil generates current through magnetic field induction to supply power to the processor circuit assembly or store the current to a power supply device.

An external thread structure is arranged on the handle body outside the mounting port; the nose cover comprises a front cover body and a rear cover body which are arranged from front to back, the front cover body and the rear cover body form a stepped structure, a cover body through hole which penetrates through the front cover body and the rear cover body from front to back is formed in the nose cover, and an internal thread structure which is connected with an external thread structure outside a mounting port is arranged on the inner wall of the cover body through hole of the rear cover body.

In the top end cover, the aperture of the through hole of the connecting cover is smaller than the inner diameter of the contact end, and the inner edge of the through hole of the connecting cover extends upwards to form a fixed cylinder.

The disposable treatment head comprises a treatment part and a fixing part which are arranged from front to back, wherein the treatment part comprises a treatment plate at the front end and a treatment part coaming arranged at the outer edge of the rear end face of the treatment plate, and the fixing part comprises a fixing coaming at the rear end and a second connecting sheet for connecting the front end of the fixing coaming and the rear end of the treatment part coaming.

A permanent magnet is arranged in an output shaft 5-1 of the motor, and the permanent magnet magnetically connects the disposable treatment head to the outer end of the output shaft of the motor; the inner wall of the fixed coaming of the fixing part of the disposable treatment head is sleeved on the fixed cylinder and keeps a gap with the outer wall of the fixed cylinder, and the rear end face of the treatment plate of the treatment part is clung to the outer end of the motor output shaft.

By adopting the technical scheme, the invention has the following beneficial effects: on the one hand, the invention can efficiently and rapidly treat the skin of the person to be detected, thereby improving the efficiency of blood sugar detection work; on the other hand, the noninvasive treatment not only reduces the pain of the person to be detected, but also avoids wound infection, and effectively improves the working condition of blood sugar detection work.

Drawings

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings, in which

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic diagram of an explosive structure according to the present invention.

Fig. 3 is a schematic view of the handle body in fig. 2.

Fig. 4 is a schematic view of the top cover in fig. 2.

Fig. 5 is a schematic diagram of a top end cap in fig. 2.

Fig. 6 is a side view of the top end cap of fig. 2.

Fig. 7 is a cross-sectional view A-A of fig. 6.

FIG. 8 is a schematic view of the nose cap of FIG. 2.

FIG. 9 is a side view of the nose cap of FIG. 2.

Fig. 10 is a schematic view of the disposable processing head of fig. 2.

Fig. 11 is a schematic diagram of the overall structure of the motor in fig. 2.

Fig. 12 is an exploded view of the motor of fig. 2.

Fig. 13 is a schematic structural view of the conductive member in fig. 11.

Fig. 14 is a block diagram of the processor circuit assembly of fig. 2.

Description of the embodiments

Example 1

As shown in fig. 1 to 3, the skin grinding penetration enhancer of the present embodiment comprises a hollow handle body 1, wherein the front end of the handle body 1 is provided with a mounting opening 1-1 communicated with the inner cavity of the handle body 1, and the front end treatment assembly 2 is arranged at the mounting opening 1-1. The inner cavity of the handle body 1 is provided with a processor circuit component 3, a power supply device 4 and a motor 5, the motor 5 is arranged at the front end of the inner cavity of the handle body 1, and an output shaft 5-1 of the motor 5 extends out of the mounting port 1-1. The power supply means 4 supply power to the processor circuit assembly 3 and the motor 5. The motor 5 is connected to the processor circuit assembly 3. An induction coil 7 is arranged at the inner side of the handle body. The induction coil 7 generates a current by magnetic field induction to supply or store the current to the processor circuit assembly 3 to the power supply device 4.

The front end processing component 2 comprises a head cover 2-1 detachably connected to the handle body 1 outside the mounting port 1-1, a top end cover 2-2 sleeved on the head cover 2-1 and a disposable processing head 2-3.

As shown in fig. 8 to 9, the head cover 2-1 is a cover structure with an opening at the rear end made of conductive material, the front end surface is provided with a cover through hole 2-1-1 penetrating up and down, and the head cover 2-1 is detachably connected to the mounting opening 1-1 of the handle body 1 through the opening at the rear end. The nose cap 2-1 is connected to the processor circuit assembly 3 by internally disposed power conductors. An external thread structure is arranged on the handle body 1 outside the mounting port 1-1. The machine head cover 2-1 comprises a front cover body 2-1-2 and a rear cover body 2-1-3 which are arranged from front to back, the front cover body 2-1-2 and the rear cover body 2-1-3 form a stepped platform structure, the machine head cover 2-1 is provided with a cover body through hole 2-1-1 penetrating through the front cover body 2-1-2 and the rear cover body 2-1-3 from front to back, and the inner wall of the cover body through hole 2-1-1 of the rear cover body 2-1-3 is provided with an inner thread structure connected with an outer thread structure outside the mounting opening 1-1.

As shown in fig. 4 to 7, the top cap 2-2 includes a connection cap 2-2-1 at a bottom end and a hollow contact terminal 2-2-2 provided on a front end surface of the connection cap 2-2-1. The rear end of the connecting cover 2-2-1 is clamped at the front end of the head cover 2-1. The front end face and the outer surface of the top end cover 2-2 and the part matched and connected with the head cover 2-1 are provided with conductive coatings, and the coatings are nickel coatings. The connecting cover in the contact end 2-2-2 is provided with a connecting cover through hole 2-2-3. In the top end cover 2-2, the aperture of the connecting cover through hole 2-2-3 is smaller than the inner diameter of the contact end 2-2, and the connecting cover through hole 2-2-3 extends upwards to form a fixed cylinder 2-2-4.

As shown in fig. 10, the disposable processing head 2-3 is a cylinder with an opening at the rear end made of conductive material, and the front end surface of the cylinder is provided with a convex grinding strip 2-3-1. The disposable treatment head 2-3 comprises a treatment part 2-3-2 and a fixing part 2-3-3 which are arranged from front to back, wherein the treatment part 2-3-2 comprises a treatment plate 2-3-2-1 at the front end, a treatment part enclosing plate 2-3-2-2 arranged at the outer edge of the rear end face of the treatment plate 2-3-2-1, the fixing part 2-3-3 comprises a fixing enclosing plate 2-3-3-1 at the rear end, and a second connecting sheet 2-3-3-2 for connecting the front end of the fixing enclosing plate 2-3-3-1 and the rear end of the treatment part enclosing plate 2-3-2-2.

A permanent magnet 8 is arranged in the output shaft 5-1 of the motor 5, and the permanent magnet 8 magnetically connects the disposable treatment head 2-3 to the outer end of the output shaft of the motor 5. The inner wall of a fixed coaming plate 2-3-3-1 of a fixed part 2-3-3 of the disposable treatment head 2-3 is sleeved on a fixed cylinder 2-2-4 and keeps a gap with the outer wall of the fixed cylinder 2-2-4, and the rear end face of a treatment plate 2-3-2-1 of the treatment part 2-3-2 is tightly attached to the outer end of an output shaft of the motor 5.

The head cover 2-1 is matched with the top end cover 2-2 and then connected to the mounting opening 1-1 of the handle body 1, and the output shaft 5-1 of the motor 5 sequentially penetrates through the cover body through hole 2-1-1 and the connecting cover through hole 2-2-3 and then protrudes out of the front end face of the connecting cover 2-2-1. The disposable treatment head 2-3 is sleeved at the outer end of the output shaft 5-1 of the motor 5, and the output shaft 5-1 of the motor 5 is connected with the skin impedance acquisition module 3-3 of the processor circuit assembly 3 through a feedback wire arranged inside.

As shown in fig. 11 to 13, the motor 5 includes a housing 5-2 and an output shaft 5-1 rotatably provided in an inner cavity of the housing 5-2. The rear end of the shell 5-2 is provided with a rear end opening 5-2-1, and two sides of the shell 5-2 are provided with symmetrical openings 5-2-2 which are symmetrically arranged. The shell 5-2 is internally provided with a conductive piece 6, and the conductive piece 6 comprises a first connecting piece 6-1 in the middle and contact pieces 6-2 arranged at two ends of the first connecting piece 6-1. The first connecting piece 6-1 is of a U-shaped plate structure which is bent downwards, and the first connecting piece 6-1 bypasses under the output shaft 5-1 when being fixed in the inner cavity of the shell 5-2. The contact 6-2 is a bent plate structure that is compressible and resilient. The conductive member 6 is connected with the main control module 3-2 of the processor circuit assembly 3 by passing through the rear end opening 5-2-1 of the housing 5-2 through a power supply wire.

The contact clamping grooves 1-2 communicated with the mounting port 1-1 are formed in the two sides of the front end of the handle body 1, and when the motor 5 is mounted in a matched mode with the inner cavity of the handle body 1, the contact pieces 6-2 fixed on the two sides of the conducting piece 6 inside the motor 5 are clamped in the contact clamping grooves 1-2 and protrude out of the two sides. When the head cover 2-1 is arranged at the mounting opening 1-1 of the handle body 1, the contact piece 6-2 is abutted against the inner wall of the head cover 2-1.

As shown in fig. 14, the processor circuit assembly 3 includes a circuit board 3-1, a main control module 3-2 disposed on the circuit board 3-1, a skin impedance acquisition module 3-3 connected to the main control module 3-2, and a motor driving module 3-4. The motor driving module 3-4 receives a control signal of the main control module 3-2 through a motor driving chip so as to control the rotation of the motor 5.

The skin impedance acquisition module 3-3 comprises a sine wave generator 3-3-1, an amplifying circuit 3-3-2 and a differential amplifying circuit 3-3-3. The main control module 3-2 controls the sine wave generator 3-3-1 to generate sine wave signals, the sine wave signals are coupled with analog signals generated by the main control module 3-2, the signals enter the amplifying circuit 3-3-2 and are coupled with signals generated by skin, the signals enter the differential amplifying circuit 3-3, and the signals are output to the main control module 3-2 to be calculated, analyzed and processed to judge the current impedance. The processor circuit assembly 3 further comprises a charging management module 3-5, a voltage control module 3-6, a Bluetooth module 3-7, a storage module 3-8, an LED module 3-9, a radio frequency module 3-10 and a buzzer module 3-11 which are arranged on the circuit board 3-1. The charging management module 3-5 comprises a charging management chip 3-5-1 and a thermistor 3-5-2. The charge management chip 3-5-1 is connected with the power supply device 4 and charges or discharges according to the power input condition. The thermistor 3-5-2 is arranged against the surface of the power supply device 4, and the battery temperature is collected in real time, so that the power supply device 4 can work safely. The voltage control modules 3-6 supply power to the corresponding circuits through the voltage regulator output voltage. The Bluetooth module 3-7 realizes information sending and receiving functions through communication connection with the main control module 3-2. The storage module 3-8 is connected with the main control module 3-2 to realize data storage and reading. The LED module 3-9 is connected with the main control module 3-2, and the main control module 3-2 outputs a level signal to control the LED to be turned on and off. The radio frequency module 3-10 realizes the function of receiving and transmitting radio frequency through communication with the main control module 3-2 and the Bluetooth module 3-7. The buzzer module 3-11 is connected with the main control module 3-2, and the main control module 3-2 controls the on-off of the buzzer.

While the foregoing is directed to embodiments of the present invention, other and further details of the invention may be had by the present invention, it should be understood that the foregoing description is merely illustrative of the present invention and that no limitations are intended to the scope of the invention, except insofar as modifications, equivalents, improvements or modifications are within the spirit and principles of the invention.

Claims

1. A skin treater, characterized in that: comprises a handle body (1) with a hollow structure, wherein the front end of the handle body (1) is provided with a mounting port (1-1) communicated with the inner cavity of the handle body (1), and the mounting port (1-1) is provided with a front end processing assembly (2); the inner cavity of the handle body (1) is provided with a processor circuit assembly (3), a power supply device (4) and a motor (5), the motor (5) is arranged at the front end of the inner cavity of the handle body (1), and an output shaft (5-1) of the motor (5) extends out of the mounting port (1-1); the power supply device (4) supplies power to the processor circuit assembly (3) and the motor (5); the motor (5) is connected with the processor circuit assembly (3);

the processor circuit assembly (3) comprises a circuit board (3-1), a main control module (3-2) arranged on the circuit board (3-1), a skin impedance acquisition module (3-3) connected with the main control module (3-2) and a motor driving module (3-4); the motor driving module (3-4) receives a control signal of the main control module (3-2) through the motor driving chip so as to control the rotation of the motor (5);

the front end processing assembly (2) comprises a head cover (2-1) detachably connected to the handle body (1) at the outer side of the mounting port (1-1), a top end cover (2-2) sleeved on the head cover (2-1) and a disposable processing head (2-3);

the machine head cover (2-1) is of a cover body structure with an opening at the rear end, which is made of conductive materials, the front end face of the machine head cover is provided with a cover body through hole (2-1-1) penetrating up and down, and the machine head cover (2-1) is detachably connected to the mounting opening (1-1) of the handle body (1) through the opening at the rear end; the head cover (2-1) is connected with the processor circuit assembly (3) through a power supply wire arranged inside;

the top end cover (2-2) comprises a connecting cover (2-2-1) at the bottom end and a hollow contact end (2-2-2) arranged on the front end surface of the connecting cover (2-2-1); the rear end of the connecting cover (2-2-1) is clamped at the front end of the head cover (2-1); the front end face and the outer surface of the top end cover (2-2) are provided with conductive coatings at the parts which are matched and connected with the head cover (2-1); a connecting cover through hole (2-2-3) is formed in the connecting cover in the contact end (2-2-2);

the disposable treatment head (2-3) is a cylinder body with an opening at the rear end and made of conductive materials, and the front end face of the cylinder body is provided with a convex grinding strip (2-3-1);

the machine head cover (2-1) is connected to the mounting opening (1-1) of the handle body (1) after being matched with the top end cover (2-2), and an output shaft (5-1) of the motor (5) sequentially penetrates through the cover body through hole (2-1-1) and the connecting cover through hole (2-2-3) and then protrudes out of the front end face of the connecting cover (2-2-1); the disposable treatment head (2-3) is sleeved at the outer end of an output shaft (5-1) of the motor (5), and the output shaft (5-1) of the motor (5) is connected with a skin impedance acquisition module (3-3) of the processor circuit assembly (3) through a feedback wire arranged inside;

the skin impedance acquisition module (3-3) comprises a sine wave generator (3-3-1), an amplifying circuit (3-3-2) and a differential amplifying circuit (3-3-3); the main control module (3-2) controls the sine wave generator (3-3-1) to generate sine wave signals, the sine wave signals are coupled with analog signals generated by the main control module (3-2), the analog signals enter the amplifying circuit (3-3-2) and are coupled with signals generated by skin, the signals enter the differential amplifying circuit (3-3), and the signals are output to the main control module (3-2) to be calculated, analyzed and processed to judge the current impedance;

an induction coil (7) is arranged on the inner side of the handle body (1); the induction coil (7) generates current through magnetic field induction to supply power to the processor circuit assembly (3) or store the current to the power supply device (4).

2. A skin treater as claimed in claim 1, wherein: the motor (5) comprises a shell (5-2) and an output shaft (5-1) rotatably arranged in the inner cavity of the shell (5-2); the rear end of the shell (5-2) is provided with a rear end opening (5-2-1), and two sides of the shell (5-2) are provided with symmetrical ports (5-2-2) which are symmetrically arranged; a conductive piece (6) is arranged in the shell (5-2), and the conductive piece (6) comprises a first connecting piece (6-1) in the middle and contact pieces (6-2) arranged at two ends of the first connecting piece (6-1); the first connecting piece (6-1) is of a downward bent U-shaped plate structure, and the first connecting piece (6-1) bypasses under the output shaft (5-1) when fixed in the inner cavity of the shell (5-2); the contact piece (6-2) is a bending plate structure which can be compressed and restored; the conductive piece (6) passes through the rear end opening (5-2-1) of the shell (5-2) through a power supply wire and is connected with the main control module (3-2) of the processor circuit assembly (3);

the contact clamping grooves (1-2) communicated with the mounting port (1-1) are formed in two sides of the front end of the handle body (1), and when the motor (5) is mounted in a matched mode with the inner cavity of the handle body (1), the contact pieces (6-2) fixed on two sides of the conductive piece (6) in the motor (5) are clamped in the contact clamping grooves (1-2) and protrude out of two sides; when the head cover (2-1) is arranged at the mounting opening (1-1) of the handle body (1), the contact piece (6-2) is propped against the inner wall of the head cover (2-1).

3. A skin treater as claimed in claim 1, wherein: the processor circuit assembly (3) further comprises a charging management module (3-5), a voltage control module (3-6), a Bluetooth module (3-7), a storage module (3-8), an LED module (3-9), a radio frequency module (3-10) and a buzzer module (3-11) which are arranged on the circuit board (3-1);

the charging management module (3-5) comprises a charging management chip (3-5-1) and a thermistor (3-5-2); the charging management chip (3-5-1) is connected with the power supply device (4) and charges or discharges according to the power input condition; the thermistor (3-5-2) is arranged against the surface of the power supply device (4), and the battery temperature is collected in real time to ensure the safe operation of the power supply device (4);

the voltage control module (3-6) outputs voltage through the voltage stabilizer to supply power to the corresponding circuit;

the Bluetooth module (3-7) realizes information sending and receiving functions through communication connection with the main control module (3-2);

the storage module (3-8) is connected with the main control module (3-2) to realize data storage and reading;

the LED module (3-9) is connected with the main control module (3-2), and the main control module (3-2) outputs a level signal to control the LED to be turned on and off;

the radio frequency module (3-10) realizes the function of receiving and transmitting radio frequency through communication with the main control module (3-2) and the Bluetooth module (3-7);

the buzzer module (3-11) is connected with the main control module (3-2), and the main control module (3-2) controls the on-off of the buzzer.

4. A skin treater as claimed in claim 1, wherein: an external thread structure is arranged on the handle body (1) at the outer side of the mounting port (1-1); the machine head cover (2-1) comprises a front cover body (2-1-2) and a rear cover body (2-1-3) which are arranged from front to back, the front cover body (2-1-2) and the rear cover body (2-1-3) form a stepped platform structure, the machine head cover (2-1) is provided with a cover body through hole (2-1-1) which penetrates through the front cover body (2-1-2) and the rear cover body (2-1-3) from front to back, and the inner wall of the cover body through hole (2-1-1) of the rear cover body (2-1-3) is provided with an inner thread structure which is connected with an outer thread structure outside the mounting opening (1-1).

5. A skin treater as claimed in claim 1, wherein: in the top end cover (2-2), the aperture of the connecting cover through hole (2-2-3) is smaller than the inner diameter of the contact end (2-2), and the connecting cover through hole (2-2-3) extends upwards to form a fixed cylinder (2-2-4);

the disposable treatment head (2-3) comprises a treatment part (2-3-2) and a fixing part (2-3-3) which are arranged from front to back, the treatment part (2-3-2) comprises a treatment plate (2-3-2-1) at the front end and a treatment part coaming (2-3-2-2) arranged at the outer edge of the rear end face of the treatment plate (2-3-2-1), the fixing part (2-3-3) comprises a fixing coaming (2-3-3-1) at the rear end, and a second connecting sheet (2-3-3-2) for connecting the front end of the fixing coaming (2-3-3-1) and the rear end of the treatment part coaming (2-3-2);

a permanent magnet (8) is arranged in an output shaft (5-1) of the motor (5), and the permanent magnet (8) magnetically connects the disposable treatment head (2-3) to the outer end of the output shaft of the motor (5); the inner wall of a fixed coaming plate (2-3-3-1) of a fixed part (2-3-3) of the disposable treatment head (2-3) is sleeved on a fixed cylinder (2-2-4) and keeps a gap with the outer wall of the fixed cylinder (2-2-4), and the rear end face of a treatment plate (2-3-2-1) of the treatment part (2-3-2) is tightly attached to the outer end of an output shaft of a motor (5).