CN113662837B - Wrinkle removing instrument - Google Patents

Abstract

The application relates to a wrinkle removing instrument, which comprises a shell, wherein the shell comprises an outer annular plate and an inner annular plate, the outer annular plate and the inner annular plate enclose an inner cavity, and a massage assembly and a liquid spraying assembly which are started simultaneously are arranged on the shell; the massage component comprises a plurality of vibrating motors arranged in the inner cavity, and also comprises a plurality of micro-needle cylinders which are arranged on the inner ring plate, wherein each micro-needle cylinder comprises a base arranged on the inner ring plate, and a plurality of micro-needles are arranged on the end surface of the base far away from the inner ring plate; the liquid spraying assembly comprises a pressure pump arranged in the inner cavity, a water supplementing bottle for containing repair liquid is arranged on the pressure pump, the pressure pump is also connected with at least one liquid passing pipe, a plurality of liquid spraying columns are connected to the liquid passing pipe, ultrasonic atomizing sheets are arranged at the end parts of the liquid spraying columns, and a plurality of liquid spraying holes which are in one-to-one correspondence with the liquid spraying columns are arranged on the inner ring plate; the inner ring plate comprises a light-transmitting plate, the micro needle cylinder is arranged on the light-transmitting plate, and a flexible light source plate which emits light simultaneously with the massage component and the liquid spraying component is arranged in the inner cavity. The application simplifies the wrinkle removing method and improves the wrinkle removing effect.

Description

Wrinkle removing instrument

Technical Field

The application relates to the field of beauty equipment, in particular to a wrinkle removing instrument.

Background

Along with the improvement of living standard, people are more filled with the appearance image of the people, and the requirements on skin care are higher. Especially the appearance of wrinkles affects the demand of people for beauty.

Various types of cosmetic skin care products and instruments are also available on the market, wherein one method is to apply wrinkle-removing repairing liquid to skin to be wrinkle-removed by adopting a light and vibration massage mode to remove wrinkles, then use the wrinkle-removing instrument to promote the rapid absorption of the repairing liquid by the skin by adopting light and massage, and achieve the short-term wrinkle-removing effect.

Aiming at the related technology, the inventor considers that the repairing liquid needs to be smeared on the skin by hands, and the operation steps are complicated.

Disclosure of Invention

In order to simplify the wrinkle removing method and improve the wrinkle removing effect, the application provides a wrinkle removing instrument.

The application provides a wrinkle removal instrument, which adopts the following technical scheme:

the wrinkle removing instrument comprises a shell surrounding a wrinkle part to be removed, wherein the shell comprises an outer annular plate and an inner annular plate, an inner cavity is formed by the outer annular plate and the inner annular plate in a surrounding mode, and a massage component and a liquid spraying component which are started simultaneously are arranged on the shell;

the massage component comprises a plurality of vibration motors arranged in the inner cavity and a plurality of micro-needle cylinders, wherein the micro-needle cylinders are arranged on the inner ring plate and comprise bases arranged on the inner ring plate, and a plurality of micro-needles are distributed on the end faces of the bases far away from the inner ring plate;

the liquid spraying assembly comprises a pressure pump arranged in the inner cavity, a water supplementing bottle for containing repair liquid is arranged on the pressure pump, the pressure pump is also connected with at least one liquid passing pipe, a plurality of liquid spraying columns are connected to the liquid passing pipe, ultrasonic atomization sheets are arranged at the end parts of the liquid spraying columns, and a plurality of liquid spraying holes which are in one-to-one correspondence with the liquid spraying columns are formed in the inner annular plate;

the inner ring plate comprises a light-transmitting plate, the micro needle cylinder is arranged on the light-transmitting plate, and a flexible light source plate which emits light when the massage component and the liquid spraying component are started is arranged in the inner cavity.

By adopting the technical scheme, when the wrinkle removal instrument is started, the micro needle on the micro needle cylinder contacts the skin under the vibration induced by the vibration motor, and the skin channel is opened while the skin is massaged; meanwhile, the pressure pump pumps the repairing liquid in the water supplementing bottle into the liquid passing pipe, the repairing liquid forms mist after passing through the liquid spraying column and the ultrasonic atomization sheet, and the repairing liquid is sprayed onto skin to be wrinkle-removed through the liquid spraying holes and permeates into subcutaneous tissues of the skin through the skin channel opened by the micro needle; and the flexible light source plate emits light to irradiate the skin. By adopting the mode of combining vibration massage, microneedle treatment and illumination irradiation, the absorption effect of the repairing liquid is improved, the repairing liquid is automatically sprayed out, the vaporific repairing liquid is finer, the wrinkle removing effect is further improved, the repairing liquid is not required to be smeared by hands, and the repairing liquid is simple and convenient to use.

Optionally, be provided with a plurality of repairing liquid guide-in piece on the light-transmitting plate, repairing liquid guide-in piece is including setting up the casing on the light-transmitting plate, be provided with a smooth section of thick bamboo in the casing, be fixed with annular flexible sealing ring on the micropin outer wall, the sealing ring supports tight smooth section of thick bamboo inner wall.

By adopting the technical scheme, when the micro-needle cylinder contacts with skin, the sealing ring can deform, so that the micro-needle cylinder can change position in the sliding cylinder, the micro-needle cylinder can be more attached to the radian of the skin, and the micro-needle cylinder is suitable for different crowds.

Optionally, the inside hollow cavity that is provided with of casing, slide a central authorities with the cavity intercommunication, be provided with the catheter of intercommunication cavity and logical liquid pipe on the casing, be provided with return spring on the terminal surface that the microneedle was kept away from to the base, return spring's the other end is fixed on the shells inner wall, be provided with a plurality of weeping hole on the terminal surface that the inner ring board was kept away from to the casing, the weeping hole is opened when the micropot is pushed to the casing external slip.

By adopting the technical scheme, the repairing liquid is pumped into the cavity through the liquid guide tube, the micro needle cylinder slides to the outer side of the shell under the hydraulic pushing of the repairing liquid and contacts with the skin, and the repairing liquid flowing out of the liquid seepage hole is used for repairing the skin near the micro needle cylinder, so that the skin wrinkle removing effect is further improved; meanwhile, after the repairing liquid flows out of a part, the liquid pressure in the cavity drops, the micro-syringe slides back into the shell under the elasticity of the traction spring, and the liquid seepage hole is closed. The micro needle cylinder and the seepage hole are intermittently started, so that the time for absorbing the seepage liquid is reserved for the skin.

Optionally, be provided with the cylinder on the interior terminal surface that the inner ring board was kept away from to the casing, the ooze the hole and be located keep off ring one side, be located be provided with two at least supports on the terminal surface in the casing of keeping off the ring opposite side, it has the link to articulate on the support, link one end rotates and is connected with the connecting rod, the one end that the link was kept away from to the connecting rod articulates there is the switching frame, the one end that the connecting rod was kept away from to the switching frame is connected to on the micropipe, the other end rotation of connecting rod is connected with the top cap of taking on keeping off the ring, a plurality of enclose into the isolation chamber between top cap and fender ring and shell or the smooth section of thick bamboo, keep off the intracavity and be provided with a plurality of traction springs with top cap one-to-one and make the top cap support tightly keep off the ring.

By adopting the technical scheme, when the micro needle cylinder is hydraulically pushed to slide, the connecting rod and the switching frame push the connecting frame to rotate around the bracket, the top cover is lifted, the isolation cavity is communicated with the cavity, namely, the seepage hole is opened, and the repairing liquid flows out through the seepage hole; when the hydraulic pressure is reduced, the connecting rod pulls the connecting frame to return, under the common pulling of the connecting frame and the traction spring, the top cover returns, the isolation cavity is separated from the cavity again, the liquid seepage hole is closed, and the liquid seepage hole is opened when the micro needle cylinder is pushed to slide outside the shell and is closed along with the return of the micro needle cylinder. When the micro-needle contacts the skin, the repair liquid flows out of the liquid seepage hole, and the skin contacted by the micro-needle is repaired in a concentrated way; when the microneedle leaves the skin, the repair liquid in the repair liquid introduction part is not flowed out temporarily, and the time is reserved for the skin to absorb the repair liquid.

Optionally, a plurality of massage hammers are arranged on the end face of the shell far away from the inner ring plate.

Through adopting above-mentioned technical scheme, when the wrinkle removal appearance vibration, massage is beaten and is contacted with skin to spraying the skin that has the repair liquid and massaging to massage beaten and be close to the skin that the microneedle contacted, accelerate the absorption of repair liquid.

Optionally, be provided with the control panel in the inner chamber, be provided with the controller that is connected with vibrating motor, force pump, ultrasonic atomizing piece, flexible light source board respectively on the control panel, the controller still is connected with and is used for controlling vibrating motor, force pump, ultrasonic atomizing piece, flexible light source board open or close the button module, the button module still can be used for making the controller select the different modes of use of wrinkle appearance.

By adopting the technical scheme, the wrinkle removal instrument can be started or closed by pressing the key, the key module is pressed according to different modes, the controller can control the wrinkle removal instrument to start different use modes according to the input of the key module, the operation is convenient, and the wrinkle removal instrument has strong applicability.

Optionally, the controller is connected with a wireless communication module and is used for communicating with the terminal, so that the controller receives the terminal information and changes the operation mode information of the wrinkle removal instrument when the key module is pressed down;

the operation mode information comprises the starting number of the vibration motors, the pumping speed of the pressure pump and the illumination intensity emitted by the flexible light source plate.

Through adopting above-mentioned technical scheme, the user can be connected with the wrinkle removal appearance through the terminal, carries out individualized setting to the wrinkle removal appearance, and the suitability is strong.

Optionally, the light-transmitting plate is detachably connected with the outer ring plate, and the light-transmitting plate is made of a mixed material of food-grade silica gel, TPU, PU, TPE and light diffusion powder.

Through adopting above-mentioned technical scheme, the light-transmitting plate is convenient for install and dismantle to can make the light of flexible light source board shine skin through the light-transmitting plate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by adopting a mode of combining vibration massage, microneedle treatment and illumination irradiation, the absorption effect of the repairing liquid is improved, the repairing liquid is automatically sprayed out, the vaporific repairing liquid is finer, the wrinkle removing effect is further improved, the repairing liquid is not required to be smeared by hands, and the repairing liquid is simple and convenient to use;

2. when the micro needle cylinder contacts the skin, the sealing ring can deform, so that the position of the micro needle cylinder can be changed in the sliding cylinder, the micro needle cylinder can be more attached to the radian of the skin, and the micro needle cylinder is suitable for different people;

3. when the micro-needle contacts the skin, the repair liquid flows out of the liquid seepage hole, and the skin contacted by the micro-needle is repaired in a concentrated way; when the microneedle leaves the skin, the repair liquid in the repair liquid introduction part is not flowed out temporarily, and the time is reserved for the skin to absorb the repair liquid.

Drawings

Fig. 1 is a schematic overall structure of embodiment 1.

Fig. 2 is a schematic view of the structure of the outer ring plate and the liquid passing tube in example 1.

FIG. 3 is a cross-sectional view of the wrinkle removal instrument in example 1.

Fig. 4 is an enlarged schematic view of the portion a in fig. 3.

Fig. 5 is a schematic diagram of the structure of the pressure pump and the water replenishing bottle in example 1.

Fig. 6 is a block diagram of a control structure in embodiment 1.

Fig. 7 is a schematic overall structure of embodiment 2.

FIG. 8 is a cross-sectional view of the wrinkle removal instrument in example 2.

Fig. 9 is a cross-sectional view of the micro-needle cartridge of example 2 in a housing.

Fig. 10 is a sectional view showing the internal structure of the micro-needle cartridge of example 2.

Fig. 11 is a sectional view of the micro-needle cartridge of embodiment 2 slid out of the housing.

Reference numerals illustrate: 1. a housing; 11. an outer ring plate; 111. a first outer plate; 112. a second outer plate; 113. a clamping strip; 114. a clamping groove; 12. an inner ring plate; 121. a light-transmitting plate; 122. an inner case; 123. a groove; 124. inserting blocks; 125. a bump; 126. a liquid spraying hole; 127. an inner cavity; 13. a fixed cylinder; 14. a fixing plate; 141. a limit groove; 15. a limiting plate; 16. a screw; 17. a slot; 18. a fixedly connected ring; 181. inserting blocks; 2. a massage assembly; 21. a vibration motor; 22. a micro needle cylinder; 221. a base; 222. a microneedle; 3. a spray assembly; 31. a pressure pump; 32. supplementing water bottles; 33. a liquid pipe; 34. a liquid spraying column; 35. an ultrasonic atomizing sheet; 4. a flexible light source board; 5. a control board; 6. a battery; 7. a controller; 8. a charging interface; 9. a key; 10. a communication module; 19. a repair liquid introduction member; 191. a housing; 1911. a weeping hole; 1912. a massage hammer; 1913. a cavity; 1914. an isolation chamber; 192. a slide cylinder; 193. a seal ring; 194. a return spring; 195. a catheter; 196. a baffle ring; 197. a bracket; 1971. a connecting frame; 198. a top cover; 199. a connecting rod; 1991. a transfer frame; 190. and a traction spring.

Detailed Description

The application is described in further detail below with reference to fig. 1-11.

The embodiment of the application discloses a wrinkle removing instrument.

Example 1:

referring to fig. 1, the wrinkle removing instrument comprises a shell 1, wherein the shell 1 is in a U shape surrounding a skin part to be removed, the interior of the shell 1 is hollow, and a massage component 2 and a liquid spraying component 3 are arranged on the shell 1.

Referring to fig. 1 and 2, the housing 1 includes an outer ring plate 11 and an inner ring plate 12, the inner ring plate 12 is close to one side of the skin after the wrinkle removing apparatus is worn around the skin to be wrinkle-removed, the inner ring plate 12 is far away from the skin, and the inner ring plate 12 is detachably connected with the outer ring plate 11.

The outer ring plate 11 is made of plastic material, and specifically may be PC, ABS or a molten mixture of both. The outer ring plate 11 includes a first outer plate 111 and second outer plates 112 connected to both sides of the first outer plate 111, and the inner ring plate 12 includes a light-transmitting plate 121 and an inner shell 122, the light-transmitting plate 121 being connected to the inside of the first outer plate 111, and the inner shell 122 being connected to the inside of the second outer plate 112. The first outer plate 111, the second outer plate 112, the light-transmitting plate 121 and the inner shell 122 are all fixed through bonding or connecting components, so that the outer ring plate 11 is connected into an arc-shaped plate with smooth lines, the surface of the inner ring plate 12 is a smooth curved surface, and the bonding degree of human skin and the inner ring plate 12 is higher.

The inner shell 122 is made of the same plastic material as the outer ring plate 11, the light-transmitting plate 121 is made of food grade silica gel or TPU or PU or TPE and light diffusion powder, and the light-transmitting plate 121 has high permeability and flexibility.

Referring to fig. 3 and 4, the outer ring plate 11 is provided with a concave-convex tooth-shaped clamping strip 113 at the edge near the inner ring plate 12 side, the upper surface of the convex tooth on the clamping strip 113 is provided with a clamping groove 114, the edges near the outer ring plate 11 side of the light-transmitting plate 121 and the inner shell 122 are provided with concave grooves 123, a plurality of inserting blocks 124 are arranged in the grooves 123 at intervals, the clamping strip 113 is inserted into the grooves 123, and the inserting blocks 124 are inserted into the concave parts of the clamping strip 113. A protruding block 125 is further arranged in the groove 123, the end of the protruding block 125 far away from the groove 123 is bent hook-shaped, and the protruding block 125 is inserted into the clamping groove 114 and is hooked on the clamping strip 113. Accordingly, referring to fig. 1, the inner case 122 is connected to the second outer plate 112, and the light-transmitting plate 121 is stably connected to the first outer plate 111.

Referring to fig. 2 and 3, the inner ring plate 12 and the outer ring plate 11 define an inner chamber 127 therebetween, and the massage assembly 2 includes a vibration motor 21 disposed in the inner chamber 127. A plurality of vibration motors 21 are installed at one side of the first outer plate 111 near the light-transmitting plate 121, and the vibration motors 21 are disposed at equal intervals.

Referring to fig. 5, the vibration motor 21 is also provided on the inner case 122 at a side close to the outer ring plate 11, and the plurality of vibration motors 21 are symmetrically disposed about the symmetry line of the outer case 1. When the vibration motor 21 is started, the housing 1 vibrates as a whole.

Referring to fig. 1, the massage assembly 2 further includes a plurality of micro-syringes 22 disposed on the light-transmitting plate 121, the micro-syringes 22 include a base 221, a plurality of micro-needles 222 are disposed on an end surface of the base 221, and an end surface of the base 221 provided with the micro-needles 222 faces a circular arc center surrounded by the housing 1. When the housing 1 vibrates, the micro needle cylinder 22 vibrates accordingly, and the micro needle 222 contacts the skin, opening a skin passage.

Referring to fig. 2 and 5, the spray assembly 3 includes a pressure pump 31 mounted at one end inside the housing 1, and a water replenishment bottle 32 is mounted on the pressure pump 31, and a repair liquid for repairing wrinkles is contained in the water replenishment bottle 32. The water replenishing bottle 32 is screwed into the inlet of the pressure pump 31, and a user can select the repairing liquid according to personal requirements. The pressure pump 31 is further connected with a plurality of liquid-passing pipes 33, and the liquid-passing pipes 33 are arranged in the inner cavity 127 and extend from one end of the housing 1 to the other end of the housing 1.

Referring to fig. 2 and 3, two liquid passing pipes 33 are provided in the present embodiment, and the two liquid passing pipes 33 are located on the upper side and the lower side of the inner chamber 127, respectively. A plurality of liquid spraying columns 34 are arranged on each liquid passing pipe 33 at equal intervals, and ultrasonic atomizing sheets 35 are arranged at the end parts of the liquid spraying columns 34. A plurality of liquid spraying holes 126 are formed in the light-transmitting plate 121 at positions corresponding to the liquid spraying columns 34, insertion holes communicated with the liquid spraying holes 126 are formed in the inner wall of the light-transmitting plate 121, and the ends of the liquid spraying columns 34 are inserted into the insertion holes and face the liquid spraying holes 126.

Referring to fig. 3 and 5, when the pressure pump 31 pumps the repairing liquid in the water replenishing bottle 32 into the liquid passing tube 33, the repairing liquid is sprayed out through the ultrasonic atomization sheet 35, and the formed repairing liquid mist is sprayed out from the liquid spraying holes 126 and sprayed on the skin surface, so that the fine mist repairing liquid is convenient for skin absorption. In the vibration process of the micro needle 222, the repairing liquid is guided into subcutaneous tissue of the skin through the skin channel opened by the micro needle 222, so that the rapid absorption of the repairing liquid is facilitated, and the repairing effect is improved.

Referring to fig. 1 and 3, a flexible light source plate 4 is also provided in the cavity 127, the flexible light source plate 4 being provided between the first outer plate 111 and the light-transmitting plate 121. The light source capable of emitting red light is arranged on the flexible light source plate 4, and the light-transmitting plate 121 can refract, reflect and homogenize the light emitted by the flexible light source plate 4, so that the light can be gently transmitted through the light-transmitting plate 121 to irradiate the skin surface. When the repairing liquid is sprayed on the skin, the wrinkle removing effect is optimized under the irradiation of red light.

Therefore, the mode of combining vibration massage, microneedle repair, repair liquid repair and illumination repair is adopted, hands are liberated, and the use convenience of the wrinkle removal instrument is improved.

Referring to fig. 2 and 5, a control board 5 and a battery 6 are further provided in the inner chamber 127, and the control board 5 and the battery 6 are provided at both ends of the housing 1, respectively. Wherein the battery 6 supplies power to the components of the wrinkle removal instrument.

Referring to fig. 5 and 6, a controller 7 is provided on the control board 5, and the controller 7 is connected to the battery 6, the vibration motor 21, the pressure pump 31, the ultrasonic atomizing sheet 35, and the flexible light source board 4, respectively. The control board 5 is also connected with a charging interface 8, and the end part of the charging interface 8 is exposed from the inner shell 122, so that the battery 6 can be charged through the charging interface 8.

Referring to fig. 2 and 6, a key 9 is further provided on the control board 5, the key 9 is connected to the controller 7, and the key 9 is exposed from a second outer panel 112 adjacent to the control board 5. The user can make the controller 7 select and activate a plurality of modes of use of the wrinkle removal device by means of the keys 9.

The controller 7 is also connected with a communication module 10, and the controller 7 communicates with the terminal through the communication module 10. The user can set up the beauty instrument individually through the terminal, the controller 7 receives the terminal information and changes the use mode information of the wrinkle removal instrument, so that the user can change the use mode which is started by the controller 7 when the user presses the key 9 in different modes, and the running time and the dormancy time in each repair period in each use mode can be adjusted. The usage pattern information includes the number of starts of the vibration motor 21 when the key 9 is pressed, the pumping speed of the pressure pump 31, the intensity of illumination emitted by the flexible light source board 4, and the like. The controller 7 can change the power of the pressure pump 31 and the light emitting intensity of the flexible light source board 4 by adjusting the input voltage.

For example, pressing the key 9, starting the micro-vibration wrinkle-removing mode, operating the vibration motor 21 arranged on the first outer plate 111, enabling the wrinkle-removing instrument to vibrate with smaller amplitude, operating the pressure pump 31 with smaller power, starting the ultrasonic atomization sheet 35, enabling the spray liquid to have smaller intensity, and enabling the flexible light source plate 4 to emit weaker illumination; the key 9 is continuously pressed down, the common wrinkle removal mode is started, all the vibrating motors 21 are started, the vibration amplitude of the wrinkle removal instrument is increased, the pressure pump 31 operates with larger power, the spray liquid intensity is larger, and the illumination intensity of the flexible light source plate 4 is increased. After the beauty instrument is started, the controller 7 can control the operation and dormancy of the pressure pump 31, the ultrasonic atomization sheet 35, the flexible light source plate 4, the vibration motor 21 and the like to be alternately performed, and the automatic stop is performed after a plurality of repair cycles are completed.

The implementation principle of the embodiment 1 is as follows: the user can be connected with the wrinkle removing instrument through the mobile terminal to perform personalized setting on the beauty instrument.

When in use, the repair liquid is added into the water replenishing bottle 32, and the water replenishing bottle 32 is screwed on the interface of the pressure pump 31. The user wears the wrinkle removing instrument around the skin to be removed, leaving the light-transmitting panel 121 with the skin on the front side. The use mode is selected according to the setting of the press key 9. The controller 7 controls the pressure pump 31, the ultrasonic atomizing sheet 35, etc. to start, the flexible light source plate 4 irradiates red light, and the vibration motor 21 operates. The vibration motor 21 drives the shell 1 to vibrate integrally, the micro-needles 222 contact the skin, and skin channels are opened; meanwhile, the repairing liquid in the water supplementing bottle 32 is added into the liquid passing pipe 33 by the pressure pump 31, sequentially passes through the liquid spraying column 34 and the ultrasonic atomization sheet 35 to form mist, and finally is sprayed out from the liquid spraying hole 126. The repairing liquid is sprayed on the skin, the repairing liquid is introduced into subcutaneous tissue of the skin, and under vibration, the housing 1 contacts the skin, promoting massage absorption.

Example 2:

referring to fig. 7 and 8, the embodiment of the present application is different from embodiment 1 in that a repair liquid introduction member 19 is provided on a light-transmitting plate 121, and a micro needle cylinder 22 is provided in the repair liquid introduction member 19.

Referring to fig. 8 and 9, the repair liquid introduction member 19 includes a cylindrical housing 191, a hollow cavity 1913 is formed in the housing 191, and the housing 191 is fixed to the light-transmitting plate 121 and partially exposed to the surface of the light-transmitting plate 121. A cylindrical slide tube 192 is also provided in the housing 191. The micro-needle cylinder 22 is disposed in the housing 191, the diameter of the micro-needle cylinder 22 is smaller than that of the slide cylinder 192, one end of the micro-needle cylinder 22 is slidably connected in the slide cylinder 192, and the other end can extend from the end surface of the housing 191 away from the inner side wall. When the micro-needle cartridge 22 slides out of the housing 191, the micro-needles 222 contact the skin, facilitating the absorption of the repair liquid.

Referring to fig. 9 and 10, an annular sealing ring 193 is fixed on the outer wall of the micro syringe 22, the sealing ring 193 is made of elastic rubber, and the edge of the sealing ring 193 abuts against the inner wall of the slide cylinder 192, so that the micro syringe 22 can slide along the slide cylinder 192. A plurality of massage hammers 1912 are arranged on the end face of the shell 191 far away from the inner side wall, the massage hammers 1912 are approximately conical, the massage hammers 1912 are made of deformable rubber materials, and when the massage hammers 1912 contact the skin, absorption of repair liquid on the surface of the skin is promoted.

A return spring 194 is further provided on the end face of the microneedle 22 remote from the microneedle 222, and the other end of the return spring 194 is fixed on the inner end face of the housing 191. The spring force of the return spring 194 pulls the micro-needle cartridge 22 such that the micro-needle cartridge 22 is located within the housing 191.

An annular baffle ring 196 is provided on the inner end surface of the housing 191, and a plurality of weeping holes 1911 are provided on the end surface between the baffle ring 196 and the circular arc side wall of the housing 191. A plurality of supports 197 which are symmetrical with respect to the axial center of the shell 1 are arranged on the inner wall of the end face of the shell 191 between the baffle ring 196 and the sliding cylinder 192, a connecting frame 1971 is rotatably connected to the top end of the supports 197, a top cover 198 is rotatably connected to one end of the connecting frame 1971, a connecting rod 199 is rotatably connected to the other end of the connecting frame 1971, the connecting rod 199 is rotatably connected with a switching frame 1991 away from the other end of the connecting frame 1971, and one end of the switching frame 1991 away from the connecting rod 199 is fixed on the end face of the micro needle cylinder 22 close to the interior of the shell 1. The connecting rod 199 and adapter rack 1991 bypass the slide 192.

The top cover 198 is fan-shaped, and one end of the top cover 198 is abutted against the top of the baffle ring 196, and the other end is abutted against the side wall of the casing 191. The number of top caps 198 is equal to the number of supports 197, and in the embodiment of the application, two top caps 198 are provided, and when the two top caps 198 are spliced together, the seepage holes 1911 are separated from the inside of the cavity 1913. An isolation cavity 1914 is defined between the top cover 198, the baffle ring 196 and the housing 1. A traction spring 190 is arranged in the isolation cavity 1914, the traction spring 190 and the bracket 197 are positioned on the same radius of the end face of the shell 1, and the traction spring 190 pulls the top cover 198 to abut against the baffle ring 196.

Referring to fig. 8, a catheter 195 is provided on each repair liquid introduction member 19 to communicate with the cavity 1913, and the catheter 195 communicates with its nearest liquid passage tube 33. Therefore, when the pressure pump 31 pumps the repairing liquid into the liquid passage tube 33, the repairing liquid flows into the repairing liquid introduction member 19 through the liquid guide tube 195.

Referring to fig. 8 and 11, after the repair liquid flows into the cavity 1913, the micro-needle cylinder 22 is hydraulically pushed to slide toward the outside of the casing 1, so that the micro-needles 222 penetrate the skin of the person. When the skin contacts the micro-needle 22, the micro-needle 22 is automatically positioned to fit the micro-needle 22 to the skin because the sealing ring 193 is deformable. When the micro needle cylinder 22 slides out of the shell 1, the micro needle cylinder 22 drives the adapter frame 1991 and the connecting rod 199 to move together, the connecting rod 199 drives the connecting frame 1971 to rotate around the bracket 197, and one end of the connecting frame 1971 away from the connecting rod 199 drives the top cover 198 to be away from the baffle ring 196, so that the repairing liquid in the cavity 1913 enters the isolation cavity 1914 and is discharged through the liquid seepage hole 1911, and the repairing liquid is sprayed onto the skin through which the micro needle 222 passes, thereby promoting the absorption of the repairing liquid.

When the repairing liquid is ejected from the cavity 1913, the hydraulic pressure in the cavity 1913 is temporarily reduced, the elastic force of the return spring 194 is greater than the pushing force of the repairing liquid on the micro-syringe 22, and the return spring 194 pulls the micro-syringe 22 to slide back into the cavity 1913. When the micro-needle cartridge 22 is moved away from the skin, the sealing ring 193 is restored, and the micro-needle cartridge 22 is automatically returned to its original position. Simultaneously, the adapter bracket 1991 and the connecting rod 199 drive the connecting bracket 1971 to rotate around the bracket 197, the top cover 198 is covered on the baffle ring 196 again, the isolation cavity 1914 is separated from the cavity 1913, and the sealing of the seepage hole 1911 is equivalent. As repair fluid is continually injected into the cavity 1913, the weeping holes 1911 wait to reopen.

The repair liquid is sprayed near the micro-needles 222 to accelerate the absorption of the repair liquid, and the repair liquid is sprayed at intervals, and the micro-needles 222 intermittently contact the skin to allow the skin time for absorbing the repair liquid. And the micro-needle cylinder 22 conforms to the curvature of the skin and contacts the skin better.

The implementation principle of the embodiment 2 is as follows: when the wrinkle removing apparatus is started, vibration massage, microneedle repair, repair liquid repair and light repair are simultaneously started, and the microneedle 22 slides back and forth along the slide cylinder 192, the microneedle 222 intermittently contacts the skin, and when the microneedle contacts the skin, the repair liquid also flows out of the weeping hole 1911, so that the skin contacted by the microneedle is repaired intensively, and the repair liquid sprayed out of the liquid spraying hole 126 is used for repairing skin wrinkles together; when the microneedle leaves the skin, the repair liquid in the repair liquid introduction part 19 is temporarily not discharged, and a time is reserved for the skin to absorb the repair liquid.

The massage hammer contacts the skin while the wrinkle removing instrument vibrates, and the skin to be wrinkle-removed is massaged.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (5)

1. A wrinkle-removing instrument, which is characterized in that: the anti-wrinkling device comprises a shell (1) surrounding a part to be wrinkle-removed, wherein the shell (1) comprises an outer annular plate (11) and an inner annular plate (12), an inner cavity (127) is formed by the outer annular plate (11) and the inner annular plate (12), and a massaging component (2) and a liquid spraying component (3) which are started simultaneously are arranged on the shell (1);

the massage assembly (2) comprises a plurality of vibrating motors (21) arranged in an inner cavity (127), and further comprises a plurality of micro-needle cylinders (22), wherein the micro-needle cylinders (22) are arranged on the inner ring plate (12), the micro-needle cylinders (22) comprise bases (221) arranged on the inner ring plate (12), and a plurality of micro-needles (222) are distributed on the end faces, far away from the inner ring plate (12), of the bases (221);

the liquid spraying assembly (3) comprises a pressure pump (31) arranged in an inner cavity (127), a water supplementing bottle (32) for containing repair liquid is arranged on the pressure pump (31), the pressure pump (31) is also connected with at least one liquid passing pipe (33), a plurality of liquid spraying columns (34) are connected to the liquid passing pipe (33), ultrasonic atomization sheets (35) are arranged at the end parts of the liquid spraying columns (34), and a plurality of liquid spraying holes (126) which are in one-to-one correspondence with the liquid spraying columns (34) are arranged on the inner ring plate (12);

the inner ring plate (12) comprises a light-transmitting plate (121), the micro needle cylinder (22) is arranged on the light-transmitting plate (121), and a flexible light source plate (4) which emits light when the massage component (2) and the liquid spraying component (3) are started is arranged in the inner cavity (127);

a plurality of repairing liquid guiding-in parts (19) are arranged on the light-transmitting plate (121), the repairing liquid guiding-in parts (19) comprise a shell (191) arranged on the light-transmitting plate (121), a sliding cylinder (192) is arranged in the shell (191), a circular flexible sealing ring (193) is fixed on the outer wall of the micro-needle cylinder (22), and the sealing ring (193) abuts against the inner wall of the sliding cylinder (192);

the novel micro-needle sliding device is characterized in that a hollow cavity (1913) is formed in the shell (191), the center of the sliding cylinder (192) is communicated with the cavity (1913), a liquid guide tube (195) which is communicated with the cavity (1913) and the liquid guide tube (33) is arranged on the shell (191), a return spring (194) is arranged on the end face, far away from the micro-needle (222), of the base (221), the other end of the return spring (194) is fixed on the inner wall of the shell (191), a plurality of liquid seepage holes (1911) are formed in the end face, far away from the inner annular plate (12), of the shell (191), and the liquid seepage holes (1911) are opened when the micro-needle cylinder (22) is pushed to slide outside the shell (191);

the utility model discloses a hydraulic buffer device for a car, including casing (191) including inner ring board (12), link (1971) and connecting rod (199), be provided with cylinder keep off ring (196) on the interior terminal surface of inner ring board (12) is kept away from to casing (191), ooze liquid hole (1911) are located keep off ring (196) one side, be located be provided with two at least supports (197) on the interior terminal surface of casing (191) of keep off ring (196) opposite side, articulated have link (1971) on support (197), link (1971) one end rotates and is connected with connecting rod (199), link (199) one end of keeping away from link (1971) articulates has switching frame (1991), the one end of connecting rod (199) is kept away from to be connected to on micropcylinder (22), the other end rotation of link (1971) is connected with top cap (198) of lapping on keep off ring (196), a plurality of top cap (198) and keep off between ring (196) and shell (1) or slide tube (192) enclose into and keep off chamber (1914), be provided with a plurality of top caps (198) and make top cap (190) tight in spacing chamber (1914) and pull down spring (190).

2. A wrinkle removal instrument as claimed in claim 1, wherein: a plurality of massage hammers (1912) are arranged on the end surface of the shell (191) far away from the inner annular plate (12).

3. A wrinkle removal instrument as claimed in claim 1, wherein: be provided with control panel (5) in inner chamber (127), be provided with on control panel (5) respectively with vibrating motor (21), force pump (31), ultrasonic atomization piece (35), flexible light source board (4) controller (7), controller (7) still are connected with and are used for controlling vibrating motor (21), force pump (31), ultrasonic atomization piece (35), flexible light source board (4) open or button (9) of closing, button (9) still can be used to make controller (7) select the different modes of use of wrinkle removal appearance.

4. A wrinkle removal instrument according to claim 3, wherein: the controller (7) is connected with a wireless communication module (10) and is used for communicating with a terminal, so that the controller (7) receives terminal information and changes the use mode information of the wrinkle removal instrument when the key (9) is pressed down;

the using mode information comprises the starting number of the vibrating motors (21), the pumping speed of the pressure pump (31) and the illumination intensity emitted by the flexible light source plate (4).

5. A wrinkle removal instrument according to claim 3, wherein: the light-transmitting plate (121) is detachably connected with the outer ring plate (11), and the light-transmitting plate (121) is made of food-grade silica gel or TPU or PU or TPE and light diffusion powder mixed materials.