CN114099828A - Press type suction skin debridement system for medical cosmetology based on Internet of things - Google Patents

Abstract

Translated fromChinese

本发明涉及医疗美容用皮肤清创技术领域，具体地说，涉及基于物联网的按压式抽吸的医疗美容用皮肤清创系统。其包括输液架和输液架端部连通的皮肤清创机构，皮肤清创机构至少包括：隔离罩和活动罩，隔离罩端部连通有软管，软管插入输液架内部，隔离罩内部开设有空腔，空腔内部设有输送筒，输送筒靠近输液架的外壁开设有多个通孔，输送筒另一端连通有喷头，输送筒外壁滑动设有活塞板，活塞板外径与空腔内径相适配，活动罩端部滑动在隔离罩内层，活动罩一端伸出隔离罩内层，另一端与隔离罩内层端部之间固定连接有弹簧。本发明方便进行启闭控制，且可以实现清洗液聚集，避免清洗液随处流淌，不仅方便清理。

The invention relates to the technical field of skin debridement for medical cosmetology, in particular to a skin debridement system for medical cosmetology based on a push-type suction based on the Internet of Things. It includes an infusion stand and a skin debridement mechanism in which the ends of the infusion stand are connected. The skin debridement mechanism at least includes an isolation cover and a movable cover. The end of the isolation cover is connected with a hose, and the hose is inserted into the inside of the infusion stand. Cavity, a conveying cylinder is arranged inside the cavity, a plurality of through holes are opened on the outer wall of the conveying cylinder close to the infusion stand, the other end of the conveying cylinder is connected with a spray head, and the outer wall of the conveying cylinder is slidably provided with a piston plate, the outer diameter of the piston plate and the inner diameter of the cavity The end of the movable cover slides on the inner layer of the isolation cover, one end of the movable cover protrudes from the inner layer of the isolation cover, and a spring is fixedly connected between the other end and the end of the inner layer of the isolation cover. The present invention is convenient for opening and closing control, and can realize the accumulation of cleaning liquid, avoid the cleaning liquid from flowing everywhere, and is not only convenient for cleaning.

Description

Press type suction skin debridement system for medical cosmetology based on Internet of things

Technical Field

The invention relates to the technical field of skin debridement for medical cosmetology, in particular to a push type suction skin debridement system for medical cosmetology based on the Internet of things.

Background

Medical cosmetology refers to a cosmetology mode of repairing and remodeling human appearances and human body parts and forms by applying medicines, operations, medical instruments and other medical technical methods with traumatism or irreversibility, the medical plastic cosmetology industry is continuously developed along with the continuous improvement of the living standard of people and the continuous increase of the demand of the masses on medical care, and hundreds of thousands of people receive various medical plastic cosmetology operations every year, however, before the medical cosmetology operation, the skin needs to be debrided to clean impurities on the surface, so a debridement system is needed;

however, when the existing debridement system is used, cleaning liquid is directly sprayed to the skin to wash, so that the cleaning liquid flows everywhere and is inconvenient for subsequent cleaning, the retention time of the cleaning liquid is short, local one position cannot be intensively and efficiently cleaned, the debridement effect is poor, a valve needs to be manually controlled to open and close the cleaning liquid during debridement, if a user does not respond timely, the outlet of the cleaning liquid is aligned to other positions when the valve is not completely closed, the cleaning liquid is easily sprayed to places other than the skin, and accordingly, the skin debridement system for medical cosmetology based on push-type suction of the internet of things is provided.

Disclosure of Invention

The invention aims to provide a push type suction skin debridement system for medical cosmetology based on the Internet of things, and the system is used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides a push type suction skin debridement system for medical cosmetology based on the internet of things, which comprises an infusion support and a skin debridement mechanism communicated with the end of the infusion support, wherein the skin debridement mechanism at least comprises:

the end part of the isolation cover is communicated with a hose, the hose is inserted into the infusion support, a cavity is formed in the isolation cover, a conveying cylinder is arranged in the cavity, the outer wall of the conveying cylinder, which is close to the infusion support, is provided with a plurality of through holes, the other end of the conveying cylinder penetrates out of the cavity and is communicated with a spray head, the spray head is positioned in an inner cavity of the isolation cover, which is close to the end part, the outer wall of the conveying cylinder is provided with a piston plate in a sliding manner, the outer diameter of the piston plate is matched with the inner diameter of the cavity, the edge of the cavity is rotatably provided with two lead screws, the lead screws are in threaded fit connection with the surfaces of the piston plates, the end parts of the lead screws penetrate out of the cavity in a rotating manner and are connected with a first conical gear set, the end parts of the first conical gear set are connected with connecting rods, the end parts of the connecting rods extend into the inner layer of the isolation cover in a rotating manner and are connected with a second conical gear set, the end part of the second conical gear set is connected with a rotating shaft, the outer wall of the rotating shaft is provided with a gear disc, and the gear disc rotates on the inner layer of the isolation cover;

the end part of the movable cover slides on the inner layer of the isolation cover, one end of the movable cover extends out of the inner layer of the isolation cover, a spring is fixedly connected between the other end of the movable cover and the end part of the inner layer of the isolation cover, two symmetrical slots are formed in the inner wall of the movable cover, racks are arranged in the slots, and the racks are meshed and connected with the outer wall of the gear plate;

the inner wall that the movable cover is close to the tip is equipped with thing networking unit, thing networking unit includes camera module and signal conversion module, camera module is used for gathering the video image of movable cover in skin department, signal conversion module is arranged in the signal conversion who gathers camera module is digital electric signal and conveys and process in the digital signal processing chip, transmits digital signal to display device on through the network.

When the cleaning solution spraying device is used specifically, a hose is inserted into cleaning solution in an infusion support, then when the end part of the movable cover is attached to skin, the end part of the movable cover slides towards the inner layer of the isolation cover, the spring is compressed to drive the rack to move along the outer wall of the gear disc so as to drive the gear disc to rotate anticlockwise, the rotating shaft drives the second bevel gear set to rotate, the connecting rod drives the first bevel gear set to rotate in a meshed mode, so that the screw rod rotates in the cavity, the piston plate slides along the outer wall of the screw rod towards the end part of the infusion support, the cleaning solution enters from the through hole and is sprayed out from the end part of the spraying head, and the cleaning solution is gathered at the end part of the inner cavity of the isolation cover on the surface of the skin and the inner part of the movable cover at the moment so as to clean and debride the skin;

after the infusion support is used, when the movable cover is lifted, the end part of the movable cover is driven to slide outwards under the action of the elastic force of the spring, the rack drives the gear disc to be meshed and rotate clockwise, the piston plate slides along the direction of the outer wall of the screw rod away from the end part of the infusion support, and waste liquid at the end parts of the movable cover and the isolation cover is sucked into the infusion support again from the spray head along the conveying cylinder to be recycled.

As a further improvement of the technical scheme, the first bevel gear set and the second bevel gear set both adopt bevel gears which are vertically meshed with each other.

As a further improvement of the technical scheme, the movable cover extends out of the end part of the inner layer of the isolation cover is connected with an air bag cushion, and the air bag cushion is made of hollow elastic rubber.

As a further improvement of the technical scheme, the end part of the first conical gear set is connected with an extension rod, the extension rod is rotatably arranged at the end part of the inner cavity of the isolation cover, and a plurality of convex plates are arranged on the outer wall of the extension rod.

As a further improvement of the technical scheme, the hose is provided with two symmetrical hoses, the isolation cover is far away from the inner part of the movable cover and is provided with an adjusting cylinder, the end part of the adjusting cylinder is provided with a fixed disc, the surface of the fixed disc is provided with two symmetrical connecting holes, and the end parts of the two hoses are respectively communicated with the end parts of the connecting holes.

As a further improvement of the technical scheme, an adjusting disc is rotatably arranged in the adjusting cylinder, a switching hole is formed in the surface of the adjusting disc, and the switching hole is matched with the connecting hole.

As a further improvement of the technical scheme, the outer wall of the adjusting disc close to the end part is provided with a cam disc, the outer wall of the cam disc is engaged with a rotating gear, and the outer wall of the rotating gear rotatably extends out of the adjusting cylinder.

As a further improvement of the technical scheme, the infusion support is provided with a placing frame at the bottom, two liquid tanks are inserted into the placing frame, rubber pads are arranged at the tops of the liquid tanks, two hoses are respectively inserted into the two liquid tanks, and cleaning liquid is arranged in one of the liquid tanks.

As a further improvement of the technical scheme, a hinged fork is arranged at the bottom of the infusion support and is movably connected with the outer wall of the placing rack.

As a further improvement of the technical scheme, the outer wall of the placing rack is in threaded connection with a screw, the end part of the screw is connected with a rotary table, and the end part of the screw, which is far away from the rotary table, penetrates into the placing rack.

Compared with the prior art, the invention has the beneficial effects that:

1. in this medical treatment skin debridement system for cosmetology of push type suction based on thing networking, through with the extrusion of movable cover tip in skin department, the spring compression realizes that movable cover and cage are sealed in skin department under spring force, when making the washing liquid get into cage inner chamber tip and movable cover inside, can realize the washing liquid gathering, avoids the washing liquid to trickle everywhere, not only conveniently clears up, and dwell time is long, can the pertinence wash debridement, improves the effect of debridement.

2. In this medical treatment of push type suction based on thing networking is clean with skin system of creating, when activity cover tip laminating skin, make activity cover tip slide to the cage inlayer, the spring compression, it moves along the toothed disc outer wall to drive the rack, thereby drive the toothed disc anticlockwise rotation, when the toothed disc rotates, through the pivot, second conical gear group, connecting rod and first conical gear group, it is more convenient to make the lead screw rotate inside the cavity, realize that the piston board slides, inhale shower nozzle tip blowout with the washing liquid from infusion support inside, be favorable to just can carrying out the injection debridement of washing liquid when local isolation, the opening and close of convenient control washing liquid.

3. In this medical treatment is cosmetic with skin debridement system based on push type suction of thing networking, through rotating the adjustment disk, switch the hole and coincide with one of them connecting hole, then the washing liquid can be followed one of them hose and sprayed through the connecting hole, after debridement, can rotate and switch the hole and coincide with another connecting hole, make the washing liquid of retrieving retrieve along another hose, avoid clean and the washing liquid after the use to mix, guarantee the make full use of washing liquid.

4. In this medical treatment cosmetic skin debridement system of using of push type suction based on thing networking, carry along the inside washing liquid of one of them liquid incasement through one of them hose and wash the debridement to skin, inside another liquid incasement portion is carried to the washing liquid that another hose will retrieve, is favorable to separating clean washing liquid and the washing liquid after the use completely, and conveniently uses at any time.

Drawings

FIG. 1 is an assembly view showing the overall structure of embodiment 1 of the present invention;

FIG. 2 is a cutting view of the skin debridement mechanism of embodiment 1 of the present invention;

FIG. 3 is a schematic structural view of a movable hood according to embodiment 1 of the present invention;

FIG. 4 is a sectional view of a cage structure according to example 1 of the present invention;

FIG. 5 is a sectional view of a shield structure according to embodiment 1 of the present invention;

FIG. 6 is a partial schematic view of a screw rod structure according to embodiment 1 of the present invention;

fig. 7 is a schematic view of an extension pole according to embodiment 1 of the present invention;

FIG. 8 is an exploded view of an adjusting cylinder according to embodiment 2 of the present invention;

FIG. 9 is an exploded view of the stand according to embodiment 3 of the present invention;

fig. 10 is a schematic structural view of a placement frame in embodiment 3 of the present invention.

The various reference numbers in the figures mean:

100. a transfusion stand; 110. placing a rack; 111. a hinged fork; 112. a liquid tank; 113. a rubber pad; 120. a screw; 121. a turntable;

200. a skin debridement mechanism;

210. an isolation cover; 211. a cavity; 2111. a screw rod; 2112. a first bevel gear set; 2113. a connecting rod; 2114. a second bevel gear set; 2115. a rotating shaft; 2116. a gear plate; 2117. an extension pole; 2118. a convex plate; 212. a delivery cartridge; 2121. a through hole; 2122. a spray head; 213. a piston plate; 214. a hose;

220. a movable cover; 221. grooving; 222. a rack; 223. a spring; 224. an airbag cushion;

230. an adjusting cylinder; 231. an adjusting disk; 2310. a switching hole; 2311. a cam plate; 2312. a rotating gear; 232. fixing the disc; 2320. and connecting the holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1 to 7, the present embodiment provides a push-type suction skin debridement system for medical and cosmetic use based on internet of things, including aninfusion support 100 and askin debridement mechanism 200 communicating with an end of theinfusion support 100, where theskin debridement mechanism 200 at least includes:

an isolation cover 210, a hose 214 is connected with the end of the isolation cover 210, the hose 214 is inserted into the infusion support 100, a cavity 211 is arranged in the isolation cover 210, a delivery cylinder 212 is arranged in the cavity 211, the delivery cylinder 212 is provided with a plurality of through holes 2121 near the outer wall of the infusion support 100, the other end of the delivery cylinder 212 penetrates out of the cavity 211 and is connected with a spray head 2122, the spray head 2122 is positioned in the inner cavity of the isolation cover 210 near the end, the hose 214 is inserted into the cleaning solution in the infusion support 100, when the cleaning solution enters the isolation cover 210 from the infusion support 100 along the inside of the hose 214, the cleaning solution can enter from the through holes 2121 and then is sprayed out from the end of the spray head 2122 to ensure the structural integrity, a piston plate 213 is arranged on the outer wall of the delivery cylinder 212 in a sliding manner, the outer diameter of the piston plate 213 is matched with the inner diameter of the cavity 211, when the piston plate 213 slides to the end of the infusion support 100 in the delivery cylinder 212, the end of the delivery cylinder 212, the cleaning solution entering the end of the inner cavity 212 is sucked into the delivery cylinder 212 according to the interior of the atmospheric pressure, when cleaning liquid is sprayed out from the spray head 2122, on the contrary, when the piston plate 213 slides in the conveying cylinder 212 far away from the end of the infusion support 100, the cleaning liquid at the end of the inner cavity of the isolation cover 210 is sucked into the infusion support 100 again along the conveying cylinder 212 from the spray head 2122, so as to facilitate control of discharge or recovery of the cleaning liquid, two lead screws 2111 are rotatably arranged at the edge of the cavity 211, the lead screws 2111 are in threaded fit connection with the surface of the piston plate 213, the end of the lead screw 2111 rotatably penetrates out of the interior of the cavity 211 and is connected with a first conical gear set 2112, the end of the first conical gear set 2112 is connected with a connecting rod 2113, the end of the connecting rod 2113 rotatably extends into the inner layer of the isolation cover 210 and is connected with a second conical gear set 2114, the end of the second conical gear set 2114 is connected with a rotating shaft 2115, the outer wall of the rotating shaft 2115 is provided with a gear plate 2116, the gear plate 2116 rotates in the inner layer of the isolation cover 210, and when the gear plate 2116 rotates, the second conical gear set 2114 rotates anticlockwise, the connecting rod 2113 drives the first bevel gear set 2112 to rotate in a meshing manner, so that the screw mandrel 2111 rotates in the cavity 211, the piston plate 213 slides along the outer wall of the screw mandrel 2111 towards the end of the infusion support 100, and the spraying of the cleaning solution is more convenient, and on the contrary, when the gear plate 2116 rotates clockwise, the piston plate 213 slides along the outer wall of the screw mandrel 2111 away from the end of the infusion support 100, and the sprayed cleaning solution is recycled;

specifically, theisolation cover 210 is in an inverted concave shape, and through the concave shape, thepiston plate 213 can slide in thecavity 211 inside theisolation cover 210, and thegear plate 2116 can also rotate in the inner layer of theconcave isolation cover 210, so that the structural integrity is ensured.

The firstbevel gear set 2112 and the second bevel gear set 2114 both adopt bevel gears which are vertically meshed with each other, and when one of the bevel gears rotates, the other bevel gear is driven to rotate, so that linkage in different directions is performed, and thescrew 2111 can be driven to rotate to operate on and off when thegear disc 2116 rotates.

The movable cover 220, the end of the movable cover 220 slides on the inner layer of the isolation cover 210, one end of the movable cover 220 extends out of the inner layer of the isolation cover 210, a spring 223 is fixedly connected between the other end of the movable cover 220 and the end of the inner layer of the isolation cover 210, when the spring 223 is fixed, the end of the movable cover 220 extends out of the isolation cover 210 to reach the longest distance, when local debridement is performed, the end of the movable cover 220 is extruded at the skin, the spring 223 is compressed, the movable cover 220 and the isolation cover 210 are sealed at the skin under the elasticity of the spring 223, when cleaning liquid enters the end of the inner cavity of the isolation cover 210 and the inner part of the movable cover 220, the collection of the cleaning liquid can be realized, the cleaning liquid is prevented from flowing everywhere, the cleaning liquid is convenient to clean, the retention time is long, therefore, the cleaning liquid can be isolated at the local part of the skin through the movable cover 220 and the isolation cover 210, the targeted debridement can be performed, the debridement effect is improved, when the movable cover 210 and the cleaning liquid in the movable cover 220 are not used, two symmetrical slots 221 are formed in the inner wall of the movable cover 220, a rack 222 is arranged in each slot 221, the rack 222 is meshed with the outer wall of the gear disc 2116, when the end of the movable cover 220 is attached to skin, the end of the movable cover 220 slides towards the inner layer of the isolation cover 210, the spring 223 is compressed to drive the rack 222 to move along the outer wall of the gear disc 2116, so that the gear disc 2116 is driven to rotate anticlockwise, when the gear disc 2116 rotates, the screw mandrel 2111 rotates in the cavity 211 more conveniently through the rotating shaft 2115, the second conical gear set 2114, the connecting rod 2113 and the first conical gear set 2112, so that the piston plate 213 slides, cleaning liquid is sucked into the end of the spray head 2122 from the infusion support 100 and sprayed out, cleaning liquid can be sprayed and debrided at the local isolation, on the contrary, when the movable cover 220 is lifted, the end of the movable cover 220 is driven to slide outwards under the elastic force of the spring 223, so that the rack 222 drives the gear disc 2116 to rotate clockwise, the waste liquid at the end parts of the movable cover 220 and the isolation cover 210 can be recycled, the flowing of the cleaning liquid is avoided, and the operation is convenient.

In order to improve the sealing effect, the end of themovable cover 220 extending out of the inner layer of theisolation cover 210 is connected with anairbag cushion 224, theairbag cushion 224 is made of hollow elastic rubber, thehollow airbag cushion 224 can be inflated inside, theairbag cushion 224 is expanded, the elasticity is increased, when the end of themovable cover 220 is attached to the skin, the end of theairbag cushion 224 can be attached to the skin, under the elastic action of theairbag cushion 224, the contact strength between the end of the movable cover and the skin is increased, the sealing effect is improved, and the cleaning liquid is prevented from flowing out.

In order to improve the debridement effect, as shown in fig. 7, anextension rod 2117 is connected to an end of the firstbevel gear set 2112, theextension rod 2117 is rotatably disposed at an end of an inner cavity of theisolation hood 210, and a plurality ofconvex plates 2118 are disposed on an outer wall of theextension rod 2117, so that, when the cleaning solution is located at the end of the inner cavity of theisolation hood 210 and themovable hood 220 on the skin surface, the cleaning solution is not well cleaned and debrided due to the fact that the cleaning solution is static, in order to improve the debridement effect, when themovable hood 220 is lifted, therack 222 drives thegear disc 2116 to rotate, the firstbevel gear set 2112 is driven to rotate through therotating shaft 2115, the secondbevel gear set 2114 and the connectingrod 2113, so that theextension rod 2117 rotates, theconvex plates 2118 rotate, the cleaning solution located at the end of the inner cavity of themovable hood 220 on the skin surface and theisolation hood 210 can be disturbed, so that the cleaning solution is fully contacted with the skin surface, and the debridement effect is improved.

When the invention is used specifically, the hose 214 is inserted into the cleaning solution in the infusion support 100, then when the end of the movable cover 220 is attached to the skin, the end of the movable cover 220 slides towards the inner layer of the isolation cover 210, the spring 223 is compressed to drive the rack 222 to move along the outer wall of the gear disc 2116, thereby driving the gear disc 2116 to rotate anticlockwise, the rotating shaft 2115 drives the second bevel gear set 2114 to rotate, the connecting rod 2113 drives the first bevel gear set 2112 to rotate in a meshing manner, thereby the screw mandrel 2111 rotates in the cavity 211, the piston plate 213 slides along the outer wall of the screw mandrel 2111 towards the end of the infusion support 100, meanwhile, the hose 214 is inserted into the cleaning solution in the infusion support 100, when the cleaning solution enters the isolation cover 210 from the 100 along the inside of the hose 214, the cleaning solution enters from the through hole 2121 and then is sprayed out from the end of the spray head 2122, at the moment, the cleaning solution is gathered at the inner cavity end of the isolation cover 210 and the inner part of the skin surface and the movable cover 220, cleaning and debriding the skin;

after the use is finished, when themovable cover 220 is lifted, the end part of themovable cover 220 is driven to slide outwards under the elastic force of thespring 223, so that therack 222 drives thegear plate 2116 to engage and rotate clockwise, and thepiston plate 213 slides along the outer wall of thescrew rod 2111 in the direction away from the end part of theinfusion support 100, thereby realizing that the waste liquid at the end parts of themovable cover 220 and theisolation cover 210 is sucked into theinfusion support 100 again from thespray head 2122 along the conveyingcylinder 212 for recycling.

The inner wall thatmovable cover 220 is close to the tip is equipped with thing networking unit, and thing networking unit includes camera module and signal conversion module, camera module is used for gatheringmovable cover 220 and covers the video image in skin department, signal conversion module is arranged in the signal conversion who gathers camera module is digital electric signal and conveys and carry out processing in the digital signal processing chip, transmit digital signal to display device through the network on, alright come out with video image display, wherein, the preferred computer of display device can show video image on the display of computer through the network, conveniently observe the skin department debridement process that movable cover (220) covered, and simultaneously, can in time observe after the washing liquid is retrieved completely.

Specifically, the camera module adopts a monitoring camera, light emitted to the skin is reflected on the surface of the skin, the reflected light is transmitted to the image sensor through the lens, and the image sensor receives the reflected light and converts an optical signal into an electric signal to be transmitted to the signal conversion module.

Example 2

Considering that the clean cleaning solution and the recovered cleaning solution are both delivered from onehose 214, if the cleaning solution inside the infusion stand 100 is not used up, the clean cleaning solution is easily contaminated, and is inconvenient for subsequent use, and causes waste of resources, therefore, in order to improve the utilization of the cleaning solution, this embodiment is different from embodiment 1, please refer to fig. 8, in which:

the twosymmetrical hoses 214 are arranged, the adjustingcylinder 230 is arranged in the isolatingcover 210 far away from themovable cover 220, thefixing disc 232 is arranged at the end of the adjustingcylinder 230, two symmetrical connectingholes 2320 are formed in the surface of thefixing disc 232, the end portions of the twohoses 214 are respectively communicated with the end portions of the connectingholes 2320, the twohoses 214 can be respectively communicated with containers of clean cleaning liquid and cleaning liquid after use, and the clean cleaning liquid and the cleaning liquid after use can be conveniently separated.

Specifically, theadjusting disc 231 is rotatably arranged inside the adjustingcylinder 230, the surface of theadjusting disc 231 is provided with aswitching hole 2310, theswitching hole 2310 is matched with the connectinghole 2320, and when theadjusting disc 231 is rotated, theswitching hole 2310 includes the following scenes;

in the first scenario, theswitching hole 2310 is overlapped with one of the connectingholes 2320, the cleaning solution can be sprayed from one of thehoses 214 through the connectinghole 2320, and after debridement is finished, theswitching hole 2310 can be rotated to be overlapped with the other connectinghole 2320, so that the recovered cleaning solution is recovered along theother hose 214, the cleaning solution is prevented from being mixed with the used cleaning solution, and the full utilization of the cleaning solution is ensured;

in the second scenario, theswitching hole 2310 and the two connectingholes 2320 are staggered, so that the liquid conveyed through thehose 214 cannot enter theisolation hood 210, and the conveying of the cleaning liquid is stopped.

Specifically, theinfusion support 100, theisolation cover 210, the adjustingcylinder 230 and theadjusting disc 231 are all made of transparent materials, so that the position relationship between the switchinghole 2310 and the connectinghole 2320 can be clearly observed when theadjusting disc 231 rotates.

For more convenient rotation, the outer wall of theadjusting disc 231 near the end is provided with acam disc 2311, the outer wall of thecam disc 2311 is engaged with arotating gear 2312, the outer wall of therotating gear 2312 rotatably extends out of the adjustingcylinder 230, therotating gear 2312 can be selected to enable thecam disc 2311 to be engaged and rotated, and therefore theadjusting disc 231 can be rotated more conveniently in the adjustingcylinder 230.

Example 3

In view of the inconvenience of cleaning at any time, the need for additional cleaning solution, the inconvenience of operation, and the inconvenience of adjusting the angle of debridement, this embodiment is different from embodiment 2 in that, in order to improve the utilization rate, please refer to fig. 9-10, in which:

the bottom of theinfusion support 100 is provided with the placingframe 110, twoliquid tanks 112 are inserted into the placingframe 110, the tops of theliquid tanks 112 are provided withrubber pads 113, therubber pads 113 are made of elastic rubber materials, therubber pads 113 are extruded at the ends of theliquid tanks 112 and the tops of inner cavities of theplacing frame 110, the sealing performance is improved, the twohoses 214 are respectively inserted into the twoliquid tanks 112, cleaning liquid is arranged inside one of theliquid tanks 112, the fact that one of thehoses 214 carries the cleaning liquid along the cleaning liquid inside one of theliquid tanks 112 to clean skin and debride the skin can be achieved, theother hose 214 carries the recovered cleaning liquid into theother liquid tank 112, the clean cleaning liquid and the cleaning liquid after use can be completely separated, and the infusion support is convenient to use at any time.

Specifically, the bottom of theinfusion support 100 is provided with the hingedfork 111, the hingedfork 111 is movably connected with the outer wall of theplacing frame 110, theinfusion support 100 can be rotated, the hingedfork 111 is rotated on the outer wall of theplacing frame 110, the angle of theskin debridement mechanism 200 can be conveniently adjusted, and debridement of local skin at different positions is facilitated.

In order to improve the control effect of theliquid tank 112, the outer wall of theplacing rack 110 is in threaded connection with ascrew rod 120, the end part of thescrew rod 120 is connected with arotating disc 121, the end part of thescrew rod 120 far away from therotating disc 121 penetrates into theplacing rack 110, when theliquid tank 112 is placed into theplacing rack 110, therotating disc 121 is held to realize rotation, thescrew rod 120 slides along the outer wall of theplacing rack 110, and the end part of thescrew rod 120 abuts against theliquid tank 112 to prevent theliquid tank 112 from shaking in theplacing rack 110 to cause slipping.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Clear system of creating of medical treatment skin for cosmetology of push type suction based on thing networking, including infusion support (100) and clear mechanism (200) of creating of skin, clear mechanism (200) of creating of skin set up in infusion support (100) tip and communicate its characterized in that with infusion support (100): the skin debridement mechanism (200) comprises at least:

the infusion support is characterized by comprising an isolation cover (210), a hose (214) is communicated with the end of the isolation cover (210), the hose (214) is inserted into the infusion support (100), a cavity (211) is formed in the isolation cover (210), a conveying cylinder (212) is arranged in the cavity (211), a plurality of through holes (2121) are formed in the outer wall, close to the infusion support (100), of the conveying cylinder (212), the other end of the conveying cylinder (212) penetrates out of the cavity (211), the extending end of the conveying cylinder is communicated with a spray head (2122), a piston plate (213) is arranged on the outer wall of the conveying cylinder (212) in a sliding mode, the outer diameter of the piston plate (213) is matched with the inner diameter of the cavity (211), two screw rods (2111) are rotatably arranged at the edge of the cavity (211), the screw rods (2111) are in threaded fit connection with the surface of the piston plate (213), and the end of the screw rods (2111) rotatably penetrates out of the cavity (211), the extending end of the connecting rod is connected with a first bevel gear set (2112), the end part of the first bevel gear set (2112) is connected with a connecting rod (2113), the end part of the connecting rod (2113) rotates to extend into the inner layer of the isolation hood (210) and is connected with a second bevel gear set (2114), the end part of the second bevel gear set (2114) is connected with a rotating shaft (2115), the outer wall of the rotating shaft (2115) is provided with a gear disc (2116), and the gear disc (2116) rotates on the inner layer of the isolation hood (210);

the end part of the movable cover (220) slides in the inner layer of the isolation cover (210), one end of the movable cover (220) extends out of the inner layer of the isolation cover (210), a spring (223) is fixedly connected between the other end of the movable cover and the end part of the inner layer of the isolation cover (210), two slots (221) are formed in the inner wall of the movable cover (220), racks (222) are arranged in the slots (221), and the racks (222) are meshed and connected with the outer wall of the gear plate (2116);

the inner wall that activity cover (220) are close to the tip is equipped with thing networking unit, thing networking unit includes camera module and signal conversion module, camera module is used for gathering the video image of activity cover (220) cover in skin department, signal conversion module is arranged in the signal of telecommunication conversion that gathers camera module and carries out processing in the digital signal processing chip, transmits digital signal to display device on through the network.

2. The push type suction medical and cosmetic skin debridement system based on the internet of things according to claim 1, wherein: the first bevel gear set (2112) and the second bevel gear set (2114) adopt bevel gears which are vertically meshed with each other.

3. The push type suction medical and cosmetic skin debridement system based on the internet of things according to claim 1, wherein: the movable cover (220) stretches out the end connection of isolation cover (210) inlayer has gasbag pad (224), gasbag pad (224) adopt hollow elastic rubber material.

4. The push type suction medical and cosmetic skin debridement system based on the internet of things according to claim 1, wherein: the end part of the first bevel gear set (2112) is connected with an extension rod (2117), the extension rod (2117) is rotatably arranged at the end part of the inner cavity of the isolation cover (210), and a plurality of convex plates (2118) are arranged on the outer wall of the extension rod (2117).

5. The push type suction medical and cosmetic skin debridement system based on the internet of things according to claim 1, wherein: hose (214) are equipped with two of symmetry, cage (210) are kept away from the inside of movable cover (220) is equipped with adjusts a section of thick bamboo (230), it is equipped with fixed disk (232) to adjust a section of thick bamboo (230) tip, connecting hole (2320) of two symmetries are seted up on fixed disk (232) surface, two hose (214) tip communicates respectively connecting hole (2320) tip.

6. The push type suction medical and cosmetic skin debridement system based on the internet of things of claim 5, wherein: the adjusting cylinder (230) is internally and rotatably provided with an adjusting disc (231), the surface of the adjusting disc (231) is provided with a switching hole (2310), and the switching hole (2310) is matched with the connecting hole (2320).

7. The push type suction medical and cosmetic skin debridement system based on the internet of things of claim 6, wherein: the outer wall of the adjusting disc (231) close to the end is provided with a cam disc (2311), the outer wall of the cam disc (2311) is meshed with a rotating gear (2312), and the outer wall of the rotating gear (2312) rotatably extends out of the adjusting cylinder (230).

8. The push suction type medical and cosmetic skin debridement system based on the internet of things of claim 7, wherein: the infusion support is characterized in that a placing frame (110) is arranged at the bottom of the infusion support (100), two liquid tanks (112) are inserted into the placing frame (110), rubber pads (113) are arranged at the tops of the liquid tanks (112), two hoses (214) are respectively inserted into the two liquid tanks (112), and cleaning liquid is arranged in one of the liquid tanks (112).

9. The push type suction medical and cosmetic skin debridement system based on the internet of things of claim 8, wherein: the bottom of the infusion support (100) is provided with a hinged fork (111), and the hinged fork (111) is movably connected with the outer wall of the placing frame (110).

10. The push suction type medical and cosmetic skin debridement system based on the internet of things of claim 9, wherein: the outer wall of the placing rack (110) is in threaded connection with a screw rod (120), the end portion of the screw rod (120) is connected with a rotary table (121), and the end portion, far away from the rotary table (121), of the screw rod (120) penetrates into the placing rack (110).

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