CN113546288B

CN113546288B - Gynaecology is with atomizing medicine feeder

Info

Publication number: CN113546288B
Application number: CN202110866953.6A
Authority: CN
Inventors: 张佩; 袁素
Original assignee: Vocational And Technical College Of Anshun
Current assignee: Vocational And Technical College Of Anshun
Priority date: 2021-07-29
Filing date: 2021-07-29
Publication date: 2022-12-06
Anticipated expiration: 2041-07-29
Also published as: CN113546288A

Abstract

An atomization medicine applying device for gynecology comprises a medicine applying part, wherein the medicine applying part comprises at least four spraying bags, the inner side of each spraying bag is a hollow spraying bag cavity, a through spraying hole is formed in the outer wall of each spraying bag, a spraying inner wall plate is arranged at the inner wall of each spraying bag, the spraying inner wall plate is assembled with the outer wall of a side pushing bag, the inner wall of the side pushing bag is assembled with an installation arc plate, the side pushing bag is internally provided with a hollow side pushing bag cavity, the inner wall of each side pushing bag is provided with a side pushing inner wall plate, and the side pushing inner wall plates are assembled with the installation arc plate; the inner spray-washing wall plate is sealed and assembled with the spray-washing pipes in an axial sliding manner, one end of each spray-washing pipe is arranged in a spray-washing bag cavity, the other end of each spray-washing pipe penetrates through the side push pipe and is assembled with the side push pipe in a sealing manner, at least one spray-washing pipe corresponding to one spray-washing bag sprays atomized cleaning agent, and at least one spray-washing pipe corresponding to the other spray-washing bag sprays atomized medicament; different air bag frames are respectively installed at two ends of each spray washing bag, an air bag installing groove is formed in each air bag frame, an air bag is clamped in each air bag installing groove, and the air bag expands after being inflated to be tightly attached to and sealed with the inner wall of the vagina.

Description

Gynaecology is with atomizing medicine feeder

Technical Field

The invention relates to medical instruments, in particular to an atomization medicine applying device for gynecology.

Background

In gynecological and obstetrical treatment, the general symptoms of injury, inflammation, ulcer and the like of the inner wall of the vagina are rapidly treated mainly by applying medicine to the vagina at present. The specific treatment method mainly comprises the following steps: cleaning vagina with the medicinal preparation, wiping the cleaning agent, and applying the medicine. The cleaning guide mainly adopts the way that the vagina cleaner is inserted into the vagina and then is flushed by using a liquid cleaning agent, although the cleaning is quicker and more thorough, the outer wall of the vagina cleaner is directly contacted with the inner wall of the vagina, the vagina cleaner needs to be rotated during cleaning, and once the inner wall of the vagina is injured, the patient feels extremely uncomfortable and the injured part is easily enlarged; in addition, a large amount of the irrigating fluid may continuously flow out of the vagina to contaminate the vagina or flow into the uterus to contaminate the uterus during irrigation. When the towel is dried, a medical sponge, a medical cotton swab and the like are generally inserted into the vagina for drying, which also causes extreme discomfort for the patient. The mode of spraying the medicament to the inner wall of the vagina is mainly adopted during administration, although the method is high in speed, the waste of the medicament is caused by the mode of directly spraying the liquid medicament, the problems of medicament outflow and pollution caused by the medicament entering the uterus also exist, the absorption rate of the sprayed medicament by the inner wall of the vagina is low, the medicaments generally have the effects of analgesia and sterilization, and the main treatment still depends on the oral administration medicament.

After long-time clinical tests, the inventor designs a gynecological atomization medicine applying device, which introduces cleaning agents and medicaments into a vagina in an atomization mode, so that the absorption rate of the inner wall of the vagina to the medicines is increased, and the treatment effect is greatly improved.

Disclosure of Invention

In view of the above defects in the prior art, the technical problem to be solved by the present invention is to provide an atomizing medicine applicator for gynecology.

In order to achieve the purpose, the invention provides a gynecological atomization medicine applying device which comprises a medicine applying part, wherein the medicine applying part is used for cleaning and applying medicine to a vagina, the medicine applying part comprises at least four spraying bags, the inner side of each spraying bag is a hollow spraying bag cavity, a penetrating spraying hole is formed in the outer wall of each spraying bag, a spraying inner wall plate is arranged at the inner wall of each spraying bag, the spraying inner wall plate is assembled with the outer wall of a side pushing bag, the inner wall of each side pushing bag is assembled with an installation arc plate, a hollow side pushing bag cavity is formed in each side pushing bag, a side pushing inner wall plate is arranged at the inner wall of each side pushing bag, and the side pushing inner wall plate is assembled with the installation arc plate; the inner spray-washing wall plate is hermetically assembled with the spray-washing pipes in an axial sliding manner, one end of each spray-washing pipe is arranged in a spray-washing bag cavity, the other end of each spray-washing pipe penetrates through the side push pipe and is hermetically assembled with the side push pipe, at least one spray-washing pipe corresponding to one spray-washing bag sprays atomized cleaning agent, and at least one spray-washing pipe corresponding to the other spray-washing bag sprays atomized medicament; different air bag frames are installed respectively at every spray rinsing bag both ends, be provided with the gasbag mounting groove on the gasbag frame, gasbag mounting inslot clamping has the gasbag, the inside hollow gasbag chamber that is of gasbag, gasbag chamber pass through gasbag pipe and second gasbag annular intercommunication, second gasbag annular passes through gasbag annular ring and first gasbag annular ring intercommunication, gasbag annular ring, first gasbag annular ring, second gasbag annular ring all set up on the gasbag ring, second gasbag annular ring and gasbag trachea one end intercommunication, the gasbag trachea is used for introducing or exporting the air current.

Preferably, each spray washing bag and each side pushing bag are installed in a radial sliding groove and can radially slide, different middle connecting plates are installed on two sides of each radial sliding groove respectively, different air bag frames are installed on two ends of each radial sliding groove respectively, each air bag frame is sleeved on an air bag ring corresponding to the air bag frame, the air bag rings are sleeved on an outer air cylinder, and the air bag frames and the air bag rings can rotate relatively to the circumference, are sealed and cannot axially move for assembly; two ends of the middle connecting plate are respectively assembled and fixed with the air bag ring; even board and outer gas cylinder radially constitute the joint groove in the centre, the both sides of installation arc board surpass respectively that the side pushes away the bag and surpass the part and be the joint end, joint end card is packed into in the joint groove to make installation arc board and gasbag ring, the middle board assembly that links.

Preferably, the other end of the air pipe of the air bag is arranged in the inner air cavity and communicated with the inner air cavity, the inner side of the outer air cylinder is an outer air cavity, the first side push main air pipe, the first side push auxiliary air pipe, the second side push main air pipe, the second side push auxiliary air pipe, the cleaning air supply pipe, the medicament air supply pipe, the cleaning air exhaust pipe and the medicament air exhaust pipe are all arranged in the outer air cavity, an inner air cylinder is further arranged in the outer air cavity, the inner air cylinder is assembled with the outer air cylinder through an inner air connecting block, a hollow inner air cavity is arranged in the inner air cylinder, an air supply hole of the air bag is formed in the position of the inner air cylinder, which corresponds to the air bag, and the air supply hole of the air bag is communicated with the air pipe of the air bag in a sealing manner; the side push pipe is arranged on the outer air cylinder; the number of the spray washing bags is four, the side push pipes corresponding to the four spray washing bags are respectively communicated with the first side push main air pipe, the first side push auxiliary air pipe, the second side push main air pipe and the second side push auxiliary air pipe through different side push connecting pipes, and the first side push main air pipe, the first side push auxiliary air pipe, the second side push main air pipe and the second side push auxiliary air pipe are respectively used for inputting or leading out air flow to or from the side push bag cavities corresponding to the side push main air pipe, the first side push auxiliary air pipe, the second side push main air pipe and the second side push auxiliary air pipe; the corresponding spray cleaning pipes of the four spray cleaning bags penetrate through the side push pipes and are respectively communicated with the cleaning air supply pipe, the medicament air supply pipe, the cleaning air exhaust pipe and the medicament air exhaust pipe; the cleaning air supply pipe and the medicament air supply pipe are respectively used for inputting atomized cleaning agent mist and medicament mist, and the cleaning air exhaust pipe and the medicament air exhaust pipe are respectively used for transmitting suction negative pressure to the corresponding spraying and washing bag cavity;

one ends of the first side push main air pipe and the first side push auxiliary air pipe, which are far away from the side push connecting pipe, respectively penetrate out of the outer air cylinder, then enter the sixth air ring and are communicated with the sixth air ring; one end of the second side-push main air pipe and one end of the second side-push auxiliary air pipe side-push connecting pipe respectively penetrate out of the outer air cylinder and then enter the fifth air ring and are communicated with the fifth air ring; one end of the medicament air supply pipe, which is far away from the spray washing pipe, penetrates out of the outer air cylinder, enters the fourth air ring and is communicated with the fourth air ring; one end of the cleaning air supply pipe, which is far away from the spray cleaning pipe, penetrates through the outer air cylinder and then enters the third air ring to be communicated with the third air ring; one end of the cleaning exhaust pipe, which is far away from the spray washing pipe, and one end of the medicament exhaust pipe, which is far away from the spray washing pipe, penetrate through the outer air cylinder, enter the second air ring and are communicated with the second air ring; the inner air cavity is communicated with the first air ring through an air cavity connecting pipe, and the air cavity connecting pipe penetrates through the inner air cylinder and the outer air cylinder respectively; first gas ring, second gas ring, third gas ring, fourth gas ring, fifth gas ring, sixth gas ring set up along gas ring section of thick bamboo axial respectively, the gas ring section of thick bamboo is installed in the dustcoat, and dustcoat one end and the gasbag frame assembly that is close to with it, but the outer wall of outer inflator is sealed with the inner wall of gas ring section of thick bamboo, the assembly of circumferencial rotation, but the one end that the end cover was kept away from to outer inflator is sealed through the inflator ring.

Preferably, the spray pipe passes through a pipe sleeve, is sealed with the pipe sleeve and is axially slidably assembled with the pipe sleeve, and the pipe sleeve is installed on the outer wall of the side push bag; one end of the outer air cylinder and one end of the inner air cylinder are closed, the closed end of the outer air cylinder penetrates through the air bag ring close to the closed end and then is assembled with the end cover, and the end cover is in sealing fit with the end face of the air bag frame and the end face of the air bag ring; the air cylinder ring is assembled with one end of the rotating shaft, one end of the rotating shaft penetrates through the air cylinder and then is assembled with the rotating limiting ring, a driving clamping groove is formed in one end, where the rotating limiting ring is installed, of the rotating shaft, the driving clamping groove is assembled with a driving clamping head in a clamping mode, the driving clamping head is arranged at one end of the driving rotating shaft, the other end of the driving rotating shaft is connected with one end of the flexible shaft, the other end of the flexible shaft is connected with an external motor shaft, and the external motor shaft is installed in the external motor; the driving rotating shaft can rotate circumferentially and is mounted in the plug bush in a non-axial-movement mode, and the plug bush penetrates through the end plate and then is mounted in the air ring cylinder.

Preferably, the first air ring, the second air ring, the third air ring, the fourth air ring, the fifth air ring and the sixth air ring are respectively communicated with one end of an air bag air supply pipe, one end of a main exhaust pipe, one end of a medicine feeding air inlet pipe, one end of a cleaning air inlet pipe, one end of a second switching pipe and one end of a first switching pipe, the other end of the air bag air supply pipe is communicated with a second outlet of a fourth switching valve, a first outlet of the fourth switching valve is communicated with the atmosphere, an inlet of the fourth switching valve is communicated with an outlet of an air pump, the fourth switching valve is used for enabling the first outlet to be communicated with the second outlet and the inlet of the fourth switching valve, so that air supply to the air bag through an air pump is realized, or the air bag is communicated with external air to realize air discharge of the air bag; the fourth reversing valve is also internally provided with a closed port, an inlet of the fourth reversing valve can be communicated with the closed port, the closed port is in a closed state, the air bag air supply pipe is not communicated with the inlet at the moment, but the air bag air supply pipe is not communicated with the second outlet, namely the air bag air supply pipe is in a closed state; the other end of the main exhaust pipe is communicated with an inlet of an exhaust pump, an outlet of the exhaust pump is connected into a moisture absorption box, a moisture absorption material is filled in the moisture absorption box, the moisture absorption material is used for absorbing water in the air flow, and the air flow after moisture absorption is directly exhausted into the air;

the other end of the medicine feeding air inlet pipe and the other end of the cleaning air inlet pipe are respectively communicated with a first outlet and a second outlet of a first reversing valve, an inlet of the first reversing valve is communicated with an outlet of the air pump, and the first reversing valve is used for enabling one of the inlet of the first reversing valve to be communicated with the first outlet and the second outlet of the first reversing valve; the other end of the second switching pipe is communicated with a first outlet of a third reversing valve, an inlet of the third reversing valve is communicated with an outlet of the air pump, a second outlet of the third reversing valve is communicated with the atmosphere, and the third reversing valve is used for selecting one of the first outlet of the third reversing valve to be communicated with the inlet and the second outlet of the third reversing valve, so that air supply and air exhaust to the side push bag communicated with the third reversing valve are realized; the third reversing valve is also internally provided with a closed port, an inlet of the third reversing valve can be communicated with the closed port, the closed port is in a closed state, the second switching pipe is not communicated with the inlet at the moment, but the second switching pipe is not communicated with the second outlet, namely the second switching pipe is in a closed state; the other end of the first switching pipe is communicated with a first outlet of a second reversing valve, an inlet of the second reversing valve is communicated with an outlet of the air pump, a second outlet of the second reversing valve is communicated with the atmosphere, and the second reversing valve is used for selecting one of the first outlet of the second reversing valve to be communicated with the inlet and the second outlet of the second reversing valve, so that air supply and air exhaust to the side push bag communicated with the second reversing valve are realized; the second reversing valve is also internally provided with a closed port, an inlet of the second reversing valve can be communicated with the closed port, the closed port is in a closed state, the first switching pipe is not communicated with the inlet at the moment, but the first switching pipe is not communicated with the second outlet, namely the first switching pipe is in a closed state; the inlet of the air pump is respectively communicated with the outlet of the first one-way valve and the outlet of the second one-way valve through a three-way joint, the inlet of the second one-way valve is communicated with air, the inlet of the first one-way valve is communicated with the outlet of the atomizer, the inlet of the atomizer is communicated with the outlet of the water pump, and the atomizer is used for atomizing liquid pumped by the water pump into fine water mist; the inlet of the water pump is communicated with the outlet of the reversing water valve, and the first inlet and the second inlet of the reversing water valve are respectively communicated with the liquid medicament in the medicine box and the liquid cleaning agent in the cleaning box.

Preferably, a blind pipe is further mounted in the inner air cylinder, inner air cylinder grooves distributed along the axial direction of the blind pipe are formed in the part where the inner air cylinder and the blind pipe are assembled, and the inner air cylinder grooves are communicated with the air cavity connecting pipe; the blind pipe is communicated with one end of a suction connecting pipe, the other end of the suction connecting pipe penetrates through an inner air cylinder and an outer air cylinder and then is communicated with a second air ring, and a blind pipe cavity with one closed end is formed inside the blind pipe; one end of the outer cover, which is far away from the spray washing bag, is provided with a through air suction hole, and the end of the outer cover is provided with a spacing ring; the sixth air ring, the fifth air ring, the fourth air ring, the third air ring, the second air ring and the first air ring are respectively communicated with one end of a first air hole, one end of a second air hole, one end of a third air hole, one end of a fourth air hole, one end of a fifth air hole and one end of a sixth air hole, the other end of the first air hole, the other end of the second air hole, the other end of the third air hole, the other end of the fourth air hole, the other end of the fifth air hole and the other end of the sixth air hole respectively penetrate through the end surface of an air ring cylinder, the end surface of the air ring cylinder is attached to and sealed with the end surface of a valve plate, a penetrating valve hole is formed in the valve plate, and the valve plate is attached to the inner wall of the outer cover, sealed and assembled in a circumferential rotating mode;

the valve plate is arranged at one end of the valve cylinder, and the other end of the valve cylinder sequentially penetrates through the power cylinder and the moisture absorption box and then is assembled with the adjusting disc; the power cylinder is arranged in the protection cylinder and can be assembled with the protection cylinder in a rotating mode relative to the circumference, two ends of the power cylinder are respectively assembled with the first impeller and the second impeller, and the power cylinder and the air cylinder ring cannot be assembled or fixed in a rotating mode relative to the circumference; the first impeller is arranged in the outer cover and corresponds to the air suction hole, and the second impeller is arranged in the electric gas cylinder; two ends of the protection cylinder are respectively assembled with the spacer ring and a second partition plate, and the second partition plate is arranged in the electric cylinder; the power cylinder penetrates through a hollow output shaft of the hollow shaft motor and is assembled with the hollow output shaft in a non-relative-circumferential-rotation mode, the hollow shaft motor is installed in the electric cylinder, and external air is sucked into the protective cover from the air suction hole when the first impeller rotates positively; when the second impeller rotates positively, suction negative pressure is generated at one end close to the first impeller.

Preferably, the moisture absorption box is installed at one end of the electric cylinder, the interior of the moisture absorption box is a hollow moisture absorption cavity, a plurality of moisture absorption vent holes penetrating through the side wall of the moisture absorption box are formed in the side wall of the moisture absorption box, and moisture absorption materials are filled in the moisture absorption cavity; the valve barrel is provided with a through moisture exhaust hole on the part of the moisture absorption cavity, a hole cover is arranged on the outer side of the moisture exhaust hole, the hole cover is sleeved outside the valve barrel, a moisture exhaust gap is formed between the hole cover and the valve barrel, a plurality of fine moisture passing holes are formed in the hole cover, and the moisture passing holes are used for enabling air flow to pass and preventing moisture absorption materials from entering the moisture exhaust gap to block the moisture exhaust hole;

the valve cylinder is internally provided with a valve cylinder separating plug, the valve cylinder is hollow and is respectively divided into a valve cylinder dehumidifying part and a valve cylinder dehumidifying part through the valve cylinder separating plug, a negative pressure suction hole and a positive pressure discharge hole are also respectively arranged at two ends of the second impeller, and the negative pressure suction hole and the positive pressure discharge hole are respectively communicated with the valve cylinder dehumidifying part and the valve cylinder dehumidifying part; a second partition plate and a third partition plate are respectively arranged at the two ends of the second impeller of the electric gas cylinder, the second partition plate is respectively in seal assembly with the electric gas cylinder and the protection cylinder, and the third partition plate is respectively in seal assembly with the electric gas cylinder and the valve cylinder; one end of the electric cylinder, which is far away from the third partition plate, is assembled with the first partition plate, and the second partition plate is respectively assembled with the protection cylinder and the electric cylinder in a sealing way; the protective cylinder is characterized in that a mounting ring is sleeved on a part, located between the partition ring and the first partition plate, of the protective cylinder, two mounting tables are arranged on the mounting ring, a plug-in groove and a buckle groove are respectively formed in each mounting table, each plug-in groove penetrates through each mounting table, each buckle groove is in clamping assembly with a buckle head, each buckle head is arranged at an open end of each buckle plate, the other end of each buckle plate is mounted on the corresponding liquid box, and each buckle plate is elastic;

the liquid box is also provided with a socket and a sealing plug respectively, the sealing plug seals the filling hole, and the filling hole is arranged on the liquid box; the liquid box is hollow, the liquid box is internally provided with a submersible pump, the submersible pump is communicated with liquid in the liquid box, an outlet of the submersible pump is communicated with an inlet of the atomizing nozzle, an outlet of the atomizing nozzle penetrates out of the liquid box and then is opposite to the first impeller, the submersible pump is used for pressurizing and pumping the liquid in the liquid box to the atomizing nozzle, the atomizing nozzle atomizes the liquid into water mist to be sprayed out to the first impeller, and the first impeller rotates to pump the mist to one end, close to the air ring barrel, of the first impeller; the liquid box has two, and one is the washing box, and another is the medicine box, deposits the washing liquid that is used for wasing in the washing box, and the medicine box is used for depositing liquid medicament.

Preferably, a battery and a circuit board are further installed in the gas cylinder, the battery is used for supplying power to all electric equipment, and an MCU is installed on the circuit board and used for receiving, transmitting and analyzing a control instruction and performing parameter operation and program operation; the MCU is electrically connected with the control button, is controlled and installed on the outer side of the electric gas cylinder and is used for being convenient for an operator to touch and press, so that a control signal is input to the MCU; the immersible pump passes through the socket power supply, and the socket is electrically conductive with the electricity connection post grafting, and the electricity connection post is connected with the electrode electricity of battery to through the power supply of battery box immersible pump, another control button in series connection back on the power supply circuit of immersible pump, control button is used for controlling the electric current break-make between immersible pump and the battery, thereby controls opening of immersible pump and stops.

Preferably, a plurality of adjusting positioning holes are formed in the end face, away from one end of the second impeller, of the moisture absorption box along the circumferential direction of the moisture absorption box, and correspond to the first air hole, the second air hole, the third air hole, the fourth air hole, the fifth air hole and the sixth air hole in a one-to-one mode respectively so as to achieve adjusting and positioning of the valve plate, and therefore when the rotation angle of the valve plate is adjusted through the valve barrel, one of the valve holes is selected to be opposite to and communicated with the first air hole, the second air hole, the third air hole, the fourth air hole, the fifth air hole and the sixth air hole; a valve barrel limiting ring is arranged on the part of the valve barrel, which is positioned between the adjusting disc and the moisture absorption box, and the valve barrel limiting ring is used for preventing the valve barrel from moving in the axial direction; the adjusting slide ring is clamped with the adjusting slide hole and can be axially assembled in a sliding mode, one end of the adjusting slide hole, far away from the adjusting chuck, is opened and sealed through a screw plug, and a positioning spring is mounted on the portion, located between the adjusting slide ring and the screw plug, of the adjusting slide hole and used for applying elastic force to the adjusting slide ring to push the adjusting positioning hole, so that the adjusting chuck is kept in clamping assembly with the adjusting positioning hole, the valve plate is relatively fixed in the circumferential direction, and the valve plate is positioned when rotating.

The invention has the beneficial effects that:

the vagina cleaning device is simple in structure, the air bags are arranged at the two ends of the spray washing bag, and the mode that the air bags expand to close the two ends of the vagina pressing part is utilized, so that not only can the cleaning agent and the medicament be prevented from entering the uterus or flowing out of the vagina to cause pollution, but also the vagina can be opened, the discomfort caused by the direct contact of the vagina and the spray washing bag during subsequent cleaning and medicine application can be prevented, and even the affected part of the vagina is enlarged.

The two spray washing bags are used for cleaning, the two spray washing bags are used for applying the medicine, and the spray washing bags suck atomized mist during cleaning or applying the medicine, so that the pollution caused by the leakage of the mist is avoided, and in addition, the extracted mist is sucked dry through the water absorption material, so that the pollution caused by the mist is further prevented. The spray washing bag can move radially towards the inner wall of the vagina during working, so that the spray washing bag is attached to the inner wall of the vagina as much as possible, on one hand, the washing effect can be improved, and on the other hand, the absorption effect of the vagina on atomized medicine can also be improved.

The invention has two designs of separating and integrating the control box and the medicine feeding part, thereby being suitable for different working environments, and in addition, the medicine feeding part is supported by utilizing the bracket, thereby increasing the stability in use and prolonging the service time. And the spray washing bag is not in direct contact with the vagina, so that the application time can be prolonged, the medicine dosage absorbed by the inner wall of the vagina is further increased, and the treatment effect is greatly improved. Particularly, the spray washing bag rotates independently and does not contact with the vagina, so that the inner wall of the vagina is covered more comprehensively, and the vagina is not stimulated directly to secrete liquid to influence the absorption of the medicament.

Drawings

Fig. 1-8 are schematic structural diagrams of the first embodiment. Wherein FIG. 3 is a cross-sectional view taken at a central plane of the axis of the inner barrel A230; FIG. 4, FIG. 5, FIG. 6, FIG. 7 and FIG. 8 are cross-sectional views of P1-P1, P2-P2, P3-P4, P4-P4 and P5-P5 in FIG. 3, respectively.

Fig. 9 is a schematic structural view of the spray washing bag A310 and the side push bag A320.

Fig. 10 is a sectional view at another center plane where the axis of the inner barrel a230 is located.

Fig. 11 is a sectional view at a center plane where the axis of the elevating shaft 130 is located.

Fig. 12-16 are partial schematic structural views of an inner part of the first embodiment.

FIG. 17 is a schematic structural view of the bracket of the first embodiment.

Fig. 18 is an electrical block diagram according to the first embodiment.

Fig. 19-24 are schematic structural views of the second embodiment. Fig. 21 is a sectional view of the inner cylinder a230 taken along the center plane thereof, fig. 22 is an enlarged view of fig. 21 at F1, and fig. 23 and 24 are sectional views of fig. 21 taken along P6-P6 and P7-P7, respectively.

Fig. 25-31 are schematic internal partial structures of the second embodiment.

FIG. 32 is a sectional view of the second embodiment taken along the center plane of the axis of electrical post A770.

Fig. 33 is a schematic view of the structure at the liquid cartridge a 610.

FIG. 34 is a structural view of the stent of the second embodiment.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example one

Referring to fig. 1 to 18, the gynecological atomization medicine applicator of the embodiment includes an medicine applying part, the medicine applying part is used for cleaning and applying medicine to a vagina, the medicine applying part includes at least four spraying bags a310, each two spraying bags a310 are a pair, for convenience of description, the four spraying bags a310 are named as a first spraying bag a310-1, a second spraying bag a310-2, a third spraying bag a310-3 and a fourth spraying bag a310-4, respectively, wherein the first spraying bag a310-1 and the second spraying bag a310-2 are a pair, the third spraying bag a310-3 and the fourth spraying bag a310-4 are a pair, when in use, the first spraying bag a310-1 sprays atomized medicine, and the second spraying bag a310-2 sucks gas in the vagina; the third spraying and washing bag A310-3 sprays the atomized cleaning agent, and the fourth spraying and washing bag A310-4 sucks gas in the vagina;

the inner side of each spraying bag A310 is a hollow spraying bag cavity A312, the outer wall of each spraying bag A310 is provided with a through spraying hole A311, the inner wall of each spraying bag A is a spraying inner wall plate A313, the spraying inner wall plates A313 are assembled with the outer wall of the side pushing bag A320, the inner wall of the side pushing bag A320 is assembled with the installation arc plate A330, the side pushing bag A320 is internally provided with a hollow side pushing bag cavity A321, the inner wall of the side pushing bag A320 is provided with a side pushing inner wall plate A322, and the side pushing inner wall plate A322 is assembled with the installation arc plate A330; the spray washing bag A310 is made of skin-friendly materials, such as skin-friendly silica gel; the side-push capsule cavity A321 is made of soft elastic material, such as elastic rubber and silica gel.

The inner spray-washing wall plate A313 and the spray-washing pipe A282 are assembled in a sealing and axially sliding manner, one end of the spray-washing pipe A282 is installed in the spray-washing bag cavity A312, the other end of the spray-washing pipe A282 penetrates through the side push pipe A281 and is assembled with the spray-washing pipe A282 in a sealing manner, the side push pipes A281 corresponding to the four spray-washing bags A310 are respectively communicated with the first side push main air pipe A261, the first side push auxiliary air pipe A262, the second side push main air pipe A271 and the second side push auxiliary air pipe A272 through different side push connecting pipes A285, and the first side push main air pipe A261, the first side push auxiliary air pipe A262, the second side push main air pipe A271 and the second side push auxiliary air pipe A272 are respectively used for inputting or leading out air flow to the side push bag cavity A321 corresponding to the side push main air pipe A271; the corresponding spray-washing pipes A282 of the four spray-washing bags A310 penetrate out of the side push pipe A281 and are respectively communicated with the cleaning air-feeding pipe A241, the medicament air-feeding pipe A251, the cleaning air-pumping pipe A242 and the medicament air-pumping pipe A252; the cleaning air feed pipe A241 and the medicament air feed pipe A251 are respectively used for inputting atomized cleaning agent mist and medicament mist, and the cleaning air feed pipe A242 and the medicament air feed pipe A252 are respectively used for transmitting suction negative pressure to the corresponding spraying and washing bag cavity A312.

Each spray washing bag A310 and each side pushing bag A320 are mounted in a radial chute A101 and can slide in a radial direction, different middle connecting plates A160 are mounted on two sides of the radial chute A101 respectively, different air bag frames A120 are mounted at two ends of the radial chute A101 respectively, each air bag frame A120 is sleeved on an air bag ring A140 corresponding to the air bag frame A120, the air bag ring A140 is sleeved on an outer air cylinder A220, and the air bag frames A120 and the air bag rings A140 can rotate relatively to the circumference, are sealed and cannot move axially; two ends of the middle connecting plate A160 are respectively assembled and fixed with the air bag ring A140; the middle connecting plate A160 and the outer air cylinder A220 form a clamping groove A161 in the radial direction, two sides of the installation arc plate A330 respectively exceed the side push bag A320, the exceeding part is a clamping end A331, and the clamping end A331 is clamped into the clamping groove A161, so that the installation arc plate A330 is assembled with the air bag ring A140 and the middle connecting plate A160, namely the installation of the corresponding spray washing bag A310 and the side push bag A320 is completed.

The air bag frame A120 is provided with an air bag mounting groove A121, an air bag A410 is clamped in the air bag mounting groove A121, and the air bag A410 is made of soft, skin-friendly and elastic materials, such as skin-friendly silica gel. The inside hollow gasbag chamber A411 that is of gasbag A410, gasbag chamber A411 is through gasbag pipe A287 and second gasbag annular A142 intercommunication, second gasbag annular A142 is through gasbag annular A143 and first gasbag annular A141 intercommunication, gasbag annular A143, first gasbag annular A141, second gasbag annular A142 all set up on gasbag ring A140, second gasbag annular A142 and gasbag trachea A286 one end intercommunication, the gasbag trachea A286 other end is packed into in the interior gas chamber A233 and is communicated with it. When the vaginal dilator is used, the air bag A410 is inflated and expanded firstly, so that the vagina is opened and the inner wall of the vagina is compressed, the air bag and the inner wall of the vagina are tightly sealed, and the part between the two air bags is the position needing medicine application; the external air cylinder A220 drives the air bag ring A140 to rotate circumferentially, the air bag A410 and the air bag frame A120 cannot rotate because the air bag A410 is tightly clamped on the inner wall of the vagina, and the air bag ring A140 keeps the inner air cavity A233 communicated with the air bag A140; the air bag ring A140 can drive the spray washing bag A310 to synchronously rotate, and at the moment, the air bag stretches the vagina, so that the spray washing bag A310 cannot be contacted with the inner wall of the vagina, the inner wall of the vagina is prevented from being scratched, the sensitivity of a patient is reduced, and the medicine application time is prolonged.

The inner side of the outer air cylinder A220 is an outer air cavity A221, the first side push main air pipe A261, the first side push auxiliary air pipe A262, the second side push main air pipe A271, the second side push auxiliary air pipe A272, the cleaning air pipe A241, the medicament air pipe A251, the cleaning air pipe A242 and the medicament air pipe A252 are all installed in the outer air cavity A221, an inner air cylinder A230 is further installed in the outer air cavity A221, the inner air cylinder A230 is assembled with the outer air cylinder A220 through an inner air connecting block A232, a hollow inner air cavity A233 is formed in the inner air cylinder A230, an air bag air supply hole A231 is formed in the position, corresponding to the air bag, of the inner air cylinder A230, and the air bag air supply hole A231 is in sealed communication with the air bag air pipe A286. The side push tube a281 is mounted on the outer cylinder a220, the washer tube a282 passes through and is sealingly and slidably fitted with a tube housing a283 which is mounted on the outer wall of the side push bag a 320. This arrangement allows the side push tubes a281 and the spray tubes a282 to be kept in communication with the bag moving a320 and the spray tubes a282 to be kept in communication with the spray bag a310 while the positions of the side push tubes a281 and the spray tubes a282 in the radial direction with respect to the outer cylinder a220 are unchanged when the side push bags a320 and the spray bags a310 are moved in the radial direction. One end of the outer air cylinder A220 and one end of the inner air cylinder A230 are closed, the closed end of the outer air cylinder A220 penetrates through the air bag ring A140 close to the closed end and then is assembled with the end cover A130, and the end cover A130 is in sealing fit with the end face of the air bag frame A120 and the end face of the air bag ring A140. In this embodiment, the outer wall of the end cap a130 is provided with a layer of skin-friendly and soft material, such as skin-friendly silica gel.

One ends of the first side push main air pipe A261 and the first side push auxiliary air pipe A262, which are far away from the side push connecting pipe A285, penetrate out of the outer air cylinder A220 respectively and then enter the sixth air ring A156 to be communicated with the sixth air ring A156; one end of a side pushing connecting pipe A285 of the second side pushing main air pipe A271 and the second side pushing auxiliary air pipe A272 respectively penetrates out of the outer air cylinder A220 and then enters and is communicated with the fifth air ring A155; one end of the medicament air feed pipe A251 far away from the spray washing pipe A282 penetrates out of the outer air cylinder A220 and then enters the fourth air ring A154 to be communicated with the fourth air ring A; one end of the cleaning air feed pipe A241, which is far away from the spray cleaning pipe A282, penetrates out of the outer air cylinder A220, enters the third air ring A153 and is communicated with the third air ring A153; one end of the cleaning air exhaust pipe A242, which is far away from the spray cleaning pipe A282, and one end of the medicament air exhaust pipe A252, which is far away from the spray cleaning pipe A282, penetrate out of the outer air cylinder A220, enter the second air ring A152 and are communicated with the second air ring A152; the inner air cavity A233 is communicated with the first air ring A151 through an air cavity connecting pipe A284, and the air cavity connecting pipe A284 penetrates through the inner air cylinder A230 and the outer air cylinder A220 respectively; the first air ring A151, the second air ring A152, the third air ring A153, the fourth air ring A154, the fifth air ring A155 and the sixth air ring A156 are respectively arranged in the axial direction of the air ring cylinder A150, the air ring cylinder A150 is installed in the outer cover A110, one end of the outer cover A110 is assembled with the air bag frame A120 close to the outer cover A110, the outer wall of the outer air cylinder A120 is sealed with the inner wall of the air ring cylinder A150 and can be assembled in a circumferential rotating mode, one end, far away from the end cover A130, of the outer air cylinder A220 is sealed through the air cylinder ring A222, the air cylinder ring A222 is assembled with one end of a rotating shaft A223, one end of the rotating shaft A223 penetrates through the air ring cylinder A150 and then is assembled with a rotating limiting ring A2232, one end, of the rotating shaft A223, where the rotating limiting ring A2232 is installed on, the driving clamping groove A2231 is assembled with a driving clamping head 251, the driving clamping head 251 is arranged at one end of the driving rotating shaft 250, the other end of the driving rotating shaft 250 is connected with one end of the flexible shaft 230, the other end of the flexible shaft 221 is connected with the motor shaft 221, and the motor shaft 221 can be driven by an external motor shaft 250 to rotate. The driving shaft 250 is installed in the plug 240 in a circumferentially rotatable and axially immovable manner, and the plug 240 is inserted into the air ring cylinder a150 through the end plate 160. Preferably, in order to limit the depth of the spray rinsing capsule A310 inserted into the vagina, a convex ring A111 is further arranged on the outer cover A110, and the convex ring A111 cannot enter the vagina, so that the maximum insertion depth is limited, and the vagina is prevented from being injured after excessive insertion.

Referring to fig. 18, preferably, the first air ring a151, the second air ring a152, the third air ring a153, the fourth air ring a154, the fifth air ring a155, and the sixth air ring a156 are respectively communicated with one end of the air bag air supply pipe a211, one end of the main exhaust pipe a212, one end of the medicine supply air supply pipe a213, one end of the cleaning air supply pipe a214, one end of the second switching pipe a215, and one end of the first switching pipe a216, the other end of the air bag air supply pipe a211 is communicated with a second outlet of a fourth reversing valve, a first outlet of the fourth reversing valve is communicated with the atmosphere, and an inlet of the fourth reversing valve is communicated with an outlet of the air pump, the fourth reversing valve is used for selecting the first outlet thereof to be communicated with a second outlet and an inlet thereof, so as to supply air to the air bag through the air pump, or communicate the air bag with the outside air to deflate the air bag; the fourth reversing valve is also internally provided with a closed port, an inlet of the fourth reversing valve can be communicated with the closed port, the closed port is in a closed state, the air bag air supply pipe A211 is not communicated with the inlet at the moment, but the air bag air supply pipe A211 is not communicated with the second outlet, namely the air bag air supply pipe A211 is in a closed state. The other end of the main exhaust pipe A212 is communicated with an inlet of an exhaust pump, an outlet of the exhaust pump is connected into a moisture absorption box, a moisture absorption material is filled in the moisture absorption box, the moisture absorption material is used for absorbing water in air flow, and the air flow after moisture absorption is directly exhausted into air. The moisture-absorbing material of this embodiment may be a water-absorbing resin. The other end of the medicine feeding air inlet pipe A213 and the other end of the cleaning air inlet pipe A214 are respectively communicated with a first outlet and a second outlet of a first reversing valve, an inlet of the first reversing valve is communicated with an outlet of the air pump, and the first reversing valve is used for enabling one inlet of the first reversing valve to be communicated with the first outlet and the second outlet of the first reversing valve. The other end of the second switching tube A215 is communicated with a first outlet of a third reversing valve, an inlet of the third reversing valve is communicated with an outlet of the air pump, a second outlet of the third reversing valve is communicated with the atmosphere, and the third reversing valve is used for enabling the first outlet of the third reversing valve to be communicated with the inlet and the second outlet of the third reversing valve alternatively, so that air supply and air exhaust to the side push bag A320 communicated with the third reversing valve are realized; the third reversing valve is also internally provided with a closed port, an inlet of the third reversing valve can be communicated with the closed port, the closed port is in a closed state, at the moment, the second switching pipe A215 is not communicated with the inlet, but the second switching pipe A215 is not communicated with the second outlet, namely, the second switching pipe A215 is in a closed state. The other end of the first switching tube A216 is communicated with a first outlet of a second reversing valve, an inlet of the second reversing valve is communicated with an outlet of the air pump, a second outlet of the second reversing valve is communicated with the atmosphere, and the second reversing valve is used for enabling the first outlet of the second reversing valve to be communicated with the inlet and the second outlet of the second reversing valve alternatively, so that air supply and air exhaust to the side push bag A320 communicated with the second reversing valve are realized; the second reversing valve is also internally provided with a closed port, an inlet of the second reversing valve can be communicated with the closed port, the closed port is in a closed state, the first switching tube A216 is not communicated with the inlet at the moment, but the first switching tube A216 is not communicated with the second outlet, namely the first switching tube A216 is in a closed state. The inlet of the air pump is respectively communicated with the outlet of the first one-way valve and the outlet of the second one-way valve through a three-way joint, the inlet of the second one-way valve is communicated with air, the inlet of the first one-way valve is communicated with the outlet of the atomizer, the inlet of the atomizer is communicated with the outlet of the water pump, and the atomizer is used for atomizing liquid pumped by the water pump into fine water mist; the inlet of the water pump is communicated with the outlet of the reversing water valve, and the first inlet and the second inlet of the reversing water valve are respectively communicated with the liquid medicament in the medicine box and the liquid cleaning agent in the cleaning box.

In this embodiment, the switching-over water valve, a water pump, the atomizer, first check valve, the second check valve, the air pump, the air discharge pump, external motor, first switching-over valve, the second switching-over valve, the third switching-over valve, fourth switching-over valve is all installed in mainframe box 210, the independent external design of mainframe box 210 can reduce the manufacturing degree of difficulty, and be convenient for subsequent maintenance, simplify the structure, can also realize long-time the use in addition, mainly be fit for medical institution and use, its mainframe box volume can be unrestricted, consequently, can increase more functions, higher power.

The steps of this example are as follows:

1. one end of a spray rinsing bag A310 is inserted into the vagina, an air pump is started to communicate the inlet of a fourth reversing valve with an air bag air supply pipe, the air pump pumps air into the air bag air supply pipe A211, the air bag air supply pipe A211 introduces air flow into a first air ring A151, the first air ring A151 introduces air flow into an inner air cavity A233 from an air cavity connecting pipe A284, the air flow in the inner air cavity A233 enters a second air bag ring groove A142 from an air bag air pipe A286, the air flow is introduced into a first air bag ring groove A141 from the second air bag ring groove A142, the first air bag ring groove A141 introduces air flow into an air bag A410 through an air bag pipe A287, and the air bag expands under the action of air pressure until the air bag is tightly pressed and sealed with the inner wall of the vagina. The inlet of the fourth reversing is switched to be communicated with the closed end of the inlet, and the air bag air supply pipe is in a closed state.

2. The inlet of the second reversing valve is communicated with the first switching tube A216, the air pump is started, so that the air flow enters the sixth air ring A156, the air flow flows out from the sixth air ring A156 through the first side push main air tube A261 and the first side push auxiliary air tube A262 to the side push bag A320 corresponding to the first side push main air tube A261 and the first side push auxiliary air tube A262, and the side push bag A320 is expanded to push the third spray bag A310-3 and the fourth spray bag A310-4 corresponding to the first side push auxiliary air tube A262 in the radial direction. The inlet of the second direction valve then communicates with its closed end so that the first switching tube a216 is in a closed state.

3. The outlet of the reversing water valve is communicated with a liquid cleaning agent in the cleaning box, and the air pump is communicated with the cleaning air inlet pipe through the first reversing valve; the cleaning agent is pumped into the atomizer to be atomized into mist, then the mist is pumped by the air pump and mixed with air in a certain proportion and then sent into the cleaning air inlet pipe, the cleaning air inlet pipe introduces the mist into the third air ring A153, the mist enters the cleaning air inlet pipe A241 from the third air ring A153, then is introduced into the third spray cleaning bag A310-3 corresponding to the cleaning air inlet pipe A241, and finally is sprayed out from the spray holes A311. The air exhaust pump sucks on the second air ring A152, so that the cleaning air exhaust pipe A242 and the medicament air exhaust pipe A252 transmit suction negative pressure, and the fourth spray rinsing bag A310-4 and the second spray rinsing bag A210-2 enable air flow to pass through the corresponding spray holes A311 through the negative pressure, then enter the cleaning air exhaust pipe A242 and the medicament air exhaust pipe A252, and finally enter the air exhaust manifold A212 to be exhausted.

4. The external motor is started, the external motor drives the outer air cylinder A220 to rotate circumferentially through the flexible shaft, the spraying and washing bags are driven to rotate synchronously, the third spraying and washing bag A310-3 rotates to spray atomized cleaning agent to the inner wall of the vagina, so that quick cleaning is realized, and basically no running water exists, so that pollution can be prevented, and subsequent pesticide application is influenced. The fourth spray rinsing sac A310-4 sucks the mist after rinsing synchronously near the inner wall of the vagina, thereby preventing the accumulation of the mist and causing discomfort.

5. After the cleaning is finished, the water pump and the atomizer are closed, so that the external air continuously enters the vagina to blow the inner wall of the vagina, and the non-contact cleaning and blowing can effectively avoid stimulating a user, thereby preventing the wound from being enlarged or causing discomfort. After blow-drying, the air pump and the exhaust pump are closed, and the first outlet of the second reversing valve is communicated with the second outlet (atmosphere), so that the expanded side push bag contracts under the elastic action of the second outlet, the air in the side push bag is exhausted, and the side push bag contracts and resets.

6. The inlet of the third reversing valve is communicated with the second switching tube A215, the air pump is started, the air pump supplies air to the fifth air ring A155, the air flow enters the corresponding side pushing air bag A320 through the second side pushing main air tube A271 and the second side pushing auxiliary air tube A272 respectively, and therefore the two side pushing air bags expand in the radial direction to push the corresponding first spraying and washing air bag A310-1 and second spraying and washing air bag A310-2 to extend out in the radial direction to be close to the inner wall of the vagina. The inlet of the third directional valve then communicates with its closed end, so that the second switching tube a215 is closed.

7. The outlet of the reversing water valve is communicated with the liquid medicament in the medicament box, and the first reversing valve is used for communicating the air pump with the medicament feeding air inlet pipe A213; the water pump, the atomizer, the air pump and the exhaust pump are started, the atomizer atomizes the liquid medicament pumped by the water pump into water mist, the water mist is mixed with air in the water pump and then is sent into the third air ring A153, and the mist enters the first spray washing bag A310-1 through the third air ring A153 and then is sprayed to the inner wall of the vagina to enable the inner wall of the vagina to adsorb the medicament and absorb the medicament. The second spraying and washing bag A310-2 and the fourth spraying and washing bag A310-4 synchronously suck mist and send the mist into the main exhaust pipe to be exhausted. In the embodiment, the air exhaust speed can be reduced during drug application, so that the residence time of the medicament mist is increased, the absorption rate is increased, and the drug application is saved.

8. After the application of the pesticide is finished, the first outlet of the third reversing valve is communicated with the second outlet, the second switching pipe is communicated with the atmosphere, and the expanded side push bag extrudes redundant air into the atmosphere under the action of the elastic force of the side push bag until the side push bag is reset. And then, communicating the first outlet of the fourth reversing valve with the atmosphere, so that the air bag is communicated with the atmosphere, the air bag is reset after extruding redundant air under the action of the elasticity of the air bag, and finally, the insertion end is taken out. In the embodiment, the air during cleaning and drug delivery can be sterilized and filtered clean air, so that bacteria and particles in the air are prevented from being brought into the vagina to cause pollution.

Preferably, since the present embodiment is generally used for 5 minutes or more, it is obvious that great inconvenience is increased if the present embodiment is used by hand, and the patient feels uncomfortable, the inventor also designs a support for supporting the medicine applying part. The support comprises a support base 110, a lifting cylinder 120 is mounted on the support base 110, the lifting cylinder 120 and one end of a lifting shaft 130 can be assembled in an axial sliding mode, the other end of the lifting shaft 130 is assembled with a hinge ball 310, and a bolt 320 penetrates through the lifting cylinder 120 and then is tightly pressed with the outer wall of the lifting shaft 130, so that the lifting shaft 130 cannot axially slide relative to the lifting cylinder 120 to relatively fix the lifting shaft 130. The hinge ball 310 is spherically hinged to the bracket block 140, the bracket block 140 is provided with a first arc-shaped clamping plate 410, a second arc-shaped clamping plate 420 and a clamping plate connecting part 430, two ends of the clamping plate connecting part 430 are respectively connected with the first arc-shaped clamping plate 410 and the second arc-shaped clamping plate 420, and the tops of the first arc-shaped clamping plate 410 and the second arc-shaped clamping plate 420 are open ends and have elasticity. The first arc-shaped clamping plate 410 and the second arc-shaped clamping plate 420 are respectively clamped on the casing A110, so that the casing A110 is relatively fixed and supported.

More preferably, an outer cover clamping groove a112 is formed in the outer cover a110, a first clamping protrusion 411 and a second clamping protrusion 421 are respectively arranged on the first arc-shaped clamping plate 410 and the second arc-shaped clamping plate 420, and the first clamping protrusion 411 and the second clamping protrusion 421 are respectively clamped into the outer cover clamping groove a112, so that the outer cover a110 cannot rotate in the circumferential direction.

More preferably, in order to relatively fix the hinge ball and the bracket block 140, the inventors further modified as follows: the spring frame 150 is installed on the support block 140, the clamping shaft 330 is added, one end of the clamping shaft 330 enters the ball groove 141 and is pressed against the hinge ball 310, the other end of the clamping shaft is sleeved with the stress ring 331 and the support spring 610 and penetrates out of the spring frame 150, two ends of the support spring 610 are respectively pressed against the stress ring 331 and the spring frame 150, so that elastic force pushing towards the hinge ball is applied to the clamping shaft 330, the clamping shaft is pressed against the hinge ball, the hinge ball cannot rotate in the ball groove, and the position of the support block 140 is fixed relative to the hinge ball at the moment. When the positions of the bracket block 140 and the hinge ball need to be adjusted, only the clamping shaft needs to be pulled, so that the clamping shaft is separated from the hinge ball.

Example two

Referring to fig. 19 to 34, since the embodiment adopts a design in which the main cabinet and the medicine applying part are separated, although the cost can be reduced and the structure can be simplified, the carrying is inconvenient, and the device not only occupies a large space for some household use, but also has little portability. In contrast, the inventor has made an integrated design, specifically as follows: a blind pipe A290 is further mounted in the inner air cylinder A230, inner air cylinder grooves A234 which are distributed along the axial direction of the inner air cylinder A230 are formed in the part where the inner air cylinder A230 is assembled with the blind pipe A290, and the inner air cylinder grooves A234 are communicated with an air cavity connecting pipe A284; the blind pipe A290 is communicated with one end of a suction connecting pipe A291, the other end of the suction connecting pipe A291 penetrates through the inner air cylinder A230 and the outer air cylinder A220 and then is communicated with a second air ring A152, and a blind pipe cavity A292 with one closed end is formed inside the blind pipe A290; one end of the outer cover A110 far away from the spray washing bag A310 is provided with a through air suction hole A113, and the end of the outer cover A110 is provided with a spacing ring A430.

The sixth air ring a156, the fifth air ring a155, the fourth air ring a154, the third air ring a153, the second air ring a152, and the first air ring a151 are respectively communicated with one end of the first air hole a1571, one end of the second air hole a1572, one end of the third air hole a1573, one end of the fourth air hole a1574, one end of the fifth air hole a1575, and one end of the sixth air hole a1576, the other end of the first air hole a1571, the other end of the second air hole a1572, the other end of the third air hole a1573, the other end of the fourth air hole a1574, the other end of the fifth air hole a1575, and the other end of the sixth air hole a1576 respectively penetrate through an end face of the air ring cylinder a150, the end face of the air ring cylinder a150 is attached and sealed to an end face of the valve plate a420, the valve plate a421 penetrating through which is disposed on the valve plate a420, and the valve plate a420 is attached to an inner wall of the outer cover a110 in a sealing and circumferentially rotatably assembled. The valve plate A420 is arranged at one end of the valve cylinder A830, and the other end of the valve cylinder A830 penetrates through the power cylinder A820 and the moisture absorption box A540 in sequence and then is assembled with the adjusting disc A530; the power cylinder A820 is arranged in the protective cylinder A810 and can be assembled with the protective cylinder A810 in a relatively circumferential rotating mode, two ends of the power cylinder A820 are respectively assembled with the first impeller A510 and the second impeller A520, and the power cylinder A820 and the air cylinder ring A222 cannot be assembled or fixed in a relatively circumferential rotating mode; the first impeller a510 is installed in the housing a110 corresponding to the air intake hole a113, and the second impeller a520 is installed in the electric can a 170; two ends of the protective cylinder A810 are respectively assembled with a spacer ring A430 and a second partition plate A450, and the second partition plate A450 is installed in the electric cylinder A170; the power cylinder A820 penetrates through a hollow output shaft of the hollow shaft motor A730 and is assembled with the hollow output shaft in a non-relative circumferential rotation mode, the hollow shaft motor A730 is installed in the electric cylinder A170, the hollow shaft motor A730 can drive the power cylinder A820 to circumferentially rotate after being started, so that the first impeller A510 and the second impeller A520 are driven to circumferentially rotate, and external air is sucked into the shield A110 from the air suction hole A113 when the first impeller A510 rotates positively; when the second impeller a520 rotates forward, a suction negative pressure is generated at an end close to the first impeller a 510. Still install battery A720, circuit board in the electrical cylinder A170, battery A720 is used for supplying power to all consumer, install MCU on the circuit board, MCU receives and dispatches analytic control instruction and carries out parameter operation, program operation, and MCU is used for controlling the start-stop of hollow shaft motor A730, operating mode such as just reversing in this embodiment. The MCU is electrically connected with the control button A740, and is controlled and installed on the outer side of the electric cylinder A170, so that an operator can touch and press the MCU conveniently, and control signals are input to the MCU, such as starting and stopping, forward rotation, reverse rotation, rotation speed adjustment and the like of the hollow shaft motor. Preferably, can also install wireless module on the circuit board, wireless module and outside remote controller wireless communication to can utilize the remote controller to carry out wireless control, further increase the convenience of using, wireless module can be bluetooth module, WIFI module, GPRS module etc..

The moisture absorption box A540 is arranged at one end of the electric gas cylinder A170, the interior of the moisture absorption box A170 is a hollow moisture absorption cavity A542, a plurality of moisture absorption exhaust holes A543 penetrating through the side wall are formed in the side wall, and moisture absorption materials are filled in the moisture absorption cavity A542; the valve barrel A830 is provided with a through moisture exhaust hole A833 on the part of the moisture absorption cavity A542, the outer side of the moisture exhaust hole A833 is provided with a hole cover A560, the hole cover A560 is sleeved outside the valve barrel A830, a moisture exhaust gap A544 is formed between the hole cover A560 and the valve barrel A830, a plurality of fine moisture passing holes A561 are arranged on the hole cover A560, and the moisture passing holes A561 are used for enabling air flow to pass and preventing moisture absorption materials from entering the moisture exhaust gap A544 to block the moisture exhaust hole A833. The valve cylinder A830 internally mounted has a valve cylinder stopper A836, the valve cylinder A830 is hollow and is divided into a valve cylinder dehumidifying part A834 and a valve cylinder dehumidifying part A835 through the valve cylinder stopper A836 respectively, the valve cylinder A830 is located at two ends of the second impeller A520 and is further provided with a negative pressure suction hole A831 and a positive pressure discharge hole A832 respectively, and the negative pressure suction hole A831 and the positive pressure discharge hole A832 are communicated with the valve cylinder dehumidifying part A834 and the valve cylinder dehumidifying part A835 respectively. When the second impeller a520 rotates circumferentially, the suction negative pressure can be generated at the negative pressure suction hole a831 and the positive pressure can be applied at the positive pressure discharge hole a832, so that the suction connection pipe a291 can be sucked, and the suction connection pipe a291 can be used for sucking the first air ring a151, so that the cleaning suction pipe a242 and the medicament suction pipe a252 can be sucked respectively; the drawn air flow passes through the second impeller a520 and is discharged into the valve cylinder dehumidifying part a835 through the positive pressure discharge hole a832, the air flow passes through the dehumidifying hole a833 and the excessive humidity hole a561 and contacts with the moisture absorbing material, and the moisture absorbing material absorbs water in the air flow and then the air flow is discharged through the moisture absorbing discharge hole a 543.

A second partition plate a450 and a third partition plate a460 are respectively installed at two ends of the second impeller a520 of the gas cylinder a170, the second partition plate a450 is respectively assembled with the electric cylinder a170 and the protection cylinder a810 in a sealing manner, and the third partition plate a460 is respectively assembled with the electric cylinder a170 and the valve cylinder a830 in a sealing manner, so that a space where the second impeller is located is in a sealing state, and the sucked gas flow is prevented from being discharged without being adsorbed. One end of the electric gas cylinder A170, which is far away from the third partition plate A460, is assembled with the first partition plate A440, and the second partition plate A440 is hermetically assembled with the protection cylinder A810 and the electric gas cylinder A170 respectively. The protection cylinder A810 is sleeved with a mounting ring A183 on the portion located between the partition ring A430 and the first partition plate A440, two mounting tables A180 are arranged on the mounting ring A183, a plug-in groove A182 and a buckling groove A181 are respectively arranged on the mounting tables A180, the plug-in groove A182 penetrates through the mounting tables A180, the buckling groove A181 is in clamping assembly with a buckling head A631, the buckling head A631 is arranged on the open end of the buckling plate A630, the other end of the buckling plate A630 is arranged on the liquid box A610, the buckling plate A630 has elasticity, when the buckling head A631 is inserted into the plug-in groove A182, the buckling plate A630 is elastically deformed to store elastic force until the buckling head A631 is just opposite to the buckling groove A181, the buckling head enters the buckling groove A181 and is in clamping assembly with the buckling groove A181, and therefore the assembly of the liquid box A610 and the mounting tables A180 is achieved. The liquid box A610 is also provided with a socket A750 and a sealing plug A760 respectively, the sealing plug A760 seals a filling hole A611, and the filling hole A611 is arranged on the liquid box A610; the liquid box A610 is hollow, the submersible pump A710 is installed inside the liquid box A610, an inlet of the submersible pump A710 is communicated with liquid inside the liquid box A610, an outlet of the submersible pump A710 is communicated with an inlet of the atomizing nozzle A711, an outlet of the atomizing nozzle A711 penetrates out of the liquid box A610 and then faces the first impeller A510, the submersible pump A710 is used for pressurizing and pumping liquid in the liquid box to the atomizing nozzle A711, the atomizing nozzle atomizes the liquid into water mist to be sprayed out to the first impeller A510, and the first impeller rotates to pump the water mist to one end, close to the air ring barrel A150, of the first impeller. The submersible pump A710 is powered by the socket A750, the socket A750 is connected with the electric connecting column A770 in a plugging and conducting mode, the electric connecting column A770 is electrically connected with an electrode of the battery A720, therefore, the submersible pump A710 is powered by the battery box, the power supply circuit of the submersible pump A710 is connected with the control button A740 in series, the control button A740 is used for controlling the on-off of current between the submersible pump and the battery, and therefore the starting and the stopping of the submersible pump are controlled. The liquid box A610 has two parts, one is a cleaning box, the other is a medicine box, cleaning liquid for cleaning is stored in the cleaning box, and the medicine box is used for storing liquid medicament. When the device is used, the cleaning and pesticide applying processes are controlled by controlling the starting and stopping of the submersible pumps in the cleaning box and the pesticide box. When the liquid box needs to be taken out, the buckling head A631 is pushed into the insertion groove only through the buckling groove A181, and then the liquid box A610 is pulled out, so that the liquid box is very convenient.

Preferably, a plurality of adjusting positioning holes a541 are formed in an end surface of the moisture absorption box a540, the end surface being away from the end of the second impeller a520, along a circumferential direction of the moisture absorption box a541, and the adjusting positioning holes a541 correspond to the first air hole a1571, the second air hole a1572, the third air hole a1573, the fourth air hole a1574, the fifth air hole a1575 and the sixth air hole a1576 one by one, so as to adjust and position the valve plate a420, and accordingly, when the rotation angle of the valve plate a420 is adjusted through the valve cylinder a830, one of the valve holes a421 is aligned to and communicated with the first air hole a1571, the second air hole a1572, the third air hole a1573, the fourth air hole a1574, the fifth air hole a1575 and the sixth air hole a 1576. More preferably, a valve cylinder retaining ring a550 is installed on a portion of the valve cylinder a830 between the adjustment disk a830 and the moisture absorption box a540, and the valve cylinder retaining ring a550 is used to prevent the valve cylinder a830 from moving in the axial direction. The adjusting positioning hole A541 is assembled with one end of the adjusting chuck A341 in a clamping manner, the other end of the adjusting chuck A341 is arranged in the adjusting slide hole A531 and assembled with the adjusting slide ring A342, the adjusting slide ring A342 is assembled with the adjusting slide hole A531 in a clamping manner and can slide axially, one end of the adjusting slide hole A531, which is far away from the adjusting chuck A341, is opened and closed by the screw plug A350, a positioning spring A360 is installed on a part, which is located between the adjusting slide ring A342 and the screw plug A350, of the adjusting slide hole A531, and the positioning spring A360 is used for applying elastic force to the adjusting slide ring A342, which pushes the adjusting positioning hole A541, so that the adjusting chuck A341 is assembled with the adjusting positioning hole A541 in a clamping manner, and the valve plate A420 is relatively fixed in the circumferential direction and is positioned when the valve plate rotates. During adjustment, the adjusting disc is rotated by force, so that the adjusting chuck a341 exits from the adjusting positioning hole a541 matched with the adjusting chuck a, and then the adjusting chuck a341 rotates to the next adjusting positioning hole a541 and is clamped and assembled with the next adjusting positioning hole a 541. By adjusting the resistance design when the chuck A341 rotates, the operator can obviously feel whether the adjustment is in place. Of course, the rotation of the adjusting disk can be realized by an external servo motor, the manual adjustment is adopted for simplifying the structure in the embodiment, but the principle is the same, and the rotation of the adjusting disk can be realized.

Preferably, the second impeller a520 is assembled with the power cartridge a820 through a one-way bearing having a rotation locking direction of a turning direction when the negative pressure suction hole a831 is generated and another direction of a rotation direction. This design is primarily to prevent the second impeller A520 from reversing to create suction against the positive vent A832, contaminating the blind lumen and other conduits, lumens.

The using process of the present embodiment is basically the same as that of the first embodiment, except that:

1. when the air bag needs to be expanded, the valve plate A420 is driven to rotate by the adjusting disc A530 and the valve cylinder A830, the valve hole A421 is communicated with the second air hole A1572, the hollow shaft motor A730 is started, the second impeller A520 and the first impeller A510 rotate positively, the first impeller A510 generates suction negative pressure towards one end of the blind pipe A290, so that external air is sucked from the suction hole A113 and then sent into the air bag A410, the air bag is expanded in place, and then the valve plate rotates, so that the second air hole is sealed.

2. When cleaning is needed, the valve plate A420 is driven to rotate by the adjusting disc A530 and the valve cylinder A830, the valve hole A421 is just opposite to and communicated with the sixth air hole A1576, the hollow shaft motor is started, the first impeller positively turns to the sixth air ring to supply air, and the two side push bags communicated with the hollow shaft motor are respectively radially expanded to push the third spray washing bag A310-3 and the fourth spray washing bag A310-4 to respectively radially extend out; the valve plate is then rotated so that the sixth air hole is closed. And then the valve plate A420 is driven to rotate by the adjusting disc A530 and the valve cylinder A830, the valve hole A421 is communicated with the fourth air hole A1574, the submersible pump in the cleaning box is started, the hollow shaft motor is started, so that the cleaning liquid is atomized into water mist and then is sent to the first impeller A510, the hollow shaft motor drives the first impeller and the second impeller to rotate forwards, the atomized water vapor and air are mixed and sent to the fourth air ring A154, the mist is sent to the cleaning air supply pipe A241 by the fourth air ring A154, and the mist is sent to the third spray cleaning bag A310-3 by the cleaning air supply pipe A241 and then is sprayed out for cleaning. Meanwhile, the second impeller generates suction negative pressure to the blind tube cavity A292 so as to suck the second air ring A152, the second air ring A152 sucks the cleaning suction tube A242 and the medicament suction tube A252 respectively, and the sucked air flow is sent into the moisture absorption box to be absorbed by moisture and then is discharged.

4. When medicine is required to be fed, the valve plate A420 is driven to rotate by the adjusting disc A530 and the valve cylinder A830, the valve hole A421 is just communicated with the sixth air hole A1576, the hollow shaft motor is reversely rotated, and the first impeller reversely rotates to the sixth air ring to generate suction force, so that the two side push bags communicated with the side push bags respectively and radially contract to drive the third spray washing bag A310-3 and the fourth spray washing bag A310-4 to respectively reset. And then the valve plate A420 is driven to rotate by the adjusting disc A530 and the valve cylinder A830, so that the valve hole A421 is communicated with the fifth air hole A1575, the first impeller supplies air to the fifth air ring, two side push bags communicated with the fifth air ring are respectively expanded radially to push the first spray washing bag A310-1 and the second spray washing bag A310-2 to extend radially to the right position, and then the valve plate is rotated, so that the fifth air hole is closed. The valve plate a420 is rotated again such that the valve hole a421 communicates with the third air hole a 1573. If the air needs to be dried, the hollow shaft motor is directly rotated forward, so that the air flow enters for drying. Then the forward rotation hollow shaft motor and the submersible pump in the medicine box are started, so that the liquid medicine is atomized into water mist, the water mist is sent into the third air ring A153 through the sucked mixed air of the first impeller, the atomized medicine enters the first spraying and washing bag A310-1 from the medicine air pipe A251 and is sprayed out for medicine application, and the second spraying and washing bag A310-2 and the fourth spraying and washing bag A310-4 generate suction negative pressure, and the gas is sucked to the moisture absorption box for moisture absorption and then is discharged.

5. After the use is finished, when the spray washing machine needs to be taken out, the valve plate is adjusted to enable the valve hole to be communicated with the fifth air hole A1575, and the hollow shaft motor is reversely rotated to enable the first spray washing bag A310-1 and the second spray washing bag A310-2 to reset respectively. Then the valve plate A420 is rotated, so that the valve hole A421 is communicated with the first air hole A1571, the hollow shaft motor is reversely rotated, air in the air bag is pumped out, the air bag is reset, and finally the air bag is taken out.

Preferably, in this embodiment, since the fastening groove a181 is provided, in order to save cost, it is not necessary to provide the housing fastening groove a112 on the housing a110, and the fastening groove a181 is directly used, and at this time, the bracket needs to be improved, specifically as follows: the second arc-shaped clamp plate a420 is not provided with the second locking protrusion 421, the first arc-shaped clamp plate 410 is provided with the first locking protrusion 411 at a position corresponding to the locking groove 181, and the first locking protrusion 411 is locked in the locking groove 181, so that the medicine feeding part is relatively fixed in the circumferential direction.

In this embodiment, because of the actual size of use, the diameter of the spraying bag a310 cannot be too large, and at this time, if the diameter of the outer cover is the same as that of the spraying bag, the requirements on the processing precision and the assembly precision are higher, that is, the cost is very high, and when the actual product is positioned, the positioning is mainly performed on a high-end consumer group. When the cost needs to be reduced, the diameter of the outer cover can be enlarged, the precision requirement and the matching requirement of each part are reduced, the cost is reduced, the use experience is influenced, and the method is used for facing a consumer group with low consumption. In addition, the air bag, the spray washing bag and the side pushing bag can be replaced, so that cross infection or infection can be prevented by replacing the air bag, the spray washing bag and the side pushing bag when the air bag, the spray washing bag and the side pushing bag are used by a plurality of people or for a long time, the air bag is more sanitary, and only a single person needs to disinfect when the air bag, the spray washing bag and the side pushing bag are used for a short time. Clinical tests prove that the traditional Chinese medicine preparation can save at least 60% of cleaning fluid and medicine, the absorption rate is improved by more than 3 times compared with the current mode of directly spraying medicine, the treatment effect is better, patients are obviously not conflicted after using the traditional Chinese medicine preparation, the traditional Chinese medicine preparation basically has no influence on wounds and inflamed parts, and the traditional Chinese medicine preparation is particularly suitable for treating the symptoms of wounds, inflammation, ulcer and the like of the vagina. The product has good curative effect on nursing of the vaginas after spontaneous delivery, has wide market prospect and popularization space, can be used for nursing partial vaginas, has stronger versatility, and can meet most requirements of nursing and treating the vaginas in gynecology and obstetrics at present.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims

1. The gynecological atomization medicine applying device is characterized by comprising a medicine applying part, wherein the medicine applying part is used for cleaning and applying medicine to a vagina, the medicine applying part comprises at least four spraying bags, the inner side of each spraying bag is a hollow spraying bag cavity, a penetrating spraying hole is formed in the outer wall of each spraying bag, a spraying inner wall plate is arranged at the inner wall of each spraying bag, the spraying inner wall plate is assembled with the outer wall of each side pushing bag, the inner wall of each side pushing bag is assembled with an installation arc plate, a hollow side pushing bag cavity is formed in each side pushing bag, a side pushing inner wall plate is arranged at the inner wall of each side pushing bag, and the side pushing inner wall plate is assembled with the installation arc plate;

the inner spray-washing wall plate is hermetically assembled with the spray-washing pipes in an axial sliding manner, one end of each spray-washing pipe is arranged in a spray-washing bag cavity, the other end of each spray-washing pipe penetrates through the side push pipe and is hermetically assembled with the side push pipe, at least one spray-washing pipe corresponding to one spray-washing bag sprays atomized cleaning agent, and at least one spray-washing pipe corresponding to the other spray-washing bag sprays atomized medicament;

different air bag frames are respectively installed at two ends of each spray washing bag, an air bag installation groove is formed in each air bag frame, an air bag is clamped in the air bag installation groove, a hollow air bag cavity is formed in the air bag, the air bag cavity is communicated with a second air bag ring groove through an air bag pipe, the second air bag ring groove is communicated with a first air bag ring groove through an air bag ring hole, the first air bag ring groove and the second air bag ring groove are all arranged on the air bag ring, the second air bag ring groove is communicated with one end of an air bag air pipe, and the air bag air pipe is used for introducing or outputting airflow;

each spraying washing bag and each side pushing bag are installed in a radial sliding groove and can slide radially, different middle connecting plates are installed on two sides of each radial sliding groove respectively, different air bag frames are installed on two ends of each radial sliding groove respectively, each air bag frame is sleeved on an air bag ring corresponding to the air bag frame, the air bag rings are sleeved on an outer air cylinder, and the air bag frames and the air bag rings can rotate relatively to the circumference, are sealed and cannot move axially for assembly; two ends of the middle connecting plate are respectively assembled and fixed with the air bag ring; the middle connecting plate and the outer air cylinder form a clamping groove in the radial direction, two sides of the installation arc plate respectively exceed the side push bag, the exceeding part is a clamping end, and the clamping end is clamped in the clamping groove, so that the installation arc plate is assembled with the air bag ring and the middle connecting plate;

the other end of the air pipe of the air bag is arranged in the inner air cavity and is communicated with the inner air cavity, the inner side of the outer air cylinder is an outer air cavity, the first side push main air pipe, the first side push auxiliary air pipe, the second side push main air pipe, the second side push auxiliary air pipe, the cleaning air feed pipe, the medicament air feed pipe, the cleaning air suction pipe and the medicament air suction pipe are all arranged in the outer air cavity, an inner air cylinder is also arranged in the outer air cavity, the inner air cylinder is assembled with the outer air cylinder through an inner air connecting block, a hollow inner air cavity is arranged in the inner air cylinder, an air supply hole of the air bag is formed in the position of the inner air cylinder, which corresponds to the air bag, and the air supply hole of the air bag is communicated with the air pipe of the air bag in a sealing manner; the side push pipe is arranged on the outer air cylinder;

the four spraying and washing bags are provided, the side push pipes corresponding to the four spraying and washing bags are respectively communicated with the first side push main air pipe, the first side push auxiliary air pipe, the second side push main air pipe and the second side push auxiliary air pipe through different side push connecting pipes, and the first side push main air pipe, the first side push auxiliary air pipe, the second side push main air pipe and the second side push auxiliary air pipe are respectively used for inputting or leading out air flow to or from the side push bag cavities corresponding to the side push main air pipe, the first side push auxiliary air pipe, the second side push main air pipe and the second side push auxiliary air pipe; the corresponding spray-washing pipes of the four spray-washing bags penetrate through the side push pipes and are respectively communicated with the cleaning air supply pipe, the medicament air supply pipe, the cleaning air exhaust pipe and the medicament air exhaust pipe; the cleaning air supply pipe and the medicament air supply pipe are respectively used for inputting atomized cleaning agent mist and medicament mist, and the cleaning air exhaust pipe and the medicament air exhaust pipe are respectively used for transmitting suction negative pressure to the corresponding spraying and washing bag cavities;

one ends of the first side push main air pipe and the first side push auxiliary air pipe, which are far away from the side push connecting pipe, penetrate out of the outer air cylinder respectively and then enter the sixth air ring to be communicated with the sixth air ring; one end of the second side-push main air pipe and one end of the second side-push auxiliary air pipe side-push connecting pipe respectively penetrate out of the outer air cylinder and then enter the fifth air ring and are communicated with the fifth air ring; one end of the medicament air supply pipe, which is far away from the spray washing pipe, penetrates out of the outer air cylinder and then enters the fourth air ring to be communicated with the fourth air ring; one end of the cleaning air supply pipe, which is far away from the spray cleaning pipe, penetrates through the outer air cylinder and then enters the third air ring to be communicated with the third air ring; one end of the cleaning exhaust pipe, which is far away from the spray washing pipe, and one end of the medicament exhaust pipe, which is far away from the spray washing pipe, penetrate through the outer air cylinder, enter the second air ring and are communicated with the second air ring; the inner air cavity is communicated with the first air ring through an air cavity connecting pipe, and the air cavity connecting pipe penetrates through the inner air cylinder and the outer air cylinder respectively; the first air ring, the second air ring, the third air ring, the fourth air ring, the fifth air ring and the sixth air ring are respectively arranged along the axial direction of the air ring cylinder, the air ring cylinder is installed in the outer cover, one end of the outer cover is assembled with the air bag frame close to the outer cover, the outer wall of the outer air cylinder is hermetically assembled with the inner wall of the air ring cylinder in a rotatable mode in a circumferential mode, and one end, far away from the end cover, of the outer air cylinder is sealed through the air cylinder ring;

the first air ring, the second air ring, the third air ring, the fourth air ring, the fifth air ring and the sixth air ring are respectively communicated with one end of an air bag air supply pipe, one end of a main exhaust pipe, one end of a medicine feeding air inlet pipe, one end of a cleaning air inlet pipe, one end of a second switching pipe and one end of a first switching pipe, the other end of the air bag air supply pipe is communicated with a second outlet of a fourth switching valve, a first outlet of the fourth switching valve is communicated with the atmosphere, an inlet of the fourth switching valve is communicated with an outlet of an air pump, and the fourth switching valve is used for selecting one of the first outlets to be communicated with the second outlet and the inlet of the fourth switching valve, so that air supply to the air bag through an air pump is realized, or the air bag is communicated with external air to realize air release of the air bag; the fourth reversing valve is also internally provided with a closed port, an inlet of the fourth reversing valve can be communicated with the closed port, the closed port is in a closed state, the air bag air supply pipe is not communicated with the inlet at the moment, but the air bag air supply pipe is not communicated with the second outlet, namely the air bag air supply pipe is in a closed state; the other end of the main exhaust pipe is communicated with an inlet of an exhaust pump, an outlet of the exhaust pump is connected into a moisture absorption box, a moisture absorption material is filled in the moisture absorption box, the moisture absorption material is used for absorbing water in the air flow, and the air flow after moisture absorption is directly exhausted into the air;

the other end of the medicine feeding air inlet pipe and the other end of the cleaning air inlet pipe are respectively communicated with a first outlet and a second outlet of a first reversing valve, an inlet of the first reversing valve is communicated with an outlet of the air pump, and the first reversing valve is used for enabling one of the inlet of the first reversing valve to be communicated with the first outlet and the second outlet of the first reversing valve; the other end of the second switching pipe is communicated with a first outlet of a third reversing valve, an inlet of the third reversing valve is communicated with an outlet of the air pump, a second outlet of the third reversing valve is communicated with the atmosphere, and the third reversing valve is used for selecting one of the first outlet of the third reversing valve to be communicated with the inlet and the second outlet of the third reversing valve, so that air supply and air exhaust to the side push bag communicated with the third reversing valve are realized; the third reversing valve is also internally provided with a closed port, an inlet of the third reversing valve can be communicated with the closed port, the closed port is in a closed state, the second switching pipe is not communicated with the inlet at the moment, but the second switching pipe is not communicated with the second outlet, namely the second switching pipe is in a closed state; the other end of the first switching pipe is communicated with a first outlet of a second reversing valve, an inlet of the second reversing valve is communicated with an outlet of the air pump, a second outlet of the second reversing valve is communicated with the atmosphere, and the second reversing valve is used for selecting one of the first outlet of the second reversing valve to be communicated with the inlet and the second outlet of the second reversing valve, so that air supply and air exhaust to the side push bag communicated with the second reversing valve are realized; the second reversing valve is also internally provided with a closed port, an inlet of the second reversing valve can be communicated with the closed port, the closed port is in a closed state, the first switching pipe is not communicated with the inlet at the moment, but the first switching pipe is not communicated with the second outlet, namely the first switching pipe is in a closed state;

the inlet of the air pump is respectively communicated with the outlet of the first one-way valve and the outlet of the second one-way valve through a three-way joint, the inlet of the second one-way valve is communicated with air, the inlet of the first one-way valve is communicated with the outlet of the atomizer, the inlet of the atomizer is communicated with the outlet of the water pump, and the atomizer is used for atomizing liquid pumped by the water pump into fine water mist; the inlet of the water pump is communicated with the outlet of the reversing water valve, and the first inlet and the second inlet of the reversing water valve are respectively communicated with the liquid medicament in the medicine box and the liquid cleaning agent in the cleaning box.

2. The gynecological atomizing applicator according to claim 1, wherein the spray tube is fitted through a tube sleeve which is mounted on the outer wall of the side push capsule, is sealed therewith, and is axially slidable; one end of the outer air cylinder and one end of the inner air cylinder are closed, the closed end of the outer air cylinder penetrates through the air bag ring close to the closed end and then is assembled with the end cover, and the end cover is in sealing fit with the end face of the air bag frame and the end face of the air bag ring;

the air cylinder ring is assembled with one end of the rotating shaft, one end of the rotating shaft penetrates through the air cylinder and then is assembled with the rotating limiting ring, a driving clamping groove is formed in one end, where the rotating limiting ring is installed, of the rotating shaft, the driving clamping groove is assembled with a driving clamping head in a clamping mode, the driving clamping head is arranged at one end of the driving rotating shaft, the other end of the driving rotating shaft is connected with one end of the flexible shaft, the other end of the flexible shaft is connected with an external motor shaft, and the external motor shaft is installed in the external motor; the driving rotating shaft can rotate circumferentially and is installed in the plug bush in a non-axial-movement mode, and the plug bush penetrates through the end plate and then is installed in the air ring cylinder.

3. The gynecological atomizing medicine applicator according to claim 1, wherein a blind pipe is further installed inside the inner cylinder, inner cylinder grooves distributed along the axial direction of the inner cylinder are formed in the part where the inner cylinder is assembled with the blind pipe, and the inner cylinder grooves are communicated with the air cavity connecting pipe; the blind pipe is communicated with one end of a suction connecting pipe, the other end of the suction connecting pipe penetrates through an inner air cylinder and an outer air cylinder and then is communicated with a second air ring, and a blind pipe cavity with one closed end is formed inside the blind pipe; one end of the outer cover, which is far away from the spray washing bag, is provided with a through air suction hole, and the end of the outer cover is provided with a spacing ring;

the sixth air ring, the fifth air ring, the fourth air ring, the third air ring, the second air ring and the first air ring are respectively communicated with one end of a first air hole, one end of a second air hole, one end of a third air hole, one end of a fourth air hole, one end of a fifth air hole and one end of a sixth air hole, the other end of the first air hole, the other end of the second air hole, the other end of the third air hole, the other end of the fourth air hole, the other end of the fifth air hole and the other end of the sixth air hole respectively penetrate through the end surface of an air ring cylinder, the end surface of the air ring cylinder is attached to and sealed with the end surface of a valve plate, a penetrating valve hole is formed in the valve plate, and the valve plate is attached to the inner wall of the outer cover, sealed and assembled in a circumferential rotating mode;

the valve plate is arranged at one end of the valve cylinder, and the other end of the valve cylinder sequentially penetrates through the power cylinder and the moisture absorption box and then is assembled with the adjusting disc; the power cylinder is arranged in the protection cylinder and can be assembled in a rotating mode relative to the protection cylinder in a circumferential mode, two ends of the power cylinder are respectively assembled with the first impeller and the second impeller, and the power cylinder and the air cylinder ring cannot be assembled or fixed in a rotating mode relative to the circumference; the first impeller is arranged in the outer cover and corresponds to the air suction hole, and the second impeller is arranged in the electric gas cylinder; two ends of the protection cylinder are respectively assembled with the spacer ring and a second partition plate, and the second partition plate is arranged in the electric cylinder; the power cylinder penetrates through a hollow output shaft of the hollow shaft motor and is assembled with the hollow output shaft in a non-relative-circumferential rotating mode, the hollow shaft motor is installed in the electric cylinder, and external air is sucked into the protective cover from the air suction hole when the first impeller rotates positively; when the second impeller rotates positively, a suction negative pressure is generated at one end close to the first impeller.

4. The gynecological atomization medicine applicator according to claim 3, wherein the moisture absorption box is mounted at one end of the electric cylinder, the moisture absorption box is internally provided with a hollow moisture absorption cavity, a plurality of moisture absorption exhaust holes penetrating through the side wall are formed in the side wall, and moisture absorption materials are filled in the moisture absorption cavity; the valve barrel is provided with a through moisture exhaust hole on the part of the moisture absorption cavity, a hole cover is arranged on the outer side of the moisture exhaust hole, the hole cover is sleeved outside the valve barrel, a moisture exhaust gap is formed between the hole cover and the valve barrel, a plurality of fine moisture passing holes are formed in the hole cover, and the moisture passing holes are used for enabling air flow to pass and preventing moisture absorption materials from entering the moisture exhaust gap to block the moisture exhaust hole;

a valve cylinder separating plug is arranged in the valve cylinder, the valve cylinder is hollow and is respectively divided into a valve cylinder dehumidifying part and a valve cylinder dehumidifying part through the valve cylinder separating plug, a negative pressure suction hole and a positive pressure discharge hole are also respectively arranged at two ends of the second impeller of the valve cylinder, and the negative pressure suction hole and the positive pressure discharge hole are respectively communicated with the valve cylinder dehumidifying part and the valve cylinder dehumidifying part;

the electric cylinder is provided with a second partition plate and a third partition plate at two ends of the second impeller respectively, the second partition plate is in seal assembly with the electric cylinder and the protection cylinder respectively, and the third partition plate is in seal assembly with the electric cylinder and the valve cylinder respectively; one end of the electric cylinder, which is far away from the third partition plate, is assembled with the first partition plate, and the second partition plate is respectively assembled with the protection cylinder and the electric cylinder in a sealing way; the protective cylinder is characterized in that a mounting ring is sleeved on a part, located between the partition ring and the first partition plate, of the protective cylinder, two mounting platforms are arranged on the mounting ring, an inserting groove and a buckling groove are formed in each mounting platform, each inserting groove penetrates through each mounting platform, each buckling groove is in clamping assembly with a buckling head, each buckling head is arranged at an open end of each buckling plate, the other end of each buckling plate is arranged on the liquid box, and each buckling plate is elastic;

the liquid box is also provided with a socket and a sealing plug respectively, the sealing plug seals the filling hole, and the filling hole is arranged on the liquid box; the liquid box is hollow, the liquid box is internally provided with a submersible pump, the submersible pump is communicated with the liquid in the liquid box, the outlet of the submersible pump is communicated with the inlet of the atomizing nozzle, the outlet of the atomizing nozzle penetrates out of the liquid box and then is opposite to the first impeller, the submersible pump is used for pressurizing and pumping the liquid in the liquid box to the atomizing nozzle, the atomizing nozzle atomizes the liquid into water mist to be sprayed out to the first impeller, and the first impeller rotates to pump the mist to one end, close to the air ring barrel, of the first impeller; the liquid box has two, and one is for wasing the box, and another is the medicine box, deposits the washing liquid that is used for wasing in the washing box, and the medicine box is used for depositing liquid medicament.

5. The gynecological atomizing medicine applicator according to claim 4, wherein a battery and a circuit board are further installed in the electric cylinder, the battery is used for supplying power to all electric equipment, and an MCU is installed on the circuit board and used for receiving and sending analysis control instructions and performing parameter operation and program operation; the MCU is electrically connected with the control button, is controlled and installed on the outer side of the electric gas cylinder and is used for being convenient for an operator to touch and press, so that a control signal is input to the MCU;

the immersible pump passes through the socket power supply, and the socket is electrically conductive with the electricity connection post grafting, and the electricity connection post is connected with the electrode electricity of battery to through the power supply of battery box immersible pump, another control button in series connection back on the power supply circuit of immersible pump, control button is used for controlling the electric current break-make between immersible pump and the battery, thereby controls opening of immersible pump and stops.

6. The gynecological atomizing medicine applicator according to any one of claims 3 to 4, wherein a plurality of adjusting positioning holes are formed in the end face of the moisture absorption box, which is far away from one end of the second impeller, along the circumferential direction of the moisture absorption box, and correspond to the first air hole, the second air hole, the third air hole, the fourth air hole, the fifth air hole and the sixth air hole in a one-to-one manner respectively, so that the valve plate is adjusted and positioned, and therefore when the rotation angle of the valve plate is adjusted through the valve cylinder, the valve hole is selected to be opposite to and communicated with the first air hole, the second air hole, the third air hole, the fourth air hole, the fifth air hole and the sixth air hole;

a valve barrel limiting ring is arranged on the part of the valve barrel, which is positioned between the adjusting disc and the moisture absorption box, and the valve barrel limiting ring is used for preventing the valve barrel from moving in the axial direction; the adjusting slide ring is clamped with the adjusting slide hole and can be axially slidably assembled, one end of the adjusting slide hole, which is far away from the adjusting chuck, is opened and sealed through a screw plug, and a positioning spring is mounted on a part, which is located between the adjusting slide ring and the screw plug, of the adjusting slide hole and is used for applying elastic force to the adjusting slide ring to push the adjusting positioning hole, so that the adjusting chuck is kept in clamping assembly with the adjusting positioning hole to relatively fix the valve plate in the circumferential direction and realize positioning when the valve plate rotates.

7. The gynecological atomizing medicine applicator according to any one of claims 1 to 5, further comprising a bracket, wherein the bracket comprises a bracket base and a clamping shaft, a lifting cylinder is arranged on the bracket base, the lifting cylinder is assembled with one lifting end in an axial sliding manner, the other end of the lifting shaft is assembled with a hinge ball, and a bolt penetrates through the lifting cylinder and then is pressed against the outer wall of the lifting shaft; the hinge ball is in spherical hinge joint with the support block, the support block is provided with a first arc-shaped clamping plate, a second arc-shaped clamping plate and a clamping plate connecting part, two ends of the clamping plate connecting part are respectively connected with the first arc-shaped clamping plate and the second arc-shaped clamping plate, and the tops of the first arc-shaped clamping plate and the second arc-shaped clamping plate are open ends and have elasticity; the first arc-shaped clamping plate and the second arc-shaped clamping plate are respectively clamped on the outer cover;

an outer cover clamping groove is formed in the outer cover, a first clamping convex block and a second clamping convex block are respectively arranged on the first arc-shaped clamping plate and the second arc-shaped clamping plate, and the first clamping convex block and the second clamping convex block are respectively clamped into the outer cover clamping groove;

the spring frame is installed on the support block, one end of the clamping shaft enters the spherical groove to be tightly pressed with the hinge ball, the other end of the clamping shaft is sleeved with the stress ring and the support spring and penetrates out of the spring frame, and two ends of the support spring are respectively tightly pressed with the stress ring and the spring frame, so that elastic force which is pushed towards the hinge ball is applied to the clamping shaft to enable the clamping shaft to be tightly pressed on the hinge ball to enable the hinge ball not to rotate in the spherical groove.