阅读说明：本技术 一种鼻腔清洗装置 (Nasal cavity cleaning device ) 是由 康玉红 于 2021-01-08 设计创作，主要内容包括：本发明涉及一种冲洗设备,更具体的说是一种鼻腔清洗装置,包括水桶、药筒、混合压力筒、流速控制阀、鼻腔连接器、回收消毒箱,装置能够混合水与盐等物质,装置能够调节流量大小,装置能够对清洗后的液体进行消毒除菌,所述的水桶下部与混合压力筒相连接,药筒与混合压力筒相连接,流速控制阀与混合压力筒相连接,鼻腔连接器与流速控制阀相连接,回收消毒箱与鼻腔连接器相连接。(The invention relates to a flushing device, in particular to a nasal cavity cleaning device, which comprises a water barrel, a medicine barrel, a mixed pressure barrel, a flow rate control valve, a nasal cavity connector and a recycling disinfection box, wherein the device can mix water, salt and other substances, can adjust the flow, can disinfect and sterilize cleaned liquid, the lower part of the water barrel is connected with the mixed pressure barrel, the medicine barrel is connected with the mixed pressure barrel, the flow rate control valve is connected with the mixed pressure barrel, the nasal cavity connector is connected with the flow rate control valve, and the recycling disinfection box is connected with the nasal cavity connector.)

1. The utility model provides a nasal cavity belt cleaning device, includes cask (1), cartridge case (2), mixed pressure section of thick bamboo (3), velocity of flow control valve (4), nasal cavity connector (5), recovery disinfect box (6), its characterized in that: bucket (1) lower part be connected with mixing pressure section of thick bamboo (3), cartridge case (2) are connected with mixing pressure section of thick bamboo (3), flow rate control valve (4) are connected with mixing pressure section of thick bamboo (3), nasal cavity connector (5) are connected with flow rate control valve (4), recovery disinfect box (6) are connected with nasal cavity connector (5).

2. A nasal washing device according to claim 1 characterised in that: the bucket (1) comprises a bucket body (1-1), a sliding frame (1-2), a sliding motor (1-3), a thrust shaft (1-4), a buffer spring (1-5), a pressure plate (1-6), a vent valve (1-7), a vent plug (1-8), a vent spring (1-9), a limiting frame (1-10), a water replenishing valve (1-11), a water replenishing valve core (1-12) and a sealing spring (1-13), wherein the upper part of the bucket body (1-1) is in an open shape, the lower part of the sliding frame (1-2) is fixed at the upper part of the bucket body (1-1), the sliding motor (1-3) is in sliding fit with the sliding frame (1-2), the thrust shaft (1-4) is connected with the sliding motor (1-3), and the thrust shaft (1-4) is connected with the pressure plate (1-6), two buffer springs (1-5) are arranged, the buffer springs (1-5) are sleeved on the thrust shaft (1-4), the pressure plate (1-6) is in sliding fit with the barrel body (1-1), the vent valve (1-7) is fixed on the pressure plate (1-6), the vent plug (1-8) is connected with the vent valve (1-7), one end of the vent spring (1-9) is connected with the vent plug (1-8), one end of the vent spring (1-9) is connected with the limiting frame (1-10), the limiting frame (1-10) is fixed on the upper part of the vent valve (1-7), the water replenishing valve (1-11) is fixed on the barrel body (1-1), the water replenishing valve core (1-12) is connected with the water replenishing valve (1-11), the sealing spring (1-13) is connected with the water replenishing valve (1-11), the sealing springs (1-13) are connected with the water replenishing valve cores (1-12).

3. A nasal washing device according to claim 1 characterised in that: the medicine cylinder (2) comprises a medicine cylinder box (2-1), a bucket cover (2-2), a sliding plate (2-3), a screw rod (2-4), a connecting rod (2-5), an intermediate rod (2-6), a driving motor (2-7), a belt (2-8), a support (2-9), a stirring plate (2-10), a stirring belt (2-11), an intermediate wheel (2-12), an intermediate wheel motor (2-13), a discharge motor (2-14), a fluted disc (2-15), a toothed rod (2-16) and a bucket door (2-17), the lower part of the medicine cylinder box (2-1) is connected with the mixing pressure cylinder (3), an arc-shaped outlet is processed at the lower part of the inner side of the medicine cylinder box (2-1), the bucket cover (2-2) is fixed on the medicine cylinder box (2-1), the upper part of the bucket cover (2-2) is provided with a funnel, a sliding plate (2-3) is in sliding fit with the bucket cover (2-2), four screw rods (2-4) are arranged, the screw rods (2-4) are in threaded fit with the sliding plate (2-3), a connecting rod (2-5) is connected with the screw rods (2-4), an intermediate rod (2-6) is connected with the connecting rod (2-5), a driving motor (2-7) is fixed on a support (2-9), one end of a belt (2-8) is connected with the driving motor (2-7), one end of the belt (2-8) is connected with the intermediate rod (2-6), the support (2-9) is fixed on the bucket cover (2-2), two stirring plates (2-10) are arranged, the stirring plates (2-10) are connected with a cartridge case (2-1), the stirring belt (2-11) is connected with the stirring plate (2-10), the middle wheel (2-12) is connected with the medicine cylinder box (2-1), the middle wheel (2-12) is connected with the stirring belt (2-11), the middle wheel motor (2-13) is connected with the middle wheel (2-12), the discharging motor (2-14) is fixed on the medicine cylinder box (2-1), the fluted disc (2-15) is connected with the hopper door (2-17), the toothed bar (2-16) is connected with the discharging motor (2-14), the toothed bar (2-16) is connected with the fluted disc (2-15), and the hopper door (2-17) is in sliding fit with the pressing cylinder box (2-1).

4. A nasal washing device according to claim 1 characterised in that: the mixing pressure cylinder (3) comprises a mixing cylinder (3-1), a medicine inlet pipe (3-2), a three-way valve (3-3), an air inlet valve (3-4), a switch belt (3-5), an intermediate transmission rod (3-6), an intermediate belt (3-7), a gear column (3-8), a switch motor (3-9), a switch disc (3-10), a switch disc limit (3-11), a stirring support (3-12), a stirring wheel (3-13), a stirring wheel driving rod (3-14), a stirring motor (3-15), a connecting rod (3-16), a chassis (3-17) and an outlet (3-18), wherein the upper part of the medicine inlet pipe (3-2) is connected with the medicine cylinder box (2-1), the medicine inlet pipe (3-2) is connected with the mixing cylinder (3-1), the three-way valve (3-3) is connected with the barrel body (1-1), the three-way valve (3-3) is connected with the mixing barrel (3-1), the three-way valve (3-3) is connected with the medicine inlet pipe (3-2), the air inlet valve (3-4) is connected with the mixing barrel (3-1), the switch belt (3-5) is connected with the air inlet valve (3-4), the switch belt (3-5) is connected with the middle transmission rod (3-6), the middle transmission rod (3-6) is connected with the mixing barrel (3-1), one end of the middle belt (3-7) is connected with the middle transmission rod (3-6), the middle belt (3-7) is connected with the tooth column (3-8), the tooth column (3-8) is connected with the mixing barrel (3-1), the gear column (3-8) is connected with a switch motor (3-9), the switch motor (3-9) is fixed on the mixing cylinder (3-1), a round hole is processed on a switch disc (3-10), an arc opening is processed on the switch disc (3-10), the arc opening of the switch disc (3-10) is meshed with the gear column (3-8), a switch disc limit (3-11) is fixed inside the mixing cylinder (3-1), the switch disc limit (3-11) is contacted with the switch disc (3-10), a stirring support (3-12) is fixed inside the mixing cylinder (3-1), a stirring wheel (3-13) is connected with the stirring support (3-12), two stirring wheel driving rods (3-14) are arranged, the stirring wheel driving rods (3-14) are connected with the mixing cylinder (3-1), the stirring wheel driving rod (3-14) is connected with the stirring wheel (3-13), the stirring motor (3-15) is fixed on the mixing cylinder (3-1), the stirring motor (3-15) is connected with the stirring wheel driving rod (3-14), the connecting rod (3-16) is connected with the stirring wheel driving rod (3-14), the chassis (3-17) is fixed at the lower part of the mixing cylinder (3-1), and the outlet (3-18) is connected with the flow rate control valve (4) through a pipe.

5. A nasal washing device according to claim 1 characterised in that: the flow rate control valve (4) comprises a valve body (4-1), a flow control plug (4-2), a valve body outlet (4-3), a large gear (4-4), a middle small gear (4-5) and a manual gear (4-6), wherein the valve body (4-1) is connected with the outlet (3-18) through a pipe, one end of the flow control plug (4-2) is conical, the flow control plug (4-2) is in sliding fit with the valve body (4-1), the valve body outlet (4-3) is connected with a nasal cavity connector (5) through a pipe, the large gear (4-4) is connected with the valve body (4-1), the large gear (4-4) is meshed with the flow control plug (4-2) and is meshed with the large gear (4-4), and the manual gears (4-6) are provided with two parts, the manual gear (4-6) is meshed with the middle pinion (4-5).

6. A nasal washing device according to claim 1 characterised in that: the nasal cavity connector (5) comprises a pipe inlet (5-1), a chuck (5-2), an inlet (5-3), a discharge port (5-4) and a discharge pipe (5-5), wherein the pipe inlet (5-1) is connected with an outlet (4-3) of the valve body, the chuck (5-2) is connected with the pipe inlet (5-1), the inlet (5-3) is communicated with the pipe inlet (5-1), the discharge port (5-4) is fixed with the chuck (5-2), and the discharge pipe (5-5) is communicated with the discharge port (5-4).

7. A nasal washing device according to claim 1 characterised in that: the recycling disinfection box (6) comprises a disinfection box (6-1), a disinfection box stirring motor (6-2), stirring blades (6-3), an exhaust groove (6-4), a floater (6-5), an overflow pipe (6-6), a discharge port (6-7), a liquid discharge valve motor (6-8), a liquid discharge valve (6-9), a liquid inlet three-way valve (6-10), a disinfection medicine box (6-11), a flushing pipe (6-12), a medicine feeding port (6-13), a partition plate (6-14), a medicine feeding wheel (6-15), a medicine feeding motor (6-16) and a medicine liquid outlet (6-17), wherein the disinfection box stirring motor (6-2) is fixed on the disinfection box (6-1), and the stirring blades (6-3) are connected with the disinfection box stirring motor (6-2), an exhaust groove (6-4) is fixed on a disinfection box (6-1), a floater (6-5) is connected with the exhaust groove (6-4), one end of an overflow pipe (6-6) is communicated with the lower part of the exhaust groove (6-4), one end of the overflow pipe (6-6) is communicated with a discharge port (6-7), the discharge port (6-7) is positioned at the lower part of the disinfection box (6-1), a liquid discharge valve motor (6-8) is fixed on the discharge port (6-7), a liquid discharge valve (6-9) is connected with the discharge port (6-7), the liquid discharge valve (6-9) is connected with the liquid discharge valve motor (6-8), a liquid inlet three-way valve (6-10) is connected with the disinfection box (6-1), a liquid inlet three-way valve (6-10) is connected with the disinfection box (6-11), the liquid inlet three-way valve (6-10) is connected with the discharge pipe (5-5), the lower part of the disinfection medicine box (6-11) is communicated with the disinfection box (6-1), the flushing pipe (6-12) is communicated with the lower part of the disinfection medicine box (6-11), the medicine feeding port (6-13) is positioned on the disinfection medicine box (6-11), the partition plate (6-14) is positioned at the lower part of the disinfection medicine box (6-11), the medicine feeding wheel (6-15) is contacted with the disinfection medicine box (6-11), the medicine feeding motor (6-16) is connected with the medicine feeding wheel (6-15), and the medicine liquid outlet (6-17) is communicated with the disinfection box (6-1) through a pipe.

8. A nasal washing device according to claim 1 characterised in that: the number of the manual gears (4-6) is two, and the manual gears (4-6) are not connected.

Technical Field

The invention relates to a flushing device, in particular to a nasal cavity cleaning device.

Background

Rhinitis is a very painful problem, and the cleaning of the inner part of the nasal cavity can relieve uncomfortable symptoms and ensure the normal state of the nasal cavity, so the nasal cavity cleaning device is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a nasal cavity cleaning device, which can mix water, salt and other substances, adjust the flow rate and disinfect and sterilize cleaned liquid.

In order to solve the technical problem, the invention relates to a flushing device, in particular to a nasal cavity cleaning device which comprises a water barrel, a medicine barrel, a mixed pressure barrel, a flow rate control valve, a nasal cavity connector and a recycling and disinfecting box.

The bucket lower part be connected with mixing pressure section of thick bamboo, the cartridge case is connected with mixing pressure section of thick bamboo, the velocity of flow control valve is connected with mixing pressure section of thick bamboo, the nasal cavity connector is connected with the velocity of flow control valve, the recovery disinfect box is connected with the nasal cavity connector.

As a further optimization of the technical scheme, the bucket of the nasal cavity cleaning device comprises a bucket body, a sliding frame, a sliding motor, a thrust shaft, buffer springs, pressure plates, vent valves, a vent plug, a vent spring, a limiting frame, a water replenishing valve core and a sealing spring, wherein the upper part of the bucket body is in an open shape, the lower part of the sliding frame is fixed at the upper part of the bucket body, the sliding motor is in sliding fit with the sliding frame, the thrust shaft is connected with the sliding motor, the thrust shaft is connected with the pressure plates, the number of the buffer springs is two, the buffer springs are sleeved on the thrust shaft, the pressure plates are in sliding fit with the bucket body, the vent valves are fixed on the pressure plates, the vent plugs are connected with the vent valves, one end of the vent springs is connected with the vent plug, one end of the vent springs is connected with the limiting, the sealing spring is connected with the water replenishing valve and the water replenishing valve core.

As a further optimization of the technical scheme, the medicine cylinder of the nasal cavity cleaning device comprises a medicine cylinder box, a bucket cover, a sliding plate, screw rods, connecting rods, an intermediate rod, a driving motor, a belt, a support, a stirring plate, stirring belts, intermediate wheels, an intermediate wheel motor, a discharge motor, a fluted disc, a toothed rod and a hopper door, wherein the lower part of the medicine cylinder box is connected with a mixing pressure cylinder, the lower part of the inner side of the medicine cylinder box is provided with an arc-shaped outlet, the bucket cover is fixed on the medicine cylinder box, the upper part of the bucket cover is provided with a hopper, the sliding plate is in sliding fit with the bucket cover, the screw rods are in threaded fit with the sliding plate, the connecting rods are connected with the screw rods, the intermediate rod is connected with the connecting rods, the driving motor is fixed on the support, one end of the belt is connected with the driving motor, one end of the belt is connected with the intermediate rod, the support is fixed, the stirring belt is connected with the stirring plate, the middle wheel is connected with the medicine cylinder box, the middle wheel is connected with the stirring belt, the middle wheel motor is connected with the middle wheel, the discharging motor is fixed on the medicine cylinder box, the fluted disc is connected with the hopper door, the toothed bar is connected with the discharging motor, the toothed bar is connected with the fluted disc, and the hopper door is in sliding fit with the pressing cylinder box.

As a further optimization of the technical scheme, the mixed pressure cylinder of the nasal cavity cleaning device comprises a mixing cylinder, a medicine inlet pipe, a three-way valve, an air inlet valve, a switch belt, a middle transmission rod, a middle belt, a tooth post, a switch motor, a switch disc limit, a stirring bracket, a stirring wheel driving rod, a stirring motor, a connecting rod, a chassis and an outlet, wherein the upper part of the medicine inlet pipe is connected with a medicine cylinder box, the medicine inlet pipe is connected with the mixing cylinder, the three-way valve is connected with a cylinder body, the three-way valve is connected with the mixing cylinder, the three-way valve is connected with the medicine inlet pipe, the air inlet valve is connected with the mixing cylinder, the switch belt is connected with the air inlet valve, the switch belt is connected with the middle transmission rod, the middle transmission rod is connected with one end of the middle belt, the gear column is connected with the switch motor, the switch motor is fixed on the mixing drum, a round hole is processed on the switch disc, an arc opening is processed on the switch disc, the arc opening of the switch disc is meshed with the gear column, the switch disc is limited and fixed in the mixing drum, the switch disc is limited and contacted with the switch disc, the stirring support is fixed in the mixing drum, the stirring wheel is connected with the stirring support, two stirring wheel driving rods are arranged, the stirring wheel driving rod is connected with the mixing drum and connected with the stirring wheel, the stirring motor is fixed on the mixing drum and connected with one stirring wheel driving rod, the connecting rod is connected with the stirring wheel driving rod, the chassis is fixed at the lower part of the mixing drum, and the outlet is connected with the flow rate control valve through a pipe.

As a further optimization of the technical scheme, the flow rate control valve of the nasal cavity cleaning device comprises a valve body, a flow control plug, a valve body outlet, a large gear, a middle small gear and two manual gears, wherein the valve body is connected with the outlet through a pipe, one end of the flow control plug is conical, the flow control plug is in sliding fit with the valve body, the valve body outlet is connected with a nasal cavity connector through a pipe, the large gear is connected with the valve body, the large gear is meshed with the flow control plug and is meshed with the large gear, and the manual gears are meshed with the middle small gear.

As a further optimization of the technical scheme, the nasal cavity connector of the nasal cavity cleaning device comprises a pipe inlet, a chuck, an inlet, a discharge port and a discharge pipe, wherein the pipe inlet is connected with the outlet of the valve body, the chuck is connected with the pipe inlet, the inlet is communicated with the pipe inlet, the discharge port is fixed with the chuck, and the discharge pipe is communicated with the discharge port.

As a further optimization of the technical solution, the recycling sterilization box of the nasal cavity cleaning device of the present invention comprises a sterilization box, a sterilization box stirring motor, a stirring blade, an exhaust groove, a float, an overflow pipe, a discharge port, a liquid discharge valve motor, a liquid discharge valve, a liquid inlet three-way valve, a sterilization medicine box, a liquid flushing pipe, a medicine feeding port, a partition board, a medicine feeding wheel, a medicine feeding motor, and a medicine liquid outlet, wherein the sterilization box stirring motor is fixed on the sterilization box, the stirring blade is connected with the sterilization box stirring motor, the exhaust groove is fixed on the sterilization box, the float is connected with the exhaust groove, one end of the overflow pipe is communicated with the lower part of the exhaust groove, one end of the overflow pipe is communicated with the discharge port, the discharge port is located at the lower part of the sterilization box, the liquid discharge valve motor is fixed on the discharge port, the liquid discharge valve is connected with the, the liquid inlet three-way valve is connected with the discharge pipe, the lower part of the disinfection medicine box is communicated with the disinfection box, the liquid flushing pipe is communicated with the lower part of the disinfection medicine box, the medicine feeding port is positioned on the disinfection medicine box, the partition plate is positioned at the lower part of the disinfection medicine box, the medicine feeding wheel is contacted with the disinfection medicine box, the medicine feeding motor is connected with the medicine feeding wheel, and the liquid medicine outlet is communicated with the disinfection box through a pipe.

As a further optimization of the technical scheme, the nasal cavity cleaning device is provided with two manual gears, and the manual gears are not connected.

The nasal cavity cleaning device has the beneficial effects that:

the nasal cavity cleaning device can mix water, salt and other substances, can adjust the flow, and can disinfect and sterilize cleaned liquid.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a nasal cavity cleaning device of the present invention.

Fig. 2 is a schematic structural view of the other side of the nasal cavity washing device of the invention.

Fig. 3 is a schematic structural view of a water tub 1 of a nasal cavity washing device according to the present invention.

Fig. 4 is a partial structural view of a water tub 1 of a nasal cavity washing device according to the present invention.

Fig. 5 is a partial structural view of a water tub 1 of a nasal cavity washing device according to the present invention.

Fig. 6 is a partial structural view of a water tub 1 of a nasal cavity washing device according to the present invention.

Fig. 7 is a schematic view of the cartridge 2 of a nasal cavity washing device according to the present invention.

Fig. 8 is a partial structural schematic view of a cartridge 2 of a nasal cavity washing device of the present invention.

Fig. 9 is a partial structural schematic view of a cartridge 2 of a nasal cavity washing device of the present invention.

Fig. 10 is a schematic structural view of a mixing pressure cylinder 3 of a nasal cavity washing device of the present invention.

Fig. 11 is a schematic view of the internal structure of the mixing pressure cylinder 3 of the nasal cavity washing device of the present invention.

Fig. 12 is a schematic sectional view showing the flow rate control valve 4 of the nasal cavity washing device according to the present invention.

Fig. 13 is a schematic cross-sectional view of a nasal cavity connector 5 of a nasal cavity washing device of the present invention.

Fig. 14 is a schematic structural view of a recycling sterilization box 6 of the nasal cavity washing device of the present invention.

Fig. 15 is a partial structural schematic view of a recycling sterilization box 6 of the nasal cavity washing device of the present invention.

Fig. 16 is a partial structural view of a recycling sterilization box 6 of the nasal cavity washing device of the present invention.

In the figure: a water bucket 1; 1-1 of a barrel body; a carriage 1-2; a sliding motor 1-3; a thrust shaft 1-4; 1-5 of a buffer spring; 1-6 of a pressure plate; 1-7 of a vent valve; 1-8 parts of a vent plug; 1-9 parts of a gas-permeable spring; 1-10 parts of a limiting frame; 1-11 parts of a water replenishing valve; 1-12 parts of a water replenishing valve core; 1-13 parts of a sealing spring; a cartridge 2; 2-1 of a medicine cylinder box; 2-2 of a bucket cover; 2-3 of a sliding plate; 2-4 parts of a screw; 2-5 of a connecting rod; 2-6 of an intermediate rod; 2-7 of a driving motor; 2-8 parts of a belt; 2-9 of a bracket; 2-10 parts of a stirring plate; agitating belts 2-11; 2-12 of intermediate wheel; 2-13 of middle wheel motor; discharge motors 2-14; 2-15 of fluted disc; 2-16 parts of a toothed bar; 2-17 of a hopper door; a mixing pressure cylinder 3; 3-1 of a mixing cylinder; 3-2 of a medicine inlet pipe; 3-3 of a three-way valve; an air intake valve 3-4; 3-5 parts of a switch belt; 3-6 of an intermediate transmission rod; 3-7 parts of an intermediate belt; 3-8 parts of toothed columns; switching on and off the motor 3-9; 3-10 parts of a switch panel; limiting the switch disc by 3-11; agitating the supports 3-12; 3-13 parts of a stirring wheel; a stirring wheel driving rod 3-14; 3-15 parts of a stirring motor; 3-16 of a connecting rod; 3-17 parts of a chassis; outlets 3-18; a flow rate control valve 4; a valve body 4-1; a flow control plug 4-2; an outlet 4-3 of the valve body; 4-4 of a bull gear; an intermediate pinion 4-5; 4-6 parts of a manual gear; a nasal cavity connector 5; 5-1 of an inlet pipe; 5-2 of a chuck; 5-3 of an inlet; 5-4 of a discharge port; 5-5 of calandria; a recycling sterilization box 6; 6-1 of a disinfection box; a disinfection box stirring motor 6-2; 6-3 of stirring blades; 6-4 parts of an exhaust groove; 6-5 of a floater; 6-6 of an overflow pipe; an outlet 6-7; 6-8 of a drain valve motor; 6-9 parts of a drain valve; 6-10 parts of a liquid inlet three-way valve; 6-11 parts of a disinfection medicine box; 6-12 of a liquid flushing pipe; 6-13 parts of a drug feeding port; 6-14 parts of partition board; 6-15 parts of a dosing wheel; 6-16 of a dosing motor; and liquid medicine outlets 6-17.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present invention relates to a flushing device, and more specifically, to a nasal cavity cleaning device, including a water barrel 1, a cartridge 2, a mixing pressure barrel 3, a flow rate control valve 4, a nasal cavity connector 5, and a recovery sterilizing tank 6, which can mix water, salt, etc., and can adjust the flow rate, and can sterilize and disinfect the cleaned liquid.

The lower part of the water barrel 1 is connected with a mixed pressure barrel 3, a medicine barrel 2 is connected with the mixed pressure barrel 3, a flow rate control valve 4 is connected with the mixed pressure barrel 3, a nasal cavity connector 5 is connected with the flow rate control valve 4, and a recovery disinfection box 6 is connected with the nasal cavity connector 5.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16. the present embodiment further describes the present embodiment, where the water bucket 1 includes a bucket body 1-1, a sliding frame 1-2, a sliding motor 1-3, a thrust shaft 1-4, a buffer spring 1-5, a pressure plate 1-6, a vent valve 1-7, a vent plug 1-8, a vent spring 1-9, a limit frame 1-10, a water replenishing valve 1-11, a water replenishing valve core 1-12, and a seal spring 1-13, the upper portion of the bucket body 1-1 is open, the lower portion of the sliding frame 1-2 is fixed to the upper portion of the bucket body 1-1, the sliding motor 1-3 is slidably engaged with the sliding frame 1-2, the thrust shaft 1-4 is connected with the sliding motor 1-3, the thrust shaft 1-4 is connected with the pressure plate 1-6, two buffer springs 1-5 are provided, the buffer spring 1-5 is sleeved on the thrust shaft 1-4, the pressure plate 1-6 is in sliding fit with the barrel body 1-1, the vent valve 1-7 is fixed on the pressure plate 1-6, the vent plug 1-8 is connected with the vent valve 1-7, one end of the vent spring 1-9 is connected with the vent plug 1-8, one end of the vent spring 1-9 is connected with the limiting frame 1-10, the limiting frame 1-10 is fixed on the upper part of the vent valve 1-7, the water replenishing valve 1-11 is fixed on the barrel body 1-1, the water replenishing valve core 1-12 is connected with the water replenishing valve 1-11, the sealing spring 1-13 is connected with the water replenishing valve, the sealing springs 1-13 are connected with the water replenishing valve cores 1-12. The sliding motor 1-3 rotates to drive the thrust shaft 1-4 to rotate, the thrust shaft 1-4 rotates to be in threaded fit with the sliding frame 1-2, the thrust shaft 1-4 moves to drive the sliding motor 1-3, the thrust shaft 1-4 pushes the pressure plate 1-6 to move, and water in the cylinder body 1-1 is pressed out downwards; the water replenishing valve 1-11 is connected into a water supply pipe, the water replenishing valve core 1-12 is pressed downwards by water pressure, water is supplied into the barrel body 1-1, gas is discharged through the vent valve 1-7, and when the water reaches a moving position, the vent plug 1-8 receives the action of buoyancy, the vent valve 1-7 is closed, and the sealing performance inside the barrel body 1-1 is kept.

The third concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, the present embodiment will be further described, wherein the medicine cartridge 2 includes a medicine cartridge case 2-1, a bucket cover 2-2, a slide plate 2-3, a screw 2-4, a connecting rod 2-5, an intermediate rod 2-6, a driving motor 2-7, a belt 2-8, a bracket 2-9, a stirring plate 2-10, a stirring belt 2-11, an intermediate wheel 2-12, an intermediate wheel motor 2-13, a discharge motor 2-14, a fluted disc 2-15, a toothed bar 2-16, a hopper door 2-17, a lower portion of the medicine cartridge 2-1 is connected to a mixing pressure cylinder 3, an arc-shaped outlet is processed at the lower part of the inner side of a medicine barrel box 2-1, a bucket cover 2-2 is fixed on the medicine barrel box 2-1, a funnel is processed at the upper part of the bucket cover 2-2, a sliding plate 2-3 is in sliding fit with the bucket cover 2-2, four screw rods 2-4 are arranged, the screw rods 2-4 are in threaded fit with the sliding plate 2-3, a connecting rod 2-5 is connected with the screw rods 2-4, an intermediate rod 2-6 is connected with the connecting rod 2-5, a driving motor 2-7 is fixed on a support 2-9, one end of a belt 2-8 is connected with the driving motor 2-7, one end of the belt 2-8 is connected with the intermediate rod 2-6, the support 2-9 is fixed on the bucket cover 2-2, two stirring plates 2-10 are arranged, and the stirring plates 2-10 are, the stirring belt 2-11 is connected with the stirring plate 2-10, the intermediate wheel 2-12 is connected with the medicine cylinder box 2-1, the intermediate wheel 2-12 is connected with the stirring belt 2-11, the intermediate wheel motor 2-13 is connected with the intermediate wheel 2-12, the discharging motor 2-14 is fixed on the medicine cylinder box 2-1, the fluted disc 2-15 is connected with the hopper door 2-17, the toothed bar 2-16 is connected with the discharging motor 2-14, the toothed bar 2-16 is connected with the fluted disc 2-15, and the hopper door 2-17 is in sliding fit with the medicine cylinder pressing box 2-1. Liquid medicine or salt is loaded into a cartridge case 2-1 through a belt bucket cover 2-2, a driving motor 2-7 rotates to drive a belt 2-8 to rotate, the belt 2-8 rotates to drive an intermediate rod 2-6 to rotate, the intermediate rod 2-7 rotates to drive a connecting rod 2-5 to rotate, the connecting rod 2-5 rotates to drive a screw rod 2-4 to rotate, the screw rod 2-4 rotates to drive a sliding plate 2-3 to move, and the sliding plate 2-3 moves to open a funnel; the middle wheel motor 2-13 rotates to drive the middle wheel 2-12 to rotate, the middle wheel 2-12 rotates to drive the stirring belt 2-11 to rotate, the stirring belt 2-11 rotates to drive the stirring plate 2-10 to rotate, and the stirring plate 2-10 rotates to stir substances in the medicine cylinder box 2-1 so as to facilitate downward outflow; the discharge motor 2-14 rotates to drive the gear rod 2-16 to rotate, the gear rod 2-16 rotates to drive the gear disc 2-15 to rotate, the gear disc 2-15 rotates to drive the hopper door 2-17 to rotate, and the hopper door 2-17 rotates to open the lower part of the medicine barrel box 2-1, so that medicine is discharged.

The fourth concrete implementation mode:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, the present embodiment further illustrates the present embodiment, wherein the mixing pressure cylinder 3 includes a mixing cylinder 3-1, a medicine inlet pipe 3-2, a three-way valve 3-3, an air inlet valve 3-4, a switching belt 3-5, an intermediate transmission rod 3-6, an intermediate belt 3-7, a tooth post 3-8, a switching motor 3-9, a switching plate 3-10, a switching plate limit 3-11, an agitation support 3-12, an agitation wheel 3-13, an agitation wheel driving rod 3-14, an agitation motor 3-15, a connecting rod 3-16, a base plate 3-17, and an outlet 3-18, the upper part of a medicine inlet pipe 3-2 is connected with a medicine cartridge box 2-1, the medicine inlet pipe 3-2 is connected with a mixing cylinder 3-1, a three-way valve 3-3 is connected with the cylinder 1-1, a three-way valve 3-3 is connected with the mixing cylinder 3-1, the three-way valve 3-3 is connected with the medicine inlet pipe 3-2, an air inlet valve 3-4 is connected with the mixing cylinder 3-1, a switching belt 3-5 is connected with an air inlet valve 3-4, the switching belt 3-5 is connected with an intermediate transmission rod 3-6, the intermediate transmission rod 3-6 is connected with the mixing cylinder 3-1, one end of the intermediate belt 3-7 is connected with the intermediate transmission rod 3-6, the intermediate belt 3-7 is connected with a toothed column 3-8, and the toothed column 3-8 is connected, the gear column 3-8 is connected with a switch motor 3-9, the switch motor 3-9 is fixed on a mixing cylinder 3-1, a round hole is processed on a switch disc 3-10, an arc opening is processed on the switch disc 3-10, the arc opening of the switch disc 3-10 is meshed with the gear column 3-8, a switch disc limit 3-11 is fixed inside the mixing cylinder 3-1, the switch disc limit 3-11 is contacted with the switch disc 3-10, a stirring support 3-12 is fixed inside the mixing cylinder 3-1, a stirring wheel 3-13 is connected with a stirring support 3-12, two stirring wheel driving rods 3-14 are arranged, the stirring wheel driving rod 3-14 is connected with the mixing cylinder 3-1, the stirring wheel driving rod 3-14 is connected with the stirring wheel 3-13, the stirring motor 3-15 is fixed on the mixing cylinder 3-1, the stirring motor 3-15 is connected with a stirring wheel driving rod 3-14, the connecting rod 3-16 is connected with the stirring wheel driving rod 3-14, the chassis 3-17 is fixed at the lower part of the mixing cylinder 3-1, and the outlet 3-18 is connected with the flow rate control valve 4 through a pipe. The medicine is discharged from the medicine cylinder box 2-1 and falls into the medicine inlet pipe 3-2, when the three-way valve 3-3 acts, water enters the three-way valve 3-3 through the upper part and then enters the medicine inlet pipe 3-2, and the medicine is flushed into the mixing cylinder 3-1; the three-way valve 3-3 acts to directly flow water into the mixing barrel 3-1, the switch motor 3-9 rotates to drive the toothed column 3-8 to rotate, the toothed column 3-8 rotates to drive the switch disc 3-10 to rotate, and the medicine inlet pipe 3-2 and the water inlet are opened or closed; the rotation of the toothed column 3-8 drives the middle belt 3-7 to rotate, the rotation of the middle belt 3-7 drives the middle transmission rod 3-6 to rotate, the rotation of the middle transmission rod 3-6 drives the switch belt 3-5 to rotate, the rotation of the switch belt 3-5 drives the gas collecting valve 3-4 to rotate, pressurized gas enters the mixing cylinder 3-1, and the switch disc 3-10 is in a closed state at the moment; the stirring motor 3-15 rotates to drive the stirring wheel driving rod 3-14 to rotate, and the stirring wheel driving rod 3-14 rotates to drive the stirring wheel 3-13 to rotate.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the embodiment further describes the embodiment, where the flow rate control valve 4 includes a valve body 4-1, a flow control plug 4-2, a valve body outlet 4-3, a large gear 4-4, an intermediate small gear 4-5, and a manual gear 4-6, the valve body 4-1 is connected to the outlet 3-18 through a pipe, one end of the flow control plug 4-2 is cone-shaped, the flow control plug 4-2 is in sliding fit with the valve body 4-1, the valve body outlet 4-3 is connected to the nasal cavity connector 5 through a pipe, the large gear 4-4 is connected to the valve body 4-1, the large gear 4-4 is engaged with the, the two manual gears 4-6 are meshed with the large gear 4-4, and the manual gear 4-6 is meshed with the middle small gear 4-5. The manual gear 4-6 is rotated manually, the manual gear 4-6 drives the middle pinion 4-5 to rotate, the middle pinion 4-5 rotates to drive the large gear 4-4 to rotate, the large gear 4-4 rotates to drive the flow control plug 4-2 to move, so that the gap between the flow control plug 4-2 and the valve body 4-1 is changed, and the flow is controlled.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the present embodiment, where the nasal cavity connector 5 includes an inlet tube 5-1, a clamping head 5-2, an inlet 5-3, a discharge port 5-4, and a discharge pipe 5-5, the inlet tube 5-1 is connected to the valve body outlet 4-3, the clamping head 5-2 is connected to the inlet tube 5-1, the inlet 5-3 is communicated to the inlet tube 5-1, the discharge port 5-4 is fixed to the clamping head 5-2, and the discharge pipe 5-5 is communicated to the discharge port 5-4. The mixed liquid flows in through the inlet pipe 5-1, flows into the nasal cavity through the inlet 5-3, flows out through the inner part of the nasal cavity, flows into the discharge port 5-4, and flows into the tax sterilizing box 6 through the discharge pipe 5-5.

The seventh embodiment:

the embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16. in this embodiment, the embodiment will be further described, wherein the recovery sterilizing compartment 6 includes a sterilizing compartment 6-1, a sterilizing compartment agitation motor 6-2, an agitating vane 6-3, an air discharge groove 6-4, a float 6-5, an overflow pipe 6-6, an exhaust port 6-7, a drain valve motor 6-8, a drain valve 6-9, a liquid inlet three-way valve 6-10, a sterilizing compartment 6-11, a flushing pipe 6-12, an administration port 6-13, a partition 6-14, an administration wheel 6-15, an administration motor 6-16, and a liquid outlet 6-17, the sterilizing agitation compartment motor 6-2 is fixed to the sterilizing compartment 6-1, the stirring blade 6-3 is connected with a stirring motor 6-2 of the disinfection box, the exhaust groove 6-4 is fixed on the disinfection box 6-1, the floater 6-5 is connected with the exhaust groove 6-4, one end of an overflow pipe 6-6 is communicated with the lower part of the exhaust groove 6-4, one end of the overflow pipe 6-6 is communicated with a discharge port 6-7, the discharge port 6-7 is positioned at the lower part of the disinfection box 6-1, a discharge valve motor 6-8 is fixed on the discharge port 6-7, a discharge valve 6-9 is connected with the discharge valve motor 6-8, a liquid inlet three-way valve 6-10 is connected with the disinfection box 6-1, a liquid inlet three-way valve 6-10 is connected with a disinfection box 6-11, and a liquid inlet three, the lower part of a disinfection medicine box 6-11 is communicated with a disinfection box 6-1, a flushing liquid pipe 6-12 is communicated with the lower part of the disinfection medicine box 6-11, a medicine feeding opening 6-13 is positioned on the disinfection medicine box 6-11, a partition plate 6-14 is positioned at the lower part of the disinfection medicine box 6-11, a medicine feeding wheel 6-15 is contacted with the disinfection medicine box 6-11, a medicine feeding motor 6-16 is connected with the medicine feeding wheel 6-15, and a medicine liquid outlet 6-17 is communicated with the disinfection box 6-1 through a pipe. The stirring motor 6-2 of the disinfection box rotates to drive the stirring blade 6-3 to rotate, and the rotation of the stirring blade 6-3 enables the disinfectant and the liquid to be mixed: when the liquid is not much, the floater will be opened to discharge the gas; the liquid discharge valve motor 6-8 rotates to drive the liquid discharge valve 6-9 to move, so that the discharge port 6-7 is opened, the liquid inlet three-way valve 6-10 acts to enable liquid to enter the lower part of the disinfection medicine box 6-11, the chemical dosing motor 6-16 rotates to drive the first kiln path 6-15 to rotate, so that part of the disinfection medicine enters the lower layer of the Caban 6-14, and the disinfection medicine is discharged into the disinfection box 6-1 through the liquid medicine outlet 6-17 under the impact of the liquid.

The specific implementation mode is eight:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the present embodiment further describes the first embodiment in which two manual gears 4 to 6 are provided and the manual gears 4 to 6 are not connected to each other.

The working principle of the device is as follows:

1, the working principle of a water bucket: the sliding motor 1-3 rotates to drive the thrust shaft 1-4 to rotate, the thrust shaft 1-4 rotates to be in threaded fit with the sliding frame 1-2, the thrust shaft 1-4 moves to drive the sliding motor 1-3, the thrust shaft 1-4 pushes the pressure plate 1-6 to move, and water in the cylinder body 1-1 is pressed out downwards; the water replenishing valve 1-11 is connected into a water supply pipe, the water replenishing valve core 1-12 is pressed downwards by water pressure, water is supplied into the barrel body 1-1, gas is discharged through the vent valve 1-7, and when the water reaches a moving position, the vent plug 1-8 receives the action of buoyancy, the vent valve 1-7 is closed, and the sealing performance inside the barrel body 1-1 is kept.

2, the working principle of the medicine cylinder is as follows: liquid medicine or salt is loaded into a cartridge case 2-1 through a belt bucket cover 2-2, a driving motor 2-7 rotates to drive a belt 2-8 to rotate, the belt 2-8 rotates to drive an intermediate rod 2-6 to rotate, the intermediate rod 2-7 rotates to drive a connecting rod 2-5 to rotate, the connecting rod 2-5 rotates to drive a screw rod 2-4 to rotate, the screw rod 2-4 rotates to drive a sliding plate 2-3 to move, and the sliding plate 2-3 moves to open a funnel; the middle wheel motor 2-13 rotates to drive the middle wheel 2-12 to rotate, the middle wheel 2-12 rotates to drive the stirring belt 2-11 to rotate, the stirring belt 2-11 rotates to drive the stirring plate 2-10 to rotate, and the stirring plate 2-10 rotates to stir substances in the medicine cylinder box 2-1 so as to facilitate downward outflow; the discharge motor 2-14 rotates to drive the gear rod 2-16 to rotate, the gear rod 2-16 rotates to drive the gear disc 2-15 to rotate, the gear disc 2-15 rotates to drive the hopper door 2-17 to rotate, and the hopper door 2-17 rotates to open the lower part of the medicine barrel box 2-1, so that medicine is discharged.

3, working principle of the mixed pressure cylinder: the medicine is discharged from the medicine cylinder box 2-1 and falls into the medicine inlet pipe 3-2, when the three-way valve 3-3 acts, water enters the three-way valve 3-3 through the upper part and then enters the medicine inlet pipe 3-2, and the medicine is flushed into the mixing cylinder 3-1; the three-way valve 3-3 acts to directly flow water into the mixing barrel 3-1, the switch motor 3-9 rotates to drive the toothed column 3-8 to rotate, the toothed column 3-8 rotates to drive the switch disc 3-10 to rotate, and the medicine inlet pipe 3-2 and the water inlet are opened or closed; the rotation of the toothed column 3-8 drives the middle belt 3-7 to rotate, the rotation of the middle belt 3-7 drives the middle transmission rod 3-6 to rotate, the rotation of the middle transmission rod 3-6 drives the switch belt 3-5 to rotate, the rotation of the switch belt 3-5 drives the gas collecting valve 3-4 to rotate, pressurized gas enters the mixing cylinder 3-1, and the switch disc 3-10 is in a closed state at the moment; the stirring motor 3-15 rotates to drive the stirring wheel driving rod 3-14 to rotate, and the stirring wheel driving rod 3-14 rotates to drive the stirring wheel 3-13 to rotate.

4, working principle of the flow rate control valve: the manual gear 4-6 is rotated manually, the manual gear 4-6 drives the middle pinion 4-5 to rotate, the middle pinion 4-5 rotates to drive the large gear 4-4 to rotate, the large gear 4-4 rotates to drive the flow control plug 4-2 to move, so that the gap between the flow control plug 4-2 and the valve body 4-1 is changed, and the flow is controlled.

5 the working principle of the nasal cavity connector is as follows: the mixed liquid flows in through the inlet pipe 5-1, flows into the nasal cavity through the inlet 5-3, flows out through the inner part of the nasal cavity, flows into the discharge port 5-4, and flows into the tax sterilizing box 6 through the discharge pipe 5-5.

6, the working principle of the recovery disinfection box is as follows: the stirring motor 6-2 of the disinfection box rotates to drive the stirring blade 6-3 to rotate, and the rotation of the stirring blade 6-3 enables the disinfectant and the liquid to be mixed: when the liquid is not much, the floater will be opened to discharge the gas; the liquid discharge valve motor 6-8 rotates to drive the liquid discharge valve 6-9 to move, so that the discharge port 6-7 is opened, the liquid inlet three-way valve 6-10 acts to enable liquid to enter the lower part of the disinfection medicine box 6-11, the chemical dosing motor 6-16 rotates to drive the first kiln path 6-15 to rotate, so that part of the disinfection medicine enters the lower layer of the Caban 6-14, and the disinfection medicine is discharged into the disinfection box 6-1 through the liquid medicine outlet 6-17 under the impact of the liquid.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.