CN211658471U - Nursing machine - Google Patents

Abstract

A nursing machine comprises a host, a wearing component capable of being worn on a human body, a pipeline component capable of being communicated between the host and the wearing component, wherein the wearing component is provided with a feces groove for containing excrement, the pipeline component comprises a sewage discharge pipeline capable of being communicated between the host and the wearing component for conveying the excrement, and a first water inlet pipeline capable of being communicated between the host and the wearing component for supplying water to the wearing component, the nursing machine further comprises a switching component, the pipeline component can be alternatively butted with the wearing component or the switching component, the switching component is provided with a disinfectant containing cavity, after the pipeline component is butted with the switching component, water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the switching component flows through the disinfectant containing cavity, and due to the design, the disinfectant containing cavity is arranged, the feeding and adding of the disinfectant are facilitated, and the proper disinfectant can be placed into the disinfectant containing cavity at proper time, to perform the sterilization work.

Description

Nursing machine

[ technical field ] A method for producing a semiconductor device

The utility model relates to a nursing machine.

[ background of the invention ]

The nursing machine in the prior art comprises a host machine, a wearing component worn on a human body, and a pipeline component connected between the host machine and the wearing component, wherein the host machine is provided with a water pump, a water purification tank used for supplying water, and a sewage tank used for accommodating excrement sucked from the wearing component; the sewage discharge pipeline is used for conveying excrement, the inner surface of the sewage discharge pipeline can be attached with dirt and can generate various germs, and the sewage discharge pipeline needs to be regularly disinfected (disinfection refers to cleaning and/or sterilization widely, a large number of disinfectant used for soaking cleaning and sterilization on the market can be selected according to needs, the disinfectant can be particles, powder, disinfectant and the like, such as bromine-containing disinfectant such as dibromo hydantoin and the like, citric acid, chlorine dioxide disinfectant/liquid and the like, and the disinfectant is dissolved in water to form a disinfection solution).

[ Utility model ] content

The utility model provides a comparatively convenient nursing machine of disinfection of the blowdown pipeline of establishing.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a nursing machine, includes the host computer, can wear in human wearing subassembly, can communicate the pipeline subassembly between host computer and wearing subassembly, and the wearing subassembly is equipped with the just groove that supplies to hold the excrement, and the pipeline subassembly includes can communicate carry the blowdown pipeline that the excrement was used between host computer and wearing subassembly, can communicate and supply water for the first water intake pipe of wearing the subassembly between host computer and wearing subassembly, nursing machine still includes the switching subassembly, but the alternative and wearing subassembly or the butt joint of switching subassembly of pipeline subassembly, and the switching subassembly is equipped with disinfectant and holds the cavity, and the rivers warp that pipeline subassembly and switching subassembly butt joint back first water intake pipe carried to the blowdown pipeline via the switching subassembly disinfectant holds the cavity.

So design, owing to set up the disinfectant and hold the cavity, made things convenient for the input of disinfectant to add, be convenient for put into the disinfectant with the disinfectant and hold the cavity when needs disinfect to sewage pipes, replace wearing the subassembly through the switching subassembly and go to with pipeline subassembly and butt joint, along with flowing through the disinfectant holds the rivers of cavity, and the disinfectant that the disinfectant held in the cavity melts into this rivers gradually to following this rivers inflow sewage pipes, soaking the disinfection to sewage pipes, to sum up, sewage pipes's disinfection is more convenient.

Further, the host computer is equipped with the port subassembly, and the port subassembly is equipped with the sewage port that supplies with the blowdown pipeline butt joint, supplies with the first water supply port that first inlet line butt joint, and the port subassembly is located the front side upper portion of host computer.

Furthermore, the adapter assembly comprises a shell and a first pipe section, and one end of the first pipe section is butted with the sewage discharge pipeline after the pipeline assembly is butted with the adapter assembly; the disinfectant containing cavity and the first pipe section are respectively contained in the shell.

Furthermore, the disinfectant containing cavity is adjacent to the first pipe section, the adapter assembly is further provided with a first water outlet one-way valve, the first water outlet one-way valve is located at the downstream of the disinfectant containing cavity and used for one-way fluid communication between the disinfectant containing cavity and the first pipe section, the disinfectant containing cavity is provided with a first water outlet port portion, and the first water outlet one-way valve is installed in the first water outlet port portion.

Furthermore, the adapter assembly comprises a first pipe section, water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the adapter assembly sequentially flows through the disinfectant containing cavity and the first pipe section, and the disinfectant containing cavity is fixed on the first pipe section.

Furthermore, the adapter assembly is provided with an air inlet one-way valve, the air inlet one-way valve is arranged in the first pipe section, and after the pipeline assembly is in butt joint with the adapter assembly, air can be supplemented into the first pipe section through the air inlet one-way valve under the suction of the host machine on the sewage discharge pipeline; the first pipe section is provided with a side frame opening, a first port and a second port, the first port and the second port are located at two opposite ends of the first pipe section, the first port is in butt joint with the sewage draining pipeline, and the air inlet check valve is located between the second port and the side frame opening.

Furthermore, the switching assembly is provided with an air inlet one-way valve and a first water outlet one-way valve, the air inlet one-way valve is arranged in the first pipe section, and after the pipeline assembly is in butt joint with the switching assembly, air can be supplemented into the first pipe section through the air inlet one-way valve under the suction of the host machine on the sewage discharge pipeline; the first pipe section is provided with a first port and a second port, the first port and the second port are located at two opposite ends of the first pipe section, the first port is in butt joint with a sewage discharge pipeline, the first water outlet one-way valve is located at the downstream of the disinfectant containing cavity and located at the upstream of the first port, and the air inlet one-way valve is located between the first water outlet one-way valve and the second port.

Furthermore, the switching assembly comprises a first pipe section, water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the switching assembly sequentially flows through the disinfectant containing cavity and the first pipe section, the first pipe section is provided with a side frame opening, and the disinfectant containing cavity is installed to the side frame opening.

Furthermore, the disinfectant containing cavity comprises a main body part and a base, wherein one end of the main body part is nested with the side frame opening, and at least part of the base is contained in the side frame opening.

Furthermore, the disinfectant containing cavity comprises a main body part and a base, and the base is clamped and fixed by the main body part and the side frame opening.

Furthermore, the base is provided with a flexible sealing sleeve, and one part of the base is coated with the flexible sealing sleeve and is clamped between the main body part and the side frame opening together with the flexible sealing sleeve.

Furthermore, the disinfectant containing cavity is provided with a partition board, the main body part is cylindrical, the partition board is positioned in the main body part to separate the inner space of the main body part, and the lower end of the partition board is abutted to the flexible sealing sleeve.

The adapter component is further provided with a first water outlet one-way valve and a second water outlet one-way valve, the disinfectant containing cavity is provided with a first containing chamber and a second containing chamber, the first water outlet one-way valve is correspondingly positioned at the downstream of the first containing chamber and used for one-way fluid communication between the first containing chamber and the first pipe section, the second water outlet one-way valve is correspondingly positioned at the downstream of the second containing chamber and used for one-way fluid communication between the second containing chamber and the first pipe section, the base is provided with a first water outlet port part and a second water outlet port part, the first water outlet one-way valve is installed in the first water outlet port part, the second water outlet one-way valve is installed in the second water outlet port part, and the first water outlet port part and the second water outlet port part are arranged in parallel and are respectively contained in the side frame port.

Furthermore, the switching assembly is also provided with a first water outlet one-way valve, the first water outlet one-way valve is positioned at the downstream of the disinfectant containing cavity and used for one-way fluid communication between the disinfectant containing cavity and the first pipe section, the disinfectant containing cavity comprises a base, and the first water outlet one-way valve is installed in the base.

Furthermore, the disinfectant containing cavity is provided with a first containing chamber and a cover, the first containing chamber is provided with a first throwing port, the cover can cover the first throwing port, and the disinfectant can be put into the first containing chamber from the first throwing port by opening the cover.

Furthermore, the disinfectant containing cavity is further provided with a second containing chamber, the second containing chamber is provided with a second throwing port, and the cover can cover the first throwing port and the second throwing port.

Furthermore, the disinfectant containing cavity is further provided with a second containing chamber, the second containing chamber is provided with a second throwing port, and the opening area of the first throwing port is larger than that of the second throwing port.

Further, the switching subassembly still is equipped with the shell, and the disinfectant holds the cavity and is located the shell, and the lid exposes outside the shell, and the shell is equipped with the through-hole adjacent with first input port, and the lid covers the through-hole, and first input port exposes in the through-hole after opening the lid.

Further, the shell includes roof, diapire, and the roof is relative from top to bottom with the diapire, the opening is opened in the roof, and first input port is towards the top.

Furthermore, the cover is provided with a cover uncovering part and a buckling part, the cover uncovering part and the buckling part are positioned at two opposite sides of the through hole, the shell is also provided with a buckling hole, and the buckling part is buckled in the buckling hole to keep the cover on the shell; the cover uncovering part is made of flexible rubber and is in a sheet shape, and the cover uncovering part is positioned outside the shell and clings to the outer surface of the shell.

Furthermore, the disinfectant containing cavity is provided with a first containing chamber, a second containing chamber and a partition board for separating the first containing chamber from the second containing chamber.

Furthermore, the disinfectant containing cavity is provided with a cover, the first containing cavity is provided with a first throwing port, the second containing cavity is provided with a second throwing port, the partition plate is separated between the first throwing port and the second throwing port, after the cover covers the first throwing port and the second throwing port, the partition plate is provided with a first end and a second end which are opposite, and the first end of the partition plate is abutted against the cover.

Further, the cover is provided with a groove, and the first end of the partition plate is embedded into the groove of the cover.

Furthermore, the adapter assembly is further provided with an adapter pipeline, the disinfectant containing cavity is connected with the adapter pipeline, after the pipeline assembly is in butt joint with the adapter assembly, the sewage discharge pipeline is in fluid communication with the first water inlet pipeline through the adapter pipeline, and water flow conveyed to the sewage discharge pipeline through the adapter pipeline by the first water inlet pipeline passes through the disinfectant containing cavity.

Furthermore, the switching pipeline is provided with a first water inlet one-way valve, the first water inlet one-way valve is positioned at the upstream of the disinfectant containing cavity, and at least one part of water conveyed to the sewage discharge pipeline by the first water inlet pipeline passes through the first water inlet one-way valve and the disinfectant containing cavity in sequence through the switching pipeline.

Furthermore, the switching pipeline is also provided with a first water outlet one-way valve, the first water outlet one-way valve is positioned at the downstream of the disinfectant containing cavity, and at least one part of water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the switching pipeline sequentially flows through the first water inlet one-way valve, the disinfectant containing cavity and the first water outlet one-way valve.

Furthermore, the disinfectant containing cavity is provided with a first containing chamber and a second containing chamber, the switching pipeline is further provided with a second water inlet check valve, the first water inlet check valve is correspondingly positioned at the upstream of the first containing chamber and used for supplying water to the first containing chamber in a one-way mode, and the second water inlet check valve is correspondingly positioned at the upstream of the second containing chamber and used for supplying water to the second containing chamber in a one-way mode.

Furthermore, the switching pipeline is also provided with a first water outlet check valve and a second water outlet check valve, the first water outlet check valve is correspondingly positioned at the downstream of the first accommodating cavity and used for one-way water outlet of the first accommodating cavity, and the second water outlet check valve is correspondingly positioned at the downstream of the second accommodating cavity and used for one-way water outlet of the second accommodating cavity.

Further, the pipeline subassembly still includes the second inlet channel that can communicate for wearing the subassembly water supply between host computer and the wearing subassembly, and pipeline subassembly and switching subassembly butt joint back, first inlet channel flows through in proper order to at least some of the water that sewage pipes carried first inlet channel is first water check valve, the first cavity that holds, and at least some of the water that second inlet channel was carried to sewage pipes flows through in proper order first water check valve, the second cavity that holds.

Furthermore, the switching pipeline is also provided with a first water outlet check valve and a second water outlet check valve, at least one part of water conveyed by the first water inlet pipeline to the sewage discharge pipeline sequentially flows through the first water inlet check valve, the first accommodating chamber and the first water outlet check valve, and at least one part of water conveyed by the second water inlet pipeline to the sewage discharge pipeline sequentially flows through the second water inlet check valve, the second accommodating chamber and the second water outlet check valve.

Furthermore, the wearing component is provided with a first spray head and a second spray head, and after the pipeline component is in butt joint with the wearing component, the first water inlet pipeline is used for supplying water to the first spray head and the second water inlet pipeline is used for supplying water to the second spray head; the first nozzle is positioned at the front side of the excrement tank for flushing human body excrement backwards or positioned at the rear side of the excrement tank for flushing the human body forwards, and the second nozzle is positioned at the front side of the excrement tank for flushing human body excrement backwards or positioned at the rear side of the excrement tank for flushing the human body forwards.

Furthermore, the disinfectant containing cavity is provided with a first containing chamber and a second containing chamber, and the switching pipeline comprises a first connecting pipeline for supplying water to the first containing chamber and a second connecting pipeline for supplying water to the second containing chamber.

Furthermore, the first connecting pipeline is provided with a first water inlet check valve to supply water to the first accommodating cavity in a one-way mode, and the second connecting pipeline is provided with a second water inlet check valve to supply water to the second accommodating cavity in a one-way mode.

Further, the pipeline assembly still includes the second inlet channel that can communicate for wearing the subassembly water supply between host computer and the wearing subassembly, and first inlet channel flows through in proper order to the water that sewage pipes carried first connecting pipeline, first chamber that holds, and the water that second inlet channel carried to sewage pipes flows through in proper order second connecting pipeline, second hold the chamber.

Furthermore, the host is provided with a water pump, the switching pipeline also comprises a first pipe section for butt joint with the sewage discharge pipeline, the water pump can supply water to the sewage discharge pipeline through a first water inlet pipeline, a first connecting pipeline, a first containing cavity and the first pipe section in sequence, and the water pump can supply water to the sewage discharge pipeline through a second water inlet pipeline, a second connecting pipeline, a second containing cavity and the first pipe section in sequence; the wearing assembly is provided with a first nozzle and a second nozzle, and after the pipeline assembly is in butt joint with the wearing assembly, the first water inlet pipeline corresponds and can supply water to the first nozzle and the second water inlet pipeline corresponds and can supply water to the second nozzle.

Further, the adapter assembly is provided with a handle portion which can be used for moving the adapter assembly.

Furthermore, the switching subassembly is equipped with the check valve that admits air, and the check valve that admits air is located the inside of switching subassembly, and a plurality of vents have been seted up to handle portion, and pipeline subassembly and switching subassembly butt joint back, the air outside the switching subassembly can mend into the low reaches of disinfectant holding cavity via a plurality of vents, the check valve that admits air in proper order under the suction of host computer.

Further, the handle portion lower extreme that the vent was seted up in, switching subassembly still is equipped with shell, first pipeline section, and handle portion is the front side of shell and locating the shell, and first pipeline section is equipped with first port, second port, and first port constitutes the back port of first pipeline section and supplies to dock with the blowdown pipeline, and the second port constitutes the front port of first pipeline section and lies in the shell, and the check valve that admits air installs in the second port, the second port be located the rear side of a plurality of vents and with a plurality of vents front and back interval is relative, and pipeline subassembly and switching subassembly dock the back, and the air can be via in proper order under the suction of host computer a plurality of vents, the check valve that admits air mend into first pipeline section.

[ description of the drawings ]

FIG. 1 is an electrical connection block diagram of a portion of the electronic components of the front housing of the nursing machine;

FIG. 2 is an electrical connection block diagram of some of the electrical components of the wearable assembly of the care machine;

FIG. 3 is a circuit diagram of a wireless power supply primary conversion circuit of the nursing machine;

FIG. 4 is a circuit diagram of a wireless powered secondary switching circuit of the nursing machine;

FIG. 5 is a block diagram of the electrical connections of some of the electrical components of the switching assembly of the care machine;

FIG. 6 is a perspective view of the main unit of the nursing machine;

FIG. 7 is a perspective view of the main unit of the nursing machine with a part of the housing removed;

FIG. 8 is a perspective view of the caregiver wearable assembly in docked condition with the conduit assembly;

FIG. 9 is a horizontal cross-sectional view of FIG. 8;

FIG. 10 is a perspective assembly view of the rear wall of the adaptor assembly, the adaptor tube, the disinfectant receiving cavity, and the air inlet check valve;

FIG. 11 is a pictorial view of the caregiver line assembly docked with the adapter assembly;

FIG. 12 is an illustration of the caregiver line assembly shown separated from the adapter assembly;

FIG. 13 is a vertical cross-sectional view of FIG. 11;

FIG. 14 is an exploded view of the nursing machine adapter assembly;

FIG. 15 is another exploded view of the nursing machine adaptor assembly (with the housing removed);

FIG. 16 is a view of the port section of the host machine in a disconnected state from the manifold assembly;

fig. 17 is a diagram of the cover plate, the rear wall and the first secondary coil of the adapting assembly, the cover plate of the front housing, the primary coil and the front side wall in a separated state.

[ detailed description ] embodiments

The technical solutions of the embodiments of the present invention are explained and explained below with reference to the drawings of the embodiments of the present invention, but the embodiments described below are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the embodiment, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 17, the nursing machine includes an adapter assembly 1, a wearing assembly 2, a main machine 3 and a pipeline assembly 4. The pipeline component 4 comprises a sewage discharge pipeline 40 for communicating between the host machine 3 and the wearing component 2 and conveying excrement, a first water inlet pipeline 41 for communicating between the host machine 3 and the wearing component 2 and supplying water to the wearing component 2, a front seat body 42 and a second water inlet pipeline 43 for communicating between the host machine 3 and the wearing component 2 and supplying water to the wearing component 2, and the pipeline component 4 can be alternatively butted with the wearing component 2 or the adapter component 1. After the pipeline component 4 is butted with the wearing component 2, the wearing component 2 is worn on the lower part of the human body and is used for treating human excrement. The adapter assembly 1 is provided with a disinfectant containing cavity 10, the sewage draining pipeline 40 and the first water inlet pipeline 41 can be communicated through the adapter assembly 1 after the pipeline assembly 4 is in butt joint with the adapter assembly 1, and water flow of the first water inlet pipeline 41 conveyed to the sewage draining pipeline 40 through the adapter assembly 1 after the pipeline assembly 4 is in butt joint with the adapter assembly 1 passes through the disinfectant containing cavity 10, so that the disinfection of the sewage draining pipeline 40 can be more convenient, when the disinfection is needed, the wearing assembly 2 is replaced by the adapter assembly 1 to be in butt joint with the pipeline assembly 4, along with the water flow of the disinfectant containing cavity 10, the disinfectant put in the disinfectant containing cavity 10 is gradually merged into the water flow and flows into the sewage draining pipeline 40 along with the water flow, thereby the soaking disinfection of the sewage draining pipeline 40 can be realized, and the adding of the disinfectant is facilitated due to the arrangement of the disinfectant containing cavity 10, a proper disinfectant can be put into the disinfectant containing chamber 10 at a proper time, thereby facilitating the sterilization of the sewage draining line 40.

The disinfectant containing cavity 10 includes a main body 110, a base 111, a partition 112 located in the main body 110, a first containing chamber 120, a second containing chamber 121, and a cover 13, wherein the first containing chamber 120 and the second containing chamber 121 are formed by the main body 110, the base 111, and the partition 112. The adapter module 1 further includes a housing, and the first pipe section 14, the housing includes a top wall 150, a rear wall 151, a bottom wall 152, a first secondary coil 160 (corresponding to the spiral coil in fig. 5), a first circuit board (not shown) electrically connected to the first secondary coil 160, and a cover 17. The disinfectant containing cavity 10 and the first pipe section 14 are respectively contained in the shell, and the disinfectant containing cavity 10 is adjacent to the first pipe section 14. The sterilant receiving chamber 10 is secured to the first tube section 14. The first pipe section 14 is made of a rigid plastic pipe. The rear wall 151 is provided with a first hook 1510 suspended therefrom, a first annular groove 1511 accommodating the first secondary coil 160, and a cover 17 covering the first annular groove 1511 from the front side of the first secondary coil 160.

The wearing unit 2 includes a stool groove 20, a urine cover 21 opposed to the stool groove 20, a cushion 22 attached to the edge of the stool groove 20 and the edge of the urine cover 21, a second secondary coil 23 (corresponding to the spiral coil shown in fig. 2), a first nozzle 24, a second nozzle 25, a second circuit board (not shown), a rear wall 26, and a cover plate 27. The urinal trough 20 is used for containing excrement. The second circuit board is electrically connected to the second secondary coil 23, the second circuit board is located inside the wearable assembly 2, and the first circuit board and the second circuit board are respectively provided with a wireless power supply secondary conversion circuit (refer to fig. 4 for example). The rear wall 26 is provided with a second hook 260 that overhangs, a second annular groove 261 that receives the second secondary coil 23, and the cover plate 27 covers the second annular groove 261 from the front side of the second secondary coil 23.

The main body 3 is provided with a housing 30, wheels 31, a negative pressure source 32, a water pump (not shown), a foul water tank 33, a clean water tank 34, a port assembly 35, and a shunt valve 36. The negative pressure source 32 includes a motor (not shown) and an impeller (not shown) driven by the motor to rotate, and the negative pressure source 32 provides a power for suctioning excrement. The clean water tank 34 is used as a water source, and the main body 3 can be connected to a tap, so that the clean water tank 34 is not required or a small clean water tank 34 is not required.

The front base 42 has a third hook 420, a front sidewall 421 located at the front side of the front base 42, a pressing portion 422 for driving the third hook 420, a primary coil 423 (corresponding to the spiral coil shown in fig. 1), a cover plate 424, and a third circuit board (not shown) electrically connected to the primary coil 423. The host 3 supplies power to the third circuit via the power line 37. The third circuit board is provided with a wireless power supply primary conversion circuit (refer to the example of fig. 3), and the wireless power supply primary conversion circuit is electrically connected with the primary coil 423 and used for supplying high-frequency alternating current to the primary coil 423 (corresponding to the coil W1 in fig. 3); the input of the wireless power supply primary conversion circuit is 12V direct current, and the output of the wireless power supply primary conversion circuit is high-frequency alternating current of about 70000 Hz and is supplied to the primary coil 423. The second secondary coil 23 and the first secondary coil 160 are respectively coupled with the primary coil 423 to obtain electric energy; the input of the wireless power supply secondary conversion circuit of the first circuit board is high-frequency alternating current of about 70000 Hz, which is obtained by the first secondary coil 160 through the coupling of the primary coil 423, and 12V direct current is output. The input of the wireless power supply secondary conversion circuit of the second circuit board is high-frequency alternating current of about 70000 Hz, which is coupled from the primary coil 423 by the second secondary coil 23, and 12V direct current is output. The circuit in the dashed box of fig. 4 is a wireless power supply secondary conversion circuit, and the coil W2 shown in the figure corresponds to the first secondary coil 160 and the second secondary coil 23. The first circuit board is also provided with a CPU, a wireless communication module (not shown, model number is DL-bk24K6) and a first antenna (corresponding to the antenna in figure 5); the second circuit board is also provided with a CPU (not shown), a wireless communication module (not shown, model number is DL-bk24K6) and a third antenna (corresponding to the antenna in figure 2); the third circuit board is further provided with a CPU (not shown), a wireless communication module (not shown, model number DL-bk24K6), and a second antenna (corresponding to the antenna in fig. 1).

The adapter assembly 1 is further provided with an adapter pipeline, the disinfectant containing cavity 10 is connected into the adapter pipeline, after the pipeline assembly 4 is in butt joint with the adapter assembly 1, the sewage discharge pipeline 40 is in fluid communication with the first water inlet pipeline 41 through the adapter pipeline, and water conveyed to the sewage discharge pipeline 40 by the first water inlet pipeline 41 through the adapter pipeline flows through the disinfectant containing cavity 10. The switching pipeline is provided with a first water inlet check valve 50, a first water outlet check valve 51, a second water inlet check valve 52 and a second water outlet check valve 53, the first water inlet check valve 50 is positioned at the upstream of the disinfectant containing cavity 10, and the first water inlet check valve 50 inhibits the disinfectant in the disinfectant containing cavity 10 from flowing back to the first water inlet pipeline 41. The first water outlet one-way valve 51 is located at the downstream of the disinfectant containing cavity 10, and at least a part of the water delivered by the first water inlet pipeline 41 to the sewage draining pipeline 40 through the switching pipeline sequentially flows through the first water inlet one-way valve 50, the disinfectant containing cavity 10 and the first water outlet one-way valve 51. When there is no water flow, the first water inlet check valve 50 and the first water outlet check valve 51 block the corresponding disinfectant or disinfectant solution in the disinfectant containing cavity from flowing back and leaking away, thereby inhibiting leakage. The first water inlet check valve 50 is correspondingly positioned at the upstream of the first accommodating chamber 120 and used for supplying water to the first accommodating chamber 120 in a one-way mode, and the second water inlet check valve 52 is correspondingly positioned at the upstream of the second accommodating chamber 121 and used for supplying water to the second accommodating chamber 121 in a one-way mode, so that the first accommodating chamber 120 and the second accommodating chamber 121 can be supplied with water independently relative to each other. The first water outlet check valve 51 is correspondingly positioned at the downstream of the first accommodating chamber 120 and used for one-way water outlet of the first accommodating chamber 120, and the second water outlet check valve 53 is correspondingly positioned at the downstream of the second accommodating chamber 121 and used for one-way water outlet of the second accommodating chamber 121.

The body portion 110 is provided with a first water inlet port portion 113 fluidly communicating between the first water inlet check valve 50 and the first accommodation chamber 120, and a second water inlet port portion 114 fluidly communicating between the second water inlet check valve 52 and the second accommodation chamber 121. The first water inlet port 113 and the second water inlet port 114 are arranged in parallel and are cylindrical. At least a part of the water delivered from the first water inlet pipeline 41 to the sewage pipeline 40 flows through the first water inlet check valve 50, the first accommodating chamber 120 and the first water outlet check valve 51 in sequence, and at least a part of the water delivered from the second water inlet pipeline 43 to the sewage pipeline 40 flows through the second water inlet check valve 52, the second accommodating chamber 121 and the second water outlet check valve 53 in sequence. After the pipeline assembly 4 is connected with the wearing assembly 2, the first water inlet pipeline 41 can supply water to the first nozzle 24 correspondingly, and the second water inlet pipeline 43 can supply water to the second nozzle 25 correspondingly. The first nozzle 24 is located at the front side of the excrement trough 20 for flushing human excrement backwards, but can be designed as follows: the first shower head 24 is provided at the rear side of the excrement tank 20 for washing the lower body forward. The second nozzle 25 is located at the rear side of the excrement trough 20 for washing the lower body forwards, but it can be designed as follows: the second nozzle 25 is located at the front side of the excrement tank 20 to wash and discharge human waste backward.

The transfer line includes a first connection line supplying water to the first receiving chamber 120, and a second connection line supplying water to the second receiving chamber 121. The first connection pipe supplies water unidirectionally to the first accommodation chamber 120, and the first water inflow check valve 50 belongs to a portion of the first connection pipe; the second connection pipe supplies water to the second receiving chamber 121 in a single direction, and the second water inlet check valve 52 is a part of the second connection pipe. The first connecting pipeline is further provided with a first adapter 540, a first hose 541 and a second hose 542, the first water inlet check valve 50 is connected with the first water inlet port 113 through the first hose 541, the first water inlet check valve 50 is connected with the first adapter 540 through the second hose 542, the second connecting pipeline is further provided with a second adapter 550, a third hose 551 and a fourth hose 552, the second water inlet check valve 52 is connected with the second water inlet port 114 through the third hose 551, and the second water inlet check valve 52 is connected with the second adapter 550 through the fourth hose 552. The water pump may supply water to the sewage pipe 40 through the first water inlet pipe 41, the first connection pipe, the first receiving chamber 120, and the first pipe section 14 in sequence, and the water pump may supply water to the sewage pipe 40 through the second water inlet pipe 43, the second connection pipe, the second receiving chamber 121, and the first pipe section 14 in sequence.

The top wall 150 is opposite to the bottom wall 152, the first pipe section 14 is located between the top wall 150 and the bottom wall 152, and the disinfectant containing cavity 10 is located between the first pipe section 14 and the top wall 150. The housing further includes a left sidewall 153 and a right sidewall 154, the left sidewall 153 and the right sidewall 154 are substantially symmetrical, the left sidewall 153 and the right sidewall 154 are respectively provided with an extension plate 155, the extension plate 155 of the left sidewall 153 and the extension plate 155 of the right sidewall 154 clamp the disinfectant receiving chamber 10 left and right, the front side of each extension plate 155 is respectively provided with an excess portion 156, and the excess portion 156 is used for stopping at the front side of the disinfectant receiving chamber 10.

The adapter assembly 1 is provided with an air inlet one-way valve 18, the air inlet one-way valve 18 is arranged in the first pipe section 14, after the pipeline assembly 4 is in butt joint with the adapter assembly 1, air can be supplemented into the first pipe section 14 through the air inlet one-way valve 18 under the suction of the host 3 on the sewage discharge pipeline 40, so that the host 3 can normally suck; the first pipe section 14 is provided with a first port 140, a second port 141, and a side frame port 142, wherein the first port 140 and the second port 141 are located at opposite ends of the first pipe section 14, the first port 140 is in butt joint with the sewage drain line 40, and the air inlet check valve 18 is located between the second port 141 and the side frame port 142. Air can be supplied to the first pipe section 14 through the air inlet one-way valve 18 under the suction of the host machine 3 to the sewage draining pipeline 40; the inlet check valve 18 is located between the first outlet check valve 51 and the second port 141. The side frame opening 142 is a rectangular frame opening. The disinfectant receiving cavity 10 and the first pipe section 14 form a T shape.

The disinfectant containing cavity 10 is arranged in the side frame opening 142; one end of the main body part 110 is nested with the side frame opening 142, the base 111 is at least partially accommodated in the side frame opening 142, the base 111 is clamped and fixed by the main body part 110 and the side frame opening 142, the base 111 is provided with a flexible sealing sleeve 115, and a part of the base 111 is wrapped by the flexible sealing sleeve 115 and clamped between the main body part 110 and the side frame opening 142 together with the flexible sealing sleeve 115. The inner side of the side frame opening 142 is provided with a support rib 144 for supporting the base 111. The main body 110 is cylindrical, the partition 112 is located inside the main body 110 to separate the inner space of the main body 110, and a first end of the partition 112 abuts against the flexible sealing sleeve 115, so as to seal between the lower end of the partition 112 and the base 111. The main body 110 is provided with a locking screw portion 116, the periphery of the side frame port 142 is provided with a locking screw column 143, the locking screw portion 116 and the locking screw column 143 are locked together by screws to lock the main body 110 at the first pipe section 14, and the flexible sealing sleeve 115 seals the gap between the base 111 and the main body 110, the partition plate 112 and the side frame port 142 to prevent water leakage. The first outlet check valve 51 is mounted in the base 111, the first outlet check valve 51 is at least partially disposed in the side frame opening 142, and the base 111 is at least partially received in the side frame opening 142. The base 111 has a first outlet port 117 and a second outlet port 118, the first outlet check valve 51 is installed in the first outlet port 117, the second outlet check valve 53 is installed in the second outlet port 118, the first outlet port 117 and the second outlet port 118 are arranged in parallel and at least partially accommodated in the side frame 142, and the first outlet port 117 and the second outlet port 118 are cylindrical.

The first receiving chamber 120 is provided with a first dispensing port 122, the lid 13 can cover the first dispensing port 122, and the sterilizing material can be dispensed from the first dispensing port 122 into the first receiving chamber 120 by opening the lid 13. The lid 13 may seal the first dispensing port 122. The second receiving chamber 121 is provided with a second dispensing port 123, the lid 13 can cover both the first dispensing port 122 and the second dispensing port 123, the disinfectant can be dispensed from the second dispensing port 123 into the second receiving chamber 121 by opening the lid 13, and the lid 13 can seal the second dispensing port 123. The lid 13 is mainly made of a flexible rubber material to provide a good seal between the first dispensing port 122 and the second dispensing port 123. In this embodiment, the first and second delivery ports 122 and 123 share one cover 13, and it is also possible to configure one cover 13 for each of the first and second delivery ports 122 and 123. The opening area of the first throwing port 122 is larger than that of the second throwing port 123, so that the first throwing port 122 is larger, a disinfectant (such as citric acid particles) with relatively high throwing difficulty can be preferably thrown from the first throwing port 122, and a disinfectant (such as dibromohydantoin tablets) with relatively low throwing difficulty can be preferably thrown from the second throwing port 123, so that smooth throwing of the disinfectant is promoted; the dibromohydantoin tablets are tablets, can be put in one tablet, and have small putting difficulty, so that the dibromohydantoin tablets can be selected from the following components: the dibromohydantoin flakes are delivered from the second delivery port 123 and the citric acid particles are delivered from the first delivery port 122.

The cover 13 exposes outside the shell, and the shell is equipped with the through opening 157 adjacent with first input port 122, and the cover 13 covers through opening 157, and through opening 157 is the rectangle, and through opening 157 opens in roof 150, and first input port 122, second input port 123 are towards the top respectively, and first input port 122, second input port 123 expose in through opening 157 after the cover 13, and overall arrangement like this conveniently puts in the poison. The cover 13 has a cover opening 130, a latching portion 131, and a recess 132, the cover opening 130 and the latching portion 131 are located on opposite sides of the opening 157, the housing also has a latching hole 158, and the latching portion 131 is latched in the latching hole 158 to hold the cover 13 on the housing. When the cover 13 is to be opened, the lid-opening portion 130 is pulled up by hand, and then the lid 13 is lifted up by pinching the lid-opening portion 130, thereby opening the cover 13; since the clasping portion 131 clasps on the clasping hole 158, the opened cover 13 is still attached to the housing without completely separating from the housing, and thus is prevented from being lost. A snap-in hole 158 opens in the top wall 150. The buckling part 131 and the cover-uncovering part 130 are made of flexible rubber, the cover-uncovering part 130 is in a sheet shape, and the cover-uncovering part 130 is positioned outside the shell and clings to the outer surface of the shell. The partition plate 112 is separated between the first dispensing port 122 and the second dispensing port 123, and after the cover 13 covers the first dispensing port 122 and the second dispensing port 123, the second end of the partition plate 112 is pressed against the cover 13 and sealed with the cover 13. The second end of the partition 112 is inserted into the groove 132 of the cover 13, so that a good sealing effect can be obtained, the groove 132 is elongated, and a portion of the cover 13 is inserted into the first and second dispensing ports 122 and 123 and tightly seals the first and second dispensing ports 122 and 123. In this embodiment, the first end of the baffle 112 is the lower end thereof, and the second end of the baffle 112 is the upper end thereof.

The adapter assembly 1 is provided with a handle portion 6 which can be used to move the adapter assembly 1. The handle part 6 is provided with a plurality of ventilation openings 60, after the pipeline assembly 4 is butted with the adapter assembly 1, air outside the adapter assembly 1 under the suction of the main machine 3 can be supplemented into the downstream of the disinfectant containing cavity 10 through the ventilation openings 60 and the air inlet one-way valve 18. The vent 60 may be a small hole. The ventilation opening 60 is opened at the lower end of the handle portion 6. The handle portion 6 is a part of the housing and is provided at the front side of the housing, the first port 140 constitutes a rear port of the first pipe section 14, the second port 141 constitutes a front port of the first pipe section 14 and is located inside the housing, and the intake check valve 18 is mounted to the second port 141. The housing is provided with a mounting frame 159, the first port 140 is mounted to the mounting frame 159, and the second port 141 is located behind the plurality of ventilation openings 60 and is spaced from and opposite to the plurality of ventilation openings 60. The first port 140 is sleeved with a flexible gasket 145, the flexible gasket 145 seals a gap between the mounting bezel 159 and the first port 140 to prevent air from entering the first chamber from the gap between the mounting bezel 159 and the first port 140, and the flexible gasket 145 has a circular ring shape.

The port assembly 35 is provided with a waste water port 350 for interfacing with the waste line 40, a first water supply port 351 for interfacing with the first water inlet line 41, and a second water supply port 352 for interfacing with the second water inlet line 43. The port assembly 35 is located at the upper part of the front side of the host computer 3, so that the port assembly 35 is located at a position offset forward between the front and rear sides of the host computer 3 in the front-rear direction, and the port assembly 35 is located at a position relatively closer to the top between the top and the bottom of the host computer 3 in the height direction. The first tube section 14 extends through the rear wall 151; rear wall 26 is substantially the same injection molded part as rear wall 151 and may be used interchangeably; the first secondary winding 160 abuts the rear wall 151 and the second secondary winding 23 abuts the rear wall 26. The cover 17 shields the first secondary coil 160 from the front side of the first secondary coil 160.

The front seat 42 is located at the front end of the pipeline assembly 4, the sewage draining pipeline 40 and the first water inlet pipeline 41 are respectively and partially located in the front seat 42, one of the front seats 42 is butted to the rear side of the wearing assembly 2 or the rear side of the adapter assembly 1, and the cover plate 424 shields the primary coil 423 from the front side of the primary coil 423. The pressing portion 422 and the third hook 420 are integrally formed. After the adapter module 1 is butted with the front seat body 42, the rear wall 151 is attached to the front side wall 421 backwards, the first hook 1510 passes through the front side wall 421 and is hooked with the third hook 420, so as to lock the adapter module 1 and the front seat body 42 together, the pressing part 422 is pushed into the front seat body 42 to drive the third hook 420 to move, so that the third hook 420 is separated from the first hook 1510, and the adapter module 1 can be detached from the front seat body 42; after the wearing component 2 is abutted with the front seat 42, the second hook 260 and the third hook 420 are hooked together to lock the wearing component 2 and the front seat 42 together, and the pressing part 422 is pushed into the front seat 42 to drive the third hook 420 and the second hook 260 to be disengaged, so that the wearing component 2 and the front seat 42 can be detached.

The first water inlet line 41 is provided with a third port 410 at one end thereof, and a fourth port 411 at the other end thereof, the fourth port 411 being in butt joint with the first water supply port 351. The sewage pipeline 40 is provided with a fifth port 400 at one end thereof and a sixth port 401 at the other end thereof, and the sixth port 401 is butted with the sewage port 350; the second water inlet line 43 is provided with a seventh port 430 at the front end thereof, and an eighth port 431 at the rear end thereof, the eighth port 431 being in butt joint with the second water supply port 352; the third port 410, the fifth port 400 and the seventh port 430 are disposed on the front side wall 421, the third port 410 constitutes a front port of the first water inlet pipe 41, and the fifth port 400 constitutes a front port of the sewage drain pipe 40; the fourth port 411 constitutes a rear port of the first water inlet line 41, and the sixth port 401 constitutes a rear port of the sewage drain line 40; when the line assembly 4 is mated with the adapter assembly 1, the first port 140 is mated with the fifth port 400, the first adapter 540 is mated with the third port 410, and the second adapter 550 is mated with the seventh port 430.

The drain line 40 may be soaked for disinfection according to the following method:

firstly, the butt joint of the wearing component 2 and the pipeline component 4 is released;

step two, putting a first disinfectant into the disinfectant containing cavity 10, and butting the switching assembly 1 with the pipeline assembly 4 so that the pipeline assembly 4 is connected between the switching assembly 1 and the host 3;

step three, the host 3 conveys water to the sewage discharge pipeline 40 through the first water inlet pipeline 41 and the adapter assembly 1, and the conveyed water flows through the disinfectant containing cavity 10 to dissolve the first disinfectant in the disinfectant containing cavity 10;

step four, the main machine 3 stops supplying water to the sewage pipeline 40;

and step five, after the first soaking time of soaking and disinfecting is carried out on the interior of the sewage pipeline 40 by the water dissolved with the first disinfectant, the host 3 pumps the water dissolved with the first disinfectant in the sewage pipeline 40 away. In the fifth step, the host 3 pumps the water dissolved with the first disinfectant in the sewage pipeline 40 to the sewage tank 33.

In the second step, the first disinfectant is put into the first containing chamber 120; the water delivered in step three is the first sterilizing agent that flows through the first receiving chamber 120 to be dissolved into the first receiving chamber 120.

The sterilization method further comprises:

step six, the host 3 delivers water to the sewage pipeline 40 through the second water inlet pipeline 43 and the adapter assembly 1, and the delivered water flows through the second accommodating chamber 121 to dissolve the second disinfectant in the second accommodating chamber 121;

and seventhly, after the inside of the sewage pipeline 40 is soaked and disinfected for the second soaking time by the water dissolved with the second disinfectant, the host 3 pumps the water containing the second disinfectant in the sewage pipeline 40 away. In the seventh step, the host 3 pumps the water dissolved with the second disinfectant in the sewage pipeline 40 to the sewage tank 33.

The third step is executed for a first preset time, and the third step can be executed for the first preset time to enable the interior of the sewage draining pipeline 40 to be filled with the water containing the first disinfectant, wherein on the premise that the sewage draining pipeline 40 is full of the water containing the first disinfectant, the water containing the first disinfectant overflows from the sewage draining pipeline 40, and the water containing the first disinfectant overflowing from the sewage draining pipeline 40 flows into the sewage tank 33. The time period for performing the sixth step is a second preset time period, and the second preset time period for performing the third step can make the interior of the sewage draining pipeline 40 filled with the water containing the second disinfectant. After the sixth step, the second disinfectant is dissolved in the sewage pipeline 40, and a small amount of water overflows from the sewage pipeline 40, and the water overflowing from the sewage pipeline 40 and containing the second disinfectant flows into the sewage tank 33.

The first preset time and the second preset time are respectively 10 seconds to 70 seconds, preferably 40 seconds; since the third step and the sixth step are both processes of supplying water to the sewage draining pipeline 40, the execution time is generally the same; the first preset time and the second preset time are determined to be a proper value according to the unit time flow rate of the water pump and the volume of the sewage drain line 40. The preset soaking time is obtained according to the time generally required by the industry for soaking and disinfection, and the first soaking time and the second soaking time are respectively 20 minutes to 50 minutes, and preferably 30 minutes. The sewage discharge pipeline 40 is disinfected in an immersion manner twice through different first disinfectant and second disinfectant, so that a more targeted and more thorough cleaning and sterilizing effect can be achieved; dirt attached to the inner wall surface of the sewage pipeline 40 is difficult to clean, the first disinfectant is preferably a disinfectant with strong foaming performance, such as citric acid (citric acid is also called citric acid and is divided into citric acid monohydrate and citric acid anhydrous, and at room temperature, the citric acid is colorless translucent crystals or white particles or white crystalline powder), the citric acid is dissolved into water to form a solution, the citric acid solution is used for soaking the inside of the sewage pipeline 40 for a first soaking time, so that the dirt attached to the inner wall surface of the sewage pipeline 40 can be loosened and fallen off, and the amount of the citric acid is 6 g to be matched with 1 liter of water. The second disinfectant is preferably a disinfectant with strong bactericidal performance, such as a disinfectant containing bromine, and in the embodiment, the second disinfectant is dibromohydantoin tablets, and the dosage of the dibromohydantoin tablets is 4 tablets for 1 liter of water.

The second step further comprises: the second sterilizing agent is put into the second receiving chamber 121 through the second dispensing port 123, and the cover 13 covers the first dispensing port 122 and the second dispensing port 123 together after the first sterilizing agent is put into the first receiving chamber 120 and the second sterilizing agent is put into the second receiving chamber 121. In the third step, the water delivered to the sewage pipeline 40 by the first water inlet pipeline 41 sequentially flows through the first water inlet check valve 50, the first accommodating chamber 120, the first water outlet check valve 51 and the first port 140, and in the sixth step, the water delivered to the sewage pipeline 40 by the second water inlet pipeline 43 sequentially flows through the second water inlet check valve 52, the second accommodating chamber 121, the second water outlet check valve 53 and the first port 140. The water diversion valve 36 is provided with a water inlet 360 capable of being in fluid communication with the water pump, a first water outlet 361 capable of being in fluid communication with the first water inlet pipeline 41, and a second water outlet 362 capable of being in fluid communication with the second water inlet pipeline 43, the first water outlet 361 and the second water outlet 362 are alternatively opened, the water diversion valve 36 switches the water supply of the first water inlet pipeline 41 and the water supply of the second water inlet pipeline 43, the water pump drives water to sequentially flow through the water inlet 360, the first water outlet 361, the first water inlet pipeline 41 and the first accommodating chamber 120 in step three, and the water pump drives water to sequentially flow through the water inlet 360, the second water outlet 362, the second water inlet pipeline 43 and the second accommodating chamber 121 in step six. The sewage discharge pipeline 40 can be freely laid on the ground in the soaking and disinfection process of the sewage discharge pipeline 40, and the disinfection solution in the sewage discharge pipeline 40 cannot flow away from one end (the front end of the sewage discharge pipeline 40) where the switching component 1 is positioned because the switching component 1 is connected to the pipeline component 4 in a butt joint mode; if the adaptor assembly 1 is detached from the pipe assembly 4 before the main unit 3 draws away the water containing the disinfectant in the sewage line 40, the disinfectant in the sewage line 40 flows away from the front end of the sewage line 40.

While the present invention has been described with reference to the particular illustrative embodiments, it will be understood by those skilled in the art that the present invention is not limited thereto, and may be embodied in many different forms without departing from the spirit and scope of the present invention as set forth in the following claims. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (38)

1. The utility model provides a nursing machine, includes the host computer, wearable in the human wearing subassembly, can feed through the pipeline subassembly between host computer and wearing subassembly, wears the subassembly and is equipped with the just groove that supplies to hold the excrement, the pipeline subassembly including can feed through in the host computer and wear carry the blowdown pipeline that the excrement was used between the subassembly, can feed through in the host computer and wear and supply water for the first water intake pipe who wears the subassembly between the subassembly, its characterized in that: the nursing machine further comprises a switching assembly, the pipeline assembly can be selectively butted with the wearing assembly or the switching assembly, the switching assembly is provided with a disinfectant containing cavity, and water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the switching assembly after the pipeline assembly is butted with the switching assembly flows through the disinfectant containing cavity.

2. The machine according to claim 1, characterized in that: the host computer is equipped with the port subassembly, and the port subassembly is equipped with and supplies the sewage port that supplies the blowdown pipeline butt joint, supplies the first water supply port that supplies the butt joint of first intake pipe, and the port subassembly is located the front side upper portion of host computer.

3. The machine according to claim 1, characterized in that: the adapter assembly comprises a shell and a first pipe section, and one end of the first pipe section is butted with the sewage discharge pipeline after the pipeline assembly is butted with the adapter assembly; the disinfectant containing cavity and the first pipe section are respectively contained in the shell.

4. The machine according to claim 3, characterized in that: the first water outlet one-way valve is positioned at the lower stream of the disinfectant containing cavity and used for one-way fluid communication between the disinfectant containing cavity and the first pipe section, the disinfectant containing cavity is provided with a first water outlet port part, and the first water outlet one-way valve is installed in the first water outlet port part.

5. The machine according to claim 1, characterized in that: the switching assembly comprises a first pipe section, water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the switching assembly sequentially flows through the disinfectant containing cavity and the first pipe section, and the disinfectant containing cavity is fixed on the first pipe section.

6. The machine according to claim 5, characterized in that: the adapter assembly is provided with an air inlet one-way valve, the air inlet one-way valve is arranged in the first pipe section, and after the pipeline assembly is in butt joint with the adapter assembly, air can be fed into the first pipe section through the air inlet one-way valve under the suction of the host machine on the sewage discharge pipeline; the first pipe section is provided with a side frame opening, a first port and a second port, the first port and the second port are located at two opposite ends of the first pipe section, the first port is in butt joint with the sewage draining pipeline, and the air inlet check valve is located between the second port and the side frame opening.

7. The machine according to claim 5, characterized in that: the adapter assembly is provided with an air inlet one-way valve and a first water outlet one-way valve, the air inlet one-way valve is arranged in the first pipe section, and after the pipeline assembly is in butt joint with the adapter assembly, air can be fed into the first pipe section through the air inlet one-way valve under the suction of the host machine on the sewage discharge pipeline; the first pipe section is provided with a first port and a second port, the first port and the second port are located at two opposite ends of the first pipe section, the first port is in butt joint with a sewage discharge pipeline, the first water outlet one-way valve is located at the downstream of the disinfectant containing cavity and located at the upstream of the first port, and the air inlet one-way valve is located between the first water outlet one-way valve and the second port.

8. The machine according to claim 1, characterized in that: the switching assembly comprises a first pipe section, water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the switching assembly sequentially flows through the disinfectant containing cavity and the first pipe section, the first pipe section is provided with a side frame opening, and the disinfectant containing cavity is installed to the side frame opening.

9. The machine according to claim 8, characterized in that: the disinfectant containing cavity comprises a main body part and a base, wherein one end of the main body part is nested with the side frame opening, and at least part of the base is contained in the side frame opening.

10. The machine according to claim 8, characterized in that: the disinfectant containing cavity comprises a main body part and a base, and the base is clamped and fixed by the main body part and the side frame opening.

11. The machine according to claim 10, characterized in that: the base is provided with a flexible sealing sleeve, and one part of the base is coated with the flexible sealing sleeve and is connected with the flexible sealing sleeve, and the flexible sealing sleeve is clamped between the main body part and the side frame opening.

12. The machine according to claim 11, characterized in that: the disinfectant containing cavity is provided with a partition board, the main body part is cylindrical, the partition board is positioned in the main body part to separate the inner space of the main body part, and the lower end of the partition board is abutted to the flexible sealing sleeve.

13. The machine according to claim 5, characterized in that: the adapter component is further provided with a first water outlet one-way valve and a second water outlet one-way valve, the disinfectant containing cavity is provided with a first containing cavity and a second containing cavity, the first water outlet one-way valve is correspondingly positioned at the downstream of the first containing cavity and used for one-way fluid communication between the first containing cavity and the first pipe section, the second water outlet one-way valve is correspondingly positioned at the downstream of the second containing cavity and used for one-way fluid communication between the second containing cavity and the first pipe section, the base is provided with a first water outlet port part and a second water outlet port part, the first water outlet one-way valve is installed in the first water outlet port part, the second water outlet one-way valve is installed in the second water outlet port part, and the first water outlet port part and the second water outlet port part are arranged in parallel and are respectively contained in the side frame port.

14. The machine according to claim 1, characterized in that: the adapter assembly is further provided with a first water outlet one-way valve, the first water outlet one-way valve is located at the downstream of the disinfectant containing cavity and used for one-way fluid communication between the disinfectant containing cavity and the first pipe section, the disinfectant containing cavity comprises a base, and the first water outlet one-way valve is installed in the base.

15. The machine according to claim 1, characterized in that: the disinfectant containing cavity is provided with a first containing cavity and a cover, the first containing cavity is provided with a first throwing port, the cover can cover the first throwing port, and the disinfectant can be put into the first containing cavity from the first throwing port by opening the cover.

16. The machine of claim 15, wherein: the disinfectant containing cavity is further provided with a second containing chamber, the second containing chamber is provided with a second throwing port, and the cover can cover the first throwing port and the second throwing port together.

17. The machine of claim 15, wherein: the disinfectant containing cavity is further provided with a second containing cavity, the second containing cavity is provided with a second throwing port, and the opening area of the first throwing port is larger than that of the second throwing port.

18. The machine of claim 15, wherein: the adapter assembly still is equipped with the shell, and the disinfectant holds the cavity and is located the shell, and the lid exposes outside the shell, and the shell is equipped with the opening adjacent with first input port, and the lid covers the opening, opens first input port after the lid and exposes in the opening.

19. The machine of claim 18, wherein: the shell comprises a top wall and a bottom wall, the top wall is opposite to the bottom wall from top to bottom, the opening is formed in the top wall, and the first throwing port faces the upper side.

20. The machine of claim 18, wherein: the cover is provided with a cover opening part and a buckling part, the cover opening part and the buckling part are positioned at two opposite sides of the through hole, the shell is also provided with a buckling hole, and the buckling part is buckled in the buckling hole to keep the cover on the shell; the cover uncovering part is made of flexible rubber and is in a sheet shape, and the cover uncovering part is positioned outside the shell and clings to the outer surface of the shell.

21. The machine according to claim 1, characterized in that: the disinfectant containing cavity is provided with a first containing chamber, a second containing chamber and a partition board for separating the first containing chamber from the second containing chamber.

22. The machine according to claim 21, characterized in that: the disinfectant containing cavity is provided with a cover, the first containing cavity is provided with a first throwing port, the second containing cavity is provided with a second throwing port, the partition plate is separated between the first throwing port and the second throwing port, the cover covers the first throwing port and the second throwing port, the partition plate is provided with a first end and a second end which are opposite, and the first end of the partition plate is abutted to the cover.

23. The machine of claim 22, wherein: the cover is provided with a groove, and the first end of the partition plate is embedded into the groove of the cover.

24. The machine according to claim 1, characterized in that: the adapter assembly is further provided with an adapter pipeline, the disinfectant containing cavity is connected into the adapter pipeline, after the pipeline assembly is in butt joint with the adapter assembly, the sewage discharge pipeline is in fluid communication with the first water inlet pipeline through the adapter pipeline, and water conveyed to the sewage discharge pipeline through the adapter pipeline by the first water inlet pipeline flows through the disinfectant containing cavity.

25. The machine of claim 24, wherein: the switching pipeline is provided with a first water inlet one-way valve, the first water inlet one-way valve is positioned at the upstream of the disinfectant containing cavity, and at least one part of water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the switching pipeline sequentially flows through the first water inlet one-way valve and the disinfectant containing cavity.

26. The machine of claim 25, wherein: the switching pipeline is also provided with a first water outlet one-way valve, the first water outlet one-way valve is positioned at the downstream of the disinfectant containing cavity, and at least one part of water conveyed to the sewage discharge pipeline by the first water inlet pipeline through the switching pipeline sequentially flows through the first water inlet one-way valve, the disinfectant containing cavity and the first water outlet one-way valve.

27. The machine of claim 25, wherein: the disinfectant containing cavity is provided with a first containing cavity and a second containing cavity, the switching pipeline is further provided with a second water inlet one-way valve, the first water inlet one-way valve is correspondingly located at the upstream of the first containing cavity and used for supplying water to the first containing cavity in a one-way mode, and the second water inlet one-way valve is correspondingly located at the upstream of the second containing cavity and used for supplying water to the second containing cavity in a one-way mode.

28. The machine of claim 27, wherein: the switching pipeline is further provided with a first water outlet check valve and a second water outlet check valve, the first water outlet check valve is correspondingly located at the downstream of the first accommodating cavity and used for one-way water outlet of the first accommodating cavity, and the second water outlet check valve is correspondingly located at the downstream of the second accommodating cavity and used for one-way water outlet of the second accommodating cavity.

29. The machine of claim 27, wherein: the pipeline assembly further comprises a second water inlet pipeline which can be communicated between the host and the wearing assembly and supplies water to the wearing assembly, after the pipeline assembly is in butt joint with the switching assembly, at least one part of water conveyed by the first water inlet pipeline through the sewage discharge pipeline sequentially flows through the first water inlet check valve and the first accommodating cavity, and at least one part of water conveyed by the second water inlet pipeline through the sewage discharge pipeline sequentially flows through the second water inlet check valve and the second accommodating cavity.

30. The machine of claim 29, wherein: the switching pipeline is also provided with a first water outlet one-way valve and a second water outlet one-way valve, at least one part of water conveyed by the first water inlet pipeline to the sewage discharge pipeline sequentially flows through the first water inlet one-way valve, the first accommodating cavity and the first water outlet one-way valve, and at least one part of water conveyed by the second water inlet pipeline to the sewage discharge pipeline sequentially flows through the second water inlet one-way valve, the second accommodating cavity and the second water outlet one-way valve.

31. The machine of claim 29, wherein: the wearing component is provided with a first spray head and a second spray head, and after the pipeline component is in butt joint with the wearing component, the first water inlet pipeline is used for supplying water to the first spray head and the second water inlet pipeline is used for supplying water to the second spray head; the first nozzle is positioned at the front side of the excrement tank for flushing human body excrement backwards or positioned at the rear side of the excrement tank for flushing the human body forwards, and the second nozzle is positioned at the front side of the excrement tank for flushing human body excrement backwards or positioned at the rear side of the excrement tank for flushing the human body forwards.

32. The machine of claim 24, wherein: the disinfectant containing cavity is provided with a first containing cavity and a second containing cavity, and the switching pipeline comprises a first connecting pipeline for supplying water to the first containing cavity and a second connecting pipeline for supplying water to the second containing cavity.

33. The machine of claim 32, wherein: the first connecting pipeline is provided with a first water inlet one-way valve to supply water to the first accommodating cavity in a one-way mode, and the second connecting pipeline is provided with a second water inlet one-way valve to supply water to the second accommodating cavity in a one-way mode.

34. The machine of claim 32, wherein: the pipeline assembly further comprises a second water inlet pipeline which can be communicated between the host and the wearing assembly and supplies water to the wearing assembly, the first water inlet pipeline flows through the first connecting pipeline and the first containing cavity in sequence for water conveyed by the sewage discharge pipeline, and the second water inlet pipeline flows through the second connecting pipeline and the second containing cavity in sequence for water conveyed by the sewage discharge pipeline.

35. The machine of claim 34, wherein: the host is provided with a water pump, the switching pipeline also comprises a first pipe section for butt joint with the sewage discharge pipeline, the water pump can supply water to the sewage discharge pipeline through a first water inlet pipeline, a first connecting pipeline, a first containing cavity and the first pipe section in sequence, and the water pump can supply water to the sewage discharge pipeline through a second water inlet pipeline, a second connecting pipeline, a second containing cavity and the first pipe section in sequence; the wearing assembly is provided with a first nozzle and a second nozzle, and after the pipeline assembly is in butt joint with the wearing assembly, the first water inlet pipeline corresponds and can supply water to the first nozzle and the second water inlet pipeline corresponds and can supply water to the second nozzle.

36. The machine according to claim 1, characterized in that: the adapter assembly is provided with a handle portion that can be used to move the adapter assembly.

37. The machine of claim 36, wherein: the switching subassembly is equipped with the check valve that admits air, and the check valve that admits air is located the inside of switching subassembly, and a plurality of vents have been seted up to handle portion, and pipeline subassembly and switching subassembly butt joint back, the air outside the switching subassembly can be via in proper order under the suction of host computer the low reaches of poison containing cavity are mended to the check valve that admits air a plurality of vents.

38. The machine of claim 37, wherein: the handle portion lower extreme that the vent was seted up in, switching subassembly still is equipped with shell, first pipeline section, and handle portion is the front side of shell and locates the shell, and first pipeline section is equipped with first port, second port, and first port constitutes the back port of first pipeline section and supplies and dock with the blowdown pipeline, and the second port constitutes the preceding port of first pipeline section and lies in the shell, and the check valve that admits air installs in the second port, the second port is located the rear side of a plurality of vents and with the interval is relative around a plurality of vents, and pipeline subassembly and switching subassembly dock the back, and the air can via in proper order under the suction of host computer a plurality of vents, the check valve that admits air mend into first pipeline section.

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