CN107642140B - Toilet adopting hot water to heat seat ring - Google Patents

Abstract

The invention discloses a toilet adopting a hot water heating seat ring, which comprises an integrally formed toilet barrel body, a barrel cover rotationally connected to the toilet barrel body, a seat ring rotating seat fixedly installed at the upper end of the toilet barrel body and hollow seat rings rotationally connected to the two ends of the seat ring rotating seat and used for a user to sit on; an ozone generator is arranged in the closestool barrel body; a water storage pipe is fixedly connected in the toilet body; the lower end of the water storage pipe is provided with an ultrasonic atomizer used for atomizing water in the water storage pipe. The hollow seat ring is heated by hot water, the potential safety hazard of electric heating to the toilet seat ring is avoided, the hollow seat ring is adjusted by water temperature, and the heat dissipation is relatively slow because the specific heat of water is large, so that the hollow seat ring is not required to be continuously heated.

Description

Toilet adopting hot water to heat seat ring

Technical Field

The invention belongs to the field of bathrooms, and particularly relates to a closestool adopting hot water to heat a seat ring.

Background

As the toilet bowl is an essential facility for families, with the improvement of living standard, the intelligent toilet bowl and the intelligent toilet bowl cover become new daily requirements of people, and cater to the future humanized bathroom development trend; no matter the intelligent closestool or the intelligent closestool cover, the heating closestool cover is standard, but the heating form is basically fixed to be heating by the electric heating coil, the heating form is easy to have potential safety hazard, and the spontaneous combustion of the closestool cover causes safety accidents.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the closestool adopting hot water to heat the seat ring is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a toilet adopting hot water to heat a seat ring comprises an integrally formed toilet barrel body, a barrel cover rotationally connected to the toilet barrel body, a seat ring rotating seat fixedly installed at the upper end of the toilet barrel body and hollow seat rings rotationally connected to the two ends of the seat ring rotating seat and used for a user to sit on the toilet;

the toilet body comprises a downward-concave excrement collecting part positioned at the front end and a water inlet part positioned at the rear end; an annular flushing pipeline is formed at the upper end of the excrement collecting part along the upper edge of the excrement collecting part; the inner side of the flushing pipeline protrudes out of the inner wall of the excrement collecting part; a plurality of water outlets are formed at the lower end of the flushing pipeline close to the inner side wall of the excrement collecting part at equal intervals along the flushing pipeline; an upper water flushing port is formed at the rear end of the flushing pipeline;

the lower end of the excrement collecting part is fixedly connected with a sewage discharge pipe; a lower water jet is formed on the lower rear side wall of the excrement collecting part close to the sewage discharge pipe;

the upper part of the water inlet part is fixedly provided with a water tank; a water outlet for discharging water in the water tank is formed at the lower end of the water tank; the water outlet is respectively connected with the upper water inlet and the lower water inlet through pipelines;

the seat ring rotating seat comprises a rectangular seat body; a cylindrical shell is formed at the upper end of the seat body; seat ring connecting shafts which are used for being rotationally connected with the hollow seat rings are respectively formed at two ends of the shell; the seat ring connecting shaft is hollow and is communicated with the interior of the hollow seat ring; a partition plate for partitioning the inner part of the shell into two cavities is formed in the shell; a first water pump and a second water pump are respectively arranged in the shell close to the two seat ring connecting shafts;

a hot water inlet is formed in the toilet body corresponding to the first water pump; a water outlet connector is formed in the toilet body corresponding to the second water pump; the hot water inlet is connected with a hot water outlet of the water heater through a pipeline; the water outlet connecting port is connected with the upper water flushing port through a pipeline;

the water inlet end of the first water pump is connected with the hot water inlet, and the water outlet end of the first water pump is communicated to the interior of the hollow seat ring through the seat ring connecting shaft; the water inlet end of the second water pump is communicated with the interior of the hollow seat ring through the seat ring connecting shaft, and the water outlet end of the second water pump is connected with the water outlet connecting port;

an ozone generator is arranged in the toilet body close to the water outlet connecting port; one end of the ozone generator, which generates ozone, is connected to the connecting pipe of the water outlet connector and the upper water flushing port through a pipeline; a first one-way valve is arranged on a pipeline at one end of the ozone generator for generating ozone; the first one-way valve is communicated from one end of the ozone generator to one end of the upper water flushing port in a one-way mode;

a water storage pipe is fixedly connected with the position, close to the upper flushing port, in the toilet bowl body; the water storage pipe is connected to the lower part of a pipeline between the water tank and the upper water flushing port; the water storage pipe is communicated with the upper water flushing port; the lower end of the water storage pipe is provided with an ultrasonic atomizer used for atomizing water in the water storage pipe;

an operation panel is arranged on the closestool barrel body; a controller connected with a power supply is arranged in the closestool body; the first water pump, the second water pump, the ozone generator, the ultrasonic atomizer and the operation panel are electrically connected with the controller.

As a preferable scheme: the ozone generator comprises a shell with an opening at the front end, an ozone generating pipe and a cooling and drying pipe which are arranged in the shell.

The front end of the shell is detachably connected with a cover body; a first air outlet joint is fixedly arranged on the side wall of the shell; an upper air outlet is formed at the upper end of the shell, and a lower air inlet is formed at the lower end of the shell.

The cooling drying tube comprises a drying tube body, a refrigerating sheet mounting seat fixedly mounted on the inner wall of the shell and positioned below the drying tube body, and a motor mounting seat fixedly mounted on the inner wall of the shell and positioned above the drying tube body; the drying tube body is in a cylindrical shape with the lower end closed and the upper end opened; a vertically arranged semiconductor refrigerating sheet is fixedly connected in the refrigerating sheet mounting seat, a heat absorption aluminum seat is fixedly connected on the cold surface of the semiconductor refrigerating sheet, and a heat dissipation aluminum seat is fixedly connected on the hot surface of the semiconductor refrigerating sheet; a water storage tank is formed at the lower end of the refrigerating sheet mounting seat and is positioned below the heat absorption aluminum seat; a plurality of first air inlets which are uniformly distributed are formed in the lower bottom surface of the refrigerating sheet mounting seat below the heat dissipation aluminum seat; and a plurality of third air inlets which are uniformly distributed are formed at the upper part of the side wall of the water storage tank.

The lower end of the drying tube body is respectively abutted against the upper ends of the heat absorption aluminum seat and the heat dissipation aluminum seat.

A plurality of second air inlets which are uniformly distributed are formed in the lower bottom surface of the drying pipe body; the drying tube body is internally provided with a vertically arranged second clapboard for separating air heated by the heat absorption aluminum seat and cooled by the heat dissipation aluminum seat.

The drying pipe body is fixedly provided with a cover plate on the upper part, and a plurality of uniformly distributed air outlets are formed in the upper end face of the cover plate.

And the space between the drying pipe body and the cover plate is filled with water-absorbent resin.

The motor with the downward output shaft is installed in the motor installation seat, and a transmission hole matched and spliced with the output shaft is formed in the middle of the upper end of the second partition plate.

And a second through hole is formed in the position, opposite to the transmission hole, of the cover plate.

A horizontally arranged supporting plate is formed on the inner wall of the motor mounting seat, and a first through hole for an output shaft of the motor to penetrate through is formed in the middle of the supporting plate; the side wall of the motor mounting seat, which corresponds to one side of the heat absorption aluminum seat, is positioned below the supporting plate and is fixedly connected with a second air outlet joint, and a heat dissipation air outlet is formed in the supporting plate, which corresponds to one side of the heat dissipation aluminum seat; the position of the lower end of the supporting plate, which is opposite to the second partition plate, is provided with a first partition plate, and the heat dissipation air outlet is positioned on one side of the partition plate.

An air pump, a water pump, a transformer and an atomizing water tank are fixedly arranged in the shell; a circuit board is arranged in the shell; and a control switch is arranged on the outer wall of the shell.

Fans are fixedly arranged at positions above the ozone generating pipe and the cooling drying pipe in the shell respectively, and the fans above the cooling drying pipe are in sealing contact with the upper end of the motor mounting seat; and a filter screen is fixedly arranged at the position below the cooling drying pipe in the shell.

The lower part of the water storage tank is fixedly connected with a water outlet joint; an ultrasonic atomizer is fixedly arranged in the atomization water tank; the lower part of the atomization water tank is fixedly connected with a water inlet joint, and the upper part of the atomization water tank is fixedly connected with a mist outlet joint; the water outlet connector is connected with the water inlet end of the water pump through a hose, and the water inlet connector of the atomization water tank is connected with the water outlet end of the water pump through a hose; the second air outlet joint of the motor mounting seat is connected with the air inlet end of the air pump through a hose; the air outlet end of the air pump is connected with the air inlet end of the ozone generating tube through a hose; the air outlet end of the ozone generating pipe, the mist outlet joint of the atomizing water tank and the air inlet end of the first air outlet joint are connected through a three-way joint.

The motor, the input end of the transformer, the control switch, the fan, the semiconductor refrigerating sheet, the air pump, the water pump and the ultrasonic atomizer are respectively electrically connected with the circuit board, and the output end of the transformer is electrically connected with the ozone generating tube.

As a preferable scheme: a plurality of rib plates for bearing are formed in the hollow seat ring along the annular direction of the hollow seat ring.

Compared with the prior art, the invention has the beneficial effects that: after a user goes to toilet, the controller controls the ozone generator to work to generate ozone to enter the upper water flushing port, then the controller controls the water tank to drain water, so that water in the water tank respectively enters the upper water flushing port and the lower water flushing port, wherein the water entering the lower water flushing port discharges dirt in the excrement collecting part, meanwhile, the water entering the upper water flushing port is mixed with the ozone generated by the ozone generator and then is discharged through the water outlet to flush and disinfect the inner wall of the excrement collecting part, and then the controller controls the ozone generator to stop working.

When the environment temperature is low, the temperature of the water heater is adjusted, then a user presses a heating button corresponding to the control panel, the controller controls the first water pump and the second water pump to work for 20s at the same time, at the moment, water reserved in the hollow seat ring is discharged to an upper flushing port and then flushes the inner wall of the excrement collecting part through the water outlet, and meanwhile, hot water enters the hollow seat ring through the first water pump to heat the hollow seat ring; when the user finishes using the toilet, the corresponding flushing button is pressed to discharge the dirt in the excrement collecting part.

When a user needs to sterilize the hollow seat ring and the inner part of the excrement collecting part, the hollow seat ring and the barrel cover are covered, the sterilization button is pressed, the controller controls the ozone generator and the ultrasonic atomizer to work, ozone generated by the ozone generator and water mist generated by the ultrasonic atomizer after acting are mixed in a pipeline at an upper flushing water port, then the mixed water mist and ozone enter the excrement collecting part through a water outlet, and one part of the mixed water mist and ozone is diffused to the upper surface of the hollow seat ring and the inner surface of the barrel cover; because the water mist increases the air humidity in the excrement collecting part, the ozone is easy to soak into the cells, and the sterilization effect of the ozone is better.

The hollow seat ring is heated by hot water, so that potential safety hazards caused by electric heating to the toilet seat ring are avoided, meanwhile, the hollow seat ring is adjusted by water temperature, and the hollow seat ring is relatively slow in heat dissipation due to large specific heat of water, so that the hollow seat ring is not required to be continuously filled with hot water; the inner wall of the excrement collecting part can be further washed after the water in the hollow seat ring is used up; the ozone generated by the ozone generator can effectively inhibit the propagation of bacteria or viruses in the excrement collecting part, decompose organic matters on the inner wall of the excrement collecting part and reduce the use of the toilet cleaner.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

FIG. 3 is a schematic cross-sectional view of a raceway rotating seat.

Figure 4 is a schematic view of the plumbing connections within the toilet bowl.

Fig. 5 is a schematic structural view of an ozone generator in example 2.

FIG. 6 is an internal structure view of an ozone generator according to embodiment 2.

Fig. 7 is an exploded view of the reduced temperature drying tube.

Fig. 8 is a schematic structural view of the motor mount.

Figure 9 is a schematic view of the construction of the cold plate mount.

Fig. 10 is a schematic view of a drying tube.

Fig. 11 is a schematic structural view of the cover plate.

Fig. 12 is a sectional view of an atomizing water tank.

1. A toilet bowl body; 101. a feces collection part; 102. a water inlet part; 11. a flushing pipeline; 111. a water outlet; 112. punching a water gap; 121. a hot water inlet; 122. a water outlet connector; 13. a lower nozzle; 14. a blow-off pipe;

2. a barrel cover;

3. a hollow seat ring;

4. a seat ring rotating seat; 41. a base body; 42. a housing; 43. a first water pump; 44. a second water pump; 45. a seat ring connecting shaft; 46. a partition plate;

5. a water tank; 51. a water outlet;

61. a water storage pipe; 62. an ultrasonic atomizer;

9. an ozone generator; 90. a first air outlet joint; 91. a housing; 92. a cover body; 93. a cooling and drying pipe; 931. a motor mounting seat; 9312. a first separator; 9313. a first perforation; 9314. a support plate; 9316. a second air outlet joint; 9317. a heat dissipation air outlet; 932. a refrigerating sheet mounting seat; 9321. a first air inlet; 9322. a third air inlet; 9323. a water outlet joint; 9324. a water storage tank; 933. drying the tube body; 9331. a second air inlet; 9332. a second separator; 9333. a drive bore; 934. a semiconductor refrigeration sheet; 935. a cover plate; 9351. an air outlet; 9352. a second perforation; 936. a motor; 94. an ozone generating tube; 951. an air pump; 952. a water pump; 96. a transformer; 97. a filter screen; 98. a fan; 99. an atomization water tank; 991. an ultrasonic atomizer; 992. a water inlet joint; 993. and a fog outlet joint.

Detailed Description

The following describes in detail an embodiment of the present invention with reference to the accompanying drawings.

Example 1

According to fig. 1 to 4, the toilet bowl adopting the hot water heating seat ring in the embodiment includes an integrally formed toilet bowl body 1, a toilet lid 2 rotatably connected to the toilet bowl body, a seat ring rotary seat 4 fixedly installed at the upper end of the toilet bowl body, and a hollow seat ring 3 rotatably connected to two ends of the seat ring rotary seat for a user to sit on the toilet bowl.

The toilet bowl body comprises a downward-concave excrement collecting part 101 at the front end and a water inlet part 102 at the rear end; the upper end of the excrement collecting part is provided with an annular flushing pipeline 11 along the upper edge of the excrement collecting part; the inner side of the flushing pipeline protrudes out of the inner wall of the excrement collecting part; a plurality of water outlets 111 are formed at the lower end of the flushing pipeline close to the inner side wall of the excrement collecting part at equal intervals along the flushing pipeline; the rear end of the flushing pipe is formed with an upper flushing port 112.

The lower end of the excrement collecting part is fixedly connected with a sewage discharge pipe 14; a lower water jet 13 is formed on the lower rear side wall of the excrement collecting part close to the sewage discharge pipe.

The upper part of the water inlet part is fixedly provided with a water tank 5; a water outlet 51 for discharging water in the water tank is formed at the lower end of the water tank; the water outlet is respectively connected with the upper water-jet opening and the lower water-jet opening through pipelines. When the water tank drains, a part of water in the water tank enters the flushing pipeline through the upper water flushing port and then flushes the inner side wall of the excrement collecting part through the water outlet, and the other part of water flushes out through the lower water flushing port to enable dirt in the excrement collecting part to be discharged through the sewage discharge pipe.

The seat ring rotating seat comprises a rectangular seat body 41; a cylindrical shell 42 is formed at the upper end of the seat body; a seat ring connecting shaft 45 for rotationally connecting with the hollow seat ring is respectively formed at two ends of the shell; the seat ring connecting shaft is hollow and is communicated with the interior of the hollow seat ring; a partition plate 46 for dividing the inner part of the shell into two cavities is formed in the shell; a first water pump 43 and a second water pump 44 are respectively arranged in the shell close to the two seat ring connecting shafts.

A hot water inlet 121 is formed in the toilet body corresponding to the first water pump; a water outlet connector 122 is formed in the toilet body corresponding to the second water pump; the hot water inlet is connected with a hot water outlet of the water heater through a pipeline; the water outlet connector is connected with the upper water flushing port through a pipeline.

The water inlet end of the first water pump is connected with the hot water inlet, and the water outlet end of the first water pump is communicated to the interior of the hollow seat ring through the seat ring connecting shaft; the water inlet end of the second water pump is communicated with the interior of the hollow seat ring through the seat ring connecting shaft, and the water outlet end of the second water pump is connected with the water outlet connecting port; and a sealing bearing is arranged at the connecting shaft of the hollow seat ring and the seat ring.

An ozone generator 9 is arranged in the toilet body close to the water outlet connecting port; one end of the ozone generator, which generates ozone, is connected to the connecting pipe of the water outlet connector and the upper water flushing port through a pipeline; a first one-way valve is arranged on a pipeline at one end of the ozone generator for generating ozone; the first one-way valve is communicated from one end of the ozone generator to one end of the upper water flushing port in a one-way mode.

A water storage pipe 61 is fixedly connected to the position, close to the upper water flushing port, in the toilet bowl body; the water storage pipe is connected to the lower part of a pipeline between the water tank and the upper water flushing port; the water storage pipe is communicated with the upper water flushing port; an ultrasonic atomizer 62 for atomizing water in the water storage pipe is installed at the lower end of the water storage pipe.

A plurality of rib plates for bearing are formed in the hollow seat ring along the annular direction of the hollow seat ring.

The internal structure, the water adding mode and the water discharging mode of the water tank are the same as those of a common closestool.

An operation panel is arranged on the closestool barrel body; the operation panel comprises a flushing, heating and sterilizing button; the flushing button corresponds to the discharge process of water in the water tank; the heating button corresponds to the process of the hot water entering the hollow seat ring; the sterilization button corresponds to the process that the ozone generator and the ultrasonic atomizer work simultaneously.

A controller connected with a power supply is arranged in the closestool body; the first water pump, the second water pump, the ozone generator, the ultrasonic atomizer and the operation panel are electrically connected with the controller.

After a user goes to toilet, the controller controls the ozone generator to work to generate ozone to enter the upper water flushing port, then the controller controls the water tank to drain water, so that water in the water tank respectively enters the upper water flushing port and the lower water flushing port, wherein the water entering the lower water flushing port discharges dirt in the excrement collecting part, meanwhile, the water entering the upper water flushing port is mixed with the ozone generated by the ozone generator and then is discharged through the water outlet to flush and disinfect the inner wall of the excrement collecting part, and then the controller controls the ozone generator to stop working.

When the environment temperature is low, the temperature of the water heater is adjusted, then a user presses a heating button corresponding to the control panel, the controller controls the first water pump and the second water pump to work for 20s at the same time, at the moment, water reserved in the hollow seat ring is discharged to an upper flushing port and then flushes the inner wall of the excrement collecting part through the water outlet, and meanwhile, hot water enters the hollow seat ring through the first water pump to heat the hollow seat ring; when the user finishes using the toilet, the corresponding flushing button is pressed to discharge the dirt in the excrement collecting part.

When a user needs to sterilize the hollow seat ring and the inner part of the excrement collecting part, the hollow seat ring and the barrel cover are covered, the sterilization button is pressed, the controller controls the ozone generator and the ultrasonic atomizer to work, ozone generated by the ozone generator and water mist generated by the ultrasonic atomizer after acting are mixed in a pipeline at an upper flushing water port, then the mixed water mist and ozone enter the excrement collecting part through a water outlet, and one part of the mixed water mist and ozone is diffused to the upper surface of the hollow seat ring and the inner surface of the barrel cover; because the water mist increases the air humidity in the excrement collecting part, the ozone is easy to soak into the cells, and the sterilization effect of the ozone is better.

The hollow seat ring is heated by hot water, so that potential safety hazards caused by electric heating to the toilet seat ring are avoided, meanwhile, the hollow seat ring is adjusted by water temperature, and the hollow seat ring is relatively slow in heat dissipation due to large specific heat of water, so that the hollow seat ring is not required to be continuously filled with hot water; the inner wall of the excrement collecting part can be further washed after the water in the hollow seat ring is used up; the ozone generated by the ozone generator can effectively inhibit the propagation of bacteria or viruses in the excrement collecting part, decompose organic matters on the inner wall of the excrement collecting part and reduce the use of the toilet cleaner.

Example 2

As shown in fig. 5 to 12, the present embodiment is modified based on embodiment 1 as follows: the ozone generator comprises a shell 91 with an opening at the front end, an ozone generating pipe 94 and a cooling and drying pipe 93 which are arranged in the shell.

A cover 92 is detachably connected to the front end of the housing 91; a first air outlet joint 90 is fixedly arranged on the side wall of the shell; an upper air outlet is formed at the upper end of the shell, and a lower air inlet is formed at the lower end of the shell.

The cooling and drying tube 93 comprises a drying tube body 933, a refrigerating sheet mounting seat 932 fixedly arranged on the inner wall of the shell and positioned below the drying tube body, and a motor mounting seat 931 fixedly arranged on the inner wall of the shell and positioned above the drying tube body; the drying tube body is in a cylindrical shape with the lower end closed and the upper end opened; a vertically arranged semiconductor refrigerating sheet 934 is fixedly connected in the refrigerating sheet mounting seat, a heat absorption aluminum seat is fixedly connected to the cold surface of the semiconductor refrigerating sheet, and a heat dissipation aluminum seat is fixedly connected to the hot surface of the semiconductor refrigerating sheet; a water storage tank 9324 is formed at the lower end of the refrigerating sheet mounting seat and is positioned below the heat absorption aluminum seat; a plurality of first air inlets 9321 which are uniformly distributed are formed in the lower bottom surface of the refrigerating sheet mounting seat below the heat dissipation aluminum seat; a plurality of third air inlets 9322 are uniformly distributed on the upper part of the side wall of the water storage tank.

The lower end of the drying tube body is respectively abutted against the upper ends of the heat absorption aluminum seat and the heat dissipation aluminum seat.

A plurality of second air inlets 9331 which are uniformly distributed are formed in the lower bottom surface of the drying tube body; and a second partition plate 9332 which is vertically arranged and used for separating air heated by the heat absorption aluminum seat and cooled by the heat dissipation aluminum seat is formed in the drying tube body.

The upper part of the drying pipe body is fixedly provided with a cover plate 935, and the upper end surface of the cover plate is provided with a plurality of air outlets 9351 which are uniformly distributed.

And the space between the drying pipe body and the cover plate is filled with water-absorbent resin.

A motor 936 with a downward output shaft is installed in the motor installation seat, and a transmission hole 9333 matched and spliced with the output shaft is formed in the middle of the upper end of the second partition plate.

The cover plate is formed with a second through hole 9352 at a position opposite to the transmission hole.

A horizontally arranged supporting plate 9314 is formed on the inner wall of the motor mounting seat, and a first through hole 9313 for an output shaft of a motor to pass through is formed in the middle of the supporting plate; a second air outlet joint 9316 is fixedly connected to the side wall of the motor mounting seat corresponding to one side of the heat absorption aluminum seat and positioned below the support plate, and a heat dissipation air outlet 9317 is formed in the support plate corresponding to one side of the heat dissipation aluminum seat; a first partition plate 9312 is formed at the position, opposite to the second partition plate, of the lower end of the supporting plate, and the heat dissipation air outlet is located on one side of the partition plate.

An air pump 951, a water pump 952, a transformer 96 and an atomizing water tank 99 are fixedly arranged in the shell. A circuit board is arranged in the shell; and a control switch is arranged on the outer wall of the shell.

The fans 98 are respectively and fixedly arranged at the positions above the ozone generating pipe and the cooling drying pipe in the shell, and the fans above the cooling drying pipe are in sealing and abutting contact with the upper end of the motor mounting seat; a filter screen 97 is fixedly arranged at the lower position of the cooling drying pipe in the shell.

The lower part of the water storage tank is fixedly connected with a water outlet joint 9323; an ultrasonic atomizer 991 is fixedly arranged in the atomization water tank; the lower part of the atomization water tank is fixedly connected with a water inlet joint 992, and the upper part of the atomization water tank is fixedly connected with a mist outlet joint 993; the water outlet connector is connected with the water inlet end of the water pump through a hose, and the water inlet connector of the atomization water tank is connected with the water outlet end of the water pump through a hose; a second air outlet joint 9316 of the motor mounting seat is connected with the air inlet end of the air pump through a hose; the air outlet end of the air pump is connected with the air inlet end of the ozone generating tube through a hose; the air outlet end of the ozone generating pipe, the mist outlet joint of the atomizing water tank and the air inlet end of the first air outlet joint are connected through a three-way joint.

The motor, the input end of the transformer, the control switch, the fan, the semiconductor refrigerating sheet, the air pump, the water pump and the ultrasonic atomizer are respectively electrically connected with the circuit board, and the output end of the transformer is electrically connected with the ozone generating tube.

When the ozone generator is used, a control switch of the ozone generator is turned on, the fan positioned above the cooling drying pipe starts to work, negative pressure is formed in the cooling drying pipe, air enters from the lower air inlet, the air is filtered by the filter screen and the temperature of the air of the heat absorption aluminum seat is reduced, low-temperature drying air is formed after the air passes through the water-absorbent resin, and the air dried at the low temperature is pumped into the ozone generator by the air pump to be used for generating ozone; simultaneously, the heat absorption aluminum base can condense water vapor in the air to form small water drops to flow into the water storage tank, water in the water storage tank is pumped into the atomization water tank through the water pump, the atomized water mist of the ultrasonic atomizer is mixed with ozone generated by the ozone generator, and then the atomized water mist flows out from the first air outlet connector.

After the reservoir water was taken out to be clean by the water pump, the water pump can be taken out the reservoir interior air to the atomizing water tank in, and the water smoke that is located the atomizing water tank this moment can follow out the fog and connect the outflow for dissolve ozone.

After a set time, the motor drives the drying tube body to rotate 180 degrees, and the water-containing water-absorbent resin is transferred to the upper part of the heat-absorbing aluminum seat from the upper part of the heat-absorbing aluminum seat; because the temperature above the heat dissipation aluminum seat is higher, the water in the water-containing water-absorbent resin can be evaporated to form dry water-absorbent resin; the evaporated water vapor is discharged from the heat dissipation air outlet and the upper air outlet.

And then, the motor drives the drying tube body to rotate by 180 degrees within the same set time, the dried water-absorbent resin formed after water evaporation moves to the upper part of the heat-absorbing aluminum seat again, and air is continuously dried for the reaction of the ozone generator.

Because the ultrasonic atomizer utilizes the water after the condensation, the temperature of the formed water mist is lower, ozone is easy to dissolve in water, the particle size of the water mist is smaller, the water mist can fully react with ozone, the formed water mist with higher ozone content is dissolved in water, and the ozone utilization rate can be improved.

The invention can realize active cooling and air source drying, improve ozone generation efficiency and ozone quality, and simultaneously, the invention can dry the water-containing water-absorbent resin while preparing ozone, so that the water-absorbent resin for drying can be recycled without replacement.

Example 3

This example is modified from example 1 or example 2 as follows: a vent pipe communicated with the interior of the hollow seat ring is formed outwards on the side surface of the hollow seat ring; the end part of the vent pipe is provided with a second one-way valve; the second one-way valve is communicated with the interior of the hollow seat ring in a one-way mode from the outside.

The operation panel also comprises a drainage button; the drainage button corresponds to a process of draining water in the hollow seat ring.

When the environment temperature is low, the temperature of the water heater is adjusted, then a user presses a heating button corresponding to the control panel, the controller controls the first water pump and the second water pump to work for 20s at the same time, air in the hollow seat ring is discharged through the second water pump, and meanwhile hot water enters the hollow seat ring through the first water pump to heat the hollow seat ring; when the user finishes using the toilet, pressing the corresponding flushing button to discharge the dirt in the excrement collecting part; then, a water discharge button is pressed, the controller controls the second water pump to work for 20s, water reserved in the hollow seat ring is discharged to an upper flushing port and then flushes the inner wall of the excrement collecting part through a water outlet, and meanwhile air enters the hollow seat ring from a second one-way valve; when the user only needs a proper amount of water to wash like the lavatory finish during collection excrement portion inner wall, need not press the bath button this moment, only need press the drainage button will the water discharge in the cavity seat circle wash can.

Furthermore, when water is not added or drained in the hollow seat ring for a long time, namely the drain button or the heating button is not pressed for a long time, dirt or bacteria and the like are easy to accumulate in the central control seat ring, at the moment, the barrel cover is covered, one end, far away from the vent pipe, of the second one-way valve is connected with a container or a generator containing a bactericide or a cleaning agent, after the drain button is pressed, the bactericide or the cleaning agent is pumped into the hollow seat ring through the work of the second water pump to sterilize or clean the interior of the hollow seat ring, after a proper time, the drain button is pressed again, so that waste water in the hollow seat ring can be discharged into the excrement collecting part, and then water containing ozone can be filled into the excrement collecting part to wash the inner wall of the excrement collecting part by pressing the flush button again.

This process can be in time after the user finishes like the lavatory water discharge in the cavity seat circle, has alleviateed the upset weight during the cavity seat circle, it is right the excrement collection portion inner wall carries out the secondary and fills and wash, can also prevent to add water and breed germ etc. in the cavity seat circle for a long time simultaneously.

Example 4

This example is modified from example 1 or example 2 as follows: and the second water pump is replaced by a pressure relief valve.

After pressing the heating button, the controller controls first water pump work, because first water pump adds hot water in the cavity seat circle during, the pressure in the cavity seat circle increases, makes the relief valve switches on, will water or the air discharge in the cavity seat circle makes can steadily add hot water in the cavity seat circle.

Claims (2)

1. A toilet bowl using hot water to heat a seat is characterized in that: the toilet seat comprises an integrally formed toilet bowl body, a bowl cover rotationally connected to the toilet bowl body, a seat ring rotating seat fixedly installed at the upper end of the toilet bowl body and hollow seat rings rotationally connected to the two ends of the seat ring rotating seat and used for a user to sit on;

the toilet body comprises a downward-concave excrement collecting part positioned at the front end and a water inlet part positioned at the rear end; an annular flushing pipeline is formed at the upper end of the excrement collecting part along the upper edge of the excrement collecting part; the inner side of the flushing pipeline protrudes out of the inner wall of the excrement collecting part; a plurality of water outlets are formed at the lower end of the flushing pipeline close to the inner side wall of the excrement collecting part at equal intervals along the flushing pipeline; an upper water flushing port is formed at the rear end of the flushing pipeline;

the lower end of the excrement collecting part is fixedly connected with a sewage discharge pipe; a lower water jet is formed on the lower rear side wall of the excrement collecting part close to the sewage discharge pipe;

the upper part of the water inlet part is fixedly provided with a water tank; a water outlet for discharging water in the water tank is formed at the lower end of the water tank; the water outlet is respectively connected with the upper water inlet and the lower water inlet through pipelines;

the seat ring rotating seat comprises a rectangular seat body; a cylindrical shell is formed at the upper end of the seat body; seat ring connecting shafts which are used for being rotationally connected with the hollow seat rings are respectively formed at two ends of the shell; the seat ring connecting shaft is hollow and is communicated with the interior of the hollow seat ring; a partition plate for partitioning the inner part of the shell into two cavities is formed in the shell; a first water pump and a second water pump are respectively arranged in the shell close to the two seat ring connecting shafts;

a hot water inlet is formed in the toilet body corresponding to the first water pump; a water outlet connector is formed in the toilet body corresponding to the second water pump; the hot water inlet is connected with a hot water outlet of the water heater through a pipeline; the water outlet connecting port is connected with the upper water flushing port through a pipeline;

the water inlet end of the first water pump is connected with the hot water inlet, and the water outlet end of the first water pump is communicated to the interior of the hollow seat ring through the seat ring connecting shaft; the water inlet end of the second water pump is communicated with the interior of the hollow seat ring through the seat ring connecting shaft, and the water outlet end of the second water pump is connected with the water outlet connecting port;

an ozone generator is arranged in the toilet body close to the water outlet connecting port; one end of the ozone generator, which generates ozone, is connected to the connecting pipe of the water outlet connector and the upper water flushing port through a pipeline; a first one-way valve is arranged on a pipeline at one end of the ozone generator for generating ozone; the first one-way valve is communicated from one end of the ozone generator to one end of the upper water flushing port in a one-way mode;

a water storage pipe is fixedly connected with the position, close to the upper flushing port, in the toilet bowl body; the water storage pipe is connected to the lower part of a pipeline between the water tank and the upper water flushing port; the water storage pipe is communicated with the upper water flushing port; the lower end of the water storage pipe is provided with an ultrasonic atomizer used for atomizing water in the water storage pipe;

an operation panel is arranged on the closestool barrel body; a controller connected with a power supply is arranged in the closestool body; the first water pump, the second water pump, the ozone generator, the ultrasonic atomizer and the operation panel are electrically connected with the controller;

the ozone generator comprises a shell with an opening at the front end, an ozone generating pipe and a cooling and drying pipe which are arranged in the shell;

the front end of the shell is detachably connected with a cover body; a first air outlet joint is fixedly arranged on the side wall of the shell; an upper air outlet is formed at the upper end of the shell, and a lower air inlet is formed at the lower end of the shell;

the cooling drying tube comprises a drying tube body, a refrigerating sheet mounting seat fixedly mounted on the inner wall of the shell and positioned below the drying tube body, and a motor mounting seat fixedly mounted on the inner wall of the shell and positioned above the drying tube body; the drying tube body is in a cylindrical shape with the lower end closed and the upper end opened; a vertically arranged semiconductor refrigerating sheet is fixedly connected in the refrigerating sheet mounting seat, a heat absorption aluminum seat is fixedly connected on the cold surface of the semiconductor refrigerating sheet, and a heat dissipation aluminum seat is fixedly connected on the hot surface of the semiconductor refrigerating sheet; a water storage tank is formed at the lower end of the refrigerating sheet mounting seat and is positioned below the heat absorption aluminum seat; a plurality of first air inlets which are uniformly distributed are formed in the lower bottom surface of the refrigerating sheet mounting seat below the heat dissipation aluminum seat; a plurality of third air inlets which are uniformly distributed are formed at the upper part of the side wall of the water storage tank;

the lower end of the drying tube body is respectively abutted against the upper ends of the heat absorption aluminum seat and the heat dissipation aluminum seat;

a plurality of second air inlets which are uniformly distributed are formed in the lower bottom surface of the drying pipe body; a second partition board which is vertically arranged and used for separating air heated by the heat absorption aluminum seat and cooled by the heat dissipation aluminum seat is formed in the drying tube body;

a cover plate is fixedly arranged at the upper part of the drying pipe body, and a plurality of uniformly distributed air outlets are formed in the upper end surface of the cover plate;

the space between the drying pipe body and the cover plate is filled with water-absorbent resin;

a motor with an output shaft facing downwards is installed in the motor installation seat, and a transmission hole matched and spliced with the output shaft is formed in the middle of the upper end of the second partition plate;

a second through hole is formed in the position, opposite to the transmission hole, of the cover plate;

a horizontally arranged supporting plate is formed on the inner wall of the motor mounting seat, and a first through hole for an output shaft of the motor to penetrate through is formed in the middle of the supporting plate; the side wall of the motor mounting seat, which corresponds to one side of the heat absorption aluminum seat, is positioned below the supporting plate and is fixedly connected with a second air outlet joint, and a heat dissipation air outlet is formed in the supporting plate, which corresponds to one side of the heat dissipation aluminum seat; a first partition plate is formed at the lower end of the supporting plate in a position corresponding to the second partition plate, and the heat dissipation air outlet is positioned on one side of the partition plate;

an air pump, a water pump, a transformer and an atomizing water tank are fixedly arranged in the shell; a circuit board is arranged in the shell; a control switch is arranged on the outer wall of the shell;

fans are fixedly arranged at positions above the ozone generating pipe and the cooling drying pipe in the shell respectively, and the fans above the cooling drying pipe are in sealing contact with the upper end of the motor mounting seat; a filter screen is fixedly arranged in the shell at a position below the cooling drying pipe;

the lower part of the water storage tank is fixedly connected with a water outlet joint; an ultrasonic atomizer is fixedly arranged in the atomization water tank; the lower part of the atomization water tank is fixedly connected with a water inlet joint, and the upper part of the atomization water tank is fixedly connected with a mist outlet joint; the water outlet connector is connected with the water inlet end of the water pump through a hose, and the water inlet connector of the atomization water tank is connected with the water outlet end of the water pump through a hose; the second air outlet joint of the motor mounting seat is connected with the air inlet end of the air pump through a hose; the air outlet end of the air pump is connected with the air inlet end of the ozone generating tube through a hose; the air outlet end of the ozone generating pipe, the mist outlet joint of the atomizing water tank and the air inlet end of the first air outlet joint are connected through a three-way joint;

the motor, the input end of the transformer, the control switch, the fan, the semiconductor refrigerating sheet, the air pump, the water pump and the ultrasonic atomizer are respectively electrically connected with the circuit board, and the output end of the transformer is electrically connected with the ozone generating tube.

2. A toilet bowl using a hot water heated seat as claimed in claim 1, wherein: a plurality of rib plates for bearing are formed in the hollow seat ring along the annular direction of the hollow seat ring.

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