KR20140070785A - Method of operating bidet suitable for cleaning toilet stool - Google Patents

Abstract

Provided is a method for operating a hot water cleaning apparatus to wash a toilet bowl. The method for operating a hot water cleaning apparatus to wash a toilet bowl is as follows: supplying power to a main body and a toilet seat on the toilet bowl; checking whether a user is seated on the toilet bowl; operating a hot water supplying structure of the main body; checking whether the toilet seat is seated on the toilet bowl; continuously checking whether the user is seated on the toilet seat; and operating an apparatus for cleaning a rim portion of the toilet seat.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of driving a hot water scrubber for cleaning pottery,

Embodiments of the present invention relate to hot water scrubbers, and more particularly, to a method of driving hot water scrubbers suitable for cleaning pottery.

Generally, a hot water washer is located on the left side of a toilet in a guest house or a general household, and is widely used as a left side facility. The hot water washer is configured to spray hot water to the user's anus and / or its surroundings through the bidet nozzle device after user's use to remove the dirty-related dirt from the user's body.

In this case, while the hot water washer is being used, the user may leave dirt on the rim portion of the toilet seat (hereinafter referred to as "rim portion" of the pottery) according to the use state of the hot water washer. The dirt is generated from the user's toilet, for example, urine. The dirt can provide a source of bathroom odor and a source of bacterial growth in the toilet.

Therefore, the dirt is removed through intermittent or periodic pottery cleaning of the user because the dirt reduces the aesthetics of the pottery. The pottery cleaning requires the spare time of the user. The pottery cleaning places a burden on the user to further demand the indoor cleaning of the toilet.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of driving a hot water cleaner suitable for cleaning a pottery so as not to burden the user with cleaning pottery to remove dirt from the rim of the pottery after the hot water washer is used.

Other problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned here will be fully understood by those skilled in the art from the following description.

A method of driving a hot water scrubber suitable for cleaning pottery according to embodiments of the present invention is provided. The method of driving the hot water washer includes supplying power to a main body portion electrically connected to each other on a pottery in a toilet, confirming whether or not the user is seated on the toe seat, driving a hot water supply structure of the main body portion, And confirming whether or not the seat is seated on the toilet seat, and driving the pottery rim cleaning device of the toilet seat. Wherein the hot water supply structure includes a control part electrically connecting to each other, a water supply valve, a hot water device, a flow rate adjusting device, a bidet nozzle device, a sterilizing water generating device and a nozzle self cleaning device, As shown in FIG.

Supplying the power source includes electrically connecting the main body to the switchboard of the toilet.

The hot water supply structure may further include a human body detection sensor, wherein, when the user is seated on the toilet seat, checking whether or not the user seated on the toilet seat senses the user on the toilet seat using the human body sensor And generating a sensing signal for the user, and receiving the sensing signal of the human body sensor using the controller

Alternatively, the hot water supply structure may further include a human body detection sensor, wherein, when the user is not seated on the toilet seat, confirming whether or not the user is seated may be performed by using the human body sensor And continuously sensing the user's seating condition.

Wherein the driving of the hot water supply structure includes supplying water from a water supply source using the water supply valve and supplying the water to the hot water supply device, the flow rate adjusting device, the bidet nozzle device, the sterilizing water producing device, And driving the nozzle self-cleaning device to form hot water and sterilized water from the water and spraying the hot water and the sterilized water below the toilet seat.

Wherein the driving of the flow rate regulating device includes receiving the hot water from the hot water device in the flow rate regulating device in response to the control signal of the control part and receiving the hot water from the flow rate regulating device in response to the control signal of the control part The bidet nozzle device, and the sterilizing water producing device.

The sterilizing water producing apparatus according to claim 1, wherein the driving of the sterilizing water producing apparatus is performed by supplying the hot water from the flow rate adjusting apparatus in the sterilizing water producing apparatus in response to a control signal of the control section, To form sterile water from the hot water. The sterilized water includes an ion cluster including an oxygen-based active species by electrically discharging the hot water.

The hot water supply structure may further include a toilet seat rotation angle detecting sensor for detecting whether the seat is seated or not, wherein when the toilet seat is seated on the pottery, Sensing the rotation angle of the toilet seat with respect to the toilet seat, and generating a sensing signal for the rotation angle of the toilet seat, and receiving the sensing signal of the toilet seat rotation angle sensing sensor using the control unit.

Alternatively, the hot water supply structure may further include a toilet seat rotation angle detecting sensor, wherein the checking of whether or not the toilet seat is seated may be performed by using the toilet seat rotation angle detecting sensor when the toilet seat is not seated on the pottery Thereby continuously detecting the seating state of the toilet seat on the pottery.

The hot water supply structure may further include a human body detection sensor, wherein the user continuously confirms whether or not the user is seated by using the human body detection sensor when the user is seated on the toilet seat, And continues to generate a sensing signal for the user, continue to receive the sensing signal of the human body sensor using the controller, and continue to operate the hot water supply structure.

Alternatively, the hot water supply structure may further include a human body detection sensor, wherein, when the user is not seated on the toilet seat, And detecting the departure of the user from the toilet seat by using the control unit because the user does not receive the detection signal of the user's seating state.

The driving of the pottery rim cleaning device may include supplying the sterilizing water from the sterilizing water generator in the pottery rim cleaning device in response to the control signal of the control part when the control part detects the user's departure from the toilet seat And spraying the sterilizing water from the pottery rim cleaning apparatus to the rim surface facing the toilet seat in the pottery in response to the control signal of the control unit.

The pottery rim cleaning apparatus includes a cleaning nozzle which opens from the toilet seat toward the pottery. The washing nozzle injects the sterilizing water from the toilet seat toward the pottery.

As described above, the driving method of the hot water scrubber according to the embodiments of the present invention includes a pottery rim cleaning device on the toilet seat to automatically clean the pottery, so that it does not burden the user to clean the pottery.

The driving method of the hot water scrubber does not require the user to spend leisure time at the time of cleaning the pottery, thereby allowing the user to fully apply the leisure time to the personal life.

The method of driving the hot water scrubber does not inconvenience the use of the hot water scrubber because the user performs the pottery cleaning after using the hot water scrubber of the user.

Since the driving method of the hot water scrubber does not inconvenience the use of the hot water scrubber to the user, the user can improve the experience of using the hot water scrubber.

Figures 1 and 2 are schematic diagrams illustrating the association of a pottery and a hot water scrubber in accordance with embodiments of the present invention.
Fig. 3 is a schematic view showing the toilet seat and the pottery of Fig. 2; Fig.
Fig. 4 is a schematic diagram showing the Fig. 3 Fig.
5 is a schematic view showing the toilet seat of Fig. 3;
Figs. 6 and 7 are schematic views showing the pottery rim cleaning apparatus according to the first embodiment of the present invention at the toilet seat of Fig. 5; Fig.
Figs. 8 and 9 are schematic views showing the pottery rim cleaning apparatus according to the second embodiment of the present invention at the seat of Fig. 5; Fig.
Figs. 10 and 11 are schematic views showing the pottery rim cleaning apparatus according to the third embodiment of the present invention at the seat of Fig. 5; Fig.
Figs. 12 and 13 are schematic views showing a pottery rim cleaning apparatus according to a fourth embodiment of the present invention at the seat of Fig. 5; Fig.
Fig. 14 is a schematic view showing a pottery rim cleaning apparatus according to a fifth embodiment of the present invention at the seat of Fig. 5; Fig.
Fig. 15 is a schematic view showing a pottery rim cleaning apparatus according to a sixth embodiment of the present invention at the toilet seat of Fig. 5;
FIG. 16 is a block diagram showing the connection relationship of the water source to the components of the hot water scrubber of FIG. 1; FIG.
Figs. 17 and 18 are flowcharts for explaining the driving method of the hot water scrubber of Fig.

First, a hot water cleaner suitable for cleaning pottery according to embodiments of the present invention will be described in more detail with reference to Figs. 1-16.

Figures 1 and 2 are schematic diagrams illustrating the association of a pottery and a hot water scrubber in accordance with embodiments of the present invention.

1, a hot water washer 210 according to embodiments of the present invention includes a body portion 30, a driving unit 40, a turning unit 50, and a toilet seat 60 ). The body portion (30) is seated on the pottery (70). The main body 30 includes a human body sensor 14 and a toilet seat rotation angle sensor 18.

The main body 30 will be described in detail with reference to FIG. The driving device 40 can be electrically connected to the switchboard of the toilet. The driving device 40 is fixed to the main body 30 with a plurality of buttons. The drive device (40) is electrically connected to the main body (30).

The breaker (50) and the toilet seat (60) are rotationally coupled to the main body (30). The breaker (50) is configured to open and close the pottery (70). The toilet seat (60) is positioned below the breaker (50) and configured to seat the user of the hot water scrubber (210).

Referring to FIG. 2, the body portion 30 includes a connection structure 34 and a hot water supply structure 38. The hot water supply structure 38 is configured to be surrounded by the connection structure 34. The hot water supply structure 38 may be connected to the drive device 40 via the connection structure 34 or may be directly connected to the drive device 40.

The hot water supply structure 38 is connected to the water supply source 5 of Fig. 16 through the first line L1. The hot water supply structure 38 includes a water supply valve 21, a control unit 22, a hot water supply unit 23, a flow rate adjustment unit 25, a bidet nozzle unit 27, a sterilization water generating unit 29, And a nozzle self-cleaning device 29A. In addition, the toilet seat 60 includes the pottery rim cleaning device 29B of Fig.

The water supply valve 21 is configured to supply water to the water tank 75 of the pottery 70 and the water heater 21 by receiving water from the water supply source 5 through the first line L1. The control unit 22 is connected to the hot water unit 23, the flow rate adjusting unit 25, the bidet nozzle unit 27, the sterilizing water generating unit 29, the nozzle self-cleaning unit 29A and the pottery rim cleaning unit 29B, Can be electrically controlled.

In this case, the water heater 23, the flow rate adjusting device 25, the bidet nozzle device 27, the sterilizing water producing device 29, the nozzle self-cleaning device 29A and the pottery rim cleaning device 29B Each of which is configured to perform the following functions in response to the control signal of the control unit 22. [ The water heater 23 is configured to receive water from the water supply source 5 through the water supply valve 21 and to heat the water into hot water.

The flow rate regulating device 25 is connected between the hot water device 23 and the bidet nozzle device 27 and the hot water device 23 and the bidet nozzle device 27 and the bidet nozzle device 27 and the sterilizing water producing device 27, (29). The flow rate regulating device 25 supplies the hot water of the hot water device 23 to the bidet nozzle device 27 and the sterilizing water producing device 29.

The bidet nozzle device 27 is configured to receive hot water from the flow rate regulating device 25 and to inject hot water into the pottery 70. The sterilizing water producing device 29 is configured to receive hot water from the flow rate regulating device 25 and electrically discharge the hot water to generate sterilized water from the hot water.

The sterilizing water includes ion clusters containing oxygen-based active species. The sterilizing water producing device 29 is configured to be connected to the nozzle self cleaning device 29A and the pottery rim cleaning device 29B. In this case, the pottery rim cleaning device 29B is configured to be connected to the sterilizing water producing device 29 through the connecting structure 34 and the hot water supply structure 38.

The sterilizing water producing device 29 supplies sterilizing water to the nozzle self cleaning device 29A and the pottery rim cleaning device 29B. The nozzle self-cleaning device 29A is configured to spray the sterile water toward the bidet nozzle device 27. [ The pottery rim cleaning device 29B is configured to spray sterilizing water from the toilet seat 60 toward the rim of the pottery 70. [

The ceramics rim cleaning device 29B will be described in detail with reference to FIGS. On the other hand, the connection structure 34 includes a hinge 31. The hot water supply structure 38 further includes a human body sensor 14 and a toilet seat rotation angle sensor 18. When the breaker 50 is rotated in one direction R with respect to the hinge 31, the breaker 50 is configured to expose the toilet seat 60.

The toilet seat 60 is configured to expose the interior of the pottery 70. The human body detection sensor 14 is configured to detect a user on the toilet seat 60 to generate a detection signal, and to supply a detection signal to the controller 22. The toilet seat rotation angle detection sensor 18 detects a rotation angle of the toilet seat 60 with respect to the connection structure 34 and / or the hot water supply structure 38 to generate a detection signal, Respectively.

In this case, the bidet nozzle device 27 is configured to be exposed from the main body 30 to below the toilet seat 60 as shown in the figure. The nozzle self-cleaning device 29A is configured to surround the bidet nozzle device 27 below the toilet seat 60 as shown.

Fig. 3 is a schematic view showing the toilet seat and the pottery of Fig. 2; Fig. 4 is a schematic view showing the Fig. 3 Fig. 3, and Fig. 5 is a schematic view showing the toilet seat of Fig. 3. Fig.

3 to 5, the toilet seat 60 contacts the breaker 50 through the upper surface as shown in FIG. The toilet seat 60 includes first to fourth seating portions 62, 64, 66 and 68 on its lower surface as shown in FIG. The toilet seat 60 includes a light receiving damper 80 and a pottery rim cleaning device 29B shown in Fig. 5 on the upper portions of the first and second seating portions 62 and 64. Fig.

More specifically, the light receiving damper 80 and the pottery rim cleaner 29B are positioned at the tip of the toilet seat 60 on the opposite side of the main body 30 in Fig. The light receiving dampers 80 and the pottery rim cleaning device 29B are arranged in order from the toilet seat 60 toward the main body 30. [

The light receiving damper 80 is configured to surround the pottery rim cleaning device 29B at the toilet seat 60. [ The uppermost level of the light receiving damper 80 is configured to be higher than the uppermost levels of the pottery rim cleaning apparatus 29B on the lower surface of the toilet seat 60. [

The light receiving dampers 80 are configured to reflect sterilizing water sprayed from the pottery rim cleaning device 29B from the toilet seat 60 toward the rim of the pottery 70 and more specifically to the cleaning area CR of Fig. do. That is, the light receiving damper 80 reflects the sterilized water from the toilet seat 60 toward the edge face 75 facing the toilet seat 60 in the cleaning area CR of the pottery 70.

As shown in FIG. 5, a plurality of porcelain rim cleaning devices 29B are disposed on the toilet seat 60, but are not limited thereto. For example, the pottery rim cleaning apparatus 29B may be located at the toilet seat 60 at one position. The porcelain rim cleaning apparatus 29B is configured to be connected to the sterilizing water producing apparatus 29 through the second line L2 in Fig.

The second line L2 is configured to extend past the connecting structure 34 and into the hot water supply structure 38 to connect with the sterilizing water producing device 29 in the hot water supply structure 38. The pottery rim cleaning device 29B is configured to receive sterilized water from the sterilizing water generator 29 through the second line L2 of FIG.

The porcelain rim cleaning apparatus 29B is configured to spray sterilizing water from the toilet seat 60 toward the facing surface 75 facing the toilet seat 60 in the cleaning area CR of the pottery 70. [ The porcelain rim cleaning apparatus 29B will be described in more detail with reference to FIGS. 6 to 15. FIG.

The hot water scrubber 210 according to embodiments of the present invention can have the pottery rim cleaning apparatus 29B of Fig. 5 in various forms as shown in Figs.

Figs. 6 and 7 are schematic views showing the pottery rim cleaning apparatus according to the first embodiment of the present invention at the toilet seat of Fig. 5; Fig. Fig. 7 shows a pottery rinse cleaner taken along section line I-I 'of Fig. 6; Fig.

6 and 7, a pottery rim cleaning apparatus 151 according to the first embodiment of the present invention includes a nozzle body 92, a nozzle support 94 fixed to the nozzle body 92, and a nozzle body 92 And a cleaning nozzle 96 positioned to be exposed from the nozzle body 92. In this case, the nozzle body 92 includes injection inlets E1 located on both sides of the nozzle support 94, as shown in Fig.

The nozzle support 94 may protrude or not protrude from the nozzle body 92. The cleaning nozzle 96 is located below the jetting inlets E1 and covers the jetting inlets E1 with the jetting face S1 as shown in Fig. 7 and the opening 98 at the lowest level of the jetting face S1 ). The lowest level of the bent spherical surface S1 is configured as shown in Fig. 7 so as to be inclined toward the both side portions of the nozzle support 94 from the nozzle support 94. [

The cleaning nozzle 96 is connected to the second line L2 in Fig. The porcelain rim cleaning apparatus 151 has a hollow H between the nozzle body 92 and the cleaning nozzle 96 as shown in FIG. According to a modification of the first embodiment of the present invention, the ceramic rim cleaning apparatus 151 may have a filling member between the nozzle body 92 and the cleaning nozzle 96.

Figs. 8 and 9 are schematic views showing the pottery rim cleaning apparatus according to the second embodiment of the present invention at the seat of Fig. 5; Fig. Fig. 9 shows a pottery rinse cleaner taken along section line II-II 'of Fig.

8 and 9, a pottery rim cleaning apparatus 153 according to a second embodiment of the present invention includes a nozzle body 102, a nozzle support 104 fixed to the nozzle body 102, and a nozzle body 102 And a cleaning nozzle 106 formed to be exposed from the nozzle body 102.

In this case, the nozzle body 102 has injection inlets E2 located on both sides of the nozzle support 104 and a bend opening E2 covering the injection inlets E2 below the injection inlets E2, (S2) as shown in FIGS. 8 and 9. The lowest level of the bent opening surface S2 is configured as shown in Fig. 9 so as to be inclined toward the both side portions of the nozzle support 104 from the nozzle support 104. [

The nozzle support 104 protrudes from the nozzle body 102 as shown in Fig. The cleaning nozzle 106 is located below the nozzle support 104 and includes openings 108 as shown in FIG. 9, which are respectively exposed at the injection inlets E2 on both sides of the nozzle support 104. As shown in FIG.

The cleaning nozzle 106 is connected to the second line L2 of Fig. The porcelain rim cleaning apparatus 153 has a hollow H between the nozzle body 102 and the cleaning nozzle 106 as shown in FIG. 9, but is not limited thereto. According to the second embodiment of the present invention, the ceramic rim cleaning apparatus 153 may have a filling member between the nozzle body 102 and the cleaning nozzle 106.

Figs. 10 and 11 are schematic views showing the pottery rim cleaning apparatus according to the third embodiment of the present invention at the seat of Fig. 5; Fig. Fig. 11 shows a pottery rim cleaning apparatus taken along section line III-III 'in Fig.

10 and 11, a pottery rim cleaning apparatus 155 according to a third embodiment of the present invention includes a nozzle body 112, a nozzle support 114 fixed to the nozzle body 112, and a nozzle body 112 And a cleaning nozzle 116 positioned within the nozzle support 114 and configured to be exposed from the nozzle support 114.

The nozzle support 114 protrudes from the nozzle body 112 and includes a plurality of openings 118 as shown in FIGS. However, the nozzle support 114 may include one opening 118 at the top. The cleaning nozzle 116 extends beyond the nozzle body 112 toward the nozzle support 114 and is connected to the plurality of openings 118 as shown in FIG.

The cleaning nozzle 116 is connected to the second line L2 in Fig. The porcelain rim cleaning apparatus 155 has a hollow H between the nozzle body 112 and the cleaning nozzle 116 as shown in FIG. 11, but is not limited thereto. According to a modification of the third embodiment of the present invention, the pottery rim cleaning apparatus 155 may have a filling member between the nozzle body 112 and the cleaning nozzle 116.

Figs. 12 and 13 are schematic views showing a pottery rim cleaning apparatus according to a fourth embodiment of the present invention at the seat of Fig. 5; Fig. Fig. 13 shows a pottery rim cleaning apparatus taken along the cutting line IV-IV 'in Fig.

12 and 13, a pottery rim cleaning apparatus 157 according to a fourth embodiment of the present invention includes a nozzle body 122, a nozzle support 124 fixed to the nozzle body 122, and a nozzle body 122 And a cleaning nozzle 126 positioned within the nozzle support 124 and configured to be exposed from the nozzle support 124.

The nozzle support 124 is located in the groove G1 of the nozzle body 122 and is surrounded by the nozzle body 122 and includes a plurality of openings 128 as shown in Figs. However, the nozzle support 124 may include one opening 128 at the top. The cleaning nozzle 126 extends beyond the nozzle body 122 toward the nozzle support 124 and is connected to the plurality of openings 128 as shown in FIG.

The cleaning nozzle 126 is connected to the second line L2 of Fig. The porcelain rim cleaning apparatus 157 has a hollow H between the nozzle body 122 and the cleaning nozzle 126 as shown in FIG. According to a modification of the fourth embodiment of the present invention, the ceramic rim cleaning apparatus 157 may have a filling member between the nozzle body 122 and the cleaning nozzle 126.

Fig. 14 is a schematic view showing a pottery rim cleaning apparatus according to a fifth embodiment of the present invention at the seat of Fig. 5; Fig.

14, a pottery rim cleaning apparatus 158 according to a fifth embodiment of the present invention includes a nozzle body 132, a nozzle support 134 fixed to the nozzle body 132, a nozzle body 132, And a cleaning nozzle (not shown) positioned within the nozzle support 134 and configured to be exposed from the nozzle support 134.

The nozzle body 132 extends along the rim of the toilet seat 60 of Fig. 5 and includes a groove G2 in the central region. The bottom surface S3 of the groove G2 may have an angled surface or a rounded surface. The nozzle support 134 is positioned in the groove G2 of the nozzle body 132 and protrudes from the nozzle body 132. The nozzle support 134 includes a plurality of openings 138, but is not limited thereto.

According to a modification of the fifth embodiment of the present invention, the nozzle support 134 may include one opening 138 at the top. The cleaning nozzle extends past the nozzle body 132 toward the nozzle support 134 and is connected to the plurality of openings 138. [ The cleaning nozzle is connected to the second line L2 of Fig.

According to another variant of the fifth embodiment of the present invention, the pottery rim cleaning devices 158 of Fig. 5 may extend along the rim of the toilet seat 60 and contact each other.

Fig. 15 is a schematic view showing a pottery rim cleaning apparatus according to a sixth embodiment of the present invention at the toilet seat of Fig. 5;

15, a pottery rim cleaning apparatus 159 according to the sixth embodiment of the present invention includes a nozzle body 144 and a cleaning nozzle 144, which is located in the nozzle body 144 and is formed to be exposed from the nozzle body 144. [ (Not shown in the drawing). The nozzle body 144 extends along the rim of the toilet seat 60 of Fig. 5 and includes a groove G3 in the central region and an opening 148 located in the groove G3.

However, the nozzle body 144 may include a plurality of openings 148 in the groove G3. The bottom surface S4 of the groove G3 may have an angled surface or a rounded surface. The cleaning nozzle is located under one opening 148 and is connected to one opening 148. The cleaning nozzle is connected to the second line L2 of Fig. According to a modification of the sixth embodiment of the present invention, the pottery rim cleaning devices 159 of Fig. 5 may extend along the rim of the toilet seat 60 and contact each other.

Next, a method of driving a hot water cleaner suitable for cleaning pottery according to embodiments of the present invention will be described with reference to Figs. 1 to 5, and 16 to 18.

FIG. 16 is a block diagram showing the connection relation of the water source to the components of the hot water scrubber of FIG. 1, and FIGS. 17 and 18 are flowcharts illustrating the method of driving the hot water scrubber of FIG.

1 to 5, and 16 to 18, when the user enters the toilet to use the hot water washer 210, the hot water washer 210 is operated in the initial state to turn the toilet seat 60 to the breaker 50 It can be covered as shown in Fig. Thereafter, power is supplied to the hot water supply structure 38 of the main body 30 according to the flowchart of Fig. 17 (S100).

The user can electrically connect the hot water supply structure 38 to the switchboard of the toilet using the drive device 40 of the hot water washer 210. [ The hot water supply structure 38 can be electrically connected to the toilet seat 60. The hot water washer 210 can separate the breaker 50 from the toilet seat 60 by using the hot water supply structure 38.

In this case, the breaker 50 can be rotated in the one direction R with respect to the connecting structure 34 and / or the hot water supply structure 38 of the body portion 30 as shown in Fig. The toilet seat rotation angle sensor 18 in the hot water supply structure 38 detects the rotation angle of the toilet seat 60 with respect to the connecting structure 34 and / or the hot water supply structure 38, .

According to the flowchart of Fig. 17, whether the user is seated on the toilet seat 60 is confirmed (S200). The hot water supply structure 38 includes a human body sensor 14. When the user is seated on the toilet seat 60, confirming whether or not the user seated is performed by sensing the user on the toilet seat 60 using the human body sensor 14 and generating a detection signal for the user And receiving a detection signal of the human body detection sensor 14 using the control unit 22. [

In the case where the user is not seated on the toilet seat 60, checking whether the user is seated includes continuously detecting the user's seating state on the toilet seat 60 using the human body sensor 14 do.

According to the flowchart shown in Fig. 17, the hot water supply structure 38 of the main body 30 is driven (S300). The water supply structure 38 is driven by supplying water from the water supply source 5 by using the water supply valve 21 and by using the control unit 30 to operate the hot water supply unit 23 The flow rate regulating device 25, the bidet nozzle device 27, the sterilizing water producing device 29 and the nozzle self generating device 29A are driven (S310, S330, S350, S370, S390) And spraying hot water and sterile water below the toilet seat 60 with the water forming.

To this end, the step (S310) of driving the hot water apparatus 23 is performed by heating the water in the hot water apparatus 23 with hot water in response to the control signal of the control section 30, And transfer hot water from the hot water device 23 toward the flow rate regulating device 25 accordingly.

The flow rate regulating device 25 is driven in step S330 by receiving hot water from the hot water device 23 in the flow rate regulator 25 in accordance with the control signal from the controller 30, And transferring the hot water from the flow rate regulating device 25 to the bidet nozzle device 27 and the sterilizing water producing device 29 in response to the control signal.

The operation of driving the bidet nozzle device 27 in S350 may be performed by receiving the hot water from the flow rate adjusting device 25 in the bidet nozzle device 27 in response to a control signal from the control unit 30, And spraying hot water from the bidet nozzle device 27 onto the user's body in response to the control signal of the bidet nozzle device 27. [

The operation of driving the sterilizing water generator 29 (S370) may be performed by receiving sterilizing water from the sterilizing water generator 29 in response to the control signal from the controller 30, 30 from the hot water in the sterilization water producing device 29 in response to the control signal of the sterilizer 30. The sterilized water includes ion clusters containing oxygen-based active species by electrically discharging hot water.

The operation of driving the nozzle self-cleaning device 29A (S390) is such that the sterilizing water is supplied from the sterilizing water producing device 29 in the nozzle self-cleaning device 29A in response to the control signal of the control section 30, And spraying sterilizing water from the nozzle self-cleaning device 29A toward the bidet nozzle device 27 in response to the control signal of the control unit 30. [

According to the flowchart of Fig. 17, it is confirmed whether or not the seat 60 is seated on the pottery 70 (S400). Confirmation of whether or not the toilet seat 60 is seated when the toilet seat 60 is seated on the pottery 70 is performed by using the toilet seat rotation angle detection sensor 18 to detect whether or not the toilet seat 60 is seated on the toilet seat 70 Sensing the rotation angle of the toilet seat 60 and generating a sensing signal for the rotation angle of the toilet seat 60 and receiving the sensing signal of the toilet seat rotation angle sensing sensor 18 using the control unit 22. [

Confirming whether or not the toilet seat 60 is seated in the case where the toilet seat 60 is not seated on the pottery 70 is confirmed by detecting the toilet seat rotation angle sensor 18 on the pottery 70 As shown in FIG.

According to the flowchart in Fig. 17, whether or not the user is seated on the toilet seat 60 is continuously checked (S500). When the user is seated on the toilet seat 60, continual confirmation of whether or not the user is seated is performed by sensing the user on the toilet seat 60 using the human body detection sensor 14, And continues to receive the sensing signal of the human body sensor 14 using the control unit 30 and to continue to operate the hot water supply structure 38. [

If the user is not seated on the toilet seat 60, continuously checking whether or not the user is seated can be accomplished by supplying a sensing signal of the user's seating condition on the toilet seat 60 from the human body detection sensor 14 It is possible to detect the departure of the user from the toilet seat 60 by using the control unit 30. [

According to the flowchart of Fig. 17, the pottery rim cleaning apparatus 29B of the toilet seat 60 is driven (S600). Driving the pottery rim cleaning device 29B when the control unit 30 detects the user's departure from the toilet seat 60 is performed by the pottery rim cleaning device 29B in response to the control signal of the control unit 30. [ The sterilizing water is supplied from the sanitizing water producing device 29 in the pottery rinsing section 29B and the sterilized water is supplied from the pottery rim cleaning device 29B in the pottery 70 in correspondence with the control signal of the control section 30, ) ≪ / RTI >

The porcelain rim cleaning apparatus 29B includes cleaning nozzles of Figs. 7, 9, 11, 13, 14 or 15 which open from the toilet seat 60 toward the pottery 70. Fig. The washing nozzle may spray sterilizing water from the toilet seat 60 toward the pottery 70. In this case, the sterilized water of the pottery rim cleaning apparatus can be reflected toward the pottery 70 using the light receiving damper 80 located at the edge of the toilet seat 60.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

5; Water source, 14, 18; Detection sensor
21; Water supply valve, 22; The control unit
23; Hot water system, 25; Flow control valve
27; Bidet nozzle device, 29; Sterilization water generating device
29A; A nozzle self-cleaning device, 30; The body portion
34; A connection structure, 38; Hot water supply structure
40; A driving device, 50; Change
60; A toilet seat, 70 pottery
75; Water tank, 80; Receiving dampers
92, 102, 112, 122, 132, 144; Nozzle body
94, 104, 114, 124, 134; Nozzle supports,
96, 106, 116, 126; Cleaning nozzle,
29B, 151, 153, 155, 157, 158, 159; Ceramic rim cleaning device,
CR; Cleaning area, H; Hollow
L1, L2, L3; Line, R; One direction

Claims (13)

Power is supplied to the main body which is electrically connected to each other on the pottery in the toilet,
Whether or not the user is seated on the toilet seat,
The hot water supply structure of the main body is driven,
Confirming whether or not the seat is seated on the pottery,
Continuing to confirm whether or not the user is seated on the toilet seat, and
And driving the pottery rim cleaning device of the toilet seat,
Wherein the hot water supply structure includes a control part electrically connecting to each other, a water supply valve, a hot water device, a flow rate control device, a bidet nozzle device, a sterilizing water generating device and a nozzle self-cleaning device,
Wherein at least one of the pottery rim cleaning apparatus is formed in the toilet seat. The method according to claim 1,
In order to supply the power source,
And electrically connecting the main body to the switchboard of the toilet. The method according to claim 1,
The hot water supply structure may further include a human body detection sensor,
In order to confirm whether or not the user is seated,
When the user is seated on the toilet seat,
Sensing the user on the toilet seat using the human body sensor, and generating a sensing signal for the user, and
And receiving the sensing signal of the human body sensor using the control unit. The method according to claim 1,
The hot water supply structure may further include a human body detection sensor,
In order to confirm whether or not the user is seated,
When the user is not seated on the toilet seat,
And continuously sensing the user's seating state on the toilet seat using the human body sensor. The method according to claim 1,
To drive the hot water supply structure,
Receiving water from the water supply source using the water supply valve, and
Wherein the controller controls the hot water device, the flow rate controller, the bidet nozzle device, the sterilizing water generator, and the nozzle self-cleaning device to drive hot water and sterilized water from the water, Hot water and spraying the sterilizing water. 6. The method of claim 5,
To drive the flow rate regulating device,
The hot water is supplied from the hot water device in the flow rate adjusting device corresponding to the control signal of the controller,
And transferring the hot water from the flow rate regulating device to the bidet nozzle device and the sterilizing water producing device in response to the control signal of the controller. 6. The method of claim 5,
To drive the sterilizing water producing apparatus,
The hot water is supplied from the flow rate adjusting device in the sterilizing water generator in response to the control signal of the controller,
And sterilizing water from the hot water in the sterilizing water generator in response to the control signal of the controller,
Wherein the sterilizing water comprises an ion cluster comprising an oxygen-based active species by electrically discharging the hot water. The method according to claim 1,
The hot water supply structure further includes a toilet seat rotation angle detection sensor,
In order to confirm whether or not the seat is seated,
When the toilet seat is seated on the pottery,
Sensing the rotation angle of the toilet seat with respect to the body portion using the toilet seat rotation angle detection sensor, and generating a sensing signal for the rotation angle of the toilet seat, and
And receiving the sensing signal of the toilet seat rotation angle sensor using the control unit. The method according to claim 1,
The hot water supply structure further includes a toilet seat rotation angle detection sensor,
In order to confirm whether or not the seat is seated,
When the toilet seat is not seated on the pottery,
And continuously sensing the seating state of the toilet seat on the pottery using the toilet seat rotation angle detecting sensor. The method according to claim 1,
The hot water supply structure may further include a human body detection sensor,
Continuously confirming whether or not the user is seated on the seat,
When the user is seated on the toilet seat,
Sensing the user on the toilet seat using the human body sensor, and continuously generating a sensing signal for the user,
The controller continuously receives the detection signal of the human body sensor using the control unit, and
And continuously driving the hot water supply structure. The method according to claim 1,
The hot water supply structure may further include a human body detection sensor,
Continuously confirming whether or not the user is seated on the seat,
When the user is not seated on the toilet seat, since the user does not receive the detection signal of the user's seating state on the toilet seat from the human body detection sensor, Detecting the temperature of the hot water. The method according to claim 1,
To drive the pottery rim cleaning device,
When the controller detects the departure of the user from the toilet seat,
Sterilizing water is supplied from the sterilizing water producing device in the ceramics rim cleaning device in response to the control signal of the controller,
And spraying the sterilizing water from the pottery rim cleaning device to the rim facing the toilet seat in the pot in response to the control signal of the controller. 13. The method of claim 12,
The pottery rim cleaning apparatus includes a cleaning nozzle which opens from the toilet seat toward the pottery,
And the washing nozzle injects the sterilizing water from the toilet seat toward the pottery.

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