JP3885953B2 - Siphon-type toilet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a siphon-type toilet. More specifically, the present invention relates to a siphon-type toilet that reduces siphon-cutting sound that is generated by entraining air from the inlet of the ascending pipeline portion of the trap portion at the end of the siphon action.
[0002]
[Prior art]
In the conventional siphon type toilet, at the end of the siphon action, a large amount of air is involved in a short time from the inlet of the ascending pipeline, and a siphon break noise, which is loud and unpleasant noise, is generated. This siphon sound is generated when air that has entered the upper part of the inlet of the ascending pipeline from the bowl portion at the end of the siphon action is severely divided by the shearing force generated in the ascending pipeline.
As a method of reducing this siphoning noise, a large amount of air is trapped in a short time by providing a jet hole at a position higher than the inlet of the ascending pipeline, and discharging cleaning water from the jet hole at the end of the siphon action. There is known a method of reducing siphon breakage sound by preventing the entanglement from the inlet of the part. (For example, refer to Patent Document 1).
Further, as a conventional technique, a siphon type toilet having a jet hole for discharging washing water mixed with bubbles is known. (For example, refer to Patent Document 2). This siphon type toilet is designed to improve the cleaning effect and the water-saving effect by discharging cleaning water mixed with bubbles toward the bottom of the bowl portion.
[0003]
[Patent Document 1]
JP-A-9-177159 (first page, FIG. 1)
[Patent Document 2]
JP-A-6-299585 (first page, FIG. 1)
[0004]
[Problems to be solved by the invention]
However, when the washing water is discharged from a jet hole provided at a position higher than the inlet of the rising pipe at the end of the siphon action, a small amount of air is supplied to the rising pipe along with a large amount of washing water for a long time. The siphoning noise is reduced by slowly getting rid of the negative pressure generated by the siphoning effect from the entrance. Therefore, the cleaning water has to be discharged from the jet holes for a long time, and a large amount of cleaning water is required.
Moreover, since the siphon type toilet bowl provided with the jet hole which discharges the wash water mixed with air bubbles is intended to improve the cleaning effect and the water saving effect, no consideration has been given to the reduction of the siphon sound. For this reason, since the washing water mixed with bubbles is discharged toward the bottom of the bowl portion, the discharged bubbles often pass through the lower part of the inlet of the ascending pipeline portion. Therefore, it is difficult to secure a certain amount of air bubbles necessary for reducing the occurrence of siphon breakage at the upper part of the inlet of the ascending pipeline at the end of the siphon action. There was a drawback that it could not be reduced.
The present invention has been made to solve such a problem, and an object of the present invention is to provide a siphon-type toilet that reliably reduces the siphoning noise with a small amount of washing water.
[0005]
[Means for solving the problems and their functions and effects]
The siphon-type toilet according to claim 1, which has been made to solve the above-described problem, includes a bowl portion having a discharge port, a rising pipeline portion that forms a pipeline rising from an inflow port communicating with the discharge port, and A trap part that communicates with a descending pipe part that forms a pipe that is bent downward from the top of the ascending pipe part toward the downstream side, and air bubbles that are washing water in which air bubbles are mixed into the bowl part In a siphon-type toilet having a jet hole for discharging water , the inlet that is above the half of the vertical cross-section of the inlet in the vertical direction of the bubble mixed water discharged from the jet hole A bubble layer is discharged toward the upper half, and a bubble layer is formed at the upper part of the inlet. At the end of the siphon action, air is introduced into the bubble layer from the upper part of the inlet by a drop in the water level of the bowl part. It is characterized by that.
According to the present invention, the longitudinal section of the inflow port (the surface perpendicular to the floor surface on which the siphon type toilet is installed) is divided into approximately two equal parts in the vertical direction, toward the upper half of the inflow port, Bubbled water can be discharged from the jet holes. That is, the center of the water flow of the cleaning water discharged from the jet holes is discharged so as to be included in the upper half of the inlet that is above the lower half of the inlet in the vertical direction.
Therefore, since the bubbles contained in the bubble-containing water are lifted by buoyancy, by discharging the bubble-containing water from the jet holes toward the upper half of the inflow port, the air entry port that enters from the bowl portion at the end of the siphon action A bubble layer with a high bubble mixing rate can be formed on the upper part of the inlet.
Since the bubble layer has a low density, the shearing force acting on the object is small. Therefore, the air that has entered the upper part of the inflow port of the trap part from the bowl part at the end of the siphon action can be gently taken in, and siphoning noise can be reduced. Further, since the bubble-containing water is discharged from the jet holes, the amount of cleaning water can be reduced as compared with the case where only the cleaning water is discharged.
[0006]
Moreover, the siphon type toilet of the present invention is characterized in that the jet hole is provided in a substantially horizontal front of the upper half of the inflow port.
Therefore, it is possible to efficiently secure a certain amount or more of bubbles contained in the bubble mixed water discharged from the jet hole provided substantially in front of the upper half of the inflow port at the upper part of the inflow port. Can be reduced.
[0007]
Moreover, the siphon type toilet of the present invention is characterized in that the jet hole is provided so as to discharge the bubble-mixed water substantially parallel to the ascending pipeline.
Accordingly, it is possible to efficiently secure a certain amount or more of bubbles contained in the bubble-mixed water discharged substantially parallel to the ascending pipe portion at the upper part of the inflow port, and to reduce siphon sound.
In addition, since the bubble-containing water is discharged substantially parallel to the ascending pipeline portion, the ability to induce siphon action is high in the initial stage of cleaning, so that the cleaning effect can be improved.
[0008]
Further, the siphon type toilet of the present invention is provided with a branch part communicating with the opening opened to the atmosphere and the branch channel in the jet channel, which is a channel for supplying cleaning water to the jet hole, in the vicinity of the branch part. In addition, the present invention is characterized in that a throttle part for reducing the flow path is provided in the jet flow path upstream of the branch part.
Therefore, in order to increase the flow rate and decrease the pressure of the cleaning water that has passed through the throttle, air can be sucked into the cleaning water by the ejector effect and opened into the atmosphere of the branch channel. And there is no need to force air into the wash water. Therefore, it is not necessary to provide an apparatus such as a compressor, and the aeration apparatus can be configured simply and economically.
[0009]
Moreover, the siphon type toilet of the present invention is characterized in that the opening is provided at a position higher than the water level of the water in the bowl.
When cleaning water is not discharged from the jet holes, a hydrostatic pressure is applied to the jet flow path by the water stored in the bowl portion. For this reason, if the opening is provided at a position lower than the water level of the stored water in the bowl portion, the stored water will be discharged from the branch opening, so a check valve or the like must be provided.
Therefore, by providing the opening at a position lower than the water level of the water stored in the bowl, it is possible to prevent the water from being discharged from the opening and not to provide a check valve. It can be configured economically with a relatively simple device.
[0010]
Moreover, the siphon type toilet of the present invention is characterized in that the opening is provided toward the inside of the bowl.
Therefore, even when the cleaning water leaks from the opening, it is possible to prevent water leakage. Therefore, a highly safe opening can be configured.
[0011]
Moreover, the siphon type toilet of the present invention is characterized in that a jet channel area adjusting unit that adjusts the channel area of the washing water supplied from the branch part to the jet hole is provided in the jet channel. By adjusting the flow passage area of the cleaning water supplied from the branching portion to the jet holes, the amount of bubble mixed water or cleaning water discharged from the jet holes and the amount of air sucked from the opening or the amount of cleaning water discharged can be adjusted. . That is, the cleaning water can be discharged from the opening by closing the flow path area of the cleaning water supplied from the branching portion to the jet holes. Then, by increasing the flow passage area of the cleaning water supplied from the branch portion to the jet holes to some extent, the cleaning water can be discharged from the jet holes and the cleaning water can be discharged from the opening. Further, by enlarging the flow path area of the washing water supplied from the branch part to the jet hole, an ejector effect is generated, and air bubbles are mixed which is a washing water in which air is sucked from the opening part and air bubbles are mixed from the jet hole. Water can be discharged.
Therefore, since the discharge mode can be switched by one jet flow path area adjusting unit, a switching device that can select various discharge modes can be configured simply and economically.
[0012]
In addition, the siphon type toilet of the present invention controls the jet flow path area adjusting unit so that the cleaning water is discharged from the opening at the start of cleaning and the bubble mixed water is discharged from the jet hole and cleaned after a predetermined time. It is characterized by that.
Therefore, the jet flow path area is closed at the start of cleaning and the cleaning water is discharged from the opening, and after a predetermined time, the jet flow path area is opened and the bubble mixed water is discharged from the jet hole to perform cleaning. By controlling the flow path area adjusting unit, a cleaning method for switching the discharge can be configured simply and economically.
[0013]
Moreover, the siphon type toilet of the present invention is characterized in that an opening is provided in the upper part of the bowl portion.
Therefore, at the start of cleaning, the cleaning water is discharged from the opening provided in the upper part of the bowl part, the entire bowl part is cleaned from the upper part of the bowl part, and the bubble mixed water is discharged from the jet hole after a predetermined time. By performing cleaning, toilet cleaning can be completed with a simple and economical configuration.
[0014]
Moreover, the siphon type toilet of the present invention is characterized in that bubble mixed water, which is washing water mixed with bubbles, is discharged from the opening.
Accordingly, even when cleaning is started, the amount of cleaning water can be further reduced by discharging the bubble-containing water.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described below with reference to the drawings.
FIG. 1 shows a siphon type according to the present invention in which jet holes are provided so as to discharge air bubble mixed water toward the upper half of the inlet which is the upper part of the vertical section of the inlet divided into approximately equal halves. It is a longitudinal cross-sectional view which shows 1st embodiment of a toilet bowl.
In FIG. 1, the siphon toilet 1 includes a bowl portion 2 and a trap portion 3. The bowl part 2 has a discharge port 4. The trap portion 3 includes a rising conduit portion 6 that forms a conduit that rises from an inlet 5 that communicates with the discharge port 4, and a conduit that is bent downward from the top portion 7 of the rising conduit portion 6 toward the downstream side. It communicates with the descending pipe line part 8 forming
The water supply pipe 9 has a water supply valve 10 for turning ON / OFF the water supply and branches to connect to one end of a rim water supply valve 11 for turning ON / OFF the rim water supply and a jet water supply valve 12 for turning ON / OFF the jet water supply. To do. The other end of the rim water supply valve 11 is connected to the rim water passage 14 via a rim water supply pipe 13, and the other end of the jet water supply valve 12 is provided at the lower part of the bowl portion 2 via a jet water supply pipe 15 that is a jet flow path. To the jet hole 16 formed.
The jet water supply pipe 15 includes a branch pipe 19 having a branch portion 17 and branching, and having an opening 18 as the other end. At this time, the branch pipe 19 is provided through a penetrating portion 20 provided penetrating the upper portion of the bowl portion 2.
[0016]
Moreover, the control part 21 which controls the water supply valve 10, the rim water supply valve 11, and the jet water supply valve 12 by the washing | cleaning starting input from an operation part (not shown) is provided.
When a cleaning switch or the like of the operation unit is pressed and a cleaning activation input is given to the control unit 21, the control unit 21 first drives the water supply valve 10 and the rim water supply valve 11 to the open state. Accordingly, the cleaning water is supplied to the bowl portion 2 from a plurality of rim spray holes (not shown) provided in the lower portion of the rim water passage 14 via the rim water supply pipe 13 and the rim water passage 14. As the cleaning is performed, the water level of the bowl portion 2 rises. And the trap part 3 will be filled with washing water, and a siphon action will generate | occur | produce.
Next, the control unit 21 drives the rim water supply valve 11 to a closed state and drives the jet water supply valve 12 to an open state. Accordingly, the cleaning water is supplied to the jet water supply pipe 15, and air is sucked from the opening 18 provided at the upper part of the bowl portion 2 by the ejector effect generated in the branch portion 17, and the trap portion 3 is discharged from the jet hole 16. The bubble-containing water is discharged toward the upper half of the inlet, which is the upper part of the vertical section of the inlet 5 divided into approximately two equal parts in the vertical direction. As a result, since the bubbles contained in the bubble-mixed water are lifted by buoyancy, a bubble layer having a large bubble mixing rate is formed above the inflow port 5.
Therefore, when the generated siphon action is cut off, that is, when the cleaning water of the bowl part 2 is drawn to the trap part 3 and the water level of the bowl part 2 is lowered and air enters from the upper part of the inlet 5, The air enters the bubble layer.
Since the bubble layer has a low density, the shearing force acting on the object is small. Therefore, the air that has entered the upper part of the inflow port of the trap portion can be gently taken in, and siphon sound can be reduced.
Finally, the control unit 21 drives the jet water supply valve 12 to the closed state and drives the rim water supply valve 11 to the open state. Thereby, wash water is supplied to the bowl part 2, the bowl part 2 is sealed, and toilet bowl washing is completed.
At this time, since the opening 18 is provided at a position higher than the water level of the accumulated water, even when the hydrostatic pressure of the accumulated water acts when the jet water supply valve is closed, the accumulated water is discharged from the opening. There is no leakage.
In the present embodiment, the siphon-type toilet that generates the siphon action only by the rim water supply has been described, but the same applies to the siphon-type toilet that generates the siphon action by the rim water supply and the jet water supply.
[0017]
FIG. 2 is a longitudinal sectional view schematically showing an embodiment when the AA section of FIG. 1 is viewed from the front.
In FIG. 2, when the inflow port 5 is divided into approximately equal parts in the vertical direction, the upper part is referred to as an inflow port upper half part 31.
[0018]
FIG. 3 is a longitudinal sectional view schematically showing an embodiment of the bubble-containing water discharged from the jet holes of FIG.
In FIG. 3, the bubble-mixed water discharged from the jet holes 16 reaches the inlet upper half portion 31 of the inlet 5 via the trajectory 41.
[0019]
FIG. 4 is a longitudinal sectional view schematically showing a second embodiment of the siphon-type toilet of the present invention in which jet holes are provided in a substantially horizontal front of the upper half of the inflow port.
In FIG. 4, the bubble-mixed water discharged from the jet holes 16 reaches the inlet upper half 31 of the inlet 5 via the trajectory 41.
FIG. 5 is a longitudinal sectional view showing an embodiment of the siphon-type toilet of the present invention in which a jet water supply pipe is provided with a branch portion and a throttle portion.
A jet water supply pipe 15 that supplies cleaning water to the jet holes 16 is provided with a branch portion 17 where a flow path branches, and a branch pipe 19 is provided. Further, in the vicinity of the upstream side of the branch part 17, a throttle part 51 that reduces the flow path of the jet water supply pipe 15 is provided.
[0021]
FIG. 6 is a longitudinal sectional view showing a first embodiment of the siphon-type toilet of the present invention provided with a jet flow passage area adjusting unit.
In FIG. 6, the water supply pipe 9 is connected to one end of a jet water supply valve 12 that turns ON / OFF the water supply to the jet water supply pipe 15. The other end of the jet water supply valve 12 is connected to one end of a jet channel area adjusting unit 61 that adjusts the channel area of the cleaning water supplied from the branch unit 51 to the jet hole 16 via the branch unit 51. The other end of the branch pipe 19 having the branch portion 51 as one end is connected to the rim water passage 14.
Moreover, the control part 21 which controls the jet water supply valve 12 and the jet flow path area adjustment part 61 by the washing | cleaning starting input from an operation part (not shown) is provided.
[0022]
When a cleaning switch or the like of the operation unit is pressed and a cleaning activation input is given to the control unit 21, the control unit 21 first drives the jet water supply valve 12 to an open state. Accordingly, the cleaning water is supplied to the bowl portion 2 from the plurality of rim spray holes (not shown) provided in the lower portion of the rim water passage 14 via the branch portion 51 and the rim water passage 14, and the bowl portion 2 is washed. And the water level of the bowl part 2 rises. And the trap part 3 will be filled with washing water, and a siphon action will generate | occur | produce.
Next, the control part 21 drives the jet flow path area adjustment part 61 to a valve opening state. Thereby, due to the ejector effect generated in the branching portion 17, the air is sucked from the opening portion 18, and the upper portion of the vertical section of the inflow port 5 of the trap portion 3 from the jet hole 16 is equally divided into two. Bubbling water is discharged toward the upper half of the inlet. As a result, since the bubbles contained in the bubble-mixed water are lifted by buoyancy, a bubble layer having a large bubble mixing rate is formed above the inflow port 5.
Therefore, when the generated siphon action is cut off, that is, when the cleaning water of the bowl part 2 is drawn to the trap part 3 and the water level of the bowl part 2 is lowered and air enters from the upper part of the inlet 5, The air enters the bubble layer.
Since the bubble layer has a low density, the shearing force acting on the object is small. Therefore, the air that has entered the upper part of the inflow port of the trap portion can be gently taken in, and siphon sound can be reduced.
Finally, the control unit 21 drives the jet flow path area adjustment unit 61 to the valve closing state. As a result, the wash water is supplied to the bowl portion 2 from the plurality of rim spray holes (not shown) provided in the lower portion of the rim water passage 14 via the branch portion 51 and the rim water passage 14, and the bowl portion 2 is sealed. Water is done.
[0023]
FIG. 7 is a longitudinal sectional view showing a second embodiment of the siphon-type toilet of the present invention provided with a jet flow passage area adjusting portion.
In the present embodiment, the jet flow path area adjusting unit 61 is provided on the upstream side of the jet water supply pipe 15.
The other end of the branch pipe 19 is connected to an opening 18 provided in the upper part of the bowl part 2. Further, the branch pipe 19 has an air suction port 71 for sucking air by an ejector effect, and discharges the bubble mixed water mixed with air.
[Brief description of the drawings]
FIG. 1 is a diagram in which jet holes are provided so as to discharge bubble-containing water toward the upper half of the inlet, which is the upper part of the longitudinal section of the inlet that is substantially bisected in the vertical direction. It is a longitudinal cross-sectional view which shows 1st embodiment of the siphon type toilet bowl of invention.
FIG. 2 is a vertical cross-sectional view schematically showing an embodiment when the AA cross section of FIG. 1 is viewed from the front.
FIG. 3 is a longitudinal sectional view schematically showing an embodiment of bubble-mixed water discharged from the jet holes of FIG. 1;
FIG. 4 is a longitudinal sectional view schematically showing a second embodiment of the siphon-type toilet of the present invention in which jet holes are provided in a substantially horizontal front of the upper half of the inflow port.
FIG. 5 is a longitudinal sectional view showing an embodiment of a siphon toilet of the present invention in which a jet water supply pipe is provided with a branch portion and a throttle portion.
FIG. 6 is a longitudinal sectional view showing a first embodiment of a siphon-type toilet of the present invention provided with a jet flow path area adjusting unit.
FIG. 7 is a longitudinal sectional view showing a second embodiment of the siphon-type toilet of the present invention provided with a jet flow path area adjusting unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Siphon type toilet 2 ... Bowl part 3 ... Trap part 4 ... Discharge port 5 ... Inlet 6 ... Ascending pipe part 7 ... Top part 8 ... Down line part 9 ... Water supply pipe 10 ... Water supply valve 11 ... Rim water supply valve DESCRIPTION OF SYMBOLS 12 ... Jet water supply valve 13 ... Rim water supply pipe 14 ... Rim water passage 15 ... Jet water supply pipe 16 ... Jet hole 17 ... Branching part 18 ... Opening part 19 ... Branching pipe 20 ... Through part 21 ... Control part 31 ... Upper half of inlet Part 41 ... Trajectory 51 ... Restriction part 61 ... Jet flow path area adjustment part 71 ... Air inlet

Claims (1)

A bowl portion having a discharge port, a rising pipeline portion that forms a pipeline rising from an inflow port communicating with the discharge port, and a pipeline bent downward from the top of the rising pipeline portion toward the downstream side A siphon-type toilet comprising: a trap portion that communicates with a descending pipeline portion that forms a gas; and a jet hole that discharges bubble-containing water that is washing water in which bubbles are mixed into the bowl portion. The bubble-mixed water discharged from the outlet is discharged toward the upper half of the inlet, which is the upper part of the vertical section of the inlet divided into approximately two equal parts, and a bubble layer is formed on the upper part of the inlet. A siphon-type toilet, wherein the air bubble is formed so that air enters the bubble layer from the upper part of the inlet by a drop in the water level of the bowl part at the end of the siphon action . "

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