JP4075541B2 - Flush toilet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a toilet that transports filth in a bowl portion of a toilet bowl to the outside of the toilet bowl using cleaning water and performs toilet cleaning.
[0002]
[Prior art]
Conventionally, in a toilet that discharges filth using siphon action, in order to discharge filth effectively, swirling water is used to wash the bowl surface, and the method of making filth move to the center easily Well known. However, since the water flow of washing water becomes weaker as it flows down the bowl surface, it is necessary to make the water flow stronger in order to swirl the drainage with a large amount of filth floating and discharge the filth. It is necessary to increase the bowl wash water discharge time, and for toilets that use tap water pressure, the minimum usable pressure range will be increased, and the bowl wash water discharge time will be extended. It became more and the user was getting worse.
On the other hand, in the conventional technology, a plurality of rim spouts for discharging cleaning water along the bowl surface are provided in the rim portion provided at the upper portion of the bowl portion, and swirling to the water stored in the bowl portion on the bowl surface. By providing a bowl spout for spraying wash water to give water, and supplying water to the rim spout after washing, combining the water supply control device that feeds water to the bowl spout effectively discharges dirt. Specifically, the water force from the bowl fountain installed in the water is directly transmitted to the stored water so that, for example, a vortex can be created when the water pressure is low. (For example, see Patent Document 1)
There exists patent document 2 as another literature.
[0003]
[Patent Document 1]
Japanese Unexamined Patent Publication No. 3-90756 (page 2-3, FIG. 1)
[Patent Document 2]
Japanese Patent Laid-Open No. 2002-88880 [0004]
[Problems to be solved by the invention]
However, recently, the amount of flush toilet water used tends to gradually decrease from 16 L / times to about 13 L / times, and from about 10 L / l times to 8 L / times. For this reason, the amount of stored water that floats filth is decreasing, and the area of the stored water is becoming smaller and the depth of the stored water is shallower. For this reason, the degree of freedom of movement of filth that floats on water in particular is lost. For example, even if the means shown in Patent Document 1 is used, it is difficult to create a vortex with a low water force. In addition, in the siphon-type toilet, the floating filth is sucked last, but the discharge timing becomes more severe due to the reduction of washing water, so the filth discharge capacity is insufficient just by creating a vortex. .
[0005]
[Means for solving the problems and actions / effects]
In order to achieve the above-mentioned goal, the invention of claim 1 is located in a rim water spouting part for discharging washing water from above the bowl part in order to wash the inner surface of the bowl part, and for draining the accumulated water. a jetting unit for jetting washing water toward the trap suction port, and the sub-jetting unit located near the trap suction port, a toilet bowl having a water discharge flow from the sub-jetting unit, the In order to stir the stored water up and down from near the surface of the stored water, the water swirls diagonally upward or diagonally downward along the wall surface of the bowl surface of the stored water.
When the specific gravity is light and the filth that floats near the water surface is discharged by siphon action, the discharge timing is just before the end of the siphon, and the discharge is likely to fail. As a means to suppress this phenomenon, swirl is generated so that the filth can be discharged to the center of the reservoir and discharged in a short time. However, in the case of filth with very low specific gravity such as diarrheal stool, it remains without being pulled in. There is a case. Therefore, by discharging the flow from a single water spray port provided around the bowl suction port along the side surface of the bowl surface, making a swirl flow along the wall surface and making the flow upward Create a flow that stirs the water in the vertical direction. By this flow, it is possible to move the filth floating near the pool surface to the bottom of the bowl surface, i.e., near the trap suction port, and effectively discharge the filth immediately after the siphon is generated. It will be possible to discharge effectively.
[0006]
According to a second aspect of the present invention, the rim water spouting portion discharges water in a horizontal direction from a single water spout provided at the upper rear of the bowl portion, and the discharged wash water circulates on the bowl surface. The inner surface of the bowl portion is washed.
With regard to swirling imparted to the stored water as a means to enhance the effect of discharging filth, first, the wash water discharged from a single nozzle installed at the rear of the bowl is itself a water spray port drilled in a conventional rim water passage. By combining the force that causes swirling of the stored water to be stronger than the flow from the water, and the force that causes swirling and agitation directly inside the stored water due to the flow from the single spray port provided in the bowl inlet. Can be discharged powerfully in a short time.
[0007]
The invention of claim 3 is the flush toilet according to claim 1 or 2, wherein water discharged from the sub jet injection section is performed prior to water discharge from the jet injection section. It is characterized by.
By discharging water from the water outlet for swirling and stirring the water prior to water discharged from the water outlet for raising the siphon, filth floating on the surface of the water that is difficult to discharge was submerged in the water. Later, a siphon state can be formed inside the trap so that dirt can be sucked into the trap. As a result, since the filth is discharged from the early stage of the siphon formation, the effective filth discharge time can be increased, and the capacity of the toilet can be increased and water saving can be realized.
[0008]
The invention according to claim 4 is the flush toilet according to claim 3, wherein when the replenishment is performed to return to the initial water amount after the drainage of the stored water, the rim water spouting portion and the sub jet It is characterized by discharging water simultaneously from the water discharging part.
In the series of cleaning processes of the siphon toilet, at the time of returning the accumulated water, which is the last process, water should be discharged simultaneously from the water inlet for washing the bowl surface and the water outlet for swirling and stirring the water. Thus, even if dirt remains on the bowl surface, it can be washed away by the swirling / stirring flow formed when the accumulated water accumulates.
[0009]
The invention of claim 5 is the flush toilet according to claim 3, wherein water is discharged only from the rim water discharge portion when replenishment is performed to return to the initial water amount after the drainage of the stored water. It is characterized by doing.
In the series of washing processes of the siphon toilet, when returning the accumulated water, which is the final process, when the accumulated water is discharged from the spout for swirling and stirring, and the accumulated water is accumulated, Since the amount of accumulated water is small, depending on the position of the nozzle, the flow discharged from the spray outlet is discharged while maintaining its water pressure in the atmosphere. As a result, there is a possibility of rising around the wall surface at the bottom of the bowl and jumping out of the toilet bowl.
Therefore, when returning the stored water, the stored water can be returned from a single water outlet provided at the rear of the bowl surface so that the stored water can be stored by discharging water so that the cleaning water does not come out. Can do.
[0010]
The invention of claim 6 is the flush toilet according to claim 2, wherein the rim water spouting part discharges washing water mixed with bubbles, and the washing water circulates on the bowl surface. In this case, the bowl is washed.
From the single water outlet provided at the rear of the bowl surface, the rim part provided at the top of the bowl discharges the flow of air bubbles in the horizontal direction, and the wash water circulates on the bowl surface to wash the bowl. Therefore, the washing water is divided into two flow paths. Although the volume of the wash water on the bowl surface will be insufficient due to the diversion, the volume and the discharge flow rate can be ensured by mixing bubbles in the wash water.
[0011]
The invention according to claim 7 is the flush toilet according to claim 1 or 2, wherein the washing water from the sub-jet injection section is jetted substantially horizontally. A guide for guiding water in a diagonally upward or diagonally downward direction along the wall surface and suppressing water splashing is formed on the inner surface of the ball portion.
By constructing a guide at the bottom of the bowl surface where the water injection port for swirling and swinging the stored water is constructed, the flow discharged from the water injection port is deflected by the guide, and the water is effectively swirled and stirred. It becomes possible to change to the flow to do.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a first embodiment of the present invention, showing an end surface of a flush toilet bowl cut along a center line, and FIGS. 2 to 5 are views of the toilet shown in FIG. The movement of washing water is shown in time series.
FIG. 6 shows the appearance of the flush toilet.
The flush toilet shown in FIGS. 1 to 6 is designed to wash the bowl surface 15 by discharging water horizontally from a single water outlet provided at the rear of the bowl surface and circulating the wash water on the bowl surface. A rim water spouting portion 18 that is a water jet port, a sub jet jet portion 16 that is a water jet port for swirling and stirring water, and a jet jet portion 3 that is a water jet port for causing siphons. The water jet sub-jet injection unit 16 for turning and swinging 17 is a single hole and opens near the trap suction port 5, and the discharged water flow is obliquely upward or diagonally along the wall surface of the bowl unit 15. It is installed to discharge downward.
FIG. 7 shows a water discharge sequence from the rim water discharge unit 18, the sub jet injection unit 16, and the jet injection unit 3 described above. Hereinafter, the state of cleaning will be described according to the water supply sequence.
[0013]
The pressurized cleaning water supplied from the water supply pipe 7 is distributed to the rim water supply pipe 11, the sub jet water supply pipe 13 and the jet water supply pipe 2 by the water supply valve 10. The flush water valve 10 is a sequential valve, and the pressurized flush water is discharged from the rim water supply pipe 11 and the sub-jet water supply pipe 13 earlier than the jet water from the jet water supply pipe 2.
The pressurized cleaning water supplied to the rim water supply pipe 11 is discharged from the rim water discharge section 18 and cleans the bowl section 15. The sub-jet water supply pipe 12 is provided with an electromagnetic valve 12, which is opened by a signal from a control unit that moves the valve 10, and the supplied pressurized cleaning water is discharged from the sub-jet injection unit 16, Turn and stir.
Thereafter, the pressurized washing water is discharged from the jet injection unit 3 toward the trap suction port 5.
[0014]
The flow discharged as a jet flow from the jet injection unit 3 enters the drainage trap 4 to create a siphon action. By this siphon action, the sewage stored in the bowl portion 15 is drawn and washed. Hereinafter, this state will be described with reference to FIGS. FIG. 1 shows an initial state in which cleaning water is not yet supplied. That is, the rim water spouting unit 18, the sub jet injection unit 16, and the jet injection unit 3 are not supplied with water.
[0015]
FIG. 2 shows a situation in which pressurized cleaning water is supplied to the rim water spouting unit 18 and the sub jet spraying unit 16 and cleaning of the bowl unit 15 and stirring of the stored water 17 are started.
The wash water discharged in the horizontal direction from the rim water discharge portion 18 which is a single water discharge port provided at the rear of the bowl surface spreads around the bowl portion 15 and cleans the bowl surface 15. Further, the cleaning water discharged from the sub-jet injection unit 16 through the sub-jet water supply pipe 13 is directly discharged into the stored water 17.
[0016]
FIG. 3 shows a situation when water supply to the rim water spouting unit 18 and the sub jet injection unit 16 continues further.
The stored water 17 is given a rotational motion by the wash water discharged in the horizontal direction from the rim water discharger 18. At the same time, the wash water discharged directly from the sub-jet injection unit 16 into the stored water 17 is discharged along the side surface of the bowl unit 15 and proceeds while creating a swirling flow along the wall surface of the bowl. Thus, a flow for stirring the accumulated water 17 in the vertical direction is created. By this flow, the filth that floats near the surface of the stored water 17 moves toward the bottom of the bowl surface 15, that is, near the trap suction port 5. In addition, for example, filth having a specific gravity greater than that of water may cause clogging by being concentrated in the vicinity of the trap suction port, but the lump is loosened by the above-described flow of stirring the accumulated water 17 in the vertical direction. It becomes a shape and can be effective in clogging defects.
[0017]
FIG. 4 shows a situation when the water supply from the rim water spouting unit 18 and the sub jet injection unit 16 is switched to the jet injection unit 3.
The washing water discharged from the jet spraying unit 3 also pushes the filth moved to the vicinity of the trap suction port 5 by the flow described above together with the surrounding sewage into the drain trap 14 at the same time, and siphon is formed simultaneously with the discharge of the filth. For this reason, it becomes possible to discharge filth very efficiently.
[0018]
In FIG. 5, after discharging the filth, the water supply to the jet injection unit 3 is stopped, and the situation in which the water is stored in the bowl unit 15 is shown.
The pressurized washing water supplied to the rim water supply pipe 11 is discharged from the rim water discharge section 18 and supplies the stored water to the bowl section 15. At this time, the electromagnetic valve 12 of the sub-jet water supply pipe 12 is closed by a signal from the control unit that moves the valve 10, so that the flow discharged from the sub-jet injection unit 16 maintains its water pressure in the atmosphere. As a result, it can be prevented from rising around the wall surface at the bottom of the bowl portion 15 and jumping out of the toilet.
[0019]
FIG. 8 shows a modification of the first embodiment of the present invention. An aeration unit 19 is attached in the middle of the rim water supply pipe 11. The pressurized cleaning water supplied from the water supply pipe 7 is distributed to the rim water supply pipe 11, the sub jet water supply pipe 13 and the jet water supply pipe 2 by the water supply valve 10. The flush water valve 10 is a sequential valve, and the pressurized flush water is discharged from the rim water supply pipe 11 and the sub-jet water supply pipe 13 earlier than the jet water from the jet water supply pipe 2.
The pressurized washing water supplied to the rim water supply pipe 11 is discharged from the rim water discharge section 18 by the air mixing unit 19 as a bubble flow containing bubbles. By including bubbles, the instantaneous flow rate increases, and as a result, the discharge flow rate of the cleaning water increases and the water force for cleaning the bowl portion 15 can be increased.
[0020]
FIG. 9 shows a water discharge sequence from the rim water discharge unit 18, the sub jet injection unit 16, and the jet injection unit 3 in a modification of the first embodiment of the present invention.
Replenishment of the stored water is performed through the sub jet injection unit 16 in addition to the water supply from the rim water discharge unit 18. As a result, the stored water 17 is swirled and stirred by the cleaning water discharged from the sub jet injection unit 16 when the stored water is replenished.
As a result, even if dirt remains on the bowl 15, it can be easily washed away by the swirling / stirring flow formed when the accumulated water accumulates.
[0021]
FIG. 10, FIG. 11 and FIG. 12 show a modification of the first embodiment of the present invention. In FIG. 10, the sub-jet injection unit 16, which is an injection port for swirling and stirring the stored water, is installed substantially horizontally to guide water discharged from the sub-jet injection unit 16 obliquely upward or diagonally downward along the wall surface. And the water discharge guide 21 for suppressing water splash is comprised by the bowl surface lower part.
FIG. 11 shows the toilet shown in FIG. 10 as viewed from directly above.
If the sub-jet injection unit 16, which is a water jet for turning and swinging the water storage 17, is installed at a lower part of the bowl surface 15 in order to facilitate the installation, it remains as it is along the wall surface. Therefore, it is difficult to make it flow diagonally up or down. Therefore, the water discharge guide 21 shown in FIGS. 10 and 11 is configured. Since the water discharge guide 21 is configured obliquely with respect to the bowl portion 15 as shown in FIG. 12, the flow that deflects the flow discharged from the sub-jet injection portion 16 and effectively swirls and agitates the accumulated water. Can be changed to
[Brief description of the drawings]
FIG. 1 is an end view of a flush toilet according to a first embodiment of the present invention cut along a center line.
FIG. 2 is an end view of the flush toilet bowl taken along the center line when washing water is flowing.
FIG. 3 is an end view of the flush toilet bowl cut along the center line when flush water is flowing.
FIG. 4 is an end view of the flush toilet bowl cut along the center line when washing water is flowing.
FIG. 5 is an end view of the flush toilet bowl taken along the center line when washing water is flowing.
FIG. 6 is an external view of a flush toilet according to the first embodiment of the present invention. FIG. 7 is a rim water discharge unit, a sub jet injection unit, and water discharge from the jet injection unit according to the first embodiment of the present invention. Sequence chart FIG. 8 is an end view of a flush toilet according to a modification of the first embodiment of the present invention, cut along a center line.
FIG. 9 is a water discharge sequence chart from the rim water discharge section, the sub jet injection section, and the jet injection section in a modification of the first embodiment of the present invention. FIG. 10 is a modification of the first embodiment of the present invention. The end view which cut | disconnected the flush toilet bowl shown along the centerline.
11 is a view of the toilet shown in FIG. 10 as viewed from directly above. FIG. 12 is a view showing the structure of the water discharge guide of the toilet shown in FIG.
DESCRIPTION OF SYMBOLS 1 ... Fixed nut 2 ... Jet feed pipe 3 ... Jet injection part 4 ... Drain trap 5 ... Trap suction port 6 ... Waste 7 ... Feed pipe 8 ... Stop cock 9 ... Lid 10 ... Valve 11 ... Rim feed pipe 12 ... Solenoid valve DESCRIPTION OF SYMBOLS 13 ... Sub jet water supply pipe 14 ... Rim 15 ... Bowl part 16 ... Sub jet injection part 17 ... Reservoir 18 ... Rim water discharge part 19 ... Bubble mixing unit 20 ... Bubble cleaning flow 21 ... Water discharge guide

Claims (7)

A rim water spouting part for discharging washing water from above the bowl part in order to wash the inner surface of the bowl part;
A jet injection unit that is located in the reservoir water of the bowl portion and injects cleaning water toward the trap suction port for draining the stored water;
A toilet having a sub-jet injection unit located near the trap suction port,
The discharged water flow from the sub-jet injection part swirls diagonally upward or diagonally downward along the wall surface of the bowl surface of the stored water so that the stored water is stirred up and down from near the surface of the stored water. A flush toilet. The flush toilet according to claim 1, wherein the rim water spouting portion discharges water horizontally from a single water spout provided at the upper rear of the bowl portion. The flush toilet bowl is characterized in that the inner surface of the bowl portion is washed by orbiting the bowl surface. The flush toilet according to claim 1 or 2, wherein water discharged from the sub-jet injection unit is performed prior to water discharge from the jet injection unit. toilet bowl. The flush toilet according to claim 3, wherein when replenishment is performed in order to return to the initial amount of water after the drainage of the accumulated water, water is simultaneously discharged from the rim water discharging unit and the sub jet water discharging unit. A flush toilet, characterized in that it performs. The flush toilet according to claim 3, wherein water is discharged only from the rim water discharge section when replenishment is performed in order to return to the initial water amount after drainage of the accumulated water. Formula toilet bowl. The flush toilet according to claim 2, wherein the rim water spouting portion discharges washing water mixed with bubbles, and the washing water circulates on the bowl surface to perform bowl washing. Featuring a flush toilet. The flush toilet according to claim 1 or 2, wherein the washing water from the sub-jet injection section is jetted substantially horizontally, and the washing water is obliquely raised along the wall surface. Alternatively, a flush toilet characterized in that a guide for guiding obliquely downward and suppressing water splash is formed on the inner surface of the ball portion.

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