JP4595222B2 - Flush toilet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a siphon toilet, and more particularly, an object of the present invention is to provide a siphon toilet with extremely low cleaning noise by reducing the breaking sound generated at the end of the siphon.
[0002]
[Prior art]
The siphon toilet bowl is designed to cause siphon action by temporarily filling the drainage channel with the supplied wash water, and discharging the waste in the toilet bowl together with the wash water. Therefore, it has an advantage that dirt is difficult to adhere.
[0003]
[Problems to be solved by the invention]
In a general siphon toilet, the water seal is cut at the end of the siphon action, and air is taken into the drainage channel, but at that time, a breaking sound is generated, which contributes to cleaning noise.
[0004]
[Means for Solving the Problems]
The present invention provides a means for reducing broken sound. The feature of the method adopted by the present invention for this purpose is that the wash water is supplied into the toilet bowl, and after the siphon action is generated, the surface of the reservoir is lowered, and air enters the trap drainage channel. It is to control the cleaning water velocity distribution around the air intrusion part.
In a normal toilet, when washing water flows in the trap by a siphon action, the flow speed is high in the central portion of the trap pipe and hardly flows in the vicinity of the trap wall surface. This creates a velocity distribution in the cross section of the trap tube.
The water surface is lowered by the generation of siphon, and when air enters the trap drainage channel, the specific gravity of air is lighter than that of water, so air tries to enter along the upper wall of the inner surface of the trap. In the vicinity of the trap wall, there is a large speed difference, and the gradient of the speed distribution is large, so that a force to shear is generated against the air tip that has entered. By this shearing, the air tip is torn off to generate bubbles, and noise is generated by the vibration of the bubbles.
By discharging the control water along the inner surface of the trap drainage channel, the slope of this velocity distribution is relaxed and the shearing force acting on the air tip is reduced, thereby suppressing the generation of bubbles and reducing bubble vibrations. Therefore, the generated noise can be suppressed.
[0005]
In a preferred aspect of the present invention, the cleaning mechanism is composed of a rim water discharging mechanism that discharges cleaning water from the upper surface of the toilet bowl and a jet water discharging mechanism that discharges cleaning water toward the inlet of the trap drainage channel, and the control water discharging unit is a trap. Water is discharged along the upper wall of the inner surface of the drainage channel ascending section.
While flushing the inner surface of the toilet bowl with the rim water discharge mechanism, it is possible to reliably raise siphons with the jet water discharge mechanism. As the siphon is generated, the surface of the accumulated water decreases, and air starts to enter along the upper surface of the inner wall of the trap exhaust pipe rising portion. By installing the control water discharger on the upper wall of the inner surface, it is possible to reduce the shearing force to the air front end portion that tries to enter along the upper wall.
Thereby, the generated noise can be suppressed.
[0006]
In a preferred embodiment of the present invention, the control water discharge section has a plurality of water discharge holes, and the discharge flow rates of the wash water discharged from the water discharge holes are different.
The swirling flow speed of the stored water stored in the toilet bowl differs depending on the angle and direction of the rim water discharged from the rim. Due to this influence, the speed in the width direction of the wash water sucked into the trap inlet has a difference, and accordingly, the distribution of the speed distribution in the trap width direction is made to wait for the distribution of the water discharge flow rate from each water discharge hole accordingly. The inclination can be relaxed.
Thereby, the generated noise can be suppressed.
[0007]
In a preferred embodiment of the present invention, the control water discharger includes a water supply source different from the water supply source to the cleaning mechanism.
In the case where the water supply source to the cleaning mechanism is a tightly coupled tank, the tank head is lowered as time passes due to water supply from the tank to the cleaning mechanism, so the water discharge amount of the control water discharge section also decreases with time. Therefore, by providing a dedicated pressurized water supply source to the control water discharger, a certain amount of water discharge can be maintained for a long time.
The pressurized water supply here means a generic name of those that exhibit a water supply pressure (source pressure) that cannot be obtained with a toilet-mounted washing water storage tank having a water head pressure of about 250 mm. Therefore, the pressurized water supply source of the present invention is capable of supplying cleaning water with a higher water head pressure than a toilet-mounted type, such as a house roof or a building roof, in addition to a pressurized water pipe such as a water pipe. Including things. Moreover, the water supply by a pump may be sufficient.
[0008]
In the preferable aspect of this invention, the control part for controlling the water discharge timing of a control water discharge part with the water discharge timing different from the water discharge timing of a washing | cleaning mechanism is provided.
Since the water discharged from the control water discharger exerts the effect of suppressing the noise when the air enters the trap inlet, the control water discharge may be performed accordingly.
Thereby, the water discharged from a control water discharging part can be saved.
[0009]
In a preferred aspect of the present invention, a sensor for detecting the washing state of the flush toilet is provided, a detection signal is transmitted to the control unit, and based on the detection signal, the control unit starts discharging water and ends discharging water from the control unit. To control.
Thereby, it can discharge in conjunction with a washing state.
[0010]
In a preferred embodiment of the present invention, the cleaning state is a change in the water level on the water surface, and the sensor is a water level detection sensor that detects a change in the water level on the water surface.
Thereby, it can discharge in conjunction with a water level.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Examples of the present invention will be described. FIG. 1 is a sectional view of a flush toilet according to the present invention. FIG. 2 is an enlarged view of the control water discharger.
As shown in FIG. 1, a flush toilet body 1 includes a toilet bowl 2 for storing stored water, an ascending portion and a weir connected at one end to the bottom of the toilet bowl 2 and the other end connected to an external discharge pipe (not shown). A reverse type S trap 3 including a descending portion and a valve unit 4 are provided. A water supply pipe 5 is connected to the valve unit 4, and cleaning water is supplied from a pressurized water supply source. Wash water is discharged from the rim 9 through the rim pipe 8 and the rim pipe 8 through the valve unit 4 and from the zip hole 7 installed to discharge the wash water toward the inlet of the trap 3 through the zip pipe 6. Water is discharged. In addition, a control water discharge pipe 10 is connected to the valve unit 4 to supply cleaning water to the control water discharge unit 11. The valve unit 4 operates according to a signal from the cleaning switch 12.
[0012]
The operation of the flush toilet according to this embodiment will be described.
When the toilet user operates the switch 12, the valve unit 4 starts supplying cleaning water to the jet pipe 6, the rim pipe 8, and the control water discharge pipe 10. The flush water of the rim pipe 8 is spouted from the rim 9 to wash the toilet bowl 2 and the surface of the stored water stored in the toilet bowl 2 rises, and the wash water of the jet pipe 6 is trapped from the jet hole 7. As the water is discharged toward the inlet of the water 3, the water in the ascending pipe of the trap 3 is rapidly pushed up, and the siphon is generated by filling the downcomer. When the siphon is generated, the surface of the accumulated water is lowered, and when the accumulated water surface is lowered to the vicinity of the upper surface of the trap inlet, the air starts to enter the trap. A general siphon toilet has a speed distribution as shown in FIG. 3 and a speed gradient is large at the air intrusion portion. As shown in FIG. 4, the control water is discharged from the control water discharge portion 11. The velocity gradient at the air intrusion portion is relaxed, and the shearing force acting on the air tip is reduced. As described above, the control water is discharged from the control water discharger 11 so that the inclination of the velocity field is alleviated and the noise generated when the air enters the trap when the siphon is out can be reduced. After a predetermined time elapses, the valve unit 4 stops water supply and the cleaning operation ends.
[0013]
Another embodiment will be described below. FIG. 5 is a cross-sectional view of a flush toilet according to the present invention. FIG. 6 is an enlarged view of the control water discharger.
As shown in FIG. 5, the flush toilet body 1 includes a toilet bowl 2 for storing stored water, an ascending portion and a weir connected at one end to the bottom of the toilet bowl 2 and the other end connected to an external discharge pipe (not shown). A reverse type S trap 3 including a descending portion and a valve unit 4 are provided. A water supply pipe 5 is connected to the valve unit 4, and cleaning water is supplied from a pressurized water supply source. The valve unit 4 operates according to a signal from the cleaning switch 12. Wash water is discharged from the rim 9 through the rim pipe 8 and the rim pipe 8 through the valve unit 4 and from the zip hole 7 installed to discharge the wash water toward the inlet of the trap 3 through the zip pipe 6. Water is discharged. In addition, a control water discharge pipe 10 is connected to the valve unit 4, and a valve body 13 is installed in the middle of the control water discharge pipe 10 to supply cleaning water to the control water discharge section 11. The valve body 13 is provided with a valve body drive device 14. The valve body drive device 14 performs an opening / closing operation in response to a signal from the control unit 15 incorporating a calculation function. A pressure detection sensor 16 is installed at the top of the trap 3, and a pressure detection signal is transmitted to the control unit 15.
[0014]
The operation of the flush toilet according to this embodiment will be described.
When the toilet user operates the switch 12, the valve unit 4 starts supplying cleaning water to the jet pipe 6 and the rim pipe 8. The flush water of the rim pipe 8 is spouted from the rim 9 to wash the toilet bowl 2 and the surface of the stored water stored in the toilet bowl 2 rises, and the wash water of the jet pipe 6 is trapped from the jet hole 7. As the water is discharged toward the inlet of the water 3, the water in the ascending pipe of the trap 3 is rapidly pushed up, and the siphon is generated by filling the downcomer. The pressure detection sensor 16 detects a pressure change in the trap 3 and transmits a signal to the control unit 15 having a built-in calculation function. When the siphon is generated, the surface of the accumulated water is lowered, and when the accumulated water surface is lowered to the vicinity of the upper surface of the trap inlet, the air starts to enter the trap. In response to a signal from the pressure detection sensor 16, the calculation function built in the control unit 15 calculates the time when the intrusion starts into the air trap and the time when the siphon ends. Based on the calculation result, the control unit 15 sends an open signal and a close signal to the valve body driving device 14. The valve body drive device 14 opens and closes the valve body 13 to start and end the water discharge from the control water discharge section 11. Thereby, the noise generated when entering the trap when the siphon is out can be reduced. After a predetermined time elapses, the valve unit 4 stops water supply and the cleaning operation ends.
[0015]
Another embodiment will be described below. FIG. 7 is a sectional view of a flush toilet according to the present invention. FIG. 8 is an enlarged view of the control water discharger.
As shown in FIG. 7, the flush toilet body 1 includes a toilet bowl 2 for storing stored water, a rising portion and one weir connected to an external discharge pipe (not shown) at one end connected to the bottom of the toilet bowl 2. A reverse type S trap 3 composed of a descending portion and a washing water storage tank 18 are provided. The washing water is discharged from the washing water storage tank 18 through the jet pipe 6 through the jet pipe 7 toward the inlet of the trap 3, and discharged from the rim 9 through the rim pipe 8. Is done. The washing water storage tank is operated by a signal from the washing switch 12. The control water discharge pipe 10 is supplied with cleaning water from a pressurized water supply source. A valve element 13 is installed in the middle of the control water discharge pipe 10 to supply cleaning water to the control water discharge unit 11. The control water discharger 11 has a plurality of water discharge holes, and the water discharge amount distribution is adjusted in advance to a flow rate corresponding to the swirling of the toilet bowl water. The valve body 13 is provided with a valve body drive device 14. The valve body drive device 14 performs an opening / closing operation in response to a signal from the control unit 15 incorporating a calculation function. A water level detection sensor 17 is installed in the toilet bowl 2, and a water level detection signal is transmitted to the control unit 15.
[0016]
The operation of the flush toilet according to this embodiment will be described.
When the toilet user operates the switch 12, the cleaning water storage tank 18 starts supplying cleaning water to the jet pipe 6 and the rim pipe 8. The flush water of the rim pipe 8 is spouted from the rim 9 to wash the toilet bowl 2 and the surface of the stored water stored in the toilet bowl 2 rises, and the wash water of the jet pipe 6 is trapped from the jet hole 7. As the water is discharged toward the inlet of the water 3, the water in the ascending pipe of the trap 3 is rapidly pushed up, and the siphon is generated by filling the downcomer. The water level detection sensor 17 detects a change in the water level of the water pool of the toilet bowl 2 and transmits a signal to the control unit 15 having a built-in calculation function. When the siphon is generated, the surface of the accumulated water is lowered, and when the accumulated water surface is lowered to the vicinity of the upper surface of the trap inlet, the air starts to enter the trap. Upon receiving a signal from the water level detection sensor 16, the calculation function built in the calculation unit 15 calculates the time when the intrusion starts into the air trap and the time when the siphon ends. Based on the calculation result, the control unit 15 sends an open signal and a close signal to the valve body driving device 14. The valve body drive device 14 opens and closes the valve body 13 to start and end the water discharge from the control water discharge section 11. Thereby, the noise generated when entering the trap when the siphon is out can be reduced. After a predetermined time has elapsed, the cleaning water storage tank 18 stops water supply, and the cleaning operation ends.
[0017]
【The invention's effect】
As can be seen from the above description, in the siphon toilet according to the present invention, it is possible to reduce noise generated when air enters when the siphon is out.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a flush toilet according to an embodiment of the present invention.
FIG. 2 is an enlarged view of a control water discharger according to an embodiment of the present invention.
FIG. 3 is a trap inlet velocity distribution of a normal siphon toilet.
FIG. 4 is a trap inlet velocity distribution according to an embodiment of the present invention.
FIG. 5 is a sectional view of a flush toilet according to an embodiment of the present invention.
FIG. 6 is an enlarged view of a control water discharger according to an embodiment of the present invention.
FIG. 7 is a cross-sectional view of a flush toilet according to an embodiment of the present invention.
FIG. 8 is an enlarged view of a control water discharger according to an embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Flush toilet body 2 ... Toilet bowl 3 ... Trap 4 ... Valve unit 5 ... Water supply pipe 6 ... Zet pipe 7 ... Zet hole 8 ... Rim pipe 9 ... Rim 10 ... Control water discharge pipe 11 ... Control water discharge part 12 ... Washing switch 13 ... Valve body 14 ... Valve body drive device 15 ... Control unit 16 ... Pressure detection sensor 17 ... Water level detection sensor 18 ... Washing water storage tank

Claims (7)

A stool for storing stored water, a trap drainage channel composed of an ascending portion, a weir and a descending portion communicating with the stool, for discharging water from a water supply source and discharging the trapped water from the trap drainage channel In a flush toilet equipped with a mechanism,
In order to control the velocity distribution of the flowing water flowing in the trap ascending portion during the flushing of the flush toilet using the washing mechanism, from the inlet of the trap drainage channel along the inner surface upper wall of the trap drainage channel ascending portion When a control water discharge unit that discharges the velocity field control water is provided on the upper inner wall of the trap drainage channel inlet, when air is going to enter from the trap drainage channel inlet along the upper wall of the trap inner surface as the water level drops A flush toilet that discharges velocity field control water from the control water discharger .   The cleaning mechanism is composed of a rim water discharging mechanism that discharges cleaning water from the upper surface of the toilet bowl and a jet water discharging mechanism that discharges cleaning water toward the inlet of the trap drainage channel, and the control water discharger is raised to the trap drainage channel. The flush toilet according to claim 1, wherein water is discharged along the upper wall of the inner surface of the unit.   The flush toilet according to any one of claims 1 and 2, wherein the control water discharger has a plurality of water discharge holes, and the water discharge flow rates of the wash water discharged from the water discharge holes are different from each other.   The flush toilet according to any one of claims 1 to 3, wherein the control water discharger includes a water supply source different from a water supply source to the cleaning mechanism.   The flush toilet according to any one of claims 1 to 4, further comprising a control unit for controlling the water discharge timing of the control water discharge unit at a water discharge timing different from the water discharge timing of the cleaning mechanism.   6. A sensor for detecting a washing state of the flush toilet is provided, a detection signal is transmitted to the control unit, and the start and end of water discharge of the control unit are controlled based on the detection signal. The flush toilet described.   The flush toilet according to claim 6, wherein the washing state is a change in the water level of the water surface, and the sensor is a water level detection sensor that detects a change in the water level of the water surface.

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