JP2003096887A - Flush toilet bowl - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that in a conventional flush toilet bowl of which the whole length is 700 mm or less and the size of a water storing surface is 180 mm×140 mm or more, and in which water is discharged from a jet water discharging port toward a trap inlet, when a washing water flow rate that can be used for toilet bowl washing at a time is made small so as to meet the demand of water saving, and also, the toilet bowl washing is executed by using limited energy supplied from a water supply pipe in an ordinary home, there is still a large loss and a discharge performance of filth is insufficient. SOLUTION: The upstream side from a trap weir part is squeezed to an extent that it does not interfere with the passing of the filth in order to effectively transmit the energy of the washing water from the jet water discharging port to the washing water inside the trap and the filth in it, and also, the cross- section of the jet nozzle is so shaped as to gradually open toward the outlet.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a so-called tankless flush toilet with a total length of 700 mm or less, which is a zet for selectively supplying flush water to a bowl portion of a toilet bowl and a trap water passage to discharge waste. 18 is a compact toilet bowl, and the area of the reservoir surface is specified as a siphon toilet bowl in JIS (1995 JIS standard A5207).
0 mm × 140 mm to 240 mm × 200 mm, preferably 240 mm specified as a siphon-jet toilet bowl
The present invention relates to a flush toilet bowl having a water storage surface having a size of 200 mm or more.

[0002]

2. Description of the Related Art Consumers are demanding products that have a barrier-free perspective toward an aging society. Regarding the toilet room, it is desired to secure a space with a distance of about 400 mm to 500 mm from the toilet bowl tip to the toilet room wall or the door of the entrance / exit so that elderly people and people with disabilities can use it without any inconvenience. . Therefore, considering that the depth of a general toilet room is 1200 mm, it is necessary to select a toilet bowl having a total length of 700 mm or less.

However, most of the toilet bowls of recent years have a total length of more than 700 mm even if functionality and comfort are emphasized. For example, the main toilet “Restica ^™ ” manufactured and sold by the applicant has a total length of 793 mm from the leading end to the trailing end of the toilet bowl.
It secures a sufficient water surface of mm x 140 mm or more and a seating area for the user to improve comfort, and it is possible to attach a warm water washing toilet seat. In addition, as for the function of discharging filth, a trap structure that induces a siphon action is provided, and thus the function of discharging filth required for toilet bowls is secured.

On the other hand, there is also a compact toilet bowl having a total length of 700 mm or less, for example, the C manufactured and sold by the applicant.
Although the 14-type stool toilet is very compact with a total length of 480 mm, the method of discharging sewage is so-called a wash-down method, in which the sewage is pushed away by the action of running water due to the water drop, and the structure is simple and compact. On the other hand,
Since the water storage surface is narrow, the exposed portion inside the ball is wide, and dirt easily adheres to the dried bowl portion, and the seating area of the toilet seat is small, which gives the user a cramped feeling.

Looking at the flush valve type toilet bowl that is installed in public facilities, for example, the C426 type sitting toilet bowl manufactured and sold by the applicant has a total length of 6
It is 89 mm and less than 700 mm, but a flush toilet using a flush valve requires 100 L / min or more as the water supply flow rate per unit time, and it is a 1-inch pipe called 25 A as in public facilities. There is no problem if it is installed in the area, but as will be described later, it cannot be used in a general household with a small amount of water supply per unit time. That is, as an indoor water supply pipe in a general household, JIS standard G3442 15
Since 1/2 inch piping called A is used, and the flow rate of water supply per unit time is as low as 20 to 30 L / min, it is difficult to flush the toilet with the flush valve method, and thus flushing stored in the low tank. The mainstream method is to wash the toilet with water.

When the low tank is installed behind the toilet bowl, the total length of the toilet bowl becomes inevitably long, so the total length of the toilet bowl is 700 m.
In order to suppress the following m, for example, as implemented in the "Resutoparu ^TM" the applicant has manufactured and sold, the and wider than the width of the toilet body low tank, front and rear while ensuring the volume of the tank 690mm, suppressing the depth of direction
There is also a method of realizing the full length of. However, such a method has a problem that it is necessary to store the low tank in the cabinet so as to conceal it from the viewpoint of design. For this reason, there is a demand for a toilet bowl with a total length of 700 mm or less that enables cleaning of the toilet bowl and discharge of filth under the water supply conditions for general households (water supply flow rate per unit time is about 20 to 30 L / min) without providing a low tank. There is.

As a technique for discharging waste without using a low tank, there is a method of supplying cleaning water selectively to the bowl portion of the toilet bowl and the trap water passage to discharge the waste. More specifically, the rim spout that spouts water into the bowl of the toilet bowl and the zet spout that faces the trap entrance are connected to a water supply source by a water supply channel of another system,
By successively supplying water to the water supply passage, cleaning water is supplied from the rim water discharge port and the Z water discharge port.

[0008]

When cleaning is performed using pressurized cleaning water to which pressure from the water supply source is applied without using such a low tank, in order to improve the drainage performance of the waste water, Although increasing the amount (prolonging the water supply time) can be mentioned, in order to protect the global environment and respond to recent requests from the government to save water, the flow rate of cleaning water that can be used for one toilet flush must be reduced. I'm losing profit.
And, the energy supplied from the water supply pipe in a general household is limited, and when using the limited pressurized cleaning water as a jet water jet for toilet cleaning, separate the rim cleaning and the jet water spout. Therefore, it is required to devise such measures as securing as much as possible the instantaneous flow rate of washing water ejected from the jet water outlet and inducing a siphon action.

Recently, so-called tankless toilet bowls having a total length of 700 mm or less have appeared,
If the drainage performance is insufficient due to the forcibly shortening the total length, the water supply pressure from the water supply source is low, and the water supply flow rate is lower than the desired flow rate (for example, a high-rise condominium), wash once Then, it was not possible to flush it, and repeated washing twice and three times, resulting in the problem of consuming a large amount of washing water.

The present invention has been made in view of the above circumstances, and is a flush toilet which can be installed in a general household,
A compact flush type that can prevent the adhesion of filth to the bowl by securing the space required for the toilet by keeping the total length of the toilet bowl to 700 mm or less and securing sufficient filth discharge capacity (water rinsing capacity) and sufficient reservoir surface. The purpose is to provide a toilet bowl.

[0011]

[Means for Solving the Problems and Actions / Effects] In order to achieve the above-mentioned object, the first aspect of the present invention is to provide a flushing type large-scale apparatus for selectively supplying flush water to a bowl portion of a toilet bowl and a trap water passage to discharge waste. In the toilet bowl, the total length is 700 mm or less, and the size of the reservoir surface is JIS A 5207 (1
It is 180 mm × 140 mm or more in conformity with 995), and the minimum inner cross-sectional area of the trap tube above the water surface is configured in the range of 23.8 cm ² to 28.3 cm ² to generate a siphon action. To do.

The toilet bowl is composed of a bowl portion for receiving the discharge of filth by the user and a trap portion generally located behind the bowl portion for discharging the filth to the outside of the toilet bowl.
Since the size of the bowl portion is closely related to the size (size) of the toilet seat on which the user actually sits, making this portion short (small) impairs the usability. Further, as described above, it is preferable to secure a sufficient reservoir surface in order to prevent the attachment of dirt, and from this point as well, the bowl portion is required to have a certain size. Therefore, in order to construct a compact toilet bowl having a total length of 700 mm or less, it is preferable to design the structure of the trap portion so as to be compact and have a sufficient waste discharge capacity. here,
The trap section is composed of an upstream ascending tube and a downstream ascending tube with the weir section as a boundary. Wash water is discharged from the nozzle toward the rising pipe, and the energy is transferred to the washing water and dirt while diffusing inside the rising pipe. At this time, in order to shorten the length of the trap part in the front-rear direction, if the rising pipe is shortened and the rising angle of the rising pipe is made large, heavy waste such as stool cannot pass over the trap weir part. , It will affect the discharge of filth.

According to the first aspect of the present invention, the minimum inner cross-sectional area of the trap tube above the reservoir surface is 23.8 cm ^2- .
It becomes possible to fill the inside of the trap tube with water when cleaning by configuring it in the range of 28.3 cm ² , which induces a siphon action, and heavy filth that was difficult to cross the trap weir part in the conventional toilet bowl, The negative pressure generated by the siphon action can be effectively discharged to the outside of the toilet bowl.

According to a second aspect of the present invention, there is provided a flush toilet which selectively supplies flush water to the bowl portion of the toilet bowl and the trap water passage to discharge dirt, and has a total length of 700 mm or less and a reservoir surface size. JIS A 5207 (199
According to 5), it is 180 mm × 140 mm or more, and the siphon action is generated by setting a radius of curvature of part or all of the trap weir portion in a vertical cross section at the center line of the toilet bowl to 40 mm to 60 mm. As described above, in order to realize a compact toilet bowl having a total length of 700 mm or less, it is preferable to design the structure of the trap portion so as to be compact and have a sufficient waste discharge capacity. However, a trap shape having a short length is harder than ordinary stool, such as constipation, and sewage having a large diameter and a large length is likely to be clogged when passing through the weir. Further, if the trap weir portion is formed in an acute angle to make it compact, the phenomenon of peeling of the washing water occurs and it becomes impossible to induce the siphon action. Therefore, in the invention according to claim 2, the radius of curvature of part or all of the trap weir portion in the vertical cross section at the center line of the toilet bowl is set to 40 mm to 60 mm, so that the filth can pass without being significantly deformed. At the same time, the siphon action is generated, and the waste can be efficiently discharged to the outside of the toilet bowl.

According to a third aspect of the present invention, the minimum inner sectional area of the trap tube above the water level of the flush toilet is 23.8 cm ² to.
It is characterized in that it is configured in a range of 28.3 cm ² . Set the minimum internal cross-sectional area of the trap tube above the reservoir surface to 23.8c
By configuring in the range of m ^{2 to} 28.3 cm ² , it becomes possible to fill the inside of the trap tube with water during cleaning, and in combination with the improvement of the trap weir part, a siphon action is induced to effectively remove the waste. Can be discharged outside.

According to a fourth aspect of the present invention, there is provided a flush toilet in which flush water is independently supplied to the bowl portion of the toilet bowl and the trap water passage to discharge filth, and the total length is 700 mm or less, and the size of the reservoir surface is JIS A 5207 (199
According to 5), it is 180 mm × 140 mm or more, and the nozzle water passage attached to the jet water outlet has a cross-sectional shape that gradually opens toward the outlet direction. As described above, in order to realize a compact toilet bowl having a total length of 700 mm or less, it is preferable to design the structure of the trap portion so as to be compact and have a sufficient waste discharge capacity. Here, the trap portion includes an upstream ascending pipe and a downstream ascending pipe with the dam portion as a boundary. Wash water is discharged from the nozzle toward the rising pipe, and the energy is transferred to the washing water and dirt while diffusing inside the rising pipe. At this time, in order to shorten the length of the trap portion in the front-rear direction, if this rising pipe is shortened, energy transfer due to the water discharge flow from the nozzle becomes insufficient, and
If the rising angle of the rising pipe is set large, heavy waste such as stool cannot pass through the trap weir, and the discharge of waste will be affected. According to the invention of claim 4,
In a flush toilet that discharges water from the jet water outlet toward the trap inlet, the nozzle attached to the jet portion has a cross-sectional shape that gradually opens toward the outlet so that the water jet flow from the nozzle is more diffused. By making the jet flow and transferring energy to the dirt and wash water in a short distance when advancing in the trap part ascending path, it is possible to secure a sufficient flush function in a compact toilet bowl having a total length of 700 mm or less.

A fifth aspect of the present invention is characterized in that the flow rate from the nozzle water passage attached to the jet outlet is 18 L / min or more. By ensuring a water supply flow rate per unit time from the ZET nozzle water passage of 18 L / min or more, it becomes possible to reliably transfer energy to the dirt and wash water in a short distance when traveling in the trap portion rising passage, and the total length. A sufficient flushing function can be ensured in a compact toilet bowl of 700 mm or less.

A sixth aspect of the present invention is characterized in that the trap cross-section tube has an inner cross-sectional area in the range of 23.8 cm ² to 28.3 cm ² . The inner cross-sectional area of the trap tube is 23.8 cm
The relatively narrow pipe in the range of ^{2 to} 28.3 cm ² enables the cleaning water in the trap and the cleaning water in the trap to be more effectively diffused without unnecessarily diffusing the energy of the cleaning water discharged from the jet outlet. It becomes possible to convey to the filth in it, and it is possible to realize a sufficient flushing function in a compact toilet bowl having a total length of 700 mm or less.

According to a seventh aspect of the present invention, the slope of the wall surface of the bowl portion of the flush toilet up to a position of about 30 mm above the reservoir position is steeper than the other portions of the bowl portion. As a toilet bowl cleaning sequence, there are cases in which the bowl is first cleaned, and then the waste is discharged, for example, with a time lag. In this way, if there is a time lag between the cleaning of the bowl and the start of waste discharge, the water level on the water surface of the bowl temporarily rises when the cleaning water is added to the bowl. By making the inclination of the wall surface up to a position of about 30 mm steeper than that of the other part of the bowl portion, the effect of raising the accumulated water position is promoted, and the head pressure is increased to enhance the effect of discharging waste. be able to.

The eighth aspect of the present invention is characterized in that the internal cross-sectional area of the trap tube downstream of the top of the trap weir is 33.2 cm ² or more. By securing an internal cross-sectional area of 33.2 cm ² (equivalent to φ65 mm) or more downstream from the top of the trap weir, for example, a constrained constipation stiffer than ordinary stool, and a weir portion of a large diameter and length. Sufficient clearance can be taken during passage, and it can be smoothly discharged into the drainage pipe.

According to a ninth aspect of the present invention, there is provided a tankless flush type toilet bowl having a toilet bowl cleaning means for cleaning the toilet bowl body with cleaning water supplied from a water supply source without providing a low tank for toilet bowl cleaning, and having a total length of 700 mm or less. And the size of the water collecting surface is 180 mm × 140 mm or more in accordance with JIS A5207 (1995), and the minimum inner cross-sectional area of the trap tube above the water collecting surface is 23.8 cm.
It is characterized in that it is constructed in a range of ^{2 to} 28.3 cm ² to generate a siphon action. As mentioned above, the total length is 700 mm
In order to realize the following compact toilet bowl, it is preferable to design the structure of the trap portion to be compact and to have a sufficient waste discharge capacity. Here, the trap portion includes an upstream ascending pipe and a downstream ascending pipe with the dam portion as a boundary. Wash water is discharged from the nozzle toward the rising pipe, and the energy is transferred to the washing water and dirt while diffusing inside the rising pipe. At this time, in order to shorten the length of the trap part in the front-rear direction, if the rising pipe is shortened and the rising angle of the rising pipe is made large, heavy waste such as stool cannot pass over the trap weir part. , It will affect the discharge of filth. According to the invention described in claim 9, the minimum inner cross-sectional area of the trap tube above the reservoir surface is 23.8 cm ² to
By configuring it in the range of 28.3 cm ² , it becomes possible to fill the inside of the trap tube with water during cleaning, which induces a siphon action, and siphons heavy dirt that was difficult to exceed the trap weir part in the conventional toilet bowl. The negative pressure generated by the action can be effectively discharged to the outside of the toilet bowl.

According to a tenth aspect of the present invention, there is provided a tankless flush toilet bowl having a toilet bowl cleaning means for washing the toilet body with flush water supplied from a water supply source without providing a low bowl for flushing the toilet bowl, and having a total length of 700 mm or less. And, and
The size of the water storage surface is 180 mm × 140 mm or more in accordance with JIS A5207 (1995), and the radius of curvature of part or all of the trap weir in the vertical cross section at the center line of the toilet bowl is 40 mm to 60 mm to achieve siphon action. It is characterized by generating. As described above, in order to realize a compact toilet bowl having a total length of 700 mm or less, it is preferable to design the structure of the trap portion so as to be compact and have a sufficient waste discharge capacity. However, a trap shape having a short length is harder than ordinary stool, such as constipation, and sewage having a large diameter and a large length is likely to be clogged when passing through the weir. Further, if the trap weir portion is formed in an acute angle to make it compact, the phenomenon of peeling of the washing water occurs and it becomes impossible to induce the siphon action. Therefore, in the invention according to claim 10, the radius of curvature of part or all of the trap weir in the vertical cross section at the center line of the toilet bowl is set to 40 mm to 60 mm, so that the waste can pass without being significantly deformed. At the same time, the siphon action is generated, and the waste can be efficiently discharged to the outside of the toilet bowl.

The eleventh aspect of the present invention is a tankless flush type toilet bowl having a toilet bowl cleaning means for cleaning the toilet bowl body with cleaning water supplied from a water supply source without providing a low tank for toilet bowl cleaning, and having a total length of 700 mm or less. And, and
The size of the reservoir surface is 180 mm × 140 mm or more in accordance with JIS A5207 (1995), and the cross-sectional shape of the nozzle water passage attached to the jet outlet is gradually opened toward the outlet. Characterize. As described above, in order to realize a compact toilet bowl having a total length of 700 mm or less, it is preferable to design the structure of the trap portion so as to be compact and have a sufficient waste discharge capacity. Here, the trap portion includes an upstream ascending pipe and a downstream ascending pipe with the dam portion as a boundary. Wash water is discharged from the nozzle toward the rising pipe, and the energy is transferred to the washing water and dirt while diffusing inside the rising pipe. At this time, in order to shorten the length of the trap portion in the front-rear direction, if this rising pipe is shortened, energy transfer due to the discharge flow from the nozzle becomes insufficient, and if the rising angle of the rising pipe is made large, It becomes impossible for heavy filth such as water to pass over the trap weir, and the discharge of filth is affected. According to the eleventh aspect of the present invention, in a flush toilet that discharges water from the jet water outlet toward the trap inlet, the cross-sectional shape of the nozzle attached to the jet portion is gradually opened toward the outlet. As a result, the discharge flow from the nozzle is made into a more diffused jet, and energy is transmitted to the dirt and wash water in a short distance when traveling in the trap section ascending path, making it possible to perform sufficient flushing in a compact toilet bowl with a total length of 700 mm or less. The function can be secured.

[0024]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a first embodiment of the present invention, showing an end surface of a flush toilet bowl 1 cut along a center line. The total length of the toilet bowl defined in the present invention refers to the distance from the front end to the rear end when the flush toilet bowl 1 is projected on the floor surface, and the total length L of the flush toilet bowl 1 in this embodiment is 630 mm. . FIG. 2 is a plan view of the flush toilet 1 of the present embodiment with the toilet seat, valve lid and the like removed, and the size of the water storage surface 4 is 2 in the front-back direction of the toilet.
The size is 40 mm and 210 mm in the left-right direction of the toilet bowl, which is a siphon-set toilet bowl based on the regulations of JIS A 5207 (1995).

Washing water is supplied to the toilet bowl 1 from a water supply pipe 10 communicating with an outdoor water supply source. Here, since the flush toilet bowl according to the present invention is installed in a general household, the water supply pipe is provided. 10 is a zinc-plated lead pipe for water pipes having an outer diameter of 21.7 mm called 20A, which is defined in JIS G3442 of existing houses, and a zinc-plated lead pipe for water pipes called 20A, which has an outer diameter of 27.2 mm. Or JIS
Rigid vinyl chloride pipe with an outer diameter of 18 mm and a nominal diameter of 13 and a nominal diameter of 20
It is connected to a hard water-soluble vinyl chloride pipe having an outer diameter of 26.0 mm.

The conduit 11 communicates with the water supply pipe 10 to supply the cleaning water to the rim side opening / closing valve 12a and the z side opening / closing valve 12b. The rim-side opening / closing valve 12a and the Z-side opening / closing valve 12b are opened and closed by a cam mechanism (rim-side cam mechanism 13a, Z-side cam mechanism 13b) that is driven electrically or manually. A rim water supply pipe 15 and a zet water supply pipe 6 are provided downstream of both the on-off valves with a vacuum breaker (a rim-side vacuum breaker 14a and a z-side vacuum breaker 14b) for preventing backflow.

When the above-mentioned rim-side cam mechanism 13a is driven to open the rim-side opening / closing valve 12a, washing water is supplied to the rim water supply pipe 15 to wash from the rim spout 16 toward the rim water passage 2 of the toilet. Water is spouted. Further, when the zet side cam mechanism 13b is driven to open the zet side opening / closing valve 12b, the wash water is supplied to the zet water supply pipe 6 and the wash water is discharged from the zet water discharge port 5 toward the trap portion 7 of the toilet bowl. As described above, according to the present invention, by driving the cam mechanism, it is possible to spout the washing water independently from the spout of the rim or the zet, and to perform high-level washing control as described later.

The flush toilet 1 has a trap section 7 for discharging the discharged waste to the outside, and the trap section is composed of a trap rising pipe 7a, a trap weir 7b and a trap descending pipe 7c. Has been done. The inner wall of the trap portion is formed by a continuous smooth curve so that the waste can be discharged smoothly. By designing the trap rising pipe 7a so as to form an angle of 50 to 70 degrees with respect to a horizontal plane or a toilet installation surface, the horizontal length, that is, the total length of the toilet can be suppressed. A resin socket 18 is watertightly attached to the downstream side of the trap descending pipe 7c with a rubber connecting packing 17 interposed. The resin socket 18 is connected to a pipe (not shown) that communicates with the sewer, and the waste discharged by the user is discharged from the toilet bowl to the outside. Further, the discharge socket 18 is provided with a throttle portion 19 as a siphon facilitating means for effectively generating a siphon action. The narrowed portion 19 is made of rubber, for example, and is formed so as to narrow the inner diameter of the drain socket. As a result, the downstream side of the trap descending pipe 7c can be easily filled with water when cleaning the toilet bowl, and the siphon action can be more effectively generated.

FIG. 3 shows the supply timing (cleaning sequence) of the cleaning water to the rim water supply pipe 15 and the z water supply pipe 6 in the toilet cleaning. The tap water supplied from the water supply pipe 10 is opened for a predetermined time by the rim side opening / closing valve 12a being pressed by the rim side cam mechanism 13a, and the rim water supply pipe 1
Cleaning water is supplied from the rim spout 16 to the rim water passage 2 via 5 (pre-cleaning). After that, the rim-side opening / closing valve 12a is closed and the zet-side opening / closing valve 12b is opened for a predetermined time by being pressed by the zet-side cam mechanism 13b, and the zet water supply pipe 6 is used to open the zet water discharge port 5 to the trap portion 7. The cleaning water is supplied to (dirt discharge). After that, the Z-side opening / closing valve 12b is closed, the rim-side opening / closing valve 12a is opened for a predetermined time, and the rim spout 16 is opened again.
The cleaning water is supplied from the rim to the rim water passage 2 to form a reservoir surface in the bowl (sealing).

As described above, the water supply pipe 10, the wash water supply system for the zet, which includes the zet water supply pipe 6 and the zet discharge port 5, and the rim water supply pipe 15 for cleaning the bowl portion 3 of the toilet bowl.
By separately providing the rim cleaning water supply system including the rim spout 16 and the rim water discharge port 16, it is possible to reduce the loss of the head pressure due to the piping, and also to open / close the valves 12a and 12b provided in the water supply passage. Are sequentially driven at different timings, the jet water outlet 5 and the rim water outlet 16
By supplying the wash water from the above, it becomes possible to set the total instantaneous flow rate of the water supply flowing through the water supply pipe 10 required for discharging the waste to be smaller than that of the flush valve. As a result, the diameters of the water passages of the on-off valves 12a and 12b can be reduced, the force due to the water pressure applied to the entire water passages can be reduced, and the pressure resistance can be improved. Therefore, the on-off valves 12a and 12b can be downsized. The on-off valves 12a and 12b, the cam mechanisms 13a and 13b, and the vacuum breaker 14a,
b is arranged in the cover case 8 and constitutes a flush toilet bowl.

Next, the structure of the trap portion 7 will be described in detail with reference to FIG. First, as described above, the trap portion 7 is composed of the trap rising pipe 7a, the trap weir portion 7b, and the trap descending pipe 7c (these are collectively referred to as a trap pipe). Since the purpose of the present invention is to provide a flush toilet bowl having a total length of 700 mm or less, the trap portion 7 has a compact size and siphon so that waste can be sufficiently discharged. It is required to generate an action. The siphon action occurs when the downstream side of the trap weir portion 7b is filled with water and the trap pipe is placed in a negative pressure state, whereby the cleaning water and the dirt on the upstream side of the trap weir portion 7b are sucked to the downstream side. Is possible. Therefore, narrowing down the trap pipe above the reservoir surface 4 on the downstream side of the trap weir portion 7b facilitates the filling of the above-mentioned pipeline.

In the present embodiment, the inner cross-sectional area in the AA 'section shown in the figure is 25 cm ² . According to an experiment conducted by the inventors of the present invention, when the trap tube above the reservoir surface 4 is made smaller than 23.8 cm ² (corresponding to φ55 mm), the phenomenon that filth is easily clogged is observed, and 28.3.
It has been found that a sufficient full state cannot be created if it is larger than cm ² (equivalent to Φ60 mm). Therefore, the internal cross-sectional area of the trap tube above the water storage surface 4 (internal cross-sectional area in the AA 'cross section in the figure) needs to be in the range of 23.8 cm ^{2 to} 28.3 cm ² . Further, in this embodiment, the trap rising pipe 7a is moved from the trap pipe inlet to the trap weir portion 7b.
The shape is gradually narrowed toward. This allows
It is possible to effectively convey the energy of the wash water discharged from the Z water discharge port 5 to the wash water in the trap and the contaminants therein without being diffused more than necessary. Also in this case, if the trap rising pipe 7a is narrowed down too much, dirt is likely to be clogged, so that the inner diameter of the trap rising pipe 7a is gradually narrowed down to φ even at a portion where the diameter becomes the minimum.
It is preferable to secure 55 mm or more.

Incidentally, the gradually narrowed portion of the trap rising pipe 7a (the opening facing the z-jet water discharge port 5 may be expanded to a trumpet shape in order to facilitate the inflow of dirt. The inner diameter of the portion (excluding the enlarged portion) is preferably Φ60 mm or less.
By gradually narrowing in the range of 5 to Φ60, even if the discharge flow rate from the jet water discharge port 5 is small because it is connected to general household piping, the diffusion of the energy of the wash water can be suppressed. Further, by designing the trap rising pipe 7a so as to form an angle of 50 degrees to 70 degrees with respect to a horizontal surface or a surface on which the toilet bowl is installed, the horizontal length, that is, the length of the toilet bowl in the entire length direction can be suppressed.

Further, in this embodiment, the shape of the trap weir is improved in order to more effectively generate the siphon action. As mentioned above, it is necessary to design the trap part compact in order to shorten the total length of the toilet bowl, but if the radius of curvature of the trap weir is made small, the trap riser pipe and the downcomer pipe will be close to each other, so The dimension in the direction can be shortened. Such specifications are also found in, for example, the tankless toilet bowl pointed out in the prior art of the present invention, and the radius of curvature of the trap weir portion of this tankless toilet bowl is 13 mm. However, the trap weir portion that is too small causes a separation phenomenon in the weir portion when the cleaning water is directed to the trap downcomer pipe, and prevents the siphon action from occurring. Therefore, the inventors of the present invention have conducted experiments to verify the shape of the trap weir that does not prevent the occurrence of the siphon action. The radius of curvature of the trap weir here means the radius of curvature of the trap weir in a vertical cross section at the center line of the toilet bowl, and in this embodiment, the weir 7b in the cross section shown in FIG. Is the radius of curvature of. The radius of curvature of the inner wall surface of the conduit of the trap weir portion 7b in this embodiment is 50 mm. As a result of the experiment, when the radius of curvature is smaller than 40 mm, the washing water peeling phenomenon is seen, while when it is larger than 60 mm, the total length of the toilet bowl is 70 mm.
Since it is difficult to set the radius to 0 mm or less, the radius of curvature 17 needs to be in the range of 40 mm to 60 mm. Within this range, it is possible to form a water film on the trap descending pipe 9 and to generate a negative pressure, as well as to allow the filth to pass without being significantly deformed.

Further, in the present embodiment, among the bowl surfaces constituting the bowl portion 3, the bowl surface extending from the water collecting surface 4 to the accumulated water rising portion 4'up to a position of about 30 mm above the bowl surface is different from other bowl surfaces. Is provided with a steep slope portion 20 having a steep slope angle. As shown in the cleaning sequence in FIG. 2, the position of the water storage surface 4 of the bowl portion 3 when the rim water supply is first performed as the pre-cleaning can effectively raise the position of the water storage surface 4 by this steep slope. By raising the position, the head pressure rises, and it is possible to enhance the effect of filth discharge by performing zet water supply.

Next, a second embodiment of the present invention will be described. This embodiment is also the same as the first embodiment in that it realizes a sufficient filth discharge function while suppressing the total length of the toilet bowl to 700 mm or less, but is different from the first embodiment in that the siphon action is not used for discharging filth. To do. FIG. 4 shows a second embodiment of the present invention, and shows a cross section of the flush toilet 31 cut along the center line as in FIG. The total length of the toilet bowl defined in the present invention refers to the distance from the front end to the rear end when the flush toilet bowl 1 is projected on the floor surface, and the total length L of the flush toilet bowl 31 in this embodiment is 63.
It is 0 mm.

FIG. 5 is a plan view of the flush toilet 31 of this embodiment with the toilet seat, valve lid and the like removed, and the size of the water storage surface 34 is 240 mm in the front-rear direction of the toilet bowl and in the left-right direction of the toilet bowl. It has a size of 210 mm and is JIS A
It is a siphon-jet toilet bowl based on the regulation of 5207 (1995). The flush toilet 31 also has an existing water supply pipe installed in a general house, a method of discharging water to the rim and / or the zet, an opening / closing valve, a cam mechanism, a cube cube breaker, and a water supply device structure including a rim water supply pipe and a zet water supply pipe. Is basically the same as that of the first embodiment, and therefore its explanation is omitted. The basic function and structure of the socket, which is arranged in communication downstream of the trap descending pipe 37c, is the same as that of the first embodiment, and the description thereof will be omitted. However, in this embodiment, the siphon action needs to be generated. Therefore, it is not necessary to provide the socket with the throttle portion found in the first embodiment.

Now, the trap portion 37 of this embodiment will be described in detail. The trap portion 37 is composed of a trap rising pipe 37a, a trap weir portion 37b and a trap descending pipe 37c (these are collectively referred to as a trap pipe. I call it). The inner wall of the trap portion is formed by a continuous smooth curve so that the waste can be discharged smoothly. Trap climbing pipe 7
The length a in the horizontal direction, that is, the length in the entire length direction of the toilet bowl can be suppressed by designing a so as to form an angle of 50 to 70 degrees with respect to the horizontal plane or the installation surface of the toilet bowl. Since the purpose of the present invention is to provide a flush toilet bowl having a total length of 700 mm or less, the trap portion 37 is required to have a compact size and a sufficient drainage function. Therefore, in this embodiment, first, an attempt was made to improve the water discharge from the Z water discharge port 35. That is, a nozzle 38 is provided at the jet water outlet 35, and the nozzle 38 has an upstream side at the jet water supply pipe 36.
It is connected to the zet side on-off valve 42b and the water supply source through the opening / closing valve, and the opening / closing of the on-off valve enables the discharge of the washing water from the nozzle 38 toward the trap portion 37.

As shown in FIG. 6, the nozzle water passage 39 of the nozzle 38 has a cross-sectional shape that gradually opens toward the outlet, whereby the discharge water flow becomes a more open jet flow, and the trap portion riser pipe. When traveling through 7, the energy can be transmitted to the surrounding wash water and the dirt in it in a short distance, and the dirt can be discharged without causing a siphon action. Further, in this embodiment, the trap rising pipe 37a is gradually narrowed from the entrance of the trap pipe toward the trap weir portion 37b. As a result, the nozzle 38 provided at the jet water outlet 35
It is possible to more effectively transfer the energy of the wash water discharged from the wash water to the wash water in the trap and the dirt in it. Also in this case, if the trap rising pipe 37a is excessively narrowed, dirt is likely to be clogged, so that the trap rising pipe 37a at BB '(the end portion of the trap rising pipe 37a having the smallest inner cross-sectional area) shown in FIG.
It is preferable that the inner cross-sectional area of is not smaller than 23.8 cm ² (equivalent to φ55 mm). On the contrary, C shown in FIG.
-If the internal cross-sectional area of C '(excluding the trap entrance, the gradually narrowing start end) is larger than 28.3 cm ² (equivalent to Φ60 mm), the throttling effect will be weakened and the energy of the washing water discharged from the jet water spout 45 will be reduced. Is dispersed and relatively light dirt such as toilet paper cannot pass through the trap weir portion 48, so the inner cross-sectional area of the trap riser pipe 37a must be in the range of 23.8 cm ^{2 to} 28.3 cm ² .

Further, the flow rate of water supplied from the nozzle water passage 39 attached to the jet water outlet 35 per unit time is 1
It is preferable to secure at least 8 L / min. As a result, it is possible to reliably transfer the energy to the dirt and wash water in a short distance when traveling in the trap section ascending path, and it is possible to realize a sufficient flush function in a compact toilet bowl having a total length of 700 mm or less.

The nozzle 38 provided in the jet water discharge port 35 can be applied to the first embodiment described above. By applying this nozzle 38 to the toilet provided with the structure of the trap portion 7 of the first embodiment, the siphon action can be generated at an early stage, and the required amount of washing water can be further reduced. It becomes possible.

Moreover, in this embodiment, the bowl portion 3
3 of the bowl surfaces that make up 3 above the reservoir surface 34
A steep slope portion 50 having a steeper slope angle than the other bowl surfaces is provided on the bowl surface up to the 0 mm position up to the accumulated water rising portion 34 '. When the toilet bowl is started to be washed according to the user's instruction, the position of the water storage surface 34 of the bowl portion 33 at the time of first performing rim water supply as pre-cleaning can effectively raise the position of the steep slope portion, Due to the rise of the accumulated water position, the head pressure rises, and the effect of filth discharge by performing the zet water supply can be enhanced.

Further, in the present embodiment, the trap weir 3
The radius of curvature of 7b is 13 mm. In the weir portion having such a small radius of curvature, the flow of drainage changes rapidly and the drainage separates from the inner wall of the trap pipe.
In the case of this embodiment, since it is not necessary to generate the siphon action, such a phenomenon does not pose a problem. Rather, since the siphon action does not occur, it is possible to suppress the generation of a unique intake sound, which is a problem peculiar to the siphon action. Further, as shown in FIG. 4, by making the inner cross-sectional area of the trap descending pipe 37c in DD ′ larger than 33.2 cm ² (equivalent to Φ65 mm), dirt with a large diameter or length can be smoothly discharged. It is possible to secure the necessary clearance and prevent the siphon from occurring because the pipe does not become full. The supply timing of the cleaning water in this embodiment is the same as that in the first embodiment described above, and based on FIG. 3, the rim side opening / closing valve 42a and the zet side opening / closing valve 42 are shown.
The opening / closing control of b is performed.

[Brief description of drawings]

FIG. 1 is a sectional view of a flush toilet bowl showing a first embodiment of the present invention.

FIG. 2 is a plan view of a flush toilet bowl according to the first embodiment of the present invention.

FIG. 3 is a diagram showing the toilet cleaning timing of the present invention.

FIG. 4 is a sectional view of a flush toilet bowl showing a second embodiment of the present invention.

FIG. 5 is a plan view of a flush toilet bowl showing a second embodiment of the present invention.

FIG. 6 is a cross-sectional view of the Z nozzle of the present invention.

FIG. 7 is a diagram showing the toilet water storage surface according to the JIS standard.

[Explanation of symbols]

L total length 1 flush toilet or toilet 2 rim waterway 3 bowl 4,4 'water surface 5 Z water outlet 6 Z water supply pipe 7 Trap section 7a Trap riser 7b Trap weir 7c trap downcomer 8 cover case 10 Water pipe 11 conduits 12a Rim side opening / closing valve 12b Z side opening / closing valve 13a Rim side cam mechanism 13b Zet side cam mechanism 14a Vacuum breaker on rim side 14b Z side vacuum breaker 15 rim water supply pipe 16 Rim spout 17 Connection packing 18 Resin Socket 19 throttle 20 steep slope 31 flush toilet or toilet 32 rim waterway 33 Bowl 34, 34 'Water surface 35 Z Outlet 36 Z water pipe 37 Trap section 37a Trap riser 37b trap weir 37c trap downcomer 38 nozzles 39 nozzle water passage 40 water pipe 41 conduit 42a Rim side opening / closing valve 42b Z side opening / closing valve 43a Rim side cam mechanism 43b Z-side cam mechanism 44a Rim side vacuum breaker 44b Z side vacuum breaker 45 rim water supply pipe 46 Rim spout 47 Connection packing 48 resin socket 50 steep slope

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Kazuyuki Watanabe             2-1-1 Nakajima, Kokurakita-ku, Kitakyushu City, Fukuoka Prefecture             No. Totoki Equipment Co., Ltd. F-term (reference) 2D039 AA02 AC04 DB00

Claims (11)

[Claims] 1. A flush toilet bowl for selectively supplying flush water to a bowl portion of a toilet bowl and a trap water passage to discharge dirt, wherein the flush toilet bowl has a total length of 700 mm or less and a sump surface size according to JIS A. It is 180 mm × 140 mm or more in accordance with 5207 (1995), and the minimum inner cross-sectional area of the trap tube above the reservoir surface is 23.8 cm ^2.
A flush toilet bowl characterized by being constructed in a range of ˜28.3 cm ² to generate a siphon action. 2. A flush toilet which selectively supplies flush water to a bowl portion of a toilet bowl and a trap water passage to discharge filth, and has a total length of 700 mm or less and a reservoir surface size according to JIS A. According to 5207 (1995), it has a size of 180 mm × 140 mm or more, and is characterized by causing a siphon action by setting a radius of curvature of a part or all of the trap weir portion in a vertical cross section at the center line of the toilet bowl to 40 mm to 60 mm. A flush toilet bowl. 3. The minimum internal interruption of the trap tube above the reservoir surface
Area is 23.8 cm ²~ 28.3cm²Composed of a range of
The flush toilet bowl according to claim 2, wherein 4. A flush toilet bowl which supplies flush water independently to a bowl portion of a toilet bowl and a trap water passage to discharge filth, and has a total length of 700 mm or less and a sump surface of JIS A 5207. A flush toilet bowl having a size of 180 mm × 140 mm or more in conformity with (1995) and having a cross-sectional shape of a nozzle water passage attached to a jet water outlet which is gradually opened toward the outlet. 5. The flush toilet according to claim 4, wherein the flow rate from a nozzle water passage attached to the jet water outlet is 18 L / min or more. 6. The flush toilet according to claim 4, wherein the trap cross-section upstream of the trap weir has an inner cross-sectional area in the range of 23.8 cm ² to 28.3 cm ² . 7. The inclination of the wall surface up to a position of about 30 mm above the accumulated water position of the bowl portion of the flush toilet is steeper than that of the other portion of the bowl portion. Flush toilet bowl. 8. The flush toilet bowl according to claim 4, wherein the inner cross-sectional area of the trap pipe on the downstream side of the top of the trap weir is 33.2 cm ² or more. 9. A tankless flush toilet having a toilet bowl washing means for washing the toilet body with washing water supplied from a water supply source without providing a low bowl for toilet bowl washing, and having a total length of 700 mm or less, Moreover, the size of the reservoir surface is 18 according to JISA 5207 (1995).
It is 0 mm × 140 mm or more, and the minimum inner cross-sectional area of the trap tube above the water level is 23.8 cm ² to 2
A flush toilet bowl characterized in that it has a siphon effect in a range of 8.3 cm ² . 10. A tankless flush toilet having a toilet bowl cleaning means for cleaning the toilet body with cleaning water supplied from a water supply source without providing a toilet bowl low tank, and having a total length of 700 mm or less, Moreover, the size of the reservoir surface is 18 according to JISA 5207 (1995).
A flush toilet bowl having a size of 0 mm × 140 mm or more and having a radius of curvature of a part or all of the trap weir portion in a vertical cross section at the center line of the toilet bowl of 40 mm to 60 mm to generate a siphon action. 11. A tankless flush-type toilet bowl having a toilet bowl cleaning means for cleaning the toilet body with cleaning water supplied from a water supply source without providing a toilet bowl low tank, and having a total length of 700 mm or less, Moreover, the size of the reservoir surface is 18 according to JISA 5207 (1995).
A flush toilet bowl having a size of 0 mm × 140 mm or more and a cross-sectional shape of a nozzle water passage attached to a jet outlet, which is gradually opened toward the outlet.