JP6713223B2 - Flush toilet - Google Patents

Description

The present invention relates to a flush toilet bowl.

Patent Document 1 discloses a conventional flush toilet bowl. In this flush toilet, a nozzle (spout port) for supplying flush water is attached directly below the rim of the toilet bowl along the inner surface of the bowl (bath bowl) substantially horizontally and forward from the side of the bowl. .. In addition, a shelf (cleaning shelf) for guiding the cleaning water discharged from the nozzle to the entire circumference of the bowl is provided at a position slightly below the height where the nozzle of the bowl is attached, and above the shelf. A rim shape is formed so as to cover the shelf. Further, this flush toilet bowl is configured such that the width of the rim between the outer shape of the toilet bowl and the inner surface shape of the bowl increases as it goes forward from the side portion.

In this flush toilet, the curvature of the front part of the inner shape of the bowl is reduced, so that the flush water can be smoothly transmitted.As a result, even if the pressure of the water supply source is low, the flush water is transmitted to the rear end of the bowl, Washing can be done. Further, since the curvature of the front part of the inner surface of the bowl of this flush toilet is small, the centrifugal force of the wash water is small, and it is possible to prevent the wash water from splashing or splashing outside the bowl at the front part of the bowl. ..

JP-A-2002-294842

For example, in order to make it easier for the user to see the entire inside of the bowl, if the shelf is not covered by the rim shape, increasing the force of the washing water spouting into the bowl may cause the washing water to jump out of the bowl. Since there is a risk of splashing, it is not possible to increase the momentum for discharging the wash water into the bowl. In this case, the washing water that has reached the shelf on the downstream side where the washing water flows has less momentum than immediately after being discharged from the nozzle. Therefore, it is difficult for the washing water to flow on the surface of the rim that is located at the downstream end of the shelf. However, if the rim shape does not cover the shelves, the user can easily see the rim upright surface. Therefore, it is desirable to wash the rim upright surface with washing water.

The present invention has been made in view of the above conventional circumstances, and an object of the present invention is to provide a flush toilet bowl that can clean a wider area of the surface of the toilet bowl.

The flush toilet of the present invention,
A spout that spouts wash water,
A washing rack formed on the upper inside of the toilet bowl, through which the washing water spouted from the spout flows.
An erect surface that continuously rises on the outer peripheral edge of the washing rack,
A bulging portion that is connected to the cleaning shelf and the upright surface and bulges upward.
It is characterized by including a toilet bowl part having.

In this flush toilet bowl, when the wash water flowing through the wash rack flows into the bulging portion that connects the wash rack and the upright surface, the wash water rides on the bulging portion and flows. For this reason, in this flush toilet bowl, even in an area where flush water is difficult to flow, the standing surface that continuously rises on the outer peripheral edge of the flush shelf can be flushed with flush water. That is, this flush toilet bowl can wash the upright surface located above the wash rack.

Therefore, the flush toilet bowl of the present invention can clean a wider area of the surface of the toilet bowl.

It is a top view of the flush toilet bowl of Example 1. FIG. 2 is a sectional view taken along the line AA in FIG. 1. FIG. 2 is a sectional view taken along the line BB in FIG. 1. FIG. 2 is a sectional view taken along the line CC in FIG. FIG. 2 is a sectional view taken along the line DD in FIG. 1. FIG. 2 is a sectional view taken along line EE in FIG. 1. FIG. 3 is a sectional view taken along line FF in FIG. 2. FIG. 3 is a sectional view taken along the line GG in FIG. 2. 5 is a plan view showing the flow of flush water in the toilet bowl of the flush toilet of Example 1. FIG. FIG. 3 is a cross-sectional view taken along the line AA in FIG. 1 showing the flow of flush water in the flush toilet of Example 1.

A preferred embodiment of the present invention will be described.

The bulging portion of the flush toilet of the present invention may be formed in a front region or a rear region in which the curvature of the upright surface is large when the toilet bowl is viewed from above. In this case, in this flush toilet bowl, the centrifugal force applied to the wash water flowing to the position where the bulging portion is provided is large, so that the wash water easily rides on the surface of the bulging portion and flows. Therefore, the flush toilet bowl can clean the surface of the bulging portion well.

The bulging portion of the flush toilet of the present invention may be formed in the front region or the rear region of the front region or the rear region on the downstream side of the wash water discharged from the water outlet and flowing through the wash rack. In this case, in this flush toilet, the force of flush water flowing becomes smaller in either the front region or the rear region on the downstream side than the flush water immediately after being flushed from the spout. For this reason, in this flush toilet bowl, in either the front region or the rear region on the downstream side, the washing water runs on the surface of the bulging portion to wash the vertical surface.

The bulging portion of the flush toilet of the present invention may be formed as a curved surface that is recessed obliquely outward and downward. In this case, this flush toilet bowl can flow into the bulging portion with a small resistance, and the momentum of the washing water is less likely to decrease, so the washing water rides on the surface of the bulging portion and the surface of the bulging portion is well Can flow to.

The bulging portion of the flush toilet of the present invention has a shape in which the upper edge gradually increases from the upstream end toward the central portion in the shape seen from the inside of the toilet bowl in the horizontal direction, and from the central portion toward the downstream end. It can be gradually lowered. In this case, in this flush toilet bowl, the flush water can flow on the surface of the bulging portion and around the bulging portion without being disturbed.

A first embodiment of the flush toilet bowl of the present invention will be described with reference to the drawings.

<Example 1>
The flush toilet 1 of the embodiment includes a toilet bowl portion 10 and a drainage channel 30.

As shown in FIGS. 1, 3 and 6, the toilet bowl 10 has a washing rack 12, an upright surface 11, a bulging portion 11B, and a bowl surface 13.

As shown in FIG. 1, the cleaning rack 12 includes a left cleaning rack 12A, a right cleaning rack 12B, a rear cleaning rack 12C, and a first boundary portion 10B (the left and right sides are the left side and right side in FIG. 1). The same applies to the following.) (The front and rear are the lower and upper sides in FIG. 1. The same applies to the following.). The washing rack 12 is formed along the inner upper peripheral edge of the toilet bowl 10, and the washing water spouted from the spout 11A flows (upper and lower sides are the front and back sides in FIG. 1. The same applies hereinafter). ..

As shown in FIGS. 2 to 6, the left-side washing rack 12A, the right-side washing rack 12B, and the rear-side washing rack 12C are each continuous from the upper peripheral edge of the toilet bowl portion 10 toward the central portion of the toilet bowl portion 10. It is formed so that it extends and slopes downward. Hereinafter, the direction toward the center of the toilet bowl part 10 is referred to as the inward direction. Further, the inclination angle of the right-side washing rack 12B which is inclined downward inward is smaller than the inclination angle of the left-side washing rack 12A which is inclined downward inward.

Further, as shown in FIGS. 1, 3 and 5, the left side cleaning shelf 12A has a larger shelf width than the right side cleaning shelf 12B. Here, the shelf width is a dimension of the washing shelf 12 in a direction perpendicular to the circumferential direction of the toilet bowl part 10 in a plan view seen from above. Further, as shown in FIG. 1, the shelf width of the right-side cleaning shelf 12B is larger at the front side, which is the upstream side, compared to the central portion in the direction in which the cleaning water flows. Here, the upstream side of the right side washing rack 12B is the front side of the right side washing rack 12B, and the side on which the washing water flows into the right side washing rack 12B. Further, the downstream side of the right-side cleaning shelf 12B is the rear side of the right-side cleaning shelf 12B, and the side on which the cleaning water flows out from the right-side cleaning shelf 12B. The upstream side of the left side washing rack 12A is the rear side of the left side washing rack 12A and the side where the washing water flows into the left side washing rack 12A. The downstream side of the left side washing rack 12A is the front side of the left side washing rack 12A, and the side on which the washing water flows out from the left side washing rack 12A.

Further, it is the shelf width of the rear washing rack 12C located on the right side which is upstream of the rear left-right center of the toilet bowl section 10 of the rear washing rack 12C, and the downstream end of the right washing rack 12B. The shelf width of the rear end portion is smaller than the shelf width of the right side washing shelf 12B at the center of the toilet bowl unit 10 in the front-rear direction. Here, the upstream side of the rear side cleaning shelf 12C is the right side of the rear side cleaning shelf 12C, and the side on which the cleaning water flows into the rear side cleaning shelf 12C. The downstream side of the rear cleaning shelf 12C is the left side of the rear cleaning shelf 12C, and the side where the cleaning water flows out from the rear cleaning shelf 12C. The rear washing rack 12C is a rear portion of the washing rack 12. Further, the rear-side washing rack 12C gradually increases in rack width from the right side, which is upstream of the rear-side left and right central portion of the toilet bowl unit 10, toward the rear-side left and right central portion. The shelf width at the rear end of the right side washing shelf 12B is smaller than the shelf width at the center of the rear side washing shelf 12C in the left-right direction. The upstream side on the left and right of the wash rack 12 is one of the left wash rack 12A and the right wash rack 12B, and the wash water discharged from the spout 11A is the left wash rack 12A or the right wash rack. This is the side that has flowed first in a section that is more than half the length of 12B. Further, the downstream side of the cleaning shelf 12 is the other side of the left side cleaning shelf 12A and the right side cleaning shelf 12B. In the first embodiment, the upstream side of the cleaning shelf 12 is the left side cleaning shelf 12A, and the downstream side is the right side cleaning shelf 12B.

The first boundary portion 10B is formed continuously on the outer peripheral edges of the left side washing rack 12A, the right side washing rack 12B, and the rear side washing rack 12C. The first boundary portion 10B is formed by a curved surface that is recessed obliquely outward and downward. The upright surface 11 continuously rises along the outer peripheral edge of the first boundary portion 10B. That is, the upright surface 11 continuously stands up on the outer peripheral edge of the washing rack 12. The upright surface 11 has a large curvature between the front side and the rear side in a plan view from above. Here, the area surrounded by the front side where the elevation surface 11 has a large curvature is called a front area G, and the space surrounded by the rear side where the elevation surface 11 has a large curvature is called a rear area H. In addition, the first boundary portion 10B is formed by a curved surface which is recessed obliquely outward and downward, and is formed so as to smoothly connect the washing rack 12 and the upright surface 11 (see FIGS. 3 to 6). The 1st boundary part 10B is provided in the left side washing rack 12A, and the curvature of the up-and-down direction in the part continuous to the rising surface 11 located on the outer peripheral side of the left side washing rack 12A is provided in the right side washing rack 12B and the right side. It is smaller than the curvature in the vertical direction in a portion that is located on the outer peripheral side of the washing shelf 12B and that is continuous with the standing surface 11 that rises.

Further, the standing surface 11 is provided with a spout 11A. The water outlet 11A is provided on the left side of the flush toilet 1 when viewed from the front, and is provided on the rear side of the standing surface 11 so as to open in the front-rear direction (see FIGS. 1, 3 to 5). The spout 11A spouts wash water to supply the wash water into the toilet bowl 10.

The bulging portion 11B is provided so as to be connected to the washing rack 12 and the upright surface 11 on the right side of the rear region H. Specifically, the bulging portion 11B is a rear region H in which the curvature of the upper end edge of the upright surface 11 becomes large in a plan view of the toilet bowl portion 10 viewed from above, and the rear left and right center of the toilet bowl portion 10 The right rear cleaning rack 12C and the right cleaning rack 12B, which are located upstream of the section, are continuously bulged upward on the outer peripheral edges of the rear ends of the right cleaning rack 12B. The bulging portion 11B is formed by a curved surface that is recessed obliquely outward and downward, and is formed so as to smoothly connect the washing shelf 12 and the upright surface 11. As shown in FIGS. 3 to 5, the bulging portion 11B is formed to have a large vertical width from the left and right end portions of the bulging portion 11B toward the center portion of the bulging portion 11B in the left-right direction. The central part in the left-right direction is located above the parts. That is, in the shape of the bulging portion 11B viewed from the inside of the toilet bowl 10 in the horizontal direction, the upper edge gradually increases from the upstream end through which the cleaning water flows to the central portion, and from the central portion to the downstream end. Is gradually decreasing.

As shown in FIGS. 1 and 2, the bowl surface 13 includes a front bowl surface 13A, a back bowl surface 13B, and a bottom surface 13L. The front pot surface 13A has a first pot surface 13C, a second pot surface 13D, and a third pot surface 13E.

The first pot surface 13C is located above the front face of the pot surface 13. As shown in FIG. 1, the left and right sides of the first pot surface 13C are continuous with the front edge of the left side washing rack 12A and the front edge of the right side washing rack 12B. Further, the front side of the first bowl surface 13C is continuous with the lower end portion of the front end portion of the upright surface 11 as shown in FIG. The first pot surface 13C has a front concave surface 13H which is curved obliquely downward and outward. The front concave surface 13H descends toward the rear side, and the inclination toward the lower rear side is gentle.

As shown in FIGS. 1 and 2, the second pot surface 13D has a front side continuous with the rear end portion of the first pot surface 13C. Further, the second pot surface 13D is formed such that the left and right sides are continuous to the front right edge of the left side washing rack 12A and the front left edge of the right side washing rack 12B via the second boundary portion 10C and extend inward. Has been done. The second boundary portion 10C is a curved surface that is provided between the bowl surface 13 and the washing shelf 12 and is formed so as to project obliquely upward and inward, and connects the bowl surface 13 and the washing shelf 12 smoothly. Is formed on. In other words, the pot surface 13 is continuous with the inner peripheral edge of the washing shelf 12 at the upper part through the second boundary portion 10C. Further, the second boundary portion 10C between the right-side washing shelf 12B and the bowl surface 13 is located on the right side which is upstream of the rear left-right center portion of the toilet bowl section 10 of the rear-side washing shelf 12C and on the right-side washing shelf 12B. The degree of protrusion inside the second boundary portion 10C at the rear end portion is formed smaller than the degree of protrusion inside the second boundary portion 10C at the center portion in the front-rear direction of the right side washing rack 12B (FIG. 3). , 6). Specifically, the second boundary portion 10C between the right-side washing shelf 12B and the bowl surface 13 is located upstream of the rear left-right center portion of the toilet bowl portion 10 of the rear-side washing shelf 12C and on the right-side washing shelf 12B. The radius of curvature of the second boundary portion 10C at the rear end portion is formed to be larger than the radius of curvature of the second boundary portion 10C in the right-side washing rack 12B at the center of the toilet bowl portion 10 in the front-rear direction (FIGS. 3 and 6). reference.). Here, the degree of protrusion is the amount by which the center of the cleaning shelf 12 and the bowl surface 13 projects obliquely upward and inward at the second boundary portion 10C that smoothly connects the cleaning shelf 12 and the bowl surface 13. That is, the degree of protrusion is large means that in the second boundary portion 10C that smoothly connects the cleaning shelf 12 and the bowl surface 13, the center of the cleaning shelf 12 and the bowl surface 13 projects obliquely upward and inward. Means that.

In addition, the second pot surface 13D has a gentler inclination toward the lower rear side than the first pot surface 13C. In addition, the second pot surface 13D is located such that the center portion of the rear end portion in the left-right direction is located on the front side as compared to the left and right sides (see FIG. 1).

The third pot surface 13E is formed such that the upper end thereof is continuous with the center portion of the rear end portion of the second pot surface 13D in the left-right direction and hangs downward to the rear side. The third pot surface 13E has a central portion in the left-right direction located on the front side as compared to the left and right sides (see FIG. 1). The third bowl surface 13E is curved and formed in the front side so that the center of the left and right is located on the most front side in a plan view seen from above, and the curvature of the front of the center of the left and right is curved as compared with the left and right sides. large. Further, the second pot surface 13D and the third pot surface 13E are provided with a front convex surface 13K which is curved and bulges upward in the front-rear direction (see FIG. 2). That is, the pot surface 13 has a front concave surface 13H and a front convex surface 13K formed from the upper portion to the lower portion in the center portion of the first pot surface 13C, the second pot surface 13D, and the third pot surface 13E in the left-right direction. There is.

The rear pot surface 13B is the rear part of the pot surface 13. The rear pot surface 13B has a central portion in the left-right direction located on the rear side as compared to the left and right sides. The rear pot surface 13B is formed in a curved shape so that the center in the left and right is located on the rearmost side in a plan view seen from above. The rear pot surface 13B is formed continuously inside the rear right edge of the left side washing rack 12A, the left side edge of the right side washing rack 12B, and the front edge of the rear side washing rack 12C through the second boundary portion 10C. It is hanging down while inclining in the direction. The left front end of the rear pot surface 13B is continuous with the left rear end of the second pot surface 13D and the left rear end of the third pot surface 13E. The right front end of the rear pot surface is continuous with the right rear end of the second pot surface 13D and the right rear end of the third pot surface 13E. Hereinafter, the space surrounded by the third pot surface 13E and the lower portion of the rear pot surface 13B is referred to as a recess 10D. That is, the recess 10D is formed in the lower part of the bowl surface 13 and is continuously provided from the upper part of the bowl surface 13 (see FIG. 2).

Further, as shown in FIG. 3, at the upper end of the rear pot surface 13B, the left side is steeper inwardly than the right side. Further, the left-side vertical center portion of the rear pot surface 13B is formed by a first left-side concave surface 13F recessed outward in the vertical direction, and the right-side vertical center portion is a convex surface protruding inward in the vertical direction. It is formed by the right convex surface 13J. The right-side convex surface 13J is formed behind the central portion in the front-rear direction in the central portion in the left-right direction of the concave portion 10D (see FIG. 1).

Further, in the bowl surface 13, in the horizontal cross-sectional shape, a first left-side concave surface 13F that is recessed outward on the left side of the rear-side bowl surface 13B, and a left-side convex surface 13G that projects inward from the first left-side concave surface 13F. Are formed (see FIG. 8). Also in the vertical cross-sectional shape, the first left-side concave surface 13F is formed to be recessed outward, and the left-side convex surface 13G is formed to project inward (see FIGS. 3 and 4). In addition, in the vertical cross-sectional shape, the bowl surface 13 has a second left-side concave surface 13P formed by being recessed outward on the upper side of the left-side convex surface 13G (see FIG. 4). The left-side convex surface 13G is formed in front of the central portion in the front-rear direction in the central portion in the left-right direction of the concave portion 10D (see FIG. 1). Further, the bowl surface 13 is formed with a right concave surface 13M that is recessed outward in front of the right convex surface 13J in the horizontal cross-sectional shape of the upper portion (see FIG. 7). Also in the vertical sectional shape, the right convex surface 13J is formed so as to project inward, and the right concave surface 13M is formed so as to be concave outward (see FIGS. 3 and 4).

As shown in FIG. 1, the bottom surface 13L is formed such that the left and right sides of the outer peripheral edge and the front side are continuous with the lower end of the third pot surface 13E and the left and right ends of the rear pot surface 13B and extend rearward. Has been done. That is, the bottom surface 13L is provided continuously to the lower end of the recess 10D. The bottom surface 13L is inclined rearward and downward (see FIG. 2). Further, the bottom surface 13L is located such that the center portion of the rear end portion in the left-right direction is located on the front side as compared to the left and right sides of the rear end portion. That is, the rear end portion of the bottom surface 13L is curved and formed in the front side so that the center portion in the left-right direction is located on the most front side in a plan view seen from above. An inflow port 30A is formed at the rear of the bottom surface 13L. Specifically, the inflow port 30A is formed continuously with the rear end of the bottom surface 13L and the lower end of the rear pot surface 13B. Further, the dimension of the inflow port 30A in the front-rear direction is smaller than half the dimension of the recess 10D in the front-rear direction at the center of the recess 10D in the left-right direction. In the first embodiment, the front-rear dimension of the inflow port 30A extends from the left end to the right end of the recess 10D and is smaller than half the front-rear dimension of the recess 10D. In plan view from above, the area of the inflow port 30A is also smaller than half the area of the space surrounded by the third pot surface 13E and the lower portion of the rear pot surface 13B.

In the toilet bowl portion 10 thus formed, the front convex surfaces 13K of the second bowl surface 13D and the third bowl surface 13E are located at a position lower than the cleaning shelf 12 and higher than the bottom surface 13L, as shown in FIG. .. Specifically, the second pot surface 13D and the third pot surface are more than the vertical gap U between the front convex surface 13K of the second pot surface 13D and the front convex surface 13K of the third pot surface 13E and the washing rack 12. A vertical gap L between the central portion of the front convex surface 13K of 13E in the vertical direction and the bottom surface 13L of the recess 10D is formed to be larger.

The upstream end of the drainage channel 30 is continuous with an inflow port 30A formed in the rear portion of the bottom surface 13L of the recess 10D. Further, the drainage channel 30 has a descending passage 30B extending downward toward the rear side, and an ascending passage 30C extending continuously upward toward the rear side at the downstream end of the descending passage 30B. The downstream end of the ascending flow path 30C is opened rearward, and is inserted and connected to the opening of the upstream end of the connecting member (not shown). The flush toilet 1 can communicate with a drain pipe drawn from a wall surface provided at a place where the drainage channel 30 is installed, via a connecting member (not shown).

As shown in FIGS. 1 and 2, a flush water supply port 14 is provided at the rear of the flush toilet 1. The flush water supply port 14 is inserted with a drain port or the like of a flush tank mounted and fixed on the flush toilet 1 (not shown). The cleaning water supplied from the drainage port of the cleaning tank to the cleaning water supply port 14 is discharged into the toilet bowl 10 from the water discharge port 11A provided on the upright surface 11 via the water discharge pipe (not shown). ..

The flush toilet 1 thus formed can form a water reservoir P in the toilet bowl 10 as shown in FIG. Specifically, the water reservoir P is formed in a space surrounded by the recess 10D, the bottom surface 13L, the descending flow passage 30B, and the ascending flow passage 30C. The water collecting surface W of the water collecting portion P is located above the bottom surface 13L. The drainage channel 30 is a trap drainage channel that blocks the reservoir P from blocking communication between the toilet bowl 10 and the drainage pipe drawn from the wall surface provided at the installation location.

Next, how the flush water flows in the toilet bowl 10 of the flush toilet 1 will be described.

The wash water stored in the wash tank is drained from the drain port of the wash tank (not shown). Then, the wash water is spouted into the toilet bowl 10 from the spout 11A through the spout pipe. Then, as shown in FIGS. 9 and 10, a part of the wash water spouted from the spout 11A flows down the left side of the rear part of the rear pot surface 13B and flows into the water reservoir P in the recess 10D, The flow becomes the second main stream Z (hereinafter referred to as the stream Z). That is, the flow Z flows down from the left side of the rear part of the bowl surface 13 and flows into the recess 10D from the rear or the side of the recess 10D. Further, another part of the wash water spouted from the spout 11A flows forward on the surface of the left side washing rack 12A (hereinafter, referred to as flow A). The left side washing rack 12A is inclined downward inward. This facilitates the flow A to flow inward. Moreover, the shelf width of the left side washing shelf 12A is larger than the shelf width of the right side washing shelf 12B (see FIGS. 3 to 5). As a result, the left side washing rack 12A secures the amount of water of the flow A flowing forward on the surface, and the flow A of the amount of water necessary for washing the first pot surface 13C, the right side washing rack 12B, etc. It can be made to flow into the right side washing rack 12B or the like. Then, the flow A flows into the left side of the first pot surface 13C from the front side of the left side washing rack 12A. Further, the left-side cleaning shelf 12A is formed so as to maintain a predetermined shelf width (see FIG. 1). As a result, the left-side washing rack 12A can appropriately prevent the flow A flowing forward on the surface from flowing down from the left-side washing rack 12A.

Then, the flow A swirls counterclockwise on the first pot surface 13C in a plan view seen from above, and a part of the flow A flows from the right side of the first pot surface 13C to the second pot surface 13D. It flows down the right side and the right side of the third bowl surface 13E, flows into the reservoir P in the recess 10D, and becomes the first main stream Y (hereinafter referred to as the stream Y). That is, in the flow Y, the wash water spouted from the spout 11A flows down from the right side of the first bowl surface 13C and flows into the recess 10D from the front of the recess 10D.

Further, a part of the flow A reaching the front side of the right side washing shelf 12B is on the front side of the right side washing shelf 12B, the right side of the first pot surface 13C, the right side of the second pot surface 13D, and the right side of the third pot surface 13E. It flows down and flows into the accumulated water portion P in the recess 10D and becomes a flow V (hereinafter, referred to as a flow V). When the flow V flows down the right concave surface 13M and reaches the right convex surface 13J, the flow direction is changed to the downward direction.

Further, another part of the flow A flows from the front side of the right side washing rack 12B into the right side washing rack 12B and flows backward on the surface of the right side washing rack 12B. As for the shelf width of the right side washing shelf 12B, the front side, which is the upstream side, is formed larger than the central portion in the direction in which the washing water flows, and is smoothly continuous with the first pot surface 13C, so that the flow A is in the first pot. It is easy to flow from the right side of the surface 13C to the front side of the right side washing rack 12B. That is, the left side washing rack 12A is located upstream of the flow A flowing through the washing rack 12, and the right side washing rack 12B is positioned downstream of the flow A flowing through the washing rack 12.

Further, the flow A flowing backward on the surface of the right-side washing rack 12B has a smaller force and amount of water than the washing water immediately after being discharged from the water outlet 11A. Therefore, by making the inclination angle of the right-side washing rack 12B which is inclined downward inwardly smaller than the inclination angle of the left-side washing rack 12A which is inclined downward inward, a flow flowing backward in the surface of the right-side washing rack 12B. It is difficult for A to face the bowl surface 13. As a result, the flow A can evenly flow on the surface of the right side washing rack 12B and reach the rear end of the right side washing rack 12B. Then, the flow A that has reached the rear end portion of the right-side cleaning shelf 12B flows from the right side of the rear-side cleaning shelf 12C to the left on the surface of the rear-side cleaning shelf 12C and joins the flow Z. The right-side washing rack 12B has a rack width that gradually decreases toward the rear end. Further, the shelf width on the upstream side of the rear cleaning shelf 12C, which is continuous with the rear end portion on the downstream side of the right cleaning shelf 12B, is formed smaller than the shelf width of the rear left and right central portions of the toilet bowl part 10. The shelf width gradually increases from the upstream side of the rear left-right central portion of the toilet bowl portion 10 toward the rear left-right central portion. As a result, the flow A flowing to the left on the surface of the rear washing rack 12C can flow and wash the surface of the rear washing rack 12C evenly while suppressing the flow down to the rear pot surface 13B. Further, the right side washing rack 12B is arranged at a position higher than the left side washing rack 12A. Therefore, even in the right side cleaning shelf 12B, which is the downstream side cleaning shelf 12 in which the force and the amount of cleaning water flowing are smaller than those in the left side cleaning shelf 12A, the elevation surface 11 is cleaned to a predetermined height substantially the same as the left side cleaning shelf 12A. can do.

A part of the flow A that has reached the rear end of the right-side washing rack 12B rides on the surface of the bulging portion 11B and flows. As a result, on the downstream side of the flow A flowing through the washing rack 12, the range for washing the upright surface 11 located above the washing rack 12 can be increased. That is, the bulging portion 11B is the rear area H on the downstream side of the wash water discharged from the water outlet 11A and flowing through the wash shelf 12 in the front area G or the rear area H, and the right wash shelf 12B and the stool. It is formed at a position that is continuous with the outer peripheral side of the rear washing rack 12C on the right side, which is the upstream side of the rear left-right center portion of the pot portion 10.
Here, it is the upstream side where the cleaning water spouted from the spout 11A flows first through the front end of the front region G or the rear end of the rear region H among the front region G or the rear region H. The one that flows later is the downstream side. In Example 1, the front region G is on the upstream side and the rear region H is on the downstream side. Further, the bulging portion 11B is formed in the rear region H in which the curvature of the upper end edge of the upright surface 11 is increased in a plan view seen from above. As a result, the flow A flowing backward on the surface of the right-side washing rack 12B flows over the surface of the bulging portion 11B because the centrifugal force related to the flow A flowing to the position where the bulging portion 11B is provided increases. It will be easier. Further, the bulging portion 11B is formed by a curved surface which is curved and concaved obliquely downward and outward. As a result, the flow A can flow into the bulging portion 11B with a small resistance, and the momentum of the flow A does not easily decrease. Therefore, the flow A rides on the surface of the bulging portion 11B and flows satisfactorily on the surface of the bulging portion 11B. be able to. Further, a part of the flow A flowing through the bulging portion 11B becomes an inward flow (hereinafter referred to as a flow D) by flowing through the bulging portion 11B. Accordingly, the rear side of the rear pot surface 13B can be washed by the flow D flowing down.

In addition, the upper edge of the bulging portion 11B gradually increases from the upstream side of the wash water toward the center of the bulging portion 11B in the left-right direction when viewed horizontally from the inside of the toilet bowl portion 10, The swelling portion 11B is gradually lowered from the center portion in the left-right direction toward the downstream side of the wash water. Accordingly, the flow A can flow on the surface of the bulging portion 11B and around the bulging portion 11B without being disturbed.

Further, the shelf width of the rear end portion of the right-side cleaning shelf 12B, which is on the upstream side of the rear-side cleaning shelf 12C, is smaller than the shelf width of the right-side cleaning shelf 12B at the center of the toilet bowl 10 in the front-rear direction. As a result, when the flow A flows from the right side washing rack 12B at the center of the toilet bowl 10 in the front-rear direction toward the rear end, the flow A flowing on the left end side of the right side washing rack 12B moves toward the bowl surface 13. It becomes a flow that flows down (hereinafter referred to as flow E). Further, the radius of curvature in the vertical direction of the second boundary portion 10C located at the rear portion of the right side washing rack 12B is the same as the vertical direction of the second boundary portion 10C located in the right side washing rack 12B at the center in the front-rear direction of the toilet bowl unit 10. Is formed larger than the radius of curvature of, and a right convex surface 13J is formed on the right side of the rear pot surface 13B. As a result, the downward force of the flow E can be suppressed to a low level, so that the flow E easily reaches the rear side of the rear pot surface 13B. As a result, the flow E can be made to flow down to the rear side of the rear pot surface 13B, so that the rear side of the rear pot surface 13B can also be washed by the flow E. The right-side convex surface 13J is formed rearward of the center portion in the front-rear direction of the center portion in the left-right direction of the recess 10D. This makes it easier for the flow E to reach the rear side of the rear pot surface 13B. Therefore, a larger amount of the flow E can be made to flow to the rear side of the rear pot surface 13B, and thus the rear side of the rear pot surface 13B can be washed more favorably.

The flow A discharged from the water outlet 11A and flowing in the front direction on the surface of the left side washing rack 12A becomes easy to flow in the direction toward the pot surface 13 because the left side washing rack 12A is inclined downward inward. As a result, a part of the flow A flowing in the front direction on the surface of the left side washing rack 12A becomes a flow flowing down the left side of the bowl surface 13 (hereinafter, referred to as flow B). The flow B is a second main flow that flows down from the left side of the rear portion of the bowl surface 13 and flows into the recess 10D from the rear or the side of the recess 10D. Then, the flow B0 which is a part of the flow B flows forward while flowing down the first left concave surface 13F of the bowl surface 13. Further, the flow A that flows forward on the left side of the surface of the left side washing rack 12A flows while riding on the surface of the first boundary portion 10B between the left side washing rack 12A and the upright surface 11. The vertical curvature at the first boundary portion 10B between the left-side cleaning shelf 12A and the upright surface 11 standing on the outer peripheral side of the left-side cleaning shelf 12A is located on the outer peripheral side of the right-side cleaning shelf 12B and the right-side cleaning shelf 12B. The curvature is smaller than the vertical curvature in the first boundary portion 10B with the rising surface 11. As a result, the flow A flowing on the surface of the first boundary portion 10B between the left-side cleaning shelf 12A and the standing surface 11 located on the outer peripheral side of the left-side cleaning shelf 12A and flowing up through the first boundary portion 10B is A flow in the directional direction (hereinafter referred to as flow C) is formed.

At the upper end of the rear bowl surface 13B, the left side has a steeper inward direction than the right side, and the first left side concave surface 13F is formed to be recessed outside the toilet bowl section 10. Therefore, the first left side concave surface The flow B0 flowing down the left side of the upper end of the rear pot surface 13B, which is the upper portion of 13F, has a large downward force. As a result, the left side of the rear pot surface 13B can be washed by the flow of the flow B0. In addition, the flow B0 flowing down the left side of the upper end of the rear bowl surface 13B and the first left concave surface 13F has a large downward force, and therefore flows into the left side of the water storage portion P, and Stir the wash water and dirt. Furthermore, the first left-side concave surface 13F is formed behind the central portion in the front-rear direction in the central portion in the left-right direction of the recess 10D. As a result, on the rear side of the rear pot surface 13B, a part of the wash water spouted from the spout 11A can be spouted from the spout 11A and directly flow down to the rear pot surface 13B. That is, the flow B0 can be made to flow down at a position closer to the rear side of the rear pot surface 13B.

The flow B1 which is a part of the flow B flowing down the first left concave surface 13F reaches the left convex surface 13G formed on the front side of the first left concave surface 13F while flowing in the forward direction. Then, the flow B1 that has reached the left-side convex surface 13G collides with the left-side convex surface 13G, so that the momentum toward the front is reduced. Therefore, the flow B1 that has reached the left-side convex surface 13G flows down the left-side convex surface 13G, flows into the left side of the accumulated water portion P, and stirs the wash water, the dirt, and the like in the accumulated water portion P. The flow B2, which is a part of the flow B reaching the left convex surface 13G, flows into the third bowl surface 13E from the left side of the third bowl surface 13E, flows rightward in the third bowl surface, and flows into the recess 10D. To do.

The flow B3, which is a part of the flow B, flows forward in the second left-side concave surface 13P on the upper side of the left-side convex surface 13G. Then, the flow B3 flowing forward in the second left concave surface 13P is guided to the left side of the second bowl surface 13D and flows forward in the second bowl surface 13D from the left side of the second bowl surface 13D. That is, the flow B3 flowing through the second left-side concave surface 13P can be prevented from decreasing in momentum toward the front, and can flow from the left side of the second bowl surface 13D in the front direction through the second bowl surface 13D. The left-side convex surface 13G and the second left-side concave surface 13P are formed in front of the center portion in the front-rear direction of the center portion in the left-right direction of the recess 10D. As a result, the flows B1 and B2 colliding with the left side convex surface 13G flow toward the concave portion 10D, and the flow B3 flowing forward through the second left side concave surface 13P is better guided to the left side of the second bowl surface 13D and the second bowl. The surface 13D can flow forward. The flow B3 flowing into the second bowl surface 13D from the left side of the second bowl surface 13D and the flow B4 that is a part of the flow B flow while rotating counterclockwise on the front side of the second bowl surface 13D. , Join flow Y.

Further, as shown in FIG. 10, a part of the flow Y flowing into the reservoir P of the recess 10D collides with the bottom surface 13L (hereinafter referred to as the flow Y1). Then, the flow direction of the flow Y1 is changed to the upper rear side and flows toward the rear pot surface 13B. That is, in the flow Y1 which is a part of the first main flow Y, the wash water spouted from the spout 11A flows down the bowl surface 13 into the recess 10D from the front of the recess 10D and collides with the bottom surface 13L. Then, it bounces toward the rear surface of the recess 10D. The flow Y1 swirls the water reservoir P in the counterclockwise direction together with the flows Z and B flowing into the recess 10D from the rear or the side of the recess 10D in the water reservoir P in a plan view seen from above. A swirl flow X is formed (see FIG. 9). When the flow Z flows into the recess 10D from the rear or the side, the flow Z turns in the counterclockwise direction which is the lateral direction along the third bowl surface 13E. In a plan view from above, the third bowl surface 13E is formed to have a larger radius of curvature that curves to the front side of the left and right central portions as compared with a conventional toilet bowl. As a result, the flow Z can be more easily swirled. That is, the streams Z and B, which are the second main stream, merge with the stream Y, which is the first main stream. As a result, the position of the pool surface W on the surface side of the bowl surface 13 rises, so that the pool portion P and the bowl surface 13 above the pool portion P can be cleaned. The water surface W at this time rises to a position substantially the same as the position of the lower end portion 13N of the first left concave surface 13F (see FIG. 3 ). Further, another part of the flow Y forms a flow Y2 that directly flows into the drainage channel 30 via the inflow port 30A (hereinafter referred to as the flow Y2).

Further, the dimension of the inflow port 30A in the front-rear direction is smaller than half the dimension in the front-rear direction at the center portion of the recess 10D in the left-right direction. In the first embodiment, the front-rear dimension of the inflow port 30A extends from the left end to the right end of the recess 10D and is smaller than half the front-rear dimension of the recess 10D. In plan view from above, the area of the inflow port 30A is also smaller than half the area of the space surrounded by the third pot surface 13E and the lower portion of the rear pot surface 13B. As a result, all of the wash water that flows into the reservoir P can be retained in the recess 10D without immediately flowing into the drainage channel 30, and the position of the reservoir surface W on the surface side of the bowl surface 13 of the reservoir P can be positioned. Therefore, a wider area of the recess 10D can be cleaned.

Further, the front side of the second pot surface 13D and the third pot surface 13E with respect to the vertical center U of the front convex surface 13K of the second pot surface 13D and the third pot surface 13E and the up and down direction with the washing rack 12. The vertical gap L between the central portion of the convex surface 13K in the vertical direction and the bottom surface 13L of the concave portion 10D is larger (see FIG. 2). That is, by making the vertical position of the front convex surface 13K closer to the position of the washing rack 12, the distance between the front convex surface 13K and the bottom surface 13L becomes larger. As a result, the momentum of the flow Y flowing into the reservoir P can be increased. For this reason, the flow Y1 increases in momentum, collides against the bottom surface 13L and bounces, and the momentum of the flow changed to the upper rear side can be increased. The pot surface 13 above the water portion P can be washed. Further, since the force of the flow Y2 can be increased, the waste can be discharged to the drainage channel 30 better.

Further, the flows B0 and B1 flowing down the left side of the rear pot surface 13B or the left convex surface 13G and flowing into the left side of the reservoir P, when reaching the bottom surface 13L, flow rightward on the surface of the bottom surface 13L. It will be. As a result, the flows B0 and B1 flowing down the left side of the rear pot surface 13B or the left convex surface 13G and flowing into the left side of the reservoir P collapse the flow below the swirl flow X, and the swirl flow X is generated. The lower stream can join stream Y2. Thereby, the filth swirling with the swirling flow X can be merged with the flow Y2, and the filth can be satisfactorily discharged by being pushed into the drainage channel 30. Further, of the flows B0 and B1, the flow that reaches the front side of the bottom surface 13L and flows to the right forms a swirling flow X that swirls counterclockwise in the recess 10D (see FIG. 9 ).

Further, in this flush toilet 1, the first left concave surface 13F is formed on the bowl surface 13 at the position corresponding to the upstream side of the left side washing shelf 12A, and the left convex surface 13G is formed on the bowl surface 13 at the position corresponding to the downstream side. ing. As a result, the wash water that has flowed through the first left concave surface 13F and reached the left convex surface 13G easily flows down toward the concave portion 10D, and the wash water and dirt can be satisfactorily discharged. In addition, the cleaning water flowing in the front direction on the upper side of the left convex surface 13G can be swirled to the bowl surface 13 to easily flow, and the bowl can be cleaned well. Then, a right concave surface 13M is formed on the pot surface 13 at a position corresponding to the upstream side of the right washing rack 12B, and a right convex surface 13J is formed on the pot surface 13 at a position corresponding to the downstream side. As a result, the wash water that has flowed through the right-side concave surface 13M and reached the right-side convex surface 13J can easily flow down toward the recessed portion 10D, and the wash water and dirt can be satisfactorily discharged. Further, the washing water flowing backward in the upper side of the right-side convex surface 13J can be swirled to the pot surface so as to easily flow, and the pot can be washed well. That is, the flush toilet 1 forms a concave surface (first left concave surface 13F, right concave surface 13M) on the bowl surface 13 at a position corresponding to the upstream side of each of the left side cleaning shelf 12A and the right side cleaning shelf 12B, and the downstream side A convex surface (left convex surface 13G, right convex surface 13J) is formed on the pot surface 13 at a position corresponding to. As a result, the flush toilet 1 flows through the concave surface (first left concave surface 13F, right concave surface 13M) and reaches the convex surface (left convex surface 13G, right convex surface 13J) on each of the left side and the right side of the bowl surface 13. The wash water can be easily flowed down toward the recessed portion 10D so that wash water, dirt, etc. can be satisfactorily discharged, and the wash water flowing above the convex surface (the left convex surface 13G, the right convex surface 13J) is flowed to the bowl surface 13. The pot can be easily cleaned well.

In this manner, in the flush toilet 1, when the flow A flowing through the washing rack 12 flows into the bulging portion 11B connecting to the washing rack 12 and the upright surface 11, the washing water flows over the bulging portion 11B. become. For this reason, in the flush toilet 1, the standing surface 11 that continuously rises to the outer peripheral edge of the wash rack 12 can be washed with the flow A even in a region where the wash water is difficult to flow. That is, the flush toilet 1 can wash the upright surface 11 located above the wash rack 12.

Therefore, the flush toilet 1 can clean a wider area of the surface of the toilet bowl 10.

Further, the bulging portion 11B of the flush toilet 1 is formed in the rear region H where the curvature of the upright surface 11 is large in the plan view of the toilet bowl 10 viewed from above. Therefore, in this flush toilet bowl, the centrifugal force related to the flow A flowing to the position where the bulging portion 11B is provided becomes large, and the flow A easily rides on the surface of the bulging portion 11B and flows easily. Therefore, the flush toilet bowl 1 can clean the surface of the bulging portion 11B well.

Further, the bulging portion 11B of the flush toilet 1 is formed in the rear region H of the front region G or the rear region H on the downstream side of the flow A discharged from the spout 11A and flowing through the washing rack 12. There is. Therefore, in the flush toilet 1 in the downstream region H of the downstream side, the force of the flow A is smaller than that of the flow A immediately after being discharged from the water discharge port 11A. Therefore, in the flush toilet bowl, in the rear region H on the downstream side, the rising surface 11 can be washed by the flow A riding on the surface of the bulging portion 11B.

Further, the bulging portion 11B of the flush toilet 1 is formed by a curved surface which is recessed obliquely downward and outward. Therefore, the flush toilet 1 can flow into the bulging portion 11B with a small resistance, and the momentum of the flow A is difficult to decrease, so that the flow A rides on the surface of the bulging portion 11B and the bulging portion 11B. Can flow well over the surface.

Further, the bulging portion 11B of the flush toilet 1 has a shape in which the upper edge gradually increases from the upstream end toward the central portion when viewed from the inside of the toilet bowl portion 10 in the horizontal direction, and the bulging portion 11B increases from the central portion to the downstream end. It is gradually lowering toward. Therefore, the flush toilet 1 can flow on the surface of the bulging portion 11B and around the bulging portion 11B without the flow A being disturbed.

The present invention is not limited to the first embodiment described by the above description and the drawings, and for example, the following embodiments are also included in the technical scope of the present invention.
(1) Although the bulging portion is formed on the rear right side of the upright surface in the first embodiment, it may be provided on the front left side of the upright surface.
(2) In the first embodiment, the front side of the left side washing rack and the front side of the right side washing rack are formed separately, but the front side of the left side washing rack and the front side of the right side washing rack may be formed continuously. ..
(3) In the first embodiment, the cleaning tank that stores the cleaning water is illustrated, but the cleaning tank may not be provided and the cleaning water may be directly discharged from the water supply source through the on-off valve.
(4) In the first embodiment, the bulging portion is formed as a curved surface that is curved obliquely downward toward the outside and is formed so as to smoothly connect the washing shelf and the upright surface. It may be formed by an inclined surface that is inclined upward.
(5) In the first embodiment, it is illustrated that water is spouted into the toilet bowl from the spout provided on the upright side via the spout pipe, but the spout is not provided and the water is directly introduced from the washing tank to the spout. May be.
(6) In the first embodiment, the first boundary portion is formed as a curved surface that is recessed obliquely outward and downward, and is formed so as to smoothly connect the washing shelf and the upright surface. May be formed with an inclined surface that is inclined obliquely upward and upward.
(7) In Example 1, the second boundary portion is formed so as to smoothly connect the left and right sides of the second pot surface, the front right edge of the left side washing rack, and the front left edge of the right side washing rack. However, the second boundary portion may be formed by an inclined surface that is inclined obliquely inward and downward.
(8) In the first embodiment, the upright surface continuously rises up to the outer peripheral edge of the cleaning shelf via the first boundary portion, but the upright surface is formed so as to cover the cleaning shelf in plan view from above. It may have been done.
(9) In the first embodiment, the spout is provided on the left side of the flush toilet bowl when viewed from the front end side, and is provided on the rear side of the standing surface to open in the front-rear direction, but on the right side or front side of the standing surface. It may be provided. Moreover, you may provide two or more spouts.
(10) In Example 1, the pot surface is formed between the front side of the left side washing rack and the front side of the right side washing rack, but the front side of the left side washing rack and the front side of the right side washing rack are continuously connected by the washing rack. You may form it.
(11) In the first embodiment, the bulging portion is formed in the rear region where the curvature of the upper edge of the upright surface becomes large when viewed from above, but the curvature of the upper edge of the upright surface changes. You may provide in a part. Further, the bulging portion may be formed in a front region where the curvature of the upper end edge of the upright surface becomes large in a plan view seen from above.

DESCRIPTION OF SYMBOLS 10... Toilet bowl 11... Elevation 11A... Spout 11B... Swelling 12... Washing rack 12B... Right side washing rack (washing rack located on the downstream side of washing water flowing through the washing rack)
G... Front area H... Rear area

Claims (5)

A spout that spouts wash water,
A washing rack formed on the upper inside of the toilet bowl, through which the washing water spouted from the spout flows.
An erect surface that continuously rises on the outer peripheral edge of the washing rack,
A bulging portion that is connected to the cleaning shelf and the upright surface and bulges upward.
A flush toilet bowl having a toilet bowl portion having The flushed part according to claim 1, wherein the bulging portion is formed in a front region or a rear region in which the curvature of the upright surface is large in a plan view of the toilet bowl seen from above. Style toilet. The bulging portion, in the front region or the rear region, is formed in the front region or the rear region on the downstream side of the wash water discharged from the water outlet and flowing through the wash rack, The flush toilet bowl according to claim 2. The flush toilet bowl according to any one of claims 1 to 3, wherein the bulging portion is formed by a curved surface that is recessed obliquely downward and outward. In the shape of the bulging portion viewed from the inside of the toilet bowl in the horizontal direction, the upper edge gradually increases from the upstream end toward the central portion, and gradually decreases from the central portion toward the downstream end. The flush toilet bowl according to any one of claims 1 to 4, wherein

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