JP6579499B2 - Flush toilet - Google Patents

Description

  The present invention relates to a flush toilet, and in particular, a flush toilet that can sink floating filth in a bowl part into stored water and efficiently discharge it into a drainage pipe, thereby improving the filth discharge performance. Concerning toilet bowl.

Conventionally, for example, as described in Patent Document 1, the wash water discharged from the first water discharge portion of the rim flows along the shelf portion, and the filth receiving surface of the bowl portion is washed while turning, and the bowl is washed. There is known a flush toilet in which wash water that flows into the bottom of the section and spouts from the second water discharge section of the jet flows down to the bottom of the bowl section and stirs the accumulated water in the bowl section up and down.
On the other hand, for example, as described in Patent Document 2, wash water is discharged from only the two rim water discharge ports of the rim, the first water discharge port and the second water discharge port, and the swirl flows on the filth receiving surface of the bowl portion. Also known is the flush toilet supplied. In this flush toilet, the wash water flowing out from the second spout flows down from the rear part of the standing surface of the bowl part continuously along the convexly curved surface, and directly into the drain trap. Wash water is supplied toward the inlet.

Japanese Patent No. 3975486 JP 2011-157738 A

However, in the flush toilet of Patent Document 1 described above, since the second water discharge port for stirring the stored water up and down is provided, it is excellent for discharging floating filth, but the filth receiving surface is washed. Since there is little water discharged from the 1st water outlet which does, there exists a problem that sufficient washing | cleaning cannot be performed to wash | clean a filth receiving surface.
Further, in the flush toilet of Patent Document 2 described above, the filth receiving surface can be sufficiently washed with the washing water discharged from the two rim water outlets of the first rim water outlet and the second water outlet. Although it is possible, the suspended water mixed with floating filth cannot be stirred up and down, so that there is a problem that the floating filth cannot be discharged well and remains. Therefore, in the flush toilet that discharges water only from the first water outlet and the second water outlet of the rim, how to stir the accumulated water up and down is also a problem to be solved.

  Therefore, the present invention has been made to solve the problems and problems of the prior art, can be efficiently discharged into the drainage pipe by sinking the floating filth in the bowl portion in the reservoir water, It aims at providing the flush toilet which can improve filth discharge performance.

In order to achieve the above-mentioned object, the present invention is a flush toilet that flushes toilets with washing water supplied from a water supply source and discharges filth, and includes a bowl-shaped filth receiving surface and the filth receiving surface. A rim portion located above the rim portion, a water conduit formed in a lower region of the inner peripheral surface of the rim portion, and a concave portion formed below the filth receiving surface, and the concave portion from the water level A bowl portion having a bottom surface located below, a wall surface connecting the bottom surface and the lower edge portion of the waste receiving surface, and a water discharge portion for supplying cleaning water into the bowl portion, the bowl portion The first rim water discharger for discharging cleaning water toward the front of the bowl part and the rim part on the other side of the bowl part on the other side of the bowl part. At the same time, wash water toward the one side of the bowl. A second rim water spouting portion for watering, and a water discharging portion having only the water discharge portion, and a drain pipe for connecting the inlet to the concave portion and discharging filth, and the water conduit is formed on the one side with the bowl The bowl portion is formed so as to be gradually inclined downward toward the front end of the portion and gradually inclined upward from the front end toward the rear side on the other side. The cleaning water discharged from the bowl portion forms a main flow that flows into the concave portion from the front side of the bowl portion, and the cleaning water discharged from the second rim water discharge portion passes through the rear side of the bowl portion and is A flow that flows into the recess from the one side of the recess, flows to the bottom surface along the wall surface of the recess on the one side, and flows upward from the bottom surface along the wall surface of the recess on the other side is formed. From the second rim spout Flow of the washing water is characterized in that it is configured to merge the mainstream spouted from the first rim spouting portion.
In the present invention configured as above, the wash water discharged from the first rim water discharge portion forms a main flow into the recess from the front side of the bowl portion, and the wash water discharged from the second rim water discharge portion is It flows through the rear side of the bowl part from one side of the concave part, flows into the concave part along the wall surface of the concave part on one side, and flows upward from the bottom surface along the wall surface of the concave part on the other side. Since the flow of the washing water from the second rim water spouting portion merges with the main flow discharged from the first rim water spouting portion, the accumulated water in the recess can be effectively stirred in the vertical direction. Therefore, the filth receiving surface of the bowl portion can be sufficiently washed with the washing water discharged from each of the first rim water discharging portion and the second rim water discharging portion, and a flow of stirring in the vertical direction is generated in the concave portion. be able to. As a result, the floating filth in the bowl can be submerged in the stored water and efficiently discharged into the drainage pipe, and the filth discharge performance can be improved.
Further, in the present invention configured as described above, a water conduit for turning the cleaning water discharged from the first rim water discharge portion along the inner peripheral surface of the rim portion is formed in the bowl portion. Is formed so as to be gradually inclined downward from the first rim water spouting portion toward the front end of the bowl portion, and gradually inclined upward from the front end toward the rear side. The washing water from the water discharge part can be effectively allowed to flow into the concave part from the front side of the bowl part. In addition, since the wash water from the second rim water spouting portion merges with the flow flowing into the recess, the stored water in the recess can be effectively stirred in the vertical direction. Therefore, the sewage receiving surface of the bowl portion can be sufficiently cleaned with the cleaning water discharged from each of the first rim water discharging portion and the second rim water discharging portion, and a flow of stirring in the vertical direction is generated in the concave portion. be able to. As a result, the floating filth can be submerged in the stored water and efficiently discharged into the drain pipe, and the filth discharge performance can be improved.

In the present invention, preferably, most of the wash water discharged from the second rim water discharge portion flows into the recess from the side of the bowl portion.
In the present invention configured as described above, the wash water discharged from the first rim water discharge portion flows into the concave portion from the front side of the bowl portion as a main flow, and the second rim water discharge against the main flow flowing into the concave portion. Since most of the wash water discharged from the section merges from the lateral direction, the water stored in the recess can be more effectively stirred in the vertical direction. Therefore, the filth receiving surface of the bowl portion can be sufficiently washed with the washing water discharged from each of the first rim water discharging portion and the second rim water discharging portion, and a flow of stirring in the vertical direction is generated in the concave portion. be able to. As a result, the floating filth in the bowl can be submerged in the stored water and efficiently discharged into the drainage pipe, and the filth discharge performance can be improved.

In the present invention, preferably, the filth receiving surface of the bowl part includes a rear filth receiving surface formed in a shelf shape in a rear side region in the vicinity of the downstream side of the second rim water discharging unit, and the second rim water discharging unit. The wash water discharged from the water is guided to the front region of the recess by flowing on the rear filth receiving surface.
In the present invention configured as described above, the wash water discharged from the second rim water discharge portion is guided to the front side region of the recess by flowing through the rear side waste receiving surface formed in a shelf shape. The washing water from the second rim water spouting portion can be reliably merged from the lateral direction with respect to the main flow from the first rim water spouting portion, and the accumulated water in the recess can be effectively stirred in the vertical direction. Therefore, the sewage receiving surface of the bowl portion can be sufficiently cleaned with the cleaning water discharged from each of the first rim water discharging portion and the second rim water discharging portion, and a flow of stirring in the vertical direction is generated in the concave portion. be able to. As a result, the floating filth can be submerged in the stored water and efficiently discharged into the drain pipe, and the filth discharge performance can be improved.

In this invention, Preferably, ratio (L / w2) of the width | variety (L) of the back side waste receiving surface formed in the said shelf shape and the width | variety (w2) of the said 2nd rim water discharging part is 2-10. is there.
In the present invention thus formed, the ratio (L / w2) of the width (L) of the rear filth receiving surface formed in a shelf shape to the width (w2) of the second rim water spouting portion is 2-10. As a result, the wash water discharged from the second rim water discharge portion flows through the rear-side filth receiving surface formed in a shelf shape and is guided to the front region of the concave portion. The washing water from the second rim water spouting portion can be reliably merged with the main flow from the lateral direction, and the accumulated water in the recess can be effectively stirred in the vertical direction. Therefore, the sewage receiving surface of the bowl portion can be sufficiently cleaned with the cleaning water discharged from each of the first rim water discharging portion and the second rim water discharging portion, and a flow of stirring in the vertical direction is generated in the concave portion. be able to. As a result, the floating filth can be submerged in the stored water and efficiently discharged into the drain pipe, and the filth discharge performance can be improved.

In the present invention, preferably, the concave portion has the bottom surface formed in the front region in a plan view, and the area of the bottom surface is set to be more than half of the area of the water storage surface.
In the present invention configured as described above, the area of the bottom surface formed in the front region of the concave portion in plan view is set to be half or more of the area of the water storage surface, so that water is discharged from the second rim water discharging section. The washed water can effectively sink into the bottom surface of the concave portion and effectively form a flow that stirs the accumulated water in the vertical direction along the wall surface of the concave portion. Therefore, the filth receiving surface of the bowl portion can be sufficiently washed with the washing water discharged from each of the first rim water discharging portion and the second rim water discharging portion, and a flow of stirring in the vertical direction is generated in the concave portion. be able to. As a result, the floating filth in the bowl can be submerged in the stored water and efficiently discharged into the drainage pipe, and the filth discharge performance can be improved.

In the present invention, preferably, the filth receiving surface is gradually inclined downward from the vicinity of the central portion of the rear filth receiving surface toward the front end of the bowl portion, and upward from the front end toward the rear side. It is formed so as to incline gradually.
In the present invention configured as described above, the filth receiving surface is gradually inclined downward from the vicinity of the center of the rear side filth receiving surface toward the front end of the bowl portion, and from the front end toward the rear side. In addition to the wash water discharged from the first rim water discharger, a part of the wash water discharged from the second rim water discharger is also provided on the front side. Can flow into the recess.

In the present invention, preferably, the opening of the first rim water spouting portion is formed in a vertically long flat shape.
In the present invention configured as described above, the opening of the first rim water spouting portion is formed in a vertically long flat shape so that the washing water discharged from the first rim water spouting portion falls on the filth receiving surface. Therefore, the main stream can be swung to the front end of the bowl portion, and the main flow flowing into the recess from the front side can be effectively formed.

  According to the flush toilet of the present invention, the floating filth in the bowl portion can be submerged in the stored water and efficiently discharged into the drainage pipe, and the filth discharge performance can be improved.

It is a top view which shows the flush toilet bowl by one Embodiment of this invention. It is sectional drawing seen along the II-II line of FIG. It is sectional drawing seen along the III-III line of FIG. It is sectional drawing seen along the IV-IV line of FIG. It is sectional drawing seen along the VV line of FIG. It is sectional drawing seen along the VI-VI line of FIG. It is sectional drawing seen along the VII-VII line of FIG. It is sectional drawing seen along the VIII-VIII line of FIG. It is sectional drawing seen along the IX-IX line of FIG. It is sectional drawing seen along the XX line of FIG. It is the elements on larger scale which expanded partially the bowl part of the toilet bowl main body of the flush toilet according to one Embodiment of this invention shown in FIG. It is sectional drawing of the 1st spout of the flush toilet bowl by one Embodiment of this invention. It is sectional drawing of the 2nd water outlet of the flush toilet by one Embodiment of this invention. It is a top view which shows the mode of the flow of the washing water of the flush toilet by embodiment of this invention. It is sectional drawing of FIG. It is a schematic perspective view which shows the mode of the flow of the washing water of the flush toilet by embodiment of this invention.

Next, a flush toilet according to an embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a plan view showing a flush toilet according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line II-II in FIG. 1, and FIG. It is sectional drawing seen along the -III line. 4 is a cross-sectional view taken along line IV-IV in FIG. 1, FIG. 5 is a cross-sectional view taken along line V-V in FIG. 1, and FIG. It is sectional drawing seen along line VI-VI. 7 is a cross-sectional view taken along the line VII-VII in FIG. 1, and FIG. 8 is a cross-sectional view taken along the line VIII-VIII in FIG.

  As shown in FIGS. 1 to 3, the flush toilet 1 is a flush toilet that flushes filth by flowing water caused by a water drop in the bowl portion. The toilet main body 2 and flush water for washing the toilet main body 2 are shown in FIGS. And a water storage tank 4 for storing water. The toilet body 2 is made of earthenware with a glaze layer formed on the surface, a skirt portion 6 is formed in the lower portion, and a bowl portion 8 is formed in the front of the upper half. In addition, a common water passage 10 whose upstream end communicates with the water storage tank 4 is formed in the upper rear portion of the bowl portion 8, and a drain pipe 12 for discharging filth is formed in the lower rear portion of the bowl portion 8. Has been.

  The water storage tank 4 described above is a washing water source, and a drain valve 14 is provided in the water storage tank 4 and is opened and closed by an operation lever (not shown). In the present embodiment, the present invention may be applied to a direct pressure flush toilet that does not have the water storage tank 4 and is supplied with wash water directly from the water supply, or a flush toilet that is supplied with flush water by a flush valve. it can.

  The bowl portion 8 includes a bowl-shaped filth receiving surface 16 (details will be described later), a rim portion 18 positioned on the upper edge, and a recess 20 (details will be described later) formed below the filth receiving surface 16. I have. Here, as shown in FIGS. 2 to 7, the inner peripheral surface 18 a of the rim portion 18 has an overhanging shape toward the inside, so that swirling cleaning water described later does not jump out. Yes.

  A first water discharge port 22 (details will be described later) for discharging cleaning water is formed slightly behind the central portion on the left side when viewed from the front of the inner peripheral surface of the rim portion 18 of the bowl portion 8, and is viewed from the front. A second water discharge port 24 (details will be described later) is formed on the right rear side (downstream side). The first water outlet 22 and the second water outlet 24 are swung in the same direction (counterclockwise direction in FIG. 1) to form a swirling flow described later.

Moreover, the common water flow path 10 formed in the rear upper part of the flush toilet 1 mentioned above is branched into the 1st water flow path 26 and the 2nd water flow path 28 toward the toilet front. The first water passage 26 is for supplying cleaning water to the first water outlet 22, and the second water passage 28 is for supplying cleaning water to the second water outlet 24.
In the flush toilet 1 of the present embodiment, the first water passage 26 including the first water outlet 22 and the second water passage 28 including the second water outlet 24 are integrated with the ceramic toilet body 2. Although the form currently formed is demonstrated, it is not restricted to such a form, About the 1st waterway containing a 1st water outlet and the 2nd waterway containing a 2nd water outlet, it is a separate body from a toilet bowl main body. It may be formed by a distributor or the like.

  Here, as shown in FIGS. 2 to 7, the filth receiving surface 16 of the bowl portion 8 of the flush toilet 1 according to the present embodiment extends along the radial line toward the inlet of the drainage pipe 12. Are formed in a convex shape upward.

  Further, as shown in FIGS. 2 and 3, a water guide path 30 that guides cleaning water is formed in a region below the inner peripheral surface 18 a of the rim portion 18 of the bowl portion 8. This water conduit 30 is for the cleaning water discharged from the first water discharge port 22 to turn along the inner peripheral surface 18 a of the rim portion 18, and from the first water discharge port 22 to the front end of the bowl portion 8. It gradually inclines downward (see FIG. 2) and gradually inclines upward from the front end toward the rear side (see FIG. 3). Since the wash water discharged from the first water discharge port 22 swirls along this water conduit 30, it flows from the front side of the bowl portion 8 described later toward the inlet 32 a of the water conduit 32 of the drain pipe 12. A main flow rate M (details will be described later) can be formed.

Next, as shown in FIGS. 2 and 3, the drainage pipe 12 is connected to the bottom surface of the recess 20 and extends backward and downward, and the drainage trap connected to the introduction pipe 32 and extends upward. And a conduit 34. Further, the drain trap pipe 34 is composed of an ascending pipe 34a and a descending pipe 34b.
The water conduit 32 is connected to the bottom surface of the recess 20 as a smooth continuous curved surface, so that the cleaning water flowing from the recess 20 into the introduction conduit 32 flows smoothly through the introduction conduit 32.

Next, the filth receiving surface 16 and the recess 20 in the bowl portion 8 will be described in detail with reference to FIGS. 1 to 7 and FIGS. 9 to 11.
9 is a cross-sectional view taken along line IX-IX in FIG. 1, FIG. 10 is a cross-sectional view taken along line XX in FIG. 1, and FIG. 11 is shown in FIG. It is the elements on larger scale which expanded the bowl part of the toilet body of the flush toilet bowl by one Embodiment of this invention partially.

First, as shown in FIG. 1 to FIG. 7 and FIG. 9 to FIG. 11, the filth receiving surface 16 has a front end of the front filth receiving surface 16 b of the bowl portion 6 from the vicinity of the central portion C1 of the rear filth receiving surface 16 a. It is formed so as to be gradually inclined downward toward the rear and gradually inclined upward from the front end toward the rear side.
Moreover, as shown in FIG.2 and FIG.7, the back side filth receiving surface 16a is formed in shelf shape in the back side area | region of the filth receiving surface 16 in the downstream vicinity of the 2nd water discharge port 24. As shown in FIG. Accordingly, as shown in FIG. 11, most of the flow m of the washing water discharged from the second water discharge port 24 to the vicinity of the central portion C1 of the rear filth receiving surface 16a is transferred to the rear filth receiving surface 16a. Along the rear side of the concave portion 20, and turn to the side of the concave portion 20 (left side when the concave portion 20 is viewed from the front side) to form a lateral flow into the concave portion 20. .
The amount of washing water m discharged from the second water outlet 24 is set to be smaller than the amount of main water M having a large flow rate discharged from the first water outlet 22. For example, 60% to 90% of the amount of washing water that has passed through the common water passage 10 is discharged from the first water outlet 22 through the first water passage 26, and 10% to 40% of the amount of washing water that has passed through the common water passage 10 is Water is discharged from the second water outlet 24 through the second water passage 28.
Furthermore, it is preferable that the washing water amount of most of the flow m discharged from the second water discharge port 24 is set to be approximately 50% or more of the washing water amount discharged from the second water discharge port 24.
In addition, a part m1 of the main flow m of the wash water discharged from the second water discharge port 24 is added to the wash water discharged from the first water discharge port 22 and flowing from the front side into the recess 20 as a main flow M having a large flow rate. Thus, the main flow M can flow into the recess 20 from the front side.

  Next, as shown in FIGS. 2, 3, and 11, the concave portion 20 of the bowl portion 8 includes a bottom surface 36 positioned below the water level W, a bottom edge 36, and a lower edge portion of the filth receiving surface 16. And a wall surface 38 for connecting the two. The bottom surface 36 includes a front bottom surface 40 formed in a front region (front region) from the inlet 32a of the water conduit 32, and a rear bottom surface formed in a rear region from the inlet 32a of the water conduit 32. 42.

The front side bottom surface 40 of the bottom portion 36 of the recess 20 is formed horizontally. The front bottom surface 40 may be inclined downward toward the rear.
Further, the front bottom surface 40 of the recess 20 is formed such that the entire area of this surface is located below the stored water level W and above the lower end 42 a of the rear bottom surface 42.

  The rear bottom surface 42 of the bottom portion 36 of the recess 20 is formed so as to be directed toward the front region of the introduction conduit 32 and to be inclined downward toward the inside. Further, the rear bottom surface 42 of the recess 20 is formed so that the entire area of this surface is located below the stored water level W. Note that the rear bottom surface 42 of the recess 20 does not have to be a flat surface, and may be formed of a curved surface slightly curved upward.

Next, the area A1 of the front bottom surface 40 is set to be larger than half of the area A2 of the water storage surface S in the plan view shown in FIG. Accordingly, as shown in FIG. 11, most of the flow m of the washing water discharged from the second water discharge port 24 to the vicinity of the central portion C1 of the rear filth receiving surface 16a is transferred to the rear filth receiving surface 16a. Along the rear side of the concave portion 20, and turn to the side of the concave portion 20 (left side when the concave portion 20 is viewed from the front side) to form a lateral flow into the concave portion 20. . Then, the lateral flow m of the cleaning water enters the front bottom surface 40 along the left wall surface 38a from the vicinity of the upper side of the left wall surface 38a of the recess 20.
Further, the flow m of the washing water that has entered the recess 20 swirls upward from the front bottom surface 40 of the recess 20 along the right wall surface 38b so as to form a flow that effectively stirs the accumulated water in the vertical direction. It has become. And this flow m joins the main flow M of the large flow volume discharged from the 1st water discharge port 22 and flowing into the recessed part 20 from the front side.
In the present embodiment, the embodiment will be described in which the area A1 of the front bottom surface 40 is set to be larger than half the area A2 of the water storage surface S in the plan view shown in FIG. It may be equal to half of the area A2 of the water storage surface S. In short, the area A1 of the front bottom surface 40 may be set to be half or more of the area A2 of the water storage surface S.

Next, the first water outlet 22 and the second water outlet 24 in the bowl portion 8 will be described in detail with reference to FIGS.
FIG. 12 is a cross-sectional view of the first water outlet of the flush toilet according to an embodiment of the present invention, and FIG. 13 is a cross-sectional view of the second water outlet of the flush toilet according to an embodiment of the present invention.
First, as shown in FIG. 12, the opening cross section D1 of the first water outlet 22 and the cross section of the first water passage 26 reaching the opening cross section D1 of the first water outlet 22 are substantially the same as those of the first water passage 26. It is formed in a vertically long flat shape over the entire area. As a result, most of the wash water discharged from the first water discharge port 22 after passing through the first water passage 26 does not fall on the front-side filth receiving surface 16b immediately after the water discharge, and at least to the front end in the bowl portion 8. The main flow M which flows into the recessed part 20 from the front side in the bowl part 8 can be formed effectively.
In addition, it is preferable that the ratio (h1 / w1) of the largest vertical dimension h1 and the largest width dimension w1 in the opening cross section D1 of the 1st water discharge port 22 is set to 1-5, and 1.5-3. More preferably, it is set to.

Further, as shown in FIG. 13, the opening cross section D2 of the second water discharge port 24 is smaller than the opening cross section D1 of the first water discharge port 22, but is similar to the opening cross section D1 of the first water discharge port 22. In addition, it is formed in a vertically long flat shape. As a result, the washing water discharged from the second water outlet 24 through the second water passage 28 is mostly immediately after water discharge from the second water outlet 24, and the rear side of the recess 20 from the rear filth receiving surface 16a. Without falling into the area, it is possible to turn to the vicinity of the upper part of the left side wall 38a of the recess 20.
In addition, it is preferable that the ratio (h2 / w2) of the largest vertical dimension h2 and the largest width dimension w2 in the opening cross section D2 of the 2nd water outlet 24 is set to 1-5, and 1.5-3. More preferably, it is set to.

  Next, as shown in FIGS. 2, 3, 11, and 13, the width L in the front-rear direction and the maximum of the second water discharge port 24 in the central portion C <b> 1 of the rear-side filth receiving surface 16 a formed in a shelf shape. The ratio L / w2 to the width dimension w2 is preferably set to 2 to 10, more preferably set to 3 to 9, and most preferably set to 4 to 8. Accordingly, as shown in FIG. 11, most of the flow m of the washing water discharged from the second water discharge port 24 to the vicinity of the central portion C1 of the rear filth receiving surface 16a is transferred to the rear filth receiving surface 16a. Along the rear side of the concave portion 20, and turn to the side of the concave portion 20 (left side when the concave portion 20 is viewed from the front side) to form a lateral flow into the concave portion 20. Since it is led to the side region, the main flow m from the second water discharge port 24 can be reliably merged from the lateral direction with the main flow M from the first water discharge port 22, and the concave portion The stored water in 20 can be effectively stirred up and down.

Next, the washing operation in the flush toilet according to the present embodiment will be described with reference to FIGS.
14 is a plan view showing a flow of washing water in a flush toilet according to an embodiment of the present invention, FIG. 15 is a cross-sectional view of FIG. 14, and FIG. 16 is a diagram of a flush toilet according to an embodiment of the present invention. It is a schematic perspective view which shows the mode of the flow of washing water.

  First, when the user operates an operation lever (not shown) of the water storage tank 4, the drain valve 14 is opened, and the washing water in the water storage tank 4 flows into the common water passage 10 and branches off from the common water passage 10. Wash water is discharged from each of the first water outlet 22 and the second water outlet 24 through the first water passage 26 and the second water passage 28.

  The wash water discharged from the first water discharge port 22 first flows forward along the water guide path 30 formed on the inner peripheral surface 18 a of the rim portion 18 of the bowl portion 8, and the front end of the bowl portion 8. After passing through, it flows backward. At this time, a part of the washing water falls down the bowl portion 8 while swirling, and the filth receiving surface 16 is washed.

  In addition, a considerable amount of washing water discharged from the first water discharge port 22 and flowing along the water conduit 30 has a large flow rate flowing from the front side of the bowl portion 8 toward the inlet 32a of the water conduit 32 of the drain pipe 12. A main flow M is formed (see FIGS. 14 and 16). The partial flow M1 of the main flow M collides with the rear bottom surface 42 of the bottom surface 36 of the recess 20 and then flows obliquely downward and forward toward the front region in the water conduit 32 (see FIG. 15). Moreover, the other part flow M2 of the mainstream M flows directly into the inlet 32a of the water conduit 32 (refer FIG. 15).

  Here, in the present embodiment, a water conduit 30 is formed for the cleaning water to swirl along the inner peripheral surface 18a of the rim portion 18, and the water conduit 30 extends from the first water outlet 22 to the front of the bowl portion 8. Since it is formed so as to be gradually inclined downward toward the end and gradually inclined upward from the front end toward the rear side, a main flow M having a large flow rate can be formed. Further, a part M 1 of the main flow M collides with the rear bottom surface 42 of the bottom surface 36 of the recess 20, and a part M 1 of the collided main flow flows toward the front region in the water conduit 32. In particular, the rear bottom surface 42 of the bottom surface 36 is formed so as to incline downward toward the inside, so that a part of the main flow M1 that has collided with the rear bottom surface 42 is transferred to the front region of the water conduit 32. It can guide smoothly toward. In addition, another part of the main flow M2 of the cleaning water flows into the rear region in the water conduit 32.

  On the other hand, the wash water discharged from the second water discharge port 24 falls in the bowl portion 8 while turning, and cleans the rear region of the filth receiving surface 16. Furthermore, as shown in FIGS. 14-16, most flow m of the wash water discharged from the 2nd water discharge port 24 to center part C1 vicinity of the back side filth receiving surface 16a is along the back side filth receiving surface 16a. Then, it bypasses the rear side of the recess 20 and turns to the side of the recess 20 (left side when the recess 20 is viewed from the front side) to form a lateral flow into the recess 20.

  Further, as shown in FIG. 14, a part m1 of the main flow m of the washing water discharged from the second water discharge port 24 is from the first water discharge port 22 that flows into the recess 20 from the front side of the bowl portion 8 as the main flow M. The water flows into the recess 20 together with the main flow M from the front side.

  Further, the lateral flow m of the cleaning water flowing into the recess 20 enters the front bottom surface 40 along the left wall surface 38a from near the upper side of the left wall surface 38a of the recess 20. The flow m of the cleaning water that has entered the recess 20 turns upward from the front bottom surface 40 of the recess 20 along the right wall surface 38b to form a flow that effectively stirs the accumulated water in the vertical direction. ing. And the flow m of the wash water from this 2nd water outlet 24 merges with the main flow M of the large flow volume discharged from the 1st water outlet 22 and flowing into the recessed part 20 from the front side. At this time, the flow m of cleaning water discharged from the second water discharge port 24 collides with the front bottom surface 40 and rises, and is mixed with the main flows M1 and M2 flowing above. Thereby, the filth is effectively agitated and smoothly flows into the water conduit 32.

  According to the flush toilet 1 according to the embodiment of the present invention described above, the wash water discharged from the first water discharge port 22 flows into the recess 20 from the front side of the bowl portion 8 as the main flow M, and flows into the recess 20. Since most of the washing water discharged from the second water discharge port 24 joins the main flow M as the main flow m from the lateral direction of the recess 20, the water stored in the recess 20 is effectively stirred in the vertical direction. Can do. Therefore, the filth receiving surface 16 of the bowl portion 8 can be sufficiently cleaned with the cleaning water discharged from each of the first water discharge port 22 and the second water discharge port 24, and the flow of stirring in the vertical direction in the recess 20 m can be generated. As a result, the floating filth in the bowl portion 8 can be submerged in the stored water and efficiently discharged into the drain pipe, and the filth discharge performance can be improved.

  Moreover, according to the flush toilet 1 according to the present embodiment, the filth receiving surface 16 of the bowl portion 8 includes the rear filth receiving surface formed in a shelf shape in the rear side region in the vicinity of the downstream of the second water discharge port 24. Since the ratio L / w2 between the width L of the rear filth receiving surface 16a formed in the shelf shape and the maximum width w2 of the second water discharge port 24 is 2 to 10, the second discharge The wash water discharged from the water port 24 is guided to the front region of the recess 20 by flowing through the rear side dirt receiving surface 16a. Therefore, the wash water from the second water discharge port 24 can be reliably merged with the main flow M from the first water discharge port 22 from the lateral direction of the concave portion 20, and the accumulated water in the concave portion 20 is effective in the vertical direction. Can be stirred. Therefore, the filth receiving surface 16 of the bowl portion 8 can be sufficiently cleaned with the cleaning water discharged from each of the first water discharge port 22 and the second water discharge port 24, and the flow of stirring in the vertical direction in the recess 20 m can be generated. As a result, the floating filth in the bowl portion 8 can be submerged in the stored water and efficiently discharged into the drain pipe 12, and the filth discharge performance can be improved.

  Furthermore, according to the flush toilet 1 according to the present embodiment, the area A1 of the front bottom surface 40 formed in the front region of the recess 20 in a plan view is set to be more than half of the area A2 of the reservoir surface, The main flow m of the wash water discharged from the second water discharge port 24 enters the front bottom surface 40 from the left wall surface 38a of the recess 20 and effectively flows the water that stirs the water in the vertical direction along the right wall surface 38b of the recess 20. Can be formed. Accordingly, the entire filth receiving surface 16 of the bowl portion 8 can be sufficiently washed with the washing water discharged from each of the first water discharge port 22 and the second water discharge port 24, and stirred vertically in the recess 20. The flow m to be generated can be generated. As a result, the floating filth in the bowl portion 8 can be submerged in the stored water and efficiently discharged into the drain pipe 12, and the filth discharge performance can be improved.

  Further, according to the flush toilet 1 according to the present embodiment, the water conduit 30 for the main flow M of the wash water discharged from the first water discharge port 22 to turn along the inner peripheral surface 18a of the rim portion 18 is provided in the bowl portion. 8 and the water conduit 30 is gradually inclined downward from the first water discharge port 22 toward the front end of the bowl portion 8 and gradually inclined upward from the front end toward the rear side. By being formed, the wash water from the first water discharge port 22 can be effectively introduced as the main flow M into the recess 20 from the front side of the bowl portion 8.

  Furthermore, according to the flush toilet 1 according to the present embodiment, as shown in FIGS. 9 and 10, the filth receiving surface 16 extends from the vicinity of the central portion C1 of the rear filth receiving surface 16 a to the front end of the bowl portion 8. The water is discharged from the first water discharge port 22 and is recessed from the front side of the bowl portion 8 by being formed so as to be gradually inclined downward and gradually inclined upward from the front end toward the rear side. In addition to the wash water that flows into the main flow M 20, a part m 1 of the main flow m of the wash water discharged from the second water discharge port 24 can also flow into the recess 20 from the front side.

  Further, according to the flush toilet 1 according to the present embodiment, the opening cross section D1 of the first water discharge port 22 is formed in a vertically long flat shape, so that the wash water discharged from the first water discharge port 22 is filth. Without falling to the receiving surface 16, it can turn to the front end of the bowl part 8, and the mainstream M which flows into the recessed part 20 from the front side can be formed effectively.

  In the flush toilet 1 according to the present embodiment described above, the wash-out flush toilet has been described as an example. However, the sewage inside the bowl portion is sucked into the bowl portion using a siphon action, and the drain trap pipe is connected to the outside at once. A so-called siphon flush toilet may be used.

DESCRIPTION OF SYMBOLS 1 Flush toilet 2 Toilet body 4 Reservoir tank 6 Toilet body skirt 8 Toilet bowl bowl 10 Common water passage 12 Drain pipe 14 Drain valve 16 Soil receiving surface 16a Rear side waste receiving surface 16b Front side waste receiving surface Rim part 18a Inner peripheral surface 20 Concave part 22 1st water discharge port (1st rim water discharge part)
24 2nd spout (2nd rim spout part)
26 1st waterway 28 2nd waterway 30 Waterway 32 Waterway 32a Inlet 34 Drain trap line 34a Ascending line 34b Downline 36 Bottom 38 Wall 38a Left wall 38b Right wall 40 Front bottom 42 Rear bottom 42a Lower end A1 Area of the front bottom surface of the recess A2 Area of the water collecting surface C Center part of the rear filth receiving surface D1 Open section of the first outlet D2 Open section of the second outlet h1 Maximum vertical section of the opening section of the first outlet Dimensions h2 Maximum vertical dimension of the opening cross section of the second spout L L Width in the front-rear direction of the center portion of the rear-side filth receiving surface M Main flow of washing water spouted from the first spout M1 Spouted from the first spout Part of the main stream of wash water M2 Other part of the main stream of wash water discharged from the first outlet m Main stream of wash water discharged from the second outlet m1 Wash water discharged from the second outlet Mainstream Part S Reservoir surface W Reservoir water level w1 Maximum width dimension of the opening cross section of the first spout w2 Maximum width dimension of the opening cross section of the second spout (width of the second rim spout section)

Claims (8)

A flush toilet that flushes toilets with wash water supplied from a water supply source and discharges filth,
A bowl-shaped filth receiving surface, a rim portion located above the filth receiving surface, a water conduit formed in a region below the inner peripheral surface of the rim portion, and a recess formed below the filth receiving surface A bowl portion comprising: a bottom surface in which the concave portion is located below the stored water level; and a wall surface connecting the bottom surface and the lower edge portion of the waste receiving surface;
A water discharger for supplying washing water into the bowl part,
A first rim water spouting part that is located on the rim part on one side in the left-right direction of the bowl part and that spouts wash water toward the front of the bowl part;
The water discharger that is located at the rim part on the other side in the left-right direction of the bowl part, and that has only a second rim water discharger that discharges cleaning water toward the one side of the bowl part,
A drainage pipe that has an inlet connected to the recess and discharges filth,
The water conduit is formed to gradually incline downward toward the front end of the bowl portion on the one side and gradually incline upward from the front end to the rear side on the other side. ,
The bowl portion is configured such that the cleaning water discharged from the first rim water discharge portion forms a main flow into the recess from the front side of the bowl portion, and the water discharged from the second rim water discharge portion. Water passes through the rear side of the bowl part and flows into the concave part from the one side of the concave part, flows to the bottom surface along the wall surface of the concave part on the one side, and flows from the bottom surface to the wall surface of the concave part on the other side. A flow of water flowing upward is formed, and the flow of washing water from the second rim water discharger is configured to merge with the main flow discharged from the first rim water discharger. Toilet bowl.   The flush toilet according to claim 1, wherein most of the wash water discharged from the second rim water discharge portion flows into the recess from a side of the bowl portion.   The filth receiving surface of the bowl portion includes a rear filth receiving surface formed in a shelf shape in the rear side region in the vicinity of the downstream side of the second rim water spouting portion, and the wash water discharged from the second rim water spouting portion is The flush toilet according to claim 1 or 2, wherein the flush toilet is guided to a front side region of the recess by flowing on the rear side waste receiving surface.   The water washing according to claim 3, wherein a ratio (L / w2) between a width (L) of the rear-side filth receiving surface formed in the shelf shape and a width (w2) of the second rim water spouting portion is 2 to 10. toilet bowl.   The flush toilet according to claim 3 or 4, wherein the recess has a bottom surface formed in a front region in a plan view, and an area of the bottom surface is set to be half or more of an area of a water storage surface.   The filth receiving surface is gradually inclined downward from the vicinity of the central portion of the rear filth receiving surface toward the front end of the bowl portion, and gradually inclined upward from the front end toward the rear side. The flush toilet of Claim 1 currently formed in this.   The flush toilet according to any one of claims 1 to 6, wherein the opening of the first rim water spouting portion is formed in a vertically long flat shape.   The said recessed part is formed so that the width | variety of the left-right direction of the said recessed part may become small as it goes to the front end of the said recessed part in the front side part of the said recessed part in top view. Flush toilet.

Images