JP7285674B2 - Water stop structure between water tank and drain trap and water stop method between water tank and drain trap - Google Patents

Description

The present invention relates to a water stop structure for a water tank and a drain trap and a water stop method for the water tank and a drain trap.

2. Description of the Related Art Conventionally, a water stop material such as an O-ring or packing is provided between a water tank such as a kitchen sink or a washroom bowl and a drainage device such as a drainage trap. Japanese Patent Laid-Open No. 2002-200002 proposes a water stop between the water tank and the drainage device by fastening the drainage device to the water tank with a lock nut.

JP 2018-141318 A

However, in the water stop structure described in Patent Document 1, there is a risk of water leakage due to insufficient tightening of the lock nut or the like, resulting in insufficient crushing of the packing.

Therefore, the present invention has been made in view of the above circumstances, and provides a water stop structure between a water tank and a drain trap and a water stop method between the water tank and the drain trap that can further improve water stoppage.

In order to achieve the above object, the present invention employs the following means.
That is, a water stop structure for a water tank and a drain trap according to the present invention is a water stop structure for the water tank and the drain trap, comprising: a water tank flange extending downward from the bottom of the water tank toward the opening; and extending radially outwardly and disposed above the trough flange and disposed between the trough flange and the trap top outward wall. two surfaces of the water tank flange portion are in contact with the water stop member , the water stop member is an O-ring, and the trap upper outward wall portion includes: It is characterized in that a first inclined wall portion is provided that gradually faces inward in the radial direction as it goes downward and abuts against the water stop member .

In the water stop structure for the water tank and the drain trap configured in this way, the water stop member disposed between the water tank flange portion and the upper outward wall portion of the trap abuts on two surfaces of the water tank flange portion. . Therefore, even if water passes between one of the two surfaces of the water tank flange portion and the water stop member, the water can be stopped between the other of the two surfaces and the water stop member. Therefore, the water stopping property can be further improved.

Further, in the water stop structure for the water tank and the drain trap according to the present invention, the two surfaces of the water tank flange portion are a downward surface extending downward from the bottom of the water tank and a downward surface extending downward from the lower end of the downward surface. Therefore, it is preferable that the flange surface gradually faces inward in the radial direction.

In the water stop structure between the water tank and the drain trap configured in this way, even if water passes between the downward surface and the water stop member, the flange surface and the water stop member having a gentler slope than the downward surface. It is possible to stop water between them, and to further increase the water stoppage.

Further, in the water stop structure for a water tank and a drain trap according to the present invention, a notch portion that is notched inwardly and upwardly in the radial direction is formed in the lower portion of the trap upper outward wall portion,
The water stop member may be arranged in the notch.

In the water stop structure for the water tank and the drain trap configured in this way, a notch is formed in the lower portion of the outer wall portion of the upper part of the trap. Displacement of the member is suppressed. In addition, it is possible to stop water from passing between the notch portion of the upper outward wall portion of the trap and the water stop member, thereby further enhancing water stoppage.

Further, in the water stopping structure for a water tank and a drain trap according to the present invention, a tapered portion gradually sloping inward in the radial direction as it goes downward is formed at the lower end portion of the outer wall portion of the upper part of the trap. may

In the water stop structure for the water tank and the drain trap configured in this way, the water stop member is installed on the water tank flange portion of the water tank, and the trap upper outward wall portion of the drain trap is attached to the water stop member from above. Install. Since the lower end of the trap upper outward wall is tapered, it is possible to prevent the trap upper outer wall from interfering with the water shut-off member when the trap upper outer wall is installed from above. and easy to install a drain trap.

Further, a method for stopping water between a water tank and a drain trap according to the present invention is a method for stopping water between a water tank and a drain trap, wherein a water stop is provided on a water tank flange portion that extends downward from the bottom of the water tank toward the opening side. a water shutoff member installation step of installing a member; and a water shutoff trap installation step of installing, above the water shutoff member, a trap top outward wall provided on the top of the water trap and extending radially outward. , wherein two surfaces of the water tank flange portion are in contact with the water stop member , the water stop member is an O-ring, and the trap upper outward wall portion gradually extends downward. A first inclined wall portion facing radially inward and abutting against the water stop member is provided.

In the method for stopping water between the water tank and the drain trap configured as described above, the water stopping member is installed on the water tank flange portion of the water tank in the water stopping member installation step. In the drain trap installation process, if the trap upper outward wall portion of the drain trap is installed from above with respect to the water stop member, the water stop member is arranged between the water tank flange portion and the trap upper outward wall portion. Even if water passes between one of the two surfaces of the water tank flange portion and the water stop member, the water can be stopped between the other of the two surfaces and the water stop member. It is possible to further improve the water stopping property.
Moreover, since the water stop member and the drain trap can be installed from above the water tank, the water stop member can be installed with good workability to stop water.

According to the structure for stopping water between a water tank and a drain trap and the method for stopping water between a water tank and a drain trap according to the present invention, it is possible to further improve water stoppage.

1 is a vertical cross-sectional view of a water stop structure for a water tank and a drain trap according to one embodiment of the present invention; FIG. 1 is a top view of a water stop structure for a water tank and a drain trap according to an embodiment of the present invention; FIG. FIG. 2 is an enlarged view of part A in FIG. 1; FIG. 5 is an enlarged view of a main portion of a water stop structure for a water tank and a drain trap according to Modification 1 of one embodiment of the present invention; FIG. 11 is an enlarged view of a main portion of a water stop structure for a water tank and a drain trap according to Modification 2 of one embodiment of the present invention; FIG. 11 is an enlarged view of a main portion of a water stop structure between a water tank and a drain trap according to Modification 3 of one embodiment of the present invention; FIG. 11 is an enlarged view of a main part of a water stop structure for a water tank and a drainage trap according to Modification 4 of one embodiment of the present invention;

A water stop structure for a water tank and a drain trap according to one embodiment of the present invention will be described below.
FIG. 1 is a vertical cross-sectional view of a water stop structure for a water tank and a drain trap according to one embodiment of the present invention.
As shown in FIG. 1, a water stop structure (hereinafter referred to as "water stop structure") 100 between a water tank and a drain trap is a sink (water tank) provided in a kitchen counter or the like (not shown; the same shall apply hereinafter). 1 and a drain trap 3 connected to a drain pipe (not shown; the same shall apply hereinafter) rising from the floor.

The water stop structure 100 includes a sink flange portion (water tank flange portion) 20 of the sink 1 , an upper outward wall portion 35 of the drain trap 3 , and a water stop member 4 .

FIG. 2 is a top view of the water stop structure 100. FIG.
As shown in FIG. 2 , the sink 1 has a sink bottom portion (bottom portion) 11 and a sink peripheral wall portion 12 . Although the sink 1 is made of stainless steel in this embodiment, it may be made of other materials such as artificial marble.

The sink bottom 11 has a substantially rectangular shape in plan view. The sink peripheral wall portion 12 rises upward from the outer edge portion of the sink bottom portion 11 .

The sink bottom 11 is formed with a sink opening (opening) 13 penetrating vertically. The sink opening 13 has a substantially circular shape in plan view.

As shown in FIG. 1, the sink bottom portion 11 is provided with a sink flange portion 20 toward the sink opening portion 13 side.

As shown in FIG. 1, the sink flange portion 20 is formed in an annular shape in plan view.
FIG. 3 is an enlarged view of part A in FIG.
As shown in FIG. 3 , the sink flange portion 20 has a downward wall portion 21 and a flange wall portion 22 .

The downward wall portion 21 extends vertically downward from the sink bottom portion 11 of the sink 1 . An inner surface (downward surface) 21a of the downward wall portion 21 faces radially inward.

The flange wall portion 22 gradually faces downward from the lower end portion of the downward wall portion 21 toward the inner side in the radial direction. The slope of the flange wall portion 22 is gentler than the slope of the downward wall portion 21 . An upper surface (flange surface) 22a of the flange wall portion 22 faces upward.

As shown in FIG. 1 , the drain trap 3 has a drain bowl 30 , a trap body 41 and a drain pipe 42 .

A drain bowl 30 is connected to the sink opening 13 and has a downwardly recessed shape. A trap body 41 is connected to the lower end of the drain bowl 30 . The drain pipe 42 is connected to the side of the trap body 41 .

The drain bowl 30 has a bowl bottom portion 31 , a bowl peripheral wall portion 32 and an upper outward wall portion (trap upper outward wall portion) 35 .

A bowl opening 33 that is continuous with the trap body 41 is formed in the bowl bottom 31 .

The bowl peripheral wall 32 rises upward from the outer edge of the bowl bottom 31 . A male screw 32 a is formed on the outer peripheral surface of the bowl peripheral wall portion 32 .

As shown in FIG. 3 , the upper outward wall portion 35 extends radially outward from the upper end portion 32 u of the bowl peripheral wall portion 32 . The upper outward wall portion 35 is formed in an annular shape in plan view.

The upper outward wall 35 is arranged above the flange wall 22 of the sink 1 . A radially outer end portion 35 e of the upper outward wall portion 35 is in contact with the inner surface 21 a of the downward wall portion 21 of the sink 1 .

An end portion 35e of the upper outward wall portion 35 is provided with a first inclined wall portion 36 gradually extending radially inward as it extends downward. A second inclined wall portion 37 is provided at the lower end portion of the first inclined wall portion 36 so as to gradually extend radially outward as it goes downward. The second inclined wall portion 37 is inclined at an inclination angle θ1 with respect to the horizontal plane. In this embodiment, the inclination angle θ1 is approximately 60 to 70 degrees. In addition, the angle of the inclination angle θ1 can be set as appropriate.

A lower end portion 37 d of the second inclined wall portion 37 is arranged radially inward of an end portion 35 e of the upper outward wall portion 35 .

The first inclined wall portion 36 and the second inclined wall portion 37 form a notch portion 38 that is notched radially inward and upward at the lower portion of the upper outward wall portion 35 .

As shown in FIG. 1, the water stop member 4 has an annular shape in plan view. In this embodiment, the water stop member 4 is an O-ring.

As shown in FIG. 3 , the water stop member 4 is arranged between the sink flange portion 20 of the sink 1 and the upper outward wall portion 35 of the drain trap 3 . The water stop member 4 is arranged in the cutout portion 38 of the upper outward wall portion 35 .

In other words, the water stop member 4 includes the inner surface 21a and upper surface 22a of the sink flange portion 20, the surface (downward facing surface) 36a of the first inclined wall portion 36 of the upper outward wall portion 35, and the second inclined wall portion 37. They are arranged in contact with the surfaces (surfaces facing radially outward) 37a.

As shown by a two-dot chain line in FIG. The cross-sectional shape of the member 4 is circular. The outer diameter of the water stop member 4 is slightly larger than the diameter of the upper outward wall portion 35 .

The water stop member 4 is pressed downward and radially outward by the surface 36 a of the first inclined wall portion 36 . The water stop member 4 is pressed radially outward by the surface 37 a of the second inclined wall portion 37 . As a result, the water stop member 4 is sandwiched between the inner surface 21a and upper surface 22a of the sink flange portion 20, the surface 36a of the first inclined wall portion 36, and the surface 37a of the second inclined wall portion 37, and is deformed and stored. .

A lock nut 5 is arranged radially outside the bowl peripheral wall portion 32 of the drainage bowl 30 . A female thread 5 a is formed on the inner peripheral surface of the lock nut 5 . The female thread 5 a of the lock nut 5 is screwed into the male thread 32 a of the drain trap 3 .

Next, a water stop method (installation method) of the water stop structure 100 will be described.
First, the sink 1 is installed on the kitchen counter or the like.
Next, a step of attaching the water cutoff member to the drain trap is performed.
The cutoff member 4 is fitted in the notch portion 38 of the upper outward wall portion 35 of the drain trap 3 .

Next, a drainage trap installation process is performed.
A drain trap 3 fitted with a water stop member 4 is moved downward from above the sink 1 to pass the drain bowl 30 through the sink opening 13. - 特許庁

When the water stop member 4 comes into contact with the upper end portion of the downward wall portion 21 of the sink 1 , it begins to deform and moves downward along the inner surface 21 a of the downward wall portion 21 .

Place the upper outward wall 35 of the drain trap 3 on top of the sink flange 20 of the sink 1 . When the water stop member 4 provided on the upper outward wall portion 35 reaches (abuts) the flange wall portion 22 of the sink 1, the weight of the drain trap 3 causes the water stop member 4 to move toward the surface 21a of the sink flange portion 20. , the upper surface 22a, the surface 36a of the first inclined wall portion 36, and the surface 37a of the second inclined wall portion 37, and are accommodated in a further deformed state.

Next, a lock nut tightening process is performed.
Finally, the lock nut 5 is tightened to complete the installation of the waterproof structure 100 .

In the water stop structure 100 configured in this way, the water stop member 4 arranged between the sink flange portion 20 and the upper outward wall portion 35 abuts against the inner surface 21 a and the upper surface 22 a of the sink flange portion 20 . there is Therefore, even if water passes between the inner surface 21 a of the sink flange portion 20 and the water stop member 4 , the water can be stopped between the upper surface 22 a and the water stop member 4 . Therefore, since the two surfaces of the inner surface 21a and the upper surface 22a of the sink flange portion 20 can stop water, the water stopping performance can be further improved.

The water stop member 4 is pressed downward and radially outward by the surface 36 a of the first inclined wall portion 36 of the drain trap 3 . Due to the weight of the drain trap 3, the water stop member 4 is accommodated in the corner between the downward wall portion 21 and the flange wall portion 22 of the sink 1, and is in contact with the inner surface 21a and the upper surface 22a of the sink flange portion 20. there is Therefore, regardless of the degree of tightening of the lock nut 5, it is possible to secure the water stopping property.

Moreover, even if water passes between the inner surface 21a of the sink flange portion 20 and the water stop member 4, the water stops between the upper surface 22a of the sink flange portion 20 and the water stop member 4, which has a gentler slope than the inner surface 21a. It can be water-repellent, and the water stoppage can be further improved.

Further, since the cutout portion 38 is formed in the lower portion of the upper outward wall portion 35 , the water cutoff member 4 is fitted into the cutout portion 38 , and displacement of the water cutoff member 4 is suppressed. In addition, it is possible to stop water from passing between the cutout portion 38 of the upper outward wall portion 35 and the water stop member 4, thereby further enhancing water stoppage.

(Modification 1)
Next, a water stop structure for a water tank and a drain trap according to Modification 1 of one embodiment of the present invention will be described mainly with reference to FIG.
In the description of the modification shown below, the same reference numerals are given to the same members as those described above, and the description thereof will be omitted.
FIG. 4 is an enlarged view of a main portion of a water stop structure for a water tank and a drain trap according to Modification 1 of one embodiment of the present invention.

As shown in FIG. 4, the inclination angle θ1 of the second inclined wall portion 37A of the drainage trap 3 of this modified example is smaller than the inclination angle θ1 of the embodiment shown above. In this modified example, the inclination angle θ1 is about 30 to 40 degrees. In addition, the angle of the inclination angle θ1 can be set as appropriate.

As a result, a larger space than in the first embodiment is formed at the corner portion 35A between the first inclined wall portion 36 and the second inclined wall portion 37A. The waterproof member 4 is deformed so as to enter into this space. A large contact area can be secured between the water cutoff member 4 and the first inclined wall portion 36 and the second inclined wall portion 37A.

In the water stop structure 100A configured in this way, the water stop member 4 arranged between the sink flange portion 20 and the upper outward wall portion 35 is in contact with the inner surface 21a and the upper surface 22a of the sink flange portion 20. there is Therefore, even if water passes between the inner surface 21 a of the sink flange portion 20 and the water stop member 4 , the water can be stopped between the upper surface 22 a and the water stop member 4 . Therefore, since the two surfaces of the inner surface 21a and the upper surface 22a of the sink flange portion 20 can stop water, the water stopping performance can be further improved.

(Modification 2)
Next, a water stop structure for a water tank and a drain trap according to Modification 2 of one embodiment of the present invention will be described mainly with reference to FIG.
FIG. 5 is an enlarged view of a main portion of a water stop structure for a water tank and a drain trap according to Modification 2 of one embodiment of the present invention.

As shown in FIG. 5, the inclination angle θ1 of the second inclined wall portion 37B of this modified example is larger than the inclination angle θ1 of the embodiment shown above. In this modification, the inclination angle θ1 is approximately 90 degrees. In addition, the angle of the inclination angle θ1 can be set as appropriate.

A return portion 39 is formed at the lower end portion of the second inclined wall portion 37B. The return portion 39 is gradually inclined radially outward as it goes downward. The water stop member 4 is also in contact with the return portion 39 .

In the water stop structure 100B configured in this way, the water stop member 4 arranged between the sink flange portion 20 and the upper outward wall portion 35 is in contact with the inner surface 21a and the upper surface 22a of the sink flange portion 20. there is Therefore, even if water passes between the inner surface 21 a of the sink flange portion 20 and the water stop member 4 , the water can be stopped between the upper surface 22 a and the water stop member 4 . Therefore, since the two surfaces of the inner surface 21a and the upper surface 22a of the sink flange portion 20 can stop water, the water stopping performance can be further improved.

In addition, since the water stop member 4 is in contact with the flange wall portion 22, the return portion 39 of the drain trap 3, and the second inclined wall portion 37B, the corner portion between the flange wall portion 22 and the second inclined wall portion 37B is It can be filled with the water stop member 4, and the water stop can be further improved.

(Modification 3)
Next, a water stop structure for a water tank and a drain trap according to Modification 3 of one embodiment of the present invention will be described mainly with reference to FIG.
FIG. 6 is an enlarged view of a main portion of a water stop structure for a water tank and a drain trap according to Modification 3 of one embodiment of the present invention.

As shown in FIG. 6, in this modification, the inclination angle of the second inclined wall portion 37B is the same as the inclination angle of the second inclined wall portion 37B in the second modification. A tapered portion 40 is formed at the lower end portion of the second inclined wall portion 37B. The tapered portion 40 gradually slopes radially inward as it goes downward.

When installing the water stop structure 100 of this modified example, first, a water stop member installation step is performed.
A water stop member 4 is installed along the corner between the downward wall portion 21 and the flange wall portion 22 of the sink 1 .

Next, a drainage trap installation process is performed.
The drain trap 3 is moved from above the sink 1 downwards to pass the sink opening 13 through the drain bowl 30. - 特許庁

When the lower end portion of the second inclined wall portion 37B of the drain trap 3 contacts the upper portion of the water stop member 4, the tapered portion 40 is formed at the lower end portion of the second inclined wall portion 37B. Interference between the lower end portion of the wall portion 37B and the water stop member 4 is suppressed, and the second inclined wall portion 37B tends to move downward.

The upper outward wall portion 35 of the drain trap 3 is placed above the water stop member 4 . When the first inclined wall portion 36 of the drain trap 3 contacts the water cutoff member 4 , the water cutoff member 4 is deformed by the weight of the drain trap 3 . The water cutoff member 4 is sandwiched between the inner surface 21a and the upper surface 22a of the sink flange portion 20, the surface 36a of the first inclined wall portion 36, and the surface 37a of the second inclined wall portion 37B and accommodated in a deformed state. Finally, the lock nut 5 is tightened.

In the water stop structure 100</b>C configured in this way, the water stop member 4 arranged between the sink flange portion 20 and the upper outward wall portion 35 contacts the inner surface 21 a and the upper surface 22 a of the sink flange portion 20 . there is Therefore, even if water passes between the inner surface 21 a of the sink flange portion 20 and the water stop member 4 , the water can be stopped between the upper surface 22 a and the water stop member 4 . Therefore, since the two surfaces of the inner surface 21a and the upper surface 22a of the sink flange portion 20 can stop water, the water stopping performance can be further improved.

Moreover, since the water stop member 4 and the drain trap 3 can be installed from above the water tank, the water stop member 4 can be installed with good workability to stop water.

Further, since the tapered portion 40 is formed at the lower end of the upper outward wall portion 35 , the upper outward wall portion 35 interferes with the waterproof member 4 when the upper outward wall portion 35 is installed from above. , and the drainage trap 3 can be easily installed.

(Modification 4)
Next, a water stop structure for a water tank and a drain trap according to Modification 4 of one embodiment of the present invention will be described mainly with reference to FIG.
FIG. 7 is an enlarged view of a main portion of a water stop structure for a water tank and a drain trap according to Modification 4 of one embodiment of the present invention.

As shown in FIG. 7, in this modified example, the sink flange portion 20D is formed with a smooth curved surface gradually extending radially inward as it goes downward. The water stop member 4 is deformed along the sink flange portion 20D. The water cutoff member 4 is in continuous contact with the sink flange portion 20D from the middle surface 20a to the surface 20b below the surface 20a.

In the water stop structure 100D configured in this way, the water stop member 4 disposed between the sink flange portion 20D and the upper outward wall portion 35 is continuous from the surface 20a to the surface 20b of the sink flange portion 20D. abutting. Therefore, since it is possible to stop water continuously from the surface 20a to the surface 20b of the sink flange portion 20D, the water stoppage can be further improved.

In addition, since the water stop member 4 deforms along the sink flange portion 20D formed with a smooth curved surface, the gap between the water stop member 4 and the sink flange portion 20D becomes smaller, and the water stop can be further improved. can.

It should be noted that the various shapes, combinations, etc., of the constituent members shown in the above-described embodiment are merely examples, and can be variously changed based on design requirements and the like without departing from the gist of the present invention.

For example, in the embodiment shown above, the water stop structure 100 between the sink 1 and the drain trap 3 provided on the kitchen counter or the like was described as an example, but the present invention is this. is not limited to It is also applicable to the water stop structure 100 between a bowl of a washroom or the like and a drainage trap (drainage device).

1 ... sink (water tank)
3... Drain trap 4... Water stop member 5... Lock nut 11... Sink bottom (bottom part)
12 Sink peripheral wall 13 Sink opening (opening)
20... Sink flange (water tank flange)
21: Downward wall portion 21a: Inner surface (downward surface) of downward wall portion 21
22 Flange wall portion 22a Upper surface of flange wall portion 22 (flange surface)
30... Drainage bowl 31... Bowl bottom 32... Bowl peripheral wall 35... Upper outward wall (trap upper outward wall)
36... First inclined wall part 37... Second inclined wall part 38... Notch part 39... Return part 40... Taper part 41... Trap body 42... Drain pipe 100... Water stop structure (Water stop structure between water tank and drain trap )

Claims (5)

A water stop structure between a water tank and a drain trap,
a water tank flange that extends downward from the bottom of the water tank toward the opening;
a trap upper outward wall portion provided on the upper portion of the drain trap, extending radially outward, and disposed above the water tank flange portion;
a water stop member disposed between the water tank flange portion and the trap upper outward wall portion;
Two surfaces of the water tank flange portion are in contact with the water stop member,
The water stop member is an O-ring,
A water tank and a drain trap, characterized in that the trap upper outward wall portion is provided with a first inclined wall portion that gradually faces inward in the radial direction as it goes downward and abuts against the water stop member. water stop structure. Two surfaces of the water tank flange portion are
2. The stop between the water tank and the drain trap according to claim 1, wherein the flange surface is a downward surface that extends downward from the bottom of the water tank, and a flange surface that gradually extends inward in the radial direction from the lower end of the downward surface. water structure. A notch portion that is notched toward the inside and upward in the radial direction is formed in the lower portion of the trap upper outward wall portion,
3. A water stop structure for a water tank and a drain trap according to claim 1 or 2, wherein said water stop member is arranged in said notch. 4. A water stop structure for a water tank and a drain trap according to claim 3, wherein a lower end portion of said trap upper outward wall portion is formed with a tapered portion gradually sloping inward in said radial direction as it goes downward. A method for stopping water between a water tank and a drain trap,
A water stop member installation step of installing a water stop member on the water tank flange portion that extends downward from the bottom of the water tank toward the opening;
a drainage trap installation step of installing a trap upper outward wall portion provided on the upper part of the drainage trap and extending radially outward above the water stop member;
Two surfaces of the water tank flange portion are in contact with the water stop member,
The water stop member is an O-ring,
A water tank and a drain trap, characterized in that the trap upper outward wall portion is provided with a first inclined wall portion that gradually faces inward in the radial direction as it goes downward and abuts against the water stop member. water stoppage method.

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