JP2022170405A - Tank body system - Google Patents

Abstract

To provide a tank body system that has high versatility and achieves space savings.SOLUTION: A tank body system 10 according to an embodiment of the present invention includes a bottomed cylindrical trap part 14 arranged in the lower part of a tank body 12 around a drain port 20 of the tank body 12. The trap part 14 includes a cylindrical drainage part 30 connected to the bottom of the tank body 12 and a cylindrical water sealing part 32 formed in the cylinder of the drainage part. The edge of the water sealing part 32 on the tank body side is lower than a connecting part 16 of the drainage part 30. Above the edge of the water sealing part 32 on the side of a space part 34, a water passage 18 is formed through which water flows from the water sealing part 32 to the drainage part 30. The drainage part 30 and the water sealing part 32 are connected at a bottom 40 part, and the water sealing part 32 is formed with a water sealing area 80. A drainage channel communicating with the space part 34 above the water sealing part 30 is formed between the water drainage part 30 and the water sealing part 32.SELECTED DRAWING: Figure 3

Description

TECHNICAL FIELD The present invention relates to a tank body system, and more particularly to a tank body system having a tank such as a washbasin or a hand washing machine having a water sealing (trap) function.

Conventional water sealing (trap) structures include siphon type traps such as S traps and P traps, and non-siphon type traps such as bowl traps and drum traps. These are U-shaped items that require a space in the vertical direction, and need to be housed inside, for example, a dressing table, which narrows the storage space.
Currently, in order to prevent infection by viruses and the like, there is a demand for the installation of wash basins and hand wash basins in various places. In particular, there is a demand for a trap that can be installed directly on a shoe cupboard, a washstand, a dresser, or the like, unlike the S-trap or P-trap, which does not require a large space.
2. Description of the Related Art Conventionally, there has been proposed an odor sealing device for a bathroom vanity that is aesthetically pleasing and can reduce the loss of storage space below a drain pipe (Patent Document 1).

Published practical application No. 63-71263

However, the deodorizing device for the bathroom vanity of Patent Document 1 requires a large lateral space and has a unique shape, so it lacks versatility.
SUMMARY OF THE INVENTION Therefore, it is a primary object of the present invention to provide a tank body system which is excellent in versatility and which can save space.

The tank body system according to the present invention is a tank body system in which a bottomed cylindrical trap part having a continuous part surrounding the drain port of the tank body is arranged in the lower part of the tank body around the drain port of the tank body. There is
The trap section includes a cylindrical drainage section connected to the lower part of the tank body, and a cylindrical water sealing section formed in the cylinder of the drainage section,
A space is formed between the edge of the water sealing portion on the tank body side,
The edge of the water sealing portion on the tank body side is lower than the connecting portion of the water drainage portion, and a water passage is formed above the edge of the water sealing portion on the space side to allow water to flow from the water sealing portion to the drainage portion. is,
The drainage part and the water sealing part are connected at a bottom portion, and a water sealing area is formed in the water sealing part,
A drainage channel communicating with a space above the water sealing portion is formed between the drainage portion and the water sealing portion,
The tank body system is characterized in that the water flowing out from the water sealing portion to the drainage portion is guided to the drainage port portion through the drainage channel.
The tank body system according to the present invention includes:
In the trap part, a tubular body is installed between a drain port of the tank body and a pipe attachment part formed at the bottom of the water sealing part connected to the bottom part that connects the drain part and the water sealing part,
A water sealing area of the water sealing portion and a water sealing area of the tubular body may communicate with each other.
The trap section may be configured such that various drainage tools can be attached to the tubular body attached between the drainage port of the tank body and the tubular body attachment section formed at the bottom of the trap section.
The trap part is formed at an appropriate interval between the drain port of the tank body and the bottom part of the trap part. A mounting portion for mounting a drain and/or a tubular body into which the drain is loosely inserted may be formed, and a gap may be formed between the drain port and the bottom.
The trap part may be configured such that a drain port is disposed on the side of the drain part, and the water flowing out from the water sealing part passes through the drain channel to reach the drain port and is discharged to the outside.
The tank body system according to the present invention may be characterized in that a drain is attached to an opening of a tubular body attached to a drain port of the tank body.
The tank body system according to the present invention may be characterized in that a drain is attached to the drain port of the tank body so that water flowing in from the tank is guided to the water sealing portion via the drain. .
The draining device is a port plug fixed to the drain port in a drain position that allows water to drain through the drain opening, or is operable between a drain position that allows water to drain through the drain opening and a plug position that prohibits water to drain through the drain opening. It may be a structured spout.
The tank body may be provided with an overflow water drainage path along its outer periphery for guiding overflow water discharged from an overflow hole formed in an upper portion of the tank body to a drainage path inside the drainage section.
The tank body may be fixed to the top plate in the vicinity of its bottom, or may be fixed to the top plate via a support that supports the bottom.
The trap section includes a first drainage section surrounding the side of the water sealing section and a second drainage section extending downward from the bottom of the water sealing section,
A first drainage section formed between the first water distribution section and the water sealing section and a second drainage section formed inside the second drainage section are communicated with each other,
Via a tubular body constructed between a through hole formed in the bottom portion of the water sealing portion and a through hole formed in the bottom portion of the second drainage portion, from the first drainage channel to the second drainage channel It may be formed so that the drained waste water is drained.

According to the tank body system according to the present invention, it is possible to provide a tank body system that is excellent in versatility and can achieve space saving.

The above object, other objects, features and advantages of the present invention will become more apparent from the following description of the mode for carrying out the invention, which is made with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective illustrative view of a washing/hand washing facility according to an embodiment of the present invention; BRIEF DESCRIPTION OF THE DRAWINGS It is a perspective view solution figure of the tank body with a trap which is one embodiment of this invention. 1 is an exploded perspective view of a tank body, a trap, and a tubular body according to an embodiment of the present invention; FIG. 1 is an illustrative view of a trap according to an embodiment of the present invention, where (A) is a plan view, (B) is a side view, (C) is a bottom view, and (D) is a cross section. It is an illustration figure. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an illustrative view showing a cross section of a part of a tank body system according to an embodiment of the present invention, (A) is a front sectional illustrative view, and (B) is an AA sectional illustrative view of (A); be. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front elevational view of an exploded state of a tank body system according to an embodiment of the present invention, partly in cross section; BRIEF DESCRIPTION OF THE DRAWINGS It is the front-view solution figure which made the cross section one part of the tank body system which is one embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS It is the front-view solution figure which made the cross section one part of the tank body system which is one embodiment of this invention. It is a cross-sectional schematic diagram which shows the water flow of one embodiment of this invention. 1 is an illustrative cross-sectional view showing a water sealing region according to an embodiment of the present invention; FIG. It is a perspective view solution drawing of the tank body system of the modification of the 1st Embodiment of this invention. It is a perspective view solution figure of the state which disassembled the tank body of the modification of the 1st Embodiment of this invention, a trap, and a tubular body. It is an illustrative view of a trap of a modification of the first embodiment of the present invention, (A) is a plan view, (B) is a side view, (C) is a bottom view, (D) is a schematic cross-sectional view. FIG. 4 is an illustrative view showing a cross section of a part of a tank body system of a modification of the first embodiment of the present invention, (A) is a front sectional illustrative view, and (B) is AA of (A). It is a sectional illustration figure. It is a front view solution drawing which made the cross section one part in the disassembled state of the tank body system of the modification of the 1st Embodiment of this invention. It is a cross-sectional schematic diagram which shows the water flow of the modification of the 1st Embodiment of this invention. It is a cross-sectional schematic diagram which shows the water sealing area|region of the modification of the 1st Embodiment of this invention. It is the front view solution figure which made the cross section one part of the tank body system which is the 2nd Embodiment of this invention. It is a front view solution drawing which made the cross section one part in the disassembled state of the tank body system which is the 2nd Embodiment of this invention. It is the front view solution figure which made the cross section one part of the tank body system which is the 2nd Embodiment of this invention. It is a cross-sectional schematic diagram which shows the water flow of the 2nd Embodiment of this invention. It is a cross-sectional schematic diagram which shows the water sealing area|region of the 2nd Embodiment of this invention. It is the perspective view solution figure which made the cross section one part in the disassembled state of the tank body system which is the 3rd Embodiment of this invention. It is an illustration figure of a trap of a 3rd embodiment of the present invention, (A) is a top view solution figure, (B) is a side view solution view, (C) is a bottom view solution view, (D) is a schematic cross-sectional view. It is a front view solution drawing which made the cross section one part in the disassembled state of the tank body system which is the 3rd Embodiment of this invention. FIG. 3 is an illustrative view showing a cross section of a part of a tank body system according to a third embodiment of the present invention, (A) is a front sectional illustrative view, and (B) is an AA cross sectional illustration of (A). It is a diagram. It is a cross-sectional schematic diagram which shows the water flow of the 3rd Embodiment of this invention. It is a cross-sectional schematic diagram which shows the water sealing area|region of the 3rd Embodiment of this invention. It is a perspective view solution view of the tank body with a trap which is the 4th Embodiment of this invention. It is a perspective view solution figure of the state which disassembled the tank body, the trap, and the tubular body which are the 4th Embodiment of this invention. It is an illustration figure of a trap of a 4th embodiment of the present invention, (A) is a top view solution figure, (B) is a side view solution view, (C) is a bottom view solution view, (D) (A) is an illustrative cross-sectional view along BB, and (E) is an illustrative cross-sectional view along AA of (A). (A) is a partial sectional front view of a tank body system according to a fourth embodiment of the present invention, and (B) is an AA cross-sectional view. It is a cross-sectional illustrative view showing the water flow of the 4th Embodiment of this invention. It is a cross-sectional schematic diagram which shows the water sealing area|region of the 4th Embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS It is explanatory drawing of the tank body system which concerns on this invention, (A) is a front cross-sectional diagrammatic view of a tank body system, (B) is a perspective diagrammatic diagram.

(definition)
In the following description, the directions described are defined as follows according to FIG.
The side where the tank body and the trap part are caught in the front is called the front side (front side, front side), and the side opposite to the front side is called the other side (back side, rear side). When viewing the tank from the front, the right side is referred to as the right or right side, and when viewed from the front, the left side is referred to as the left or left side.
In addition, when viewing the tank from the front, the vertical direction is called the vertical direction, the upper side is called the upper side or the upper side, and the lower side is called the lower side or the lower side.

In the tank body system 10 according to the present invention, a bottomed cylindrical trap part 14 having a connecting part 16 surrounding the drain port 20 of the tank body 12 is placed in the lower part of the tank body 12 around the drain port 20 of the tank body 12. It is the installed tank body system 10 .
The trap part 14 includes a cylindrical drainage part 30 connected to the lower part of the tank body 12, and a cylindrical water sealing part 32 formed in the cylinder of the drainage part 30,
A space portion 34 is formed between the water sealing portion 32 and the edge of the tank body 12 side,
The edge of the water sealing portion 32 on the tank body 12 side is lower than the connecting portion 16 of the water drainage portion 30, and above the edge of the water sealing portion 32 on the side of the space portion 34, there is a A water passage 18 for flowing water is formed in 30,
The drainage part 30 and the water sealing part 32 are connected at the bottom part, and the water sealing part 32 is formed with a water sealing area 80,
A drainage channel 46 is formed between the drainage part 30 and the water sealing part 32 and communicates with the space part 34 above the water sealing part 32,
It is configured to guide the water flowing out from the water sealing portion 32 to the drainage portion 30 to the drainage port portion 50 through the drainage channel 46 .

The trap portion 14 is located between the drainage port 20 of the tank body 12 and a pipe attachment portion formed on the bottom portion 40b of the water sealing portion 32 connected to the bottom portion 40 connecting the water drainage portion 30 and the water sealing portion 32. , the tubular body 60 is erected,
The water sealing region 80 of the water sealing portion 32 and the water sealing region 80 of the tubular body 60 communicate with each other.

The trap part 14 has an outer shape of various drains 100 so that the various drains 100 can be attached between the drain port 20 of the tank body 12 and the bottom part 40 of the trap part 14, which are formed with an appropriate interval. , a mounting portion 62 for mounting the drainage tool 100 of the bottom part 40 and/or the tubular body 60 into which the drainage tool 100 is loosely inserted is formed, and a gap is formed between the drainage port 20 and the bottom part 40.

The trap part 14 is provided with a drain port part 50 on the side of the drain part 30 so that the water flowing out from the water sealing part 32 passes through the drain channel 46 to reach the drain port part 50 and is discharged to the outside. It is configured.

The trap part 14 is configured so that various drains 100 can be attached to the tubular body 60 attached between the drain port 20 of the tank body 12 and the tubular body attachment part 42 formed on the bottom part 40 of the trap part 14. It is

A draining tool 100 is attached to the drain port 20 of the tank body 12 , and is configured to guide the water flowing from the tank body 12 to the water sealing part 32 via the draining tool 100 .

(First embodiment)
In the tank body system 10, a bottomed cylindrical trap part 14 having a connecting part 16 surrounding the drain port 20 of the tank body 12 is disposed below the tank body 12 around the drain port 20 of the tank body 12. It is a structure of a tank body equipped with a water sealing function such as a wash basin and a hand wash basin.

(tank body)
The tank body 12 has a plate-like container bottom portion 12b with which a trap portion 14 is continuously provided under a pot or bowl-shaped container portion 12a that constitutes a basin/wash basin.
A drain port 20 having a circular shape in a plan view is provided through the center of the vessel bottom portion 12b.
The tank body 12 is made of ceramics, plastic or metal.
In this embodiment, the tank body 12 and the trap portion 14 are connected at a connecting portion 16 and integrally molded.

(Trap part)
The trap part 14 is a block-shaped body having a bottomed tubular water sealing structure with a cross section of approximately double circles, and a connecting part 16 on the outermost peripheral wall of the tank body 12 It is connected to the connecting bottom portion 12c on the planar lower surface of the vessel bottom portion 12b.

The trap part 14 is made of ceramics, plastic or metal, and is integrally formed with the vessel part 12a of the tank body 12. As shown in FIG.
The trap portion 14 is connected to a lower portion of the bottom portion 12b of the tank body 12 and protrudes downward.

The trap portion 14 includes a cylindrical drainage portion 30 connected to the bottom portion 12b of the container portion 12a of the tank body 12, and a cylindrical water sealing portion 32 formed in the cylinder of the drainage portion 30. and
The drainage part 30 and the water sealing part 32 are concentric, and the water sealing part 32 is disposed inside the outermost cylindrical outer wall part 38 having a circular cross section that constitutes the drainage part 30. Cylindrical inner peripheral wall portions 36 having a circular cross section and forming 32 are arranged at appropriate intervals, and water sealing areas 80 are formed inside the inner peripheral wall portions 36 .

The end edge of the inner peripheral wall portion 36 constituting the water sealing portion 32 on the side of the connecting portion 16 is lower than the connecting portion 16 of the outer peripheral wall portion 38 constituting the drainage portion 30, and the container of the tank body 12 located above A space portion 34 is formed between the lower surface of the bottom portion 12b.

A bottom portion 40 is formed below the outer peripheral wall portion 38 forming the drainage portion 30 and below the inner peripheral wall portion 36 forming the water sealing portion 32 .
The bottom portion 40 has a through hole as a pipe mounting hole forming the mounting portion 42 in a bottom portion 40b formed on the lower side of the cylindrical inner peripheral wall portion 36 having a circular cross section forming the water sealing portion 32. It is
The through-hole constitutes a mounting portion 42 for mounting the drainage tool 100 and/or the tubular body 60, and is formed to face the drain port 20 formed in the bottom portion 12b of the tank body 12. .
The through-hole and the drain port 20 that constitute the mounting portion 42 are arranged concentrically around the center line XX1 passing through the center of the tank body 12 and the trap portion 14, and have substantially the same shape. It consists of holes that are circular in plan view.
Therefore, a cylindrical tubular body 60, which will be described later, is inserted into the drain port 20 and a through hole, which is a pipe mounting hole constituting the mounting portion 42 of the bottom portion 40b of the water sealing portion 32, so that the tank body 12 and the trap portion 14 are connected. is bridged between the water sealing portion 32 of the

The trap part 14 has an outer shape of various drains 100 so that the various drains 100 can be attached between the drain port 20 of the tank body 12 and the bottom part 40 of the trap part 14, which are formed with appropriate intervals. Correspondingly, a mounting portion 42 of the bottom portion 40 for mounting the drain 100 is formed, and a gap between the drain port 20 and the bottom portion 40 is formed.

The trap part 14 is attached between the drain port 20 of the tank body 12 and the tube attachment hole forming the attachment part 42 for attaching the tubular body 60 and the drain tool 100 formed in the bottom part 40 of the trap part 14 . The tubular body 60 is formed into a cylindrical body having a shape corresponding to the outer shape of various drainage tools 100 so that the various drainage tools 100 can be attached to the inner space of the pipe.

In the first embodiment of the present invention, the diameter of the through-hole constituting the mounting portion 42 having a circular cross section for mounting the tubular body 60 formed in the bottom portion 40 is slightly larger than the outer shape of the drainage tool 100. Also, the pipe mounting hole forming the mounting portion 42 of the bottom portion 40a is a circular through hole slightly larger than the outer shape of the pipe 60, and the diameter is formed slightly larger than the outer shape of the pipe 60.

The outer peripheral wall portion 38 constituting the drainage portion 30 and the inner peripheral wall portion 36 constituting the water sealing portion 32 are connected by a bottom portion 40a of the drainage portion 30 constituting the bottom portion 40 of the trap portion 14, and the bottom portion 40a is connected to the bottom portion 40 b that constitutes the bottom portion 40 of the water sealing portion 32 .

A bottom portion 40a constructed between the outer peripheral wall portion 38 constituting the drainage portion 30 and the inner peripheral wall portion 36 constituting the water sealing portion 32 closes the space therebetween. Between the wall portion 38 and the inner peripheral wall portion 36 that constitutes the water sealing portion 32, a drainage channel 46 that constitutes the water passage 18 communicating with the drain port portion 50 is formed.

A bottom portion 40a that connects the drainage portion 30 and the water sealing portion 32 is formed lower than a bottom portion 40b of the water sealing portion 32, and constitutes an outer peripheral wall portion 38 that constitutes the drainage portion 30 and the water sealing portion 32. It is constructed so that the water accumulated in the drainage channel 46 formed between the inner peripheral wall portion 36 and the inner peripheral wall portion 36 does not flow back to the water sealing portion 32 .

The trap part 14 includes a drain port 20 of the tank body 12, a water sealing part 32 connected to a bottom part 40a connecting an outer peripheral wall part 38 constituting the drain part 30 and an inner peripheral wall part 36 constituting the water sealing part 32. A through hole, which is a pipe body mounting hole constituting the mounting part 42, is formed in the bottom part 40b of the tank body 12. erected.

The trap part 14 is provided with a drain port part 50 on the side of the outer peripheral wall part 38 that constitutes the drain part 30. , configured to drain to the outside.

The water accumulated in the water sealing portion 32 is reduced due to pressure fluctuations in the channel inside the trap 14, evaporation, and the like. Therefore, the sealing depth of the trap portion 14 (the vertical distance from the wear to the dip) is 50 mm or more and 100 mm or less.

In the embodiment of the present invention, the water sealing portion 32 of the trap portion 14 has a water sealing region 80 (first water sealing region 80a) inside a cylindrical inner peripheral wall portion 36 having a circular cross section. It is formed.
A water sealing region (second water sealing region 80b) is formed in the upper portion of the tubular body 60, that is, a region above the bottom portion 40b of the water sealing portion 32. A water sealing region 80 (third water sealing region 80c) is formed in the lower region.
In the embodiment of the present invention, the water sealing region 80 (the first water sealing region 80a) of the water sealing portion 32 of the trap portion 14 and the water sealing region 80 (the second water sealing region 80b and the third water sealing region 80b) of the tubular body 60 The water area 80 c) is connected to the deep water depth (the upper part of the water sealing part 32 and the water sealing area 80 (third water sealing area 80 c) of the tubular body 60) of the drainage part 30 (constituting the bottom part 40 ) between the cap 76) is configured to be 50 mm or more and 100 mm or less.
The tank body system 10 of the first embodiment of the present invention is excellent in water sealing strength, that is, in the ability of the trap part 14 to retain water sealing when positive pressure or negative pressure is generated in the drain pipe. .

A water passage 18 is formed in a space portion 34 above the edge of the water sealing portion 32 on the side of the connecting portion 16 . The water passage 18 formed in the space 34 is a water passage for guiding the water overflowing from the water sealing portion 32 to the drainage passage 46 formed inside the drainage portion 30 .

(pipe)
The tubular body 60 is a cylindrical body made of metal or resin, and is configured so that various drainage tools 100 such as drainage fittings can be loaded inside the cylindrical part 62d. The water sealing area 80 (the second water sealing area 80b and the third water sealing area 80c) which constitutes the water passage 18 for passing the water flowing from the drain port 20 of the bottom part 12b and can store the water which has flowed from the vessel part 12a. ).

The tubular body 60 has a flange portion 62a, which constitutes a mounting portion 62, projecting outward at the upper end of the cylindrical portion 62d so that the drain port 20 can be engaged with the flange portion 62a. ing.
The tubular body 60 is provided with a water passage opening 62b in a region located at the bottom 40b of the water sealing portion 32 when the tubular body 60 is attached to the trap portion 14. As shown in FIG.

A male thread 62c is formed on the outer peripheral surface of the tubular portion 62d of the tubular body 60 .
The tubular body 60 is attached to the tank body 12 by means of attachment members 64 for attaching the tubular body 60 to the bottom portion 12 b of the tank body 12 and the water sealing area 80 of the water sealing portion 32 of the trap portion 14 .
The mounting member 64 is screwed or fitted to the tubular body 60 with a cap 76, a packing 74, a lock nut 66, a sliding packing 68, a triangular packing 70, and a sponge packing 72 positioned in order from the bottom. together and configured to attach the tube 60 to the tub 12 .

The cylindrical portion 62d of the tubular body 60 is inserted into the through hole of the sponge packing 72, and the flange portion 62a at the upper end is locked and fixed to the rim portion of the drain port 20 of the tank body 12. .
The upper part of the tubular body 60 is attached to the bottom part 12b of the tank body 12 via a sponge packing 72 between the flange part 62a and the drain port 20 of the tank body 12 .
The pipe body 60 is inserted into a through hole, which is a pipe mounting hole, forming the mounting portion 42 of the bottom portion 40b, with the lower portion of the central water passage opening 62b positioned above the bottom 40b of the water sealing portion 32. .
Then, the tubular body 60 is attached in the order of the triangular packing 70 and the sliding packing 68 to the mounting recess portion constituting the mounting portion 44 of the mounting member 64 of the bottom portion 40b of the water sealing portion 32, and then the sliding packing 68. A lock nut 66 is screwed onto the male screw 62c from below and fixed to the vessel bottom 12b of the tank body 12 at its central portion.

A cap 76 is attached to the lower end of the tubular body 60 via a packing 74 .
A cap 76 constitutes the bottom portion 40 .
Thus, the lower end of the tubular body 60 is sealed to maintain watertightness, and a water sealing region 80 (second water sealing region 80b and third water sealing region 80c) is formed.

In the first embodiment of the present invention, the water sealing portion 32 of the trap portion 14 has a water sealing region 80 (first water sealing region) inside the cylindrical inner peripheral wall portion 36 having a circular cross section. 80a) are formed.
A water sealing region (second water sealing region 80b) is formed in the upper portion of the tubular body 60, that is, a region above the bottom portion 40b of the water sealing portion 32. A water sealing region 80 (third water sealing region 80c) is formed in the lower region.

In the first embodiment of the present invention, the tubular body 60 consists of a first tubular body 60A portion above the bottom portion 40b of the water sealing portion 32 and a second tubular body 60B portion below the bottom portion 40b of the water sealing portion 32. divided into parts.
A cap 76 that forms the bottom portion 40 is attached to the opening portion of the lower end of the second tubular body 60B via a packing 74 .
In this first embodiment, a third water sealing region 80c is formed in the second tubular body 60B.

(drainage tool)
A draining tool 100 is attached in the opening of the tubular body 60 attached to the drain port 20 of the tank body 12 .

In this embodiment, the drainage tool 100 is attached to the drain port 20 of the tank body 12 and the cylindrical portion 62d of the tubular body 60, and drains the water flowing from the cylindrical portion 62d on the drain port 20 side of the tank body 12. It is configured to lead to the water sealing portion 32 via the drainage tool 100 .

The tubular body 60 attached to the drainage port 20 of the tank body 12 has a drainage tool 100 attached to the inside of the opening of the tubular portion 62d.

The drain 100 attached to the drain port 20 of the tank body 12 and the tube of the tubular body 60 is a water passage that guides the water flowing from the vessel portion 12a of the tank body 12 to the water sealing portion 32 via the drain 100. 18.

The drain 100 has a cover 102 capable of shielding the drain 20 and a base 104 hanging down from the center of the cover 102 .
The base portion 104 has a disk-shaped packing portion 114 for fitting the draining tool 100 to the drain port 20 of the tank body 12 .
The packing part 114 is made of an elastically deformable material, such as rubber or resin, and is formed in a ring shape.

In this embodiment, the drainage device 100 is in a drainage posture in which the cover 102 is separated from the upper part of the pipe body 60 and water can be discharged through the drainage device 100, and the area close to the drainage port 20 on the upper part of the pipe body 60 It is fitted and becomes a plug posture.

The drainage tool 100 is configured such that a drainage opening 108 is formed between the cover 102 and the drain port 20 of the tank body 12 when the cover 102 is positioned above the drain port 20 of the tank body 12. ,It is configured.

The base 104 is provided with a foreign substance removing section 120 formed of a dust-removing net or the like.
The base portion 104 is attached inside the tubular portion 62d of the tubular body 60 by an appropriate fixing structure. Alternatively, the drainage tool 100 may be attached to the tubular body 60 by fixing the foreign matter removing portion 120 inside the cylindrical portion 62 d of the tubular body 60 .

In this embodiment, the drain 100 is provided with a pop-up mechanism so that it can take a drain position that allows draining through the drain opening 108 and a plug position that prohibits draining through the drain opening 108 .
The pop-up mechanism has an elastic function by a spring member or the like disposed inside the base 104, and when the cover 102 is pushed, the packing 114 is fitted and fixed inside the cylindrical portion 62d of the tubular body 60, and the When the cover 102 in the engaged state is pushed again, the cover 102 is lifted upward.

The tank body 12 is configured so as to be fixed to a top plate of washing/hand washing equipment such as a dresser in the vicinity of the bottom part 12b of the vessel part 12a.

(Modification of the first embodiment)
Next, a tank body system 10, which is a modification of the first embodiment, will be described mainly based on FIGS. 10 to 15. FIG.
The tank body 12 of the modified example is fixed to the tank body system 10 of the washing and hand-washing facility such as a dressing table through a cylindrical vessel support part 26 having a circular cross section that supports the vessel part 12a of the tank body 12. It is characterized by being configured as follows.

In addition, in the explanation of the tank body system 10 which is a modified example of the first embodiment, the same components and elements as those of the tank body system 10 which is the first embodiment shown in FIGS. Reference numerals are attached, and descriptions of common constituent elements/elements are omitted.
In the following, the characteristic components and elements of the tank body system 10, which is a modified example of the first embodiment, will be mainly described.

The container support portion 26 has a recessed portion 26a for inserting a drain port member in a region facing the drain port portion 50 formed in the outer peripheral wall portion 38 constituting the trap portion 14. As shown in FIG.

The tub body 12 is configured to be fixed to a top plate of a washing/hand washing facility such as a dresser via a vessel supporting portion 26 that supports a bottom portion 40 of the tub body 12 .

In the tank body system 10 of this modified example, the container portion 12a and the container bottom portion 12b have the same configurations as the container portion 12a and the container bottom portion 12b in the first embodiment.
The trap portion 14 and the tubular body 60 also have the same configurations as the trap portion 14 and the tubular body 60 in the first embodiment.
The structure for attaching the tubular body 60 to the vessel bottom portion 12b and the trap portion 14 with the attachment member 64 is also the same as that of the first embodiment.

(Second embodiment)
Next, a tank body system 10 according to a second embodiment of the invention will be described with reference to FIGS. 16 to 19. FIG.

The tank body system 10 of the second embodiment is characterized in that the drainage tool 100 is connected to the drive member 202 of the drainage device (drainage pipe unit) 200 via the support portion 206. ing.
In the tank body system 10 of the second embodiment, the trap section 14 has the same configuration as the trap section 14 of the first embodiment.

In the description of the tank body system 10 of the second embodiment, the same reference numerals are given to the constituent elements/elements common to those of the tank body system 10 of the first embodiment shown in FIGS. Therefore, descriptions of common configuration requirements and elements are omitted.
In the following, the characteristic components and elements of the tank body system 10 of the second embodiment will be mainly described.

In the tank body system 10 of the second embodiment, the container portion 12a and the container bottom portion 12b have the same configurations as the container portion 12a and the container bottom portion 12b in the first embodiment.
The trap portion 14 and the tubular body 60 also have the same configurations as the trap portion 14 and the tubular body 60 in the first embodiment.
The structure for attaching the tubular body 60 to the vessel bottom portion 12b and the trap portion 14 with the attachment member 64 is also the same as that of the first embodiment.
The mounting member 64 comprises a lock nut 66, a sliding packing 68, a triangular packing 70, a sponge packing 72, a packing 74 and a cap 76 (constituting the bottom portion 40).

In the second embodiment of the present invention, the water sealing portion 32 of the trap portion 14 has a water sealing region 80 (first water sealing region) inside the cylindrical inner peripheral wall portion 36 having a circular cross section. 80a) are formed.
A water sealing region (second water sealing region 80b) is formed in the upper portion of the tubular body 60, that is, a region above the bottom portion 40b of the water sealing portion 32, and the bottom portion 40b of the water sealing portion 32 A water sealing region 80 (third water sealing region 80c) is formed in a lower region.

In the second embodiment of the present invention, the tubular body 60 includes a first tubular body 60A portion above the bottom portion 40b of the water sealing portion 32 and a second tubular body 60B portion below the bottom portion 40b of the water sealing portion 32. divided into parts.
A portion of the second tubular body 60B is provided with a third tubular body 60C extending downward.

The tubular body 60 has a flange portion 62a, which constitutes a mounting portion 62, projecting outward at the upper end of the cylindrical portion 62d so that the drain port 20 can be engaged with the flange portion 62a. ing.
The tubular body 60 is provided with a water passage opening 62b in a region located at the bottom 40b of the water sealing portion 32 when the tubular body 60 is attached to the trap portion 14. As shown in FIG.

A male thread 62c is formed on the outer peripheral surface of the tubular portion 62d of the tubular body 60 .
The tubular body 60 is attached to the tank body 12 by means of attachment members 64 for attaching the tubular body 60 to the bottom portion 12 b of the tank body 12 and the water sealing area 80 of the water sealing portion 32 of the trap portion 14 .
The mounting member 64 is screwed or fitted to the tubular body 60 with a cap 76, a packing 74, a lock nut 66, a sliding packing 68, a triangular packing 70, and a sponge packing 72 positioned in order from the bottom. together and configured to attach the tube 60 to the tub 12 .

The cylindrical portion 62d of the tubular body 60 is inserted into the through hole of the sponge packing 72, and the flange portion 62a at the upper end is locked and fixed to the rim portion of the drain port 20 of the tank body 12. .
The upper part of the tubular body 60 is attached to the bottom part 12b of the tank body 12 via a sponge packing 72 between the flange part 62a and the drain port 20 of the tank body 12 .
The pipe body 60 is inserted into a through hole, which is a pipe mounting hole, forming the mounting portion 42 of the bottom portion 40b, with the lower portion of the central water passage opening portion 62b positioned above the bottom portion 40b of the water sealing portion 32. .
Then, the tubular body 60 is attached in the order of the triangular packing 70 and the sliding packing 68 to the mounting recess portion constituting the mounting portion 44 of the mounting member 64 of the bottom portion 40b of the water sealing portion 32, and then the sliding packing 68. A lock nut 66 is screwed onto the male screw 62c from below and fixed to the vessel bottom 12b of the tank body 12 at its central portion.

The third tubular body 60C is connected to the second tubular body 60B by screwing the male thread 62c of the tubular body 60 into the female threaded portion in the upper opening of the driving member mounting portion 212. As shown in FIG.
The third tubular body 60C has a driving member mounting portion 212 for mounting a transmission member 210 of a drainage device (drainage pipe unit) 200 on its side portion. It has a space for attaching the attachment portion 106 of the tool 100 .
A cap 76 that forms the bottom portion 40 is attached via a packing 74 to the opening at the lower end of the third tubular body 60C.
In the second embodiment, a third water sealing area 80c is formed between the second tubular body 60B and the third tubular body 60C.

A drainage tool 100 according to a second embodiment of the present invention will be described below with reference to FIGS. 16 to 19. FIG.
The draining device 100 according to the second embodiment has a pop-up function provided in the draining device 100 to allow the tank body system 10 according to the first embodiment to operate between the drainage posture and the plug posture. On the other hand, between a drainage posture in which drainage can be performed through the drainage opening 108 by a drainage device (drainage pipe unit) 200 separate from the drainage tool 100 and a plug posture in which drainage is prohibited through the drainage opening 108 There is a difference that it is configured to be operable with and is formed removably in and out of the drain port 20 .

The drainage tool 100 has a base 104 attached to the lower part of the cover 102, and around the base 104, a guide part 110 for rectifying water is attached.
The guide portion 110 is a wing-shaped plate extending from the upper end to the lower end of the base portion 104 .

A drainage device 100 constituting a drainage device (drainage pipe unit) 200 has a structure capable of moving up and down to open and close the drainage port 20 .
The drainage device (drainage pipe unit) 200 includes a driving member 202 having a function of vertically moving the cover 102 of the drainage tool 100 arranged in the cylinder of the tubular body 60 .
The driving member 202 is provided with a supporting portion 206 protruding from the lower portion of the base portion 104 which is cylindrical and extends downward inside the tubular body 60 from the side of the cover 102 of the drainage device 100 . .

The support portion 206 is connected by a drive member 202 to a transmission member 210 that reciprocates as the operation member 208 is displaced.
The support portion 206 moves up and down as the transmission member 210 reciprocates along with the displacement of the operation member 208 .
The drainage tool 100 is a unit for opening and closing the drain port 20 , and can be installed in the tubular body 60 from above the tubular body 60 and can be removed from the tubular body 60 .
In this second embodiment, the drainage tool 100 can be placed on the tubular body 60 by inserting the drainage tool 100 from above the tubular body 60. The covering body 102 can be removed from the tube body 60 by pulling up the covering body 102 by pressing.

The upper flange portion 62a of the tubular body 60 is locked and fixed to the rim portion of the drain port 20 of the tank body 12, and the lower portion of the central water passage opening 62b is positioned above the bottom portion 40b of the water sealing portion 32. , and is inserted into a through hole, which is a pipe mounting hole, forming the mounting portion 42 of the bottom portion 40b.

A drainage device 100 that constitutes a drainage device (drainage pipe unit) 200 is attached to the lower part of a cover body 102 that constitutes a disk-shaped blind plate made of metal, resin, or the like, and the cover body 102 that constitutes a drain plug. A packing portion 114 is provided.
The packing part 114 is made of an elastically deformable material, such as rubber or resin, and is formed in an annular shape, and is attached to the outer peripheral side of the base part 104 in the lower part of the cover body 102 .

As the operation member 208 is displaced, the transmission member 210 moves forward, the support portion 206 moves upward, the drainage tool 100 moves upward, and the packing portion 114 separates from the tubular body 60. , the cover 102 of the drain 100 is released from the tube 60 .
On the other hand, as the operation member 208 is displaced, the transmission member 210 moves back, the support portion 206 moves downward, the draining tool 100 moves downward, and the entire outer peripheral portion of the packing portion 114 of the cover body 102 is displaced. , the drain port 20 is closed by contacting the inside of the tubular body 60 .

(Water flow)
In the tank body system of the second embodiment, the water that has flowed from the container portion 12a of the tank body 12 into the tubular body 60 flows downward inside the tubular body 60 as shown in FIG. When it flows into the tubular body 60C, it rises upward, flows into the water sealing portion 32 from the water passage opening 62b, flows from the water sealing region 80 of the water sealing portion 32 to the drainage portion 30, and reaches the drainage port portion. 50 to the outside.
Then, as shown in FIG. 19, a certain amount of water stays in the water sealing region 80 of the water sealing portion 32, the second water sealing region 80b and the third water sealing region 80c of the tubular body 60, Become.

(Third Embodiment)
Next, a tank body system 10 according to a third embodiment of the invention will be described with reference to FIGS. 20 to 24. FIG.

The third embodiment of the present invention is characterized in that a drainage space 52 is connected below the trap section 14 following the trap section 14 .
The drainage space 52 has substantially the same cross-sectional shape as the outer peripheral wall portion 38 forming the drainage portion 30 of the trap 14, and a drainage space for drainage is formed below the bottom portion 40a of the trap portion 14. ing.

In the description of the tank body system 10 of the third embodiment, the same reference numerals are used for the constituent features/elements common to the tank body system 10 of the first embodiment shown in FIGS. 3 to 9. We will omit the description of the common configuration requirements and elements.
In the following, the characteristic components and elements of the tank body system 10 of the third embodiment will be mainly described.

In the tank body system 10 of the third embodiment, the container portion 12a and the container bottom portion 12b have the same configurations as the container portion 12a and the container bottom portion 12b in the first embodiment.
Also, the first tubular body 60A has the same configuration as the tubular body 60 in the first embodiment.
The structure for attaching the first tubular body 60A to the vessel bottom portion 12b and the trap portion 14 by means of the first attachment member 64A is also the same as the structure for attachment by means of the attachment member 64 of the first embodiment.
The first mounting member 64A comprises a lock nut 66, a sliding packing 68, a triangular packing 70, a sponge packing 72, a packing 74 and a cap 76 (constituting the bottom portion 40).

(Trap part)
The trap part 14 is a block-shaped body having a bottomed tubular water sealing structure with a cross section of approximately double circles, and a connecting part 16 on the outermost peripheral wall of the tank body 12 It is connected to the connecting bottom portion 12c on the planar lower surface of the vessel bottom portion 12b.

The trap part 14 is made of ceramics, plastic or metal, and is integrally formed with the vessel part 12a of the tank body 12. As shown in FIG.
The trap portion 14 is connected to a lower portion of the bottom portion 12b of the tank body 12 and protrudes downward.

The trap portion 14 includes a cylindrical drainage portion 30 connected to the bottom portion 12b of the container portion 12a of the tank body 12, and a cylindrical water sealing portion 32 formed in the cylinder of the drainage portion 30. and
The drainage part 30 and the water sealing part 32 are concentric, and the water sealing part 32 is disposed inside the outermost cylindrical outer wall part 38 having a circular cross section that constitutes the drainage part 30. Cylindrical inner peripheral wall portions 36 having a circular cross section and forming 32 are arranged at appropriate intervals, and water sealing areas 80 are formed inside the inner peripheral wall portions 36 .

The end edge of the inner peripheral wall portion 36 constituting the water sealing portion 32 on the side of the connecting portion 16 is lower than the connecting portion 16 of the outer peripheral wall portion 38 constituting the drainage portion 30, and the container of the tank body 12 located above A space portion 34 is formed between the lower surface of the bottom portion 12b.

A bottom portion 40 is formed below the outer peripheral wall portion 38 forming the drainage portion 30 and below the inner peripheral wall portion 36 forming the water sealing portion 32 .
The bottom portion 40 has a through hole as a pipe mounting hole forming the mounting portion 42 in a bottom portion 40b formed on the lower side of the cylindrical inner peripheral wall portion 36 having a circular cross section forming the water sealing portion 32. It is
The through-hole constitutes a mounting portion 42 for mounting the drainage tool 100 and/or the tubular body 60, and is formed to face the drain port 20 formed in the bottom portion 12b of the tank body 12. .
The through-hole and the drain port 20 that constitute the mounting portion 42 are arranged concentrically around the center line XX1 passing through the center of the tank body 12 and the trap portion 14, and have substantially the same shape. It consists of holes that are circular in plan view.
Therefore, the cylindrical first tubular body 60A, which will be described later, is fitted into the drain port 20 and the through hole, which is a pipe mounting hole that constitutes the mounting portion 42 of the bottom portion 40b of the water sealing portion 32, so that the tank body 12 and the It spans between the trap part 14 and the water sealing part 32 .

The trap part 14 has an outer shape of various drains 100 so that the various drains 100 can be attached between the drain port 20 of the tank body 12 and the bottom part 40 of the trap part 14, which are formed with appropriate intervals. Correspondingly, a mounting portion 42 of the bottom portion 40 for mounting the drain 100 is formed, and a gap between the drain port 20 and the bottom portion 40 is formed.

The trap part 14 is located between the drain port 20 of the tank body 12, the first pipe body 60A formed in the bottom part 40 of the trap part 14, and the pipe attachment hole forming the attachment part 42 for attaching the drain tool 100. The first tubular body 60A attached in is formed into a cylindrical body having a shape corresponding to the outer shape of various drainage tools 100 so that the various drainage tools 100 can be attached to the inner space of the pipe.

In the third embodiment of the present invention, the diameter of the through-hole constituting the mounting portion 42 having a circular cross section for mounting the first tubular body 60A formed in the bottom portion 40 is larger than the outer shape of the drainage tool 100. The pipe mounting hole forming the mounting portion 42 of the bottom portion 40b is a circular through hole slightly larger than the outer shape of the first tubular body 60A, and its diameter is the same as the outer shape of the first tubular body 60A. formed slightly larger than

The outer peripheral wall portion 38 constituting the drainage portion 30 and the inner peripheral wall portion 36 constituting the water sealing portion 32 are connected by a bottom portion 40a of the drainage portion 30 constituting the bottom portion 40 of the trap portion 14, and the bottom portion 40a is connected to the bottom portion 40 b that constitutes the bottom portion 40 of the water sealing portion 32 .

A bottom portion 40a constructed between the outer peripheral wall portion 38 constituting the drainage portion 30 and the inner peripheral wall portion 36 constituting the water sealing portion 32 spans the space therebetween, and constitutes the drainage portion 30. Between the outer peripheral wall portion 38 and the inner peripheral wall portion 36 forming the water sealing portion 32, a first drainage channel 46A forming the water conduit 18 communicating with the drain port portion 50 is formed.

The trap part 14 includes a drain port 20 of the tank body 12, a water sealing part 32 connected to a bottom part 40a connecting an outer peripheral wall part 38 constituting the drain part 30 and an inner peripheral wall part 36 constituting the water sealing part 32. A through hole serving as a tubular body mounting hole that constitutes the mounting portion 42 is formed in the bottom portion 40b of the tank body 12, and a first pipe A body 60A is installed.

The trap part 14 is connected to the drainage channel 40 and the drainage space via the bottom part 40a of the drainage channel 40 formed between the outer peripheral wall part 38 constituting the drainage part 30 and the inner peripheral wall part 36 constituting the water sealing part 32. 52 are in communication.
In the third embodiment, a hole 40a1 for forming a water passage 18 for passing water is bored in a bottom portion 40a forming a drainage portion 30. As shown in FIG.
Thus, the first drainage path 46A on the side of the trap section 14 and the second drainage path 46B on the side of the drainage space section 52 communicate with each other.

In the third embodiment, the outer peripheral wall portion 38 for forming the drainage space portion 52 is connected to the lower portion of the outer peripheral wall portion 38 constituting the drainage portion 30 to form the drainage space portion 52. A bottom portion 40 c that constitutes the bottom portion 40 of the drainage space portion 52 is formed at the lower end of the outer peripheral wall portion 38 .
An attachment portion (pipe attachment hole) 42 and an attachment portion (recessed portion) 44 are formed in the bottom portion 40c.

In the third embodiment of the present invention, the water sealing portion 32 of the trap portion 14 has a water sealing region 80 (first water sealing region) inside the cylindrical inner peripheral wall portion 36 having a circular cross section. 80a) are formed.

A water sealing region (second water sealing region 80b) is formed in the tubular body 60 in an upper portion of the cylindrical portion 62d, that is, a region above the bottom portion 40b of the water sealing portion 32. As shown in FIG.
A water sealing region 80 (a third water sealing region 80 c ) is formed in the tubular body 60 in a region below the bottom portion 40 b of the water sealing portion 32 .

In the third embodiment of the present invention, the tubular body 60 includes a first tubular body 60A portion above the bottom portion 40b of the water sealing portion 32 and a second tubular body 60B portion below the bottom portion 40b of the water sealing portion 32. divided into parts.
The second tubular body 60B is provided with a drainage opening 108 for introducing the water that has flowed into the drainage space 52 back into the second tubular body 60B.

A male thread 62c is formed on the outer peripheral surface of the first tubular body 60A.
The first tubular body 60A is attached to the bottom portion 12b of the tank body 12 and the water sealing region 80 of the water sealing portion 32 of the trap portion 14 by a first mounting member 64A for mounting the first tubular body 60. attached to the
The first mounting member 64A is screwed into the first tubular body 60A with a cap 76, a packing 74, a lock nut 66, a sliding packing 68, a triangular packing 70, and a sponge packing 72 positioned in order from the bottom. It is configured to attach the first tubular body 60A to the tank body 12 by being disconnected or fitted.

The cylindrical portion 62d of the first tubular body 60A is inserted into the through hole of the sponge packing 72, and the flange portion 62a at the upper end of the first tubular body 60A is locked to the rim portion of the drain port 20 of the tank body 12. Fixed.
The upper part of the first tubular body 60A is attached to the bottom part 12b of the tank body 12 via a sponge packing 72 between the flange part 62a and the drain port 20 of the tank body 12. As shown in FIG.
The first tubular body 60A is inserted into a through-hole, which is a pipe mounting hole forming the mounting portion 42 of the bottom portion 40b, with the lower portion of the central water passage opening portion 62b positioned above the bottom portion 40b of the water sealing portion 32. ing.
Then, the first tubular body 60A is attached in the order of the triangular packing 70 and the sliding packing 68 to the mounting recess portion constituting the mounting portion 44 of the mounting member 64 of the bottom portion 40b of the water sealing portion 32, and then the sliding A lock nut 66 is screwed onto the male screw 62c from below the packing 68, and its central portion is fixed to the bottom portion 40 (40b) of the trap portion 14. As shown in FIG.

The second tubular body 60B has a male thread 62c formed on the outer peripheral surface of the tubular portion 62d.
The second tubular body 60B is attached to the bottom portion 40a of the trap portion 14 by an attachment member 64B for attaching the second tubular body 60B.
The mounting member 64B has a lock nut 66, a sliding packing 68, and a triangular packing 70 positioned in this order from the bottom, and is screwed or fitted to the second tubular body 60B so that the second tubular body 60B is a trap portion. 14 is configured to be attached to the bottom portion 40a.

The upper part of the second tubular body 60B is in contact with the cap 76 at the lower end of the first tubular body 60A attached to the bottom part 40 of the lower water sealing area 80 of the trap part 14, and the bottom of the drain space part 52 of the trap part 14. 40c is attached.
The second tubular body 60B is inserted into a through-hole, which is a pipe mounting hole forming the mounting portion 42 of the bottom portion 40c, with the lower portion of the central drainage opening portion 108 positioned above the bottom portion 40c of the drainage space portion 52. ing.
Then, the second tubular body 60B is attached in the order of the triangular packing 70 and the sliding packing 68 to the mounting recess portion constituting the mounting portion 44 of the mounting member 64 of the bottom portion 40c of the drain space portion 52 of the trap portion 14, Next, a lock nut 66 is screwed onto the male screw 62c from below the sliding packing 68, and its central portion is fixed to the bottom portion 40c of the drainage space portion 52 of the trap portion 14. As shown in FIG.
The second tubular body 60B has a water passage opening 62b located above the bottom portion 40a and the upper portion thereof extends into 46B. The lower portion of the second tubular body 60B extends below the bottom portion 40c.

The water accumulated in the water sealing portion 32 is reduced due to pressure fluctuations in the channel inside the trap 14, evaporation, and the like. Therefore, the sealing depth of the trap portion 14 (the vertical distance from the wear to the dip) is 50 mm or more and 100 mm or less.

In the third embodiment of the present invention, the water sealing portion 32 of the trap portion 14 has a water sealing region 80 (first water sealing region) inside the cylindrical inner peripheral wall portion 36 having a circular cross section. 80a) are formed.
A water sealing region (second water sealing region 80b) is formed in the upper portion of the tubular body 60, that is, a region above the bottom portion 40b of the water sealing portion 32. A water sealing region 80 (third water sealing region 80c) is formed in the lower region.
In the third embodiment of the present invention, the water sealing region 80 (first water sealing region 80a) of the water sealing portion 32 of the trap portion 14 and the water sealing region 80 (second water sealing region) of the first tubular body 60A The region 80b and the third water sealing region 80c) are connected, and constitute the deep water depth (the upper part of the water sealing part 32 and the water sealing region 80 of the first tubular body 60A (the third water sealing region 80c). The distance between the drainage part 30 and the cap 76 (constituting the bottom part 40) is configured to be 50 mm or more and 100 mm or less.
The tank body system 10 of the first embodiment of the present invention is excellent in water sealing strength, that is, in the ability of the trap part 14 to retain water sealing when positive pressure or negative pressure is generated in the drain pipe. .

A water passage 18 is formed in a space portion 34 above the edge of the water sealing portion 32 on the side of the connecting portion 16 . The water passage 18 formed in the space 34 is a water passage for guiding the water overflowing from the water sealing portion 32 to a drainage passage 46A formed inside the drainage portion 30 .

(Water flow)
In the tank body system 10 of the third embodiment, as shown in FIG. When it flows into the portion 62d, it flows into the water sealing portion 32 from the water passage opening 62b, reaches the water sealing region 80 of the water sealing portion 32, reaches the drainage portion 30, and flows through the hole 40a1 of the bottom portion 40a to the drainage space portion. It flows into the second drainage channel 46B at 52. The water that has flowed into the second drainage channel 46B enters the cylindrical portion 62d of the second tubular body 60B from the drainage opening 108 of the second tubular body 60B and flows out to the outside.
Then, a certain amount of water is added to the water sealing region 80 of the water sealing portion 32 and the water sealing region 80 of the first tubular body 60A (first water sealing region 80a, second water sealing region 80b, third water sealing region 80c). ) and becomes a sealed water.

(Fourth embodiment)
Next, a tank body system 10 according to a fourth embodiment of the invention will be described mainly based on FIGS. 25 to 30. FIG.

In a tank body system 10 according to a fourth embodiment of the present invention, the tank body 12 drains overflow water from an overflow hole 22 formed in the upper part of the vessel part 12a along the outer periphery of the vessel part 12a. , an overflow water drainage channel 22a leading to a drainage channel 46 inside the drainage part 30 is provided.

In the description of the tank body system 10 of the fourth embodiment, the same reference numerals are given to the constituent elements/elements common to those of the tank body system 10 of the first embodiment shown in FIGS. Therefore, descriptions of common configuration requirements and elements are omitted.
In the following, the characteristic components and elements of the tank body system 10 of the fourth embodiment will be mainly described.

In the tank body system 10 of the fourth embodiment, the vessel part 12a and the vessel bottom part 12b are the same as those of the vessel part in the first embodiment except for the drain port 22, the overflow water drainage channel 22a and the ridge 22b. It has the same configuration as 12a and the vessel bottom portion 12b.
The trap 14 has the same structure as the trap 14 provided in the tank body 12 of the first embodiment, except for the connecting portion with the overflow water drainage channel 22a.
Further, the tubular body 60 has the same structure as the tubular body 60 in the first embodiment.
The structure for attaching the tubular body 60 to the vessel bottom portion 12b and the trap portion 14 with the attachment member 64 is also the same as that of the first embodiment.
The mounting member 64 comprises a lock nut 66, a sliding packing 68, a triangular packing 70, a sponge packing 72, a packing 74 and a cap 76 (constituting the bottom portion 40).

In the fourth embodiment, a ridge 22b extending from the overflow hole 22 to the outer peripheral wall portion 38 of the trap portion 14 is formed on the outer peripheral surface of the vessel portion 12a of the tank body 12 .
The ridge 22b is an elongated convex body that protrudes from the outer peripheral surface of the vessel portion 12a and is connected to a recessed portion 38a that is formed in a portion of the outer peripheral wall portion 38. As shown in FIG.
The overflow water drainage channel 22a formed between the ridge 22b and the vessel portion 12a is connected to the inner peripheral wall portion 36, and is formed so that the overflow water flowing from the overflow water drainage channel 22a flows into the water sealing portion 32. It is

In the outer peripheral wall portion 38, the connecting portion 16 at the upper end of the recessed portion 38a and the connecting portion 16 in the region other than the recessed portion 38a are connected to the vessel bottom portion 12b.
The inner peripheral wall portion 36 has the same structure as the trap portion 14 disposed on the vessel bottom portion 12b of the first embodiment, except that the overflow water drainage channel 22a is formed in a part thereof.

The tubular body 60 has the same structure as the tubular body 60 of the first embodiment, and is attached to the trap portion 14 in the same manner.

The water accumulated in the water sealing portion 32 is reduced due to pressure fluctuations in the channel inside the trap 14, evaporation, and the like. Therefore, the sealing depth of the trap portion 14 (the vertical distance from the wear to the dip) is 50 mm or more and 100 mm or less.

In the fourth embodiment of the present invention, the water sealing portion 32 of the trap portion 14 has a water sealing region 80 (first water sealing region) inside the cylindrical inner peripheral wall portion 36 having a circular cross section. 80a) are formed.
A water sealing region (second water sealing region 80b) is formed in the upper portion of the tubular body 60, that is, a region above the bottom portion 40b of the water sealing portion 32. A water sealing region 80 (third water sealing region 80c) is formed in the lower region.
In the fourth embodiment of the present invention, the water sealing region 80 of the water sealing portion 32 of the trap portion 14 (first water sealing region 80a) and the water sealing region 80 of the tubular body 60 (second water sealing region 80b and The third water sealing area 80 c) is connected to the deep water depth (the upper part of the water sealing part 32 and the water sealing area 80 (third water sealing area 80 c) of the tubular body 60 (the bottom part of the drainage part 30 40) is configured to be 50 mm or more and 100 mm or less.
The tank body system 10 of the fourth embodiment of the present invention is excellent in water sealing strength, that is, in the ability of the trap part 14 to retain water sealing when positive pressure or negative pressure is generated in the drain pipe. .

A water passage 18 is formed in a space portion 34 above the edge of the water sealing portion 32 on the side of the connecting portion 16 . The water passage 18 formed in the space 34 is a water passage for guiding the water overflowing from the water sealing portion 32 to the drainage passage 46 formed inside the drainage portion 30 .

(Water flow)
In the tank body system 10 of the fourth embodiment, as shown in FIG. When it flows into the inside of the three-pipe body 60C, it rises upward, flows into the water sealing portion 32 from the water passage opening 62b, flows from the water sealing region 80 of the water sealing portion 32 to the drainage portion 30, and reaches the drainage port. It flows out from the part 50 .
Also, the overflow water that has flowed from the overflow water drainage channel 22a flows into the water sealing area 80 in the inner peripheral wall portion 36, reaches the water sealing area 80 of the water sealing portion 32, reaches the drainage portion 30, and flows from the drainage port portion 50 to the outside. flow out to
Then, a certain amount of water is applied to the water sealing area 80 of the water sealing part 32 (first water sealing area 80a) and the water sealing area 80 of the tubular body 60 (second water sealing area 80b, third water sealing area 80c). It stays inside and becomes a water seal.

The tank body system 10 according to the present invention is formed with a trap portion 14 and a tubular body 60 so that various known drainage tools can be attached.
The trap 14 includes a bottom portion 40 (40b) of the water sealing portion 32 for attaching the drainage tool 100 and a pipe mounting hole drilled in the bottom portion 40 (40b) of the water sealing portion 32 for attaching the drainage tool 100. is formed in a length wider than the maximum width W1 of the drainage tool 100. - 特許庁
The tubular body 60 is formed such that the inner diameter W4 and the outer diameter W5 of the cylindrical portion 62d are slightly longer than the maximum width W1 of the drainage tool 100. As shown in FIG.
The trap part 14 is formed so that the width W3 of the drain port 20 formed in the vessel bottom part 12b and the width W2 of the pipe mounting hole formed in the bottom part 40 (40b) are wider than the maximum width W1 of the drainer 100. It is

As described above, the embodiments of the present invention are disclosed in the above description, but the present invention is not limited thereto.
That is, without departing from the scope of the technical idea and purpose of the present invention, various modifications can be made to the above-described embodiments in terms of mechanism, shape, material, quantity, position, arrangement, etc. and they are included in the present invention.

10 tank body system 12 tank body 12a vessel part 12b vessel bottom part 12c continuous bottom part 14 trap part 16 continuous installation part 18 water passage 20 drainage port 22 overflow hole 22a overflow water drainage path 22b ridge 26 vessel support part 26a recessed part

30 drainage part 32 water sealing part 34 space part 36 inner peripheral wall part 38 outer peripheral wall part 38a recessed part 40 bottom part 40a (drainage part) bottom part 40b (water sealing part) bottom part 40c (drainage space part) bottom part 40a1 hole 42 ( pipe) mounting part (pipe mounting hole)
44 Mounting portion (recess) (of mounting member)
46 drainage channel 46A first drainage channel 46B second drainage channel

50 drain port 52 drain space

60 tubular body 60A first tubular body 60B second tubular body 60C third tubular body 62 attachment portion 62a flange portion 62b water passage opening portion 62c male screw 62d cylindrical portion 64 attachment member 64A first attachment member 64B second attachment member

66 Lock nut 68 Slide packing 70 Triangular packing 72 Sponge packing 74 Packing 76 Cap (constituting bottom part 40)

80 Water sealing area 80a First water sealing area 80b Second water sealing area 80c Third water sealing area

100 Drainage Tool 102 Cover 104 Base 106 Attachment 108 Drainage Opening 110 Guide 114 Packing

120 foreign matter removal unit

200 drainage device (drain pipe unit)
202 drive member 206 support portion 208 operation member 210 transmission member 212 drive member mounting portion

300 ejection device 302 ejection device main body 304 ejection port 306 operation part

Claims (11)

A tank body system in which a bottomed cylindrical trap part having a connecting part surrounding a drain port of the tank body is arranged in a lower part of the tank body around the drain port of the tank body,
The trap section includes a cylindrical drainage section connected to the lower part of the tank body, and a cylindrical water sealing section formed in the cylinder of the drainage section,
A space is formed between the edge of the water sealing portion on the tank body side,
The edge of the water sealing portion on the tank body side is lower than the connecting portion of the water drainage portion, and a water passage is formed above the edge of the water sealing portion on the space side to allow water to flow from the water sealing portion to the drainage portion. is,
The drainage part and the water sealing part are connected at a bottom portion, and a water sealing area is formed in the water sealing part,
A drainage channel communicating with a space above the water sealing portion is formed between the drainage portion and the water sealing portion,
A tank body system, characterized in that the water flowing out from the water sealing portion to the drainage portion is guided to the drainage port portion through a drainage channel. In the trap part, a tubular body is installed between a drain port of the tank body and a pipe attachment part formed at the bottom of the water sealing part connected to the bottom part that connects the drain part and the water sealing part,
2. The tank body system according to claim 1, wherein a water sealing area of said water sealing portion and a water sealing area of said tubular body communicate with each other. 3. The trap part is configured such that a tubular body attached between a drain port of the tank body and a tubular body attachment part formed at the bottom of the trap part can be attached with various drainage tools. The tank body system described in . The trap part is formed at an appropriate interval between the drain port of the tank body and the bottom part of the trap part. 4. The tank body system according to any one of claims 1 to 3, further comprising a mounting portion for mounting a drain and/or a tubular body into which the drain is loosely inserted, and a space between the drain port and the bottom. The trap part is configured such that a drain port part is provided on the side of the drain part, and the water flowing out from the water sealing part passes through the drain channel to reach the drain port part and is discharged to the outside. 5. The tank body system according to any one of 1 to 4. 6. The tank body system according to any one of claims 1 to 5, wherein a drain is attached to an opening of a tubular body attached to a drain port of said tank body. 7. Any one of claims 1 to 6, characterized in that a drain is attached to the drain port of the tank body so that water flowing from the tank body is guided to the water sealing portion via the drain. A tank body system as described. The draining device is a port plug fixed to the drain port in a drain position that allows water to drain through the drain opening, or is operable between a drain position that allows water to drain through the drain opening and a plug position that prohibits water to drain through the drain opening. 8. The vessel system of claim 7, which is a structured spout. 8. An overflow water drainage path is provided along the outer circumference of said tank body to guide overflow water discharged from an overflow hole formed in an upper portion of said tank body to a drainage path inside said drainage part. The tank body system according to any one of . 8. The tank body system according to any one of claims 1 to 7, wherein the tank body is fixed to the top plate in the vicinity of its bottom, or is fixed to the top plate via a support part that supports the bottom. . The trap section includes a first drainage section surrounding the side of the water sealing section and a second drainage section extending downward from the bottom of the water sealing section,
A first drainage section formed between the first water distribution section and the water sealing section and a second drainage section formed inside the second drainage section are communicated with each other,
Via a tubular body constructed between a through hole formed in the bottom portion of the water sealing portion and a through hole formed in the bottom portion of the second drainage portion, from the first drainage channel to the second drainage channel 11. The tank body system according to any one of claims 1 to 10, wherein the drained waste water is drained.

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