JP7413831B2 - Drain socket and flush toilet - Google Patents

Description

The disclosed embodiments relate to drain sockets and flush toilets.

BACKGROUND ART Conventionally, a drain socket that connects an outlet of a flush toilet and a drain pipe provided on a floor surface is known (see, for example, Patent Document 1).

China Utility Model No. 207794235

However, in the drain socket described in Patent Document 1, there is room for improvement in strength when a load is applied to the drain socket.

One aspect of the embodiment is aimed at improving the strength of the drainage socket.

A drain socket according to one aspect of the embodiment connects an outlet of a flush toilet and a drain pipe provided on a floor surface. The drain socket includes a toilet main body side connecting part having an upper opening connected to the drain port, a floor side connecting part having a lower opening connected to the drain pipe, the toilet main body side connecting part and the toilet main body side connecting part having a lower opening connected to the drain pipe. It includes a bent part that connects to the floor side connecting part. The toilet main body side connecting portion includes a rib that protrudes from the main body portion extending downward from the upper opening toward the bent portion and is connected to the bent portion.

As a result, when a load is applied to the drain socket in the front-rear direction, for example, when the toilet bowl body hits the drain socket from the front-back direction, the drain socket transmits the load to the bent part via the ribs, and the toilet bowl body It is possible to suppress concentration of stress on the side connection portions and improve strength. Therefore, the drain socket can suppress deterioration of the connection portion on the toilet main body side. Moreover, the drain socket can increase the selectivity of materials for the toilet main body side connection part, the bent part, and the floor side connection part.

Further, the rib is provided from a peripheral end of the upper opening.

Thereby, the drainage socket can suppress deterioration and breakage of the upper opening even when a load is applied to the upper opening from the front.

In addition, in the drain socket, a convex portion protruding upward from the bent portion is inserted into a concave portion formed at the lower end of the rib, and the rib and the convex portion are engaged with each other, so that the toilet main body A first fixing mechanism is provided for holding the side connecting portion and the bent portion in an assembled state.

Thereby, the drain socket can be maintained in a state where the toilet main body side connection part and the bent part are connected, and installation on the floor becomes easy. Further, the drain socket can transmit the load to the bent portion even if a load is applied to the toilet main body side connection portion from either the front or the rear direction. Therefore, the drainage socket can improve its strength against loads applied from the front or rear.

Further, the recessed portion is formed along the width direction of the rib.

Thereby, when the drain socket connects the toilet main body side connection part and the bent part, for example, by rotating the bending part with respect to the toilet main body side connection part, the convex part can be inserted into the recessed part. Therefore, assembly of the drain socket becomes easy. Furthermore, even if a load is applied to the drain socket in the front-rear direction, the direction in which the load is applied is different from the direction in which the engagement between the protrusion and the recess is released. It is possible to suppress the engagement from being released.

Further, the drain socket includes a second fixing mechanism that is provided at a position facing the first fixing mechanism and holds the toilet main body side connecting portion and the bent portion in an assembled state.

Thereby, when a load is applied to the drain socket in the front-rear direction, the load is transmitted to the bent portion by the second fixing mechanism, and stress can be prevented from concentrating on the connection portion on the toilet main body side. Therefore, the strength of the drain socket can be improved. By providing the second fixing mechanism at a position facing the first fixing mechanism, the drainage socket can improve its strength while suppressing an increase in the number of fixing mechanisms.

Further, the drain socket includes a seal member provided at a connection point between the bent portion and the toilet main body side connection portion.

Thereby, when a load is applied to the drain socket, the load can be absorbed by the sealing member, and deterioration and breakage of the connection portion can be suppressed.

Further, the rib has an inclined portion formed on a peripheral end side of the upper opening.

Thereby, the drain socket can suppress contact between the toilet main body and the toilet main body side connection part.

Further, the drain socket includes a reinforcing member that connects the outer wall of the bent portion and the floor-side connecting portion.

Thereby, the strength of the bent portion of the drainage socket can be improved.

The flush toilet is also connected to the drain pipe by a drain socket.

This can prevent the drain socket from deteriorating or being damaged when installing the flush toilet.

According to one aspect of the embodiment, the strength of the drain socket can be improved.

FIG. 1 is a cross-sectional view schematically showing a flush toilet according to an embodiment. FIG. 2 is a perspective view of the drain socket according to the embodiment. FIG. 3 is a plan view of the drainage socket according to the embodiment. FIG. 4 is a sectional view taken along the line IV-IV in FIG. 3. FIG. 5 is an enlarged view showing the vicinity of A in FIG. 4. FIG. 6 is a rear view of the second member according to the embodiment. FIG. 7 is a schematic diagram showing a part of a drainage socket according to a modified example.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Below, embodiments for implementing a drain socket and a flush toilet according to the present disclosure (hereinafter referred to as "embodiments") will be described in detail with reference to the drawings. Note that the drain socket and flush toilet according to the present disclosure are not limited to this embodiment.

(Flush toilet)
First, the overall configuration of the flush toilet 1 will be explained with reference to FIG. 1. FIG. 1 is a cross-sectional view schematically showing a flush toilet 1 according to an embodiment.

In FIG. 1, for convenience of explanation, a three-dimensional orthogonal coordinate system including a Z-axis whose positive direction is vertically upward is illustrated. Note that the orthogonal coordinate system may also be illustrated in other figures.

In the orthogonal coordinate system, the positive direction of the X-axis is defined as the "right side," the negative direction of the X-axis is defined as the "left side," and the positive direction of the X-axis is defined as the right side, and the negative direction of the X-axis is defined as the left side. are doing. Further, in the orthogonal coordinate system, the positive direction of the Y-axis is defined as "front", the positive direction of the Y-axis is defined as the front side (front), and the negative direction of the Y-axis is defined as the rear side (backward). Further, in the orthogonal coordinate system, the positive direction of the Z-axis is defined as the upper side (upper side), and the negative direction of the Z-axis is defined as the lower side (lower side). Therefore, in the following description, the X-axis direction may be referred to as the left-right direction, the Y-axis direction may be referred to as the front-back direction, and the Z-axis direction may be referred to as the up-down direction.

As shown in FIG. 1, the flush toilet 1 includes a toilet body 2 and a flush water tank device 3 that stores flush water used in the toilet body 2. The toilet bowl main body 2 is installed on the floor surface 5 of the toilet room, and the flush water tank device 3 is installed on the upper part of the toilet bowl main body 2. The flush toilet 1 may include a sanitary cleaning device including a water spouting nozzle that spews cleansing water toward the user's private parts.

The toilet main body 2 is connected to a drain pipe 6 provided on a floor surface 5 through a drain socket 10. The drain socket 10 connects the outlet 7a of the drain trap conduit 7 of the toilet main body 2 and the drain pipe 6 provided on the floor surface 5. The drain pipe 6 is provided, for example, in front of the discharge port 7a. The drain socket 10 is a connecting member that allows filth and the like discharged from the drain trap pipe line 7 to flow into the drain pipe 6. A drain channel 11 is formed in the drain socket 10, through which filth and the like flow. The drainage channel 11 includes, for example, a first drainage channel 11a and a second drainage channel 11b.

(drain socket)
Next, the drain socket 10 according to the embodiment will be described with reference to FIGS. 2 to 5. FIG. 2 is a perspective view of the drain socket 10 according to the embodiment. FIG. 3 is a plan view of the drainage socket 10 according to the embodiment. FIG. 4 is a sectional view taken along the line IV-IV in FIG. 3. FIG. 5 is an enlarged view showing the vicinity of A in FIG. 4. FIG. 6 is a rear view of the second member 30 according to the embodiment.

The drain socket 10 includes a first member 20 (an example of a toilet main body side connection part), a second member 30, and a seal member 50. The drain socket 10 is constructed by connecting a first member 20 and a second member 30. The connection point between the first member 20 and the second member 30 is sealed by a seal member 50.

The first member 20 is connected to the toilet main body 2. The first member 20 is made of polypropylene, for example. The first member 20 includes a main body portion 21 , an upper opening 22 , a front opening 23 , a mounting portion 24 , a first rib 25 (an example of a rib), and a second rib 26 .

The main body portion 21 is formed along the vertical direction. The upper opening 22 is formed at the upper part of the main body 21 and is connected to the outlet 7a. The front opening 23 is formed to protrude forward from the main body 21. A first drainage channel 11 a is formed in the first member 20 from the upper opening 22 to the main body 21 and the front opening 23 . The first drainage channel 11a communicates with the discharge port 7a and the second drainage channel 11b. The first drainage channel 11a is formed in a substantially L-shape.

The front opening 23 is formed with a stepped inner circumferential stepped portion 27 into which the second member 30 is inserted. That is, the inner circumferential stepped portion 27 forms an insertion opening 28 into which the second member 30 is inserted. The insertion port 28 is formed in a circular shape when viewed from the front. The inner peripheral stepped portion 27 is formed around the entire circumference of the insertion port 28 . That is, the first member 20 includes an insertion port 28 and an inner peripheral stepped portion 27 provided on the inner peripheral surface of the insertion port 28 .

Specifically, the inner circumferential stepped portion 27 is formed by a first inner circumferential wall 27a, a first annular wall 27b, a second inner circumferential wall 27c, and a second annular wall 27d. The first inner peripheral wall 27a is formed at the front end of the front opening 23. The second inner peripheral wall 27c is formed rearward than the first inner peripheral wall 27a. The diameter of the second inner peripheral wall 27c is smaller than the diameter of the first inner peripheral wall 27a. The first annular wall 27b is formed to connect the rear end of the first inner circumferential wall 27a and the front end of the second inner circumferential wall 27c, and is formed in an annular shape when viewed from the front. The second annular wall 27d is formed to be connected to the rear end of the second inner circumferential wall 27c, and has an inner diameter smaller than the diameter of the second inner circumferential wall 27c. The second annular wall 27d is formed in an annular shape when viewed from the front.

A claw portion 29 that projects forward is provided at the lower end of the front opening 23. The claw portion 29 is provided at a position facing the first rib 25 across a bent portion 32 of a second member 30, which will be described later. The claw portion 29 is formed with a recess 29a into which a second protrusion 39 of a second member 30, which will be described later, is inserted. The recessed portion 29a is formed along the width direction of the claw portion 29, that is, the left-right direction. When connecting the first member 20 and the second member 30, the recess 29a allows the second protrusion 39 to be inserted from one direction of the recess 29a when the insertion portion 37 of the second member 30 is inserted into the insertion opening 28. Shaped for insertion. The claw portion 29 constitutes a second fixing mechanism 61.

Two attachment parts 24 are provided at the lower part of the main body part 21. One attachment portion 24 is formed to protrude leftward from the lower part of the main body portion 21 . The other mounting portion 24 is formed to protrude rightward from the lower portion of the main body portion 21 . Each attachment part 24 is fixed to the floor surface 5 by, for example, a screw.

The first rib 25 projects forward from the main body portion 21 . The first rib 25 is formed from the upper opening 22 to the front opening 23 in the vertical direction. Specifically, the first rib 25 is formed from the peripheral end of the upper opening 22 to the front opening 23 . Three first ribs 25 are formed side by side in the left-right direction. Note that the number of first ribs 25 in the left-right direction is not limited to three, and may be one, two, or four or more.

The first rib 25 is formed with an inclined portion 25 a on the peripheral end side of the upper opening 22 . The amount of forward protrusion of the inclined portion 25a decreases as it moves upward.

A recess 25b is formed at the lower end of the first rib 25. The recess 25b is formed along the width direction of the first rib 25, specifically, along the left and right direction.

The recess 25b is formed so that the second member 30 can be rotated relative to the first member 20 when the insertion portion 37 of the second member 30 is inserted into the insertion port 28. Specifically, when connecting the first member 20 and the second member 30, the recess 25b is formed so that when the insertion portion 37 of the second member 30 is inserted into the insertion opening 28, The first protrusion 38 is formed so that it can be inserted into the recess 25b from one direction. The first rib 25 constitutes a first fixing mechanism 60 .

A reinforcing portion 25c that connects the adjacent first ribs 25 is provided between the first ribs 25 that are adjacent to each other in the left-right direction. The reinforcing portion 25c is provided at the lower part of the first rib 25. The reinforcing part 25c is formed in an L-shape so as to cover the upper part of the first protrusion part 38 and the front part of the first protrusion part 38. The reinforcing portion 25c is formed so as to communicate the adjacent recessed portions 25b. Similar to the recess 25b, the reinforcing portion 25c is formed so that the second member 30 can be rotated with respect to the first member 20 when the insertion portion 37 of the second member 30 is inserted into the insertion opening 28. Ru.

A plurality of second ribs 26 are provided so as to protrude from the main body portion 21 toward the left and right. The second rib 26 is formed from the upper opening 22 to the attachment portion 24 in the vertical direction. Two second ribs 26 are formed side by side in the front-back direction. Note that the number of second ribs 26 in the front-rear direction is not limited to two, and may be one, or may be three or more.

The second member 30 is made of polypropylene, for example. The second member 30 includes a floor-side connecting portion 31 and a bent portion 32 . A second drainage channel 11b is formed in the second member 30 from the bent portion 32 to the floor-side connecting portion 31. The second drain 11b communicates with the first drain 11a and the drain pipe 6 provided on the floor 5. The second drainage channel 11b is formed in a substantially L-shape or a substantially S-shape.

The floor side connection part 31 includes a lower opening part 35 and a mounting part 36. The lower opening 35 is connected to a drain pipe 6 provided on the floor surface 5. The attachment portion 36 is provided around the lower opening 35 . The attachment portion 36 is circular in plan view. The mounting portion 36 is fixed to the floor surface 5 with screws. A first reinforcing part 36a (an example of a reinforcing member) and a second reinforcing part 36b (an example of a reinforcing member) are provided on the upper surface of the attachment part 36.

The first reinforcing portion 36a extends along the left-right direction. A plurality of first reinforcing portions 36a are formed side by side in the front-rear direction. A portion of the first reinforcing portion 36a is connected to the outer wall of the bending portion 32. The second reinforcing portion 36b extends along the front-rear direction and is formed below the bent portion 32. The second reinforcing portion 36b is connected to the outer wall of the bending portion 32. Note that only one of the first reinforcing portion 36a and the second reinforcing portion 36b may be provided.

The attachment portion 36 is formed with a support portion 36c extending downward from the peripheral end of the attachment portion 36. The support portion 36c contacts the floor surface 5. The support portion 36c is formed around the entire circumference of the attachment portion 36.

The bent portion 32 connects the lower opening 35 of the floor-side connecting portion 31 and the front opening 23 of the first member 20 . Specifically, the bent portion 32 is formed to extend forward from the front opening 23 and is bent such that the front end thereof faces downward. The shape of the bent portion 32 includes a curved shape.

The bent portion 32 includes an insertion portion 37 , a first protrusion 38 (an example of a convex portion), and a second protrusion 39 .

The insertion portion 37 is provided at the rear end of the bent portion 32. The insertion portion 37 is inserted into the insertion port 28 of the front opening 23 . The insertion portion 37 includes an insertion tip portion 40 and an outer circumferential stepped portion 41 . The insertion tip 40 is formed into a cylindrical shape. The insertion tip portion 40 is inserted into the insertion port 28 to a position facing the second inner circumferential wall 27c. That is, a portion of the outer circumferential wall 40a of the insertion tip 40 faces the second inner circumferential wall 27c.

The outer peripheral stepped portion 41 is formed forward of the insertion tip portion 40. Specifically, the outer circumferential stepped portion 41 is formed so as to be connected to the front end of the insertion tip portion 40 . The outer circumferential stepped portion 41 is formed around the entire circumference of the insertion portion 37 . The diameter of the outer circumferential wall 41 a of the outer circumferential stepped portion 41 is larger than the diameter of the outer circumferential wall 40 a of the insertion tip portion 40 . That is, the outer circumferential step portion 41 is formed to protrude radially outward from the insertion tip portion 40. The bent portion 32 includes an outer peripheral stepped portion 41 provided on the outer peripheral surface of the insertion portion 37 .

The outer peripheral wall 41a of the outer peripheral stepped portion 41 faces the first inner peripheral wall 27a. An annular wall 41 b connecting the outer circumferential wall 41 a of the outer circumferential step portion 41 and the insertion tip portion 40 is formed to face the first annular wall 27 b of the inner circumferential step portion 27 .

In the drain socket 10, a gap 51 for accommodating the seal member 50 is formed by the outer circumferential step portion 41 and the inner circumferential step portion 27. Specifically, the void 51 includes the first inner wall 27a of the inner step 27, the first annular wall 27b of the inner step 27, the outer wall 41a of the outer step 41, and a part of the insertion tip 40. and an annular wall 41b of the outer circumferential step portion 41.

The seal member 50 is accommodated in the cavity 51. The seal member 50 is an O-ring. The diameter of the outer circumference of the sealing member 50 is larger than the diameter of the first inner circumferential wall 27a of the inner circumferential stepped portion 27. Further, the diameter of the inner circumference of the seal member 50 is smaller than the diameter of the outer circumferential wall 41a of the outer circumferential stepped portion 41. Therefore, the sealing member 50 is held between the front opening 23 and the insertion portion 37, and high sealing performance can be ensured.

The first protruding portion 38 is provided forward of the outer circumferential step portion 41 . The first protrusion 38 is not inserted into the insertion port 28. The first protrusion 38 protrudes upward from the bent portion 32. The first protrusion 38 is formed in an arc shape when viewed from the rear. The first protrusion 38 is inserted into the recess 25b of the first rib 25 and engaged with the second rib 26. The first protrusion 38 constitutes a first fixing mechanism 60.

A stopper 38a extending upward is formed at one end of the first protrusion 38 in the left-right direction. The stopper 38a contacts the first rib 25. The stopper 38a suppresses rotation of the second member 30 with respect to the first member 20 in the insertion direction when the first protrusion 38 is inserted into the recess 25b of the first rib 25. In the stopper 38a, the lower surface of the mounting portion 24 of the first member 20 and the lower surface of the supporting portion 36c of the second member 30 are parallel to the floor surface 5 at a location where the stopper 38a abuts the first rib 25 or in the vicinity of the abutting portion. It is formed as follows.

Like the first protrusion 38 , the second protrusion 39 is provided forward of the outer peripheral stepped portion 41 and is not inserted into the insertion opening 28 . The second protruding portion 39 protrudes downward from the bent portion 32 . The second protrusion 39 is formed at a position opposite to the first protrusion 38 . The second protrusion 39 is formed in an arc shape when viewed from the rear. The second protrusion 39 is inserted into the recess 29a of the claw 29 and engaged with the claw 29. The second protrusion 39 constitutes a second fixing mechanism 61 .

A stopper 39a extending downward is formed at one end of the second protrusion 39 in the left-right direction. The stopper 39a contacts the claw portion 29. The stopper 39a suppresses rotation of the second member 30 relative to the first member 20 in the insertion direction when the second protrusion 39 is inserted into the recess 29a of the claw portion 29. In the stopper 39a, the lower surface of the attachment portion 24 of the first member 20 and the lower surface of the support portion 36c of the second member 30 are parallel to the floor surface 5 at a location where the stopper 39a contacts the claw portion 29 or in the vicinity of the contact portion. It is formed like this.

The drain socket 10 is held in a state in which the first member 20 and the second member 30 are assembled by the first fixing mechanism 60 and the second fixing mechanism 61 being engaged. Specifically, the drain socket 10 is in an engaged state in which the first protrusion 38 is engaged with the recess 25b of the first rib 25, so that the first member 20 and the second member 30 are assembled together. to hold. Further, the drain socket 10 maintains the first member 20 and the second member 30 in an assembled state by being in an engaged state in which the second protrusion 39 is engaged with the recess 29a of the claw portion 29.

In the drain socket 10, the second member 30 can be rotated with respect to the first member 20 when the first fixing mechanism 60 and the second fixing mechanism 61 are in a released state and not in an engaged state. That is, the drain socket 10 allows relative rotation between the first member 20 and the second member 30 when the first fixing mechanism 60 and the second fixing mechanism 61 are in the released state.

(How to assemble the drain socket)
Next, a method of assembling the drain socket 10 will be explained. When assembling the drain socket 10, the sealing member 50 is placed at the insertion tip 40 of the insertion portion 37 of the second member 30. Then, the insertion portion 37 of the second member 30 in which the seal member 50 is disposed is inserted into the insertion port 28 of the front opening 23. At this time, the positions of the first member 20 and the second member 30 are adjusted so that the first protrusion 38 does not come into contact with the first rib 25 and the second protrusion 39 does not come into contact with the claw part 29. be done. Specifically, the first member 20 and the second member 30 are arranged so that the first protruding part 38 is located on the right side with respect to the first rib 25 and the second protruding part 39 is located on the left side with respect to the claw part 29. The position of is adjusted.

When the insertion portion 37 is inserted into the insertion port 28 of the front opening 23, the seal member 50 comes into contact with the annular wall 41b of the outer circumferential step portion 41 and is pushed rearward by the outer circumferential step portion 41. Further, the outer circumferential wall 41 a of the outer circumferential stepped portion 41 is inserted into the insertion port 28 of the front opening 23 along the first inner circumferential wall 27 a of the inner circumferential stepped portion 27 . Therefore, the seal member 50 is prevented from popping out from the insertion port 28 of the front opening 23, and the seal member 50 is sandwiched between the first protrusion 38 or the second protrusion 39 and the front opening 23. things are suppressed.

In the insertion section 37, the outer circumferential wall 40a of the insertion tip 40 faces the second inner circumferential wall 27c of the inner circumferential stepped portion 27, and the outer circumferential wall 41a of the outer circumferential stepped portion 41 faces the first inner circumferential wall of the inner circumferential stepped portion 27. It is inserted to a position facing 27a.

After the insertion portion 37 is inserted into the insertion port 28 of the front opening 23, for example, the second member 30 is rotated relative to the first member 20, and the first protrusion 38 is inserted into the recess 25b of the first rib 25. Then, the second protrusion 39 is inserted into the recess 29a of the claw 29. For example, the second member 30 is rotated relative to the first member 20 to a position where the stopper 38a abuts the first rib 25 and the stopper 39a abuts the claw portion 29. As a result, the first protrusion 38 engages with the first rib 25, and the first fixing mechanism 60 becomes engaged. Further, the second protruding portion 39 engages with the claw portion 29, and the second fixing mechanism 61 enters the engaged state. Then, the connection between the first member 20 and the second member 30 is completed, and the assembly of the drain socket 10 is completed.

The drain socket 10 that has been assembled is fixed to the floor 5 with the lower opening 35 connected to the drain pipe 6 on the floor 5. Then, the toilet main body 2 is attached to the drain socket 10 fixed to the floor surface 5.

When the toilet bowl body 2 is attached to the drain socket 10, the toilet bowl body 2 may hit the first member 20 from the front and rear directions. In the drain socket 10 according to the embodiment, when such a load is applied, the first protruding part 38 engages with the first rib 25 and the second protruding part 39 engages with the claw part 29. The load applied to the member 20 can also be supported by the second member 30 via the first rib 25 and the first protrusion 38. That is, when the toilet main body 2 hits the first member 20 from the front and rear directions, it is possible to suppress concentration of stress on the first member 20, and it is possible to suppress deterioration and damage of the first member 20. .

Note that the first member 20 has a mounting portion 24 extending in the left-right direction and is provided with a second rib 26, so that the first member 20 has high strength against loads in the left-right direction. Therefore, even if the toilet main body 2 hits the first member 20 from the left and right directions, the first member 20 can suppress deterioration and damage of the mounting part 24 and stably fix it to the floor surface 5. be able to.

Furthermore, when a load is applied to the drain socket 10 such as when the toilet main body 2 hits the drain socket 10, the outer circumferential wall 40a of the insertion tip 40 is moved to the second inner circumferential wall of the inner circumferential stepped portion 27. 27c, and the outer circumferential wall 41a of the outer circumferential step portion 41 abuts on the first inner circumferential wall 27a of the inner circumferential step portion 27. Therefore, axial misalignment between the first member 20 and the second member 30 is suppressed. That is, the outer circumferential wall 40a of the insertion tip 40 and the outer circumferential wall 41a of the outer circumferential stepped portion 41 also function as an axial misalignment suppressing surface with respect to the insertion port 28. Therefore, when a load is applied to the drain socket 10, such as when the toilet main body 2 hits the drain socket 10, the drain socket 10 can suppress the sealing performance of the seal member 50 from deteriorating. Furthermore, when the insertion portion 37 is inserted into the insertion port 28 , the drain socket 10 is configured such that the seal member 50 is sandwiched between the outer circumferential wall 41 a of the outer circumferential step portion 41 and the first inner circumferential wall 27 a of the inner circumferential step portion 27 . can be suppressed, and deterioration of the seal member 50 can be suppressed.

The longer the length between the front end and the rear end of the axis deviation suppressing surface, the higher the function of suppressing the occurrence of axis deviation. In the insertion portion 37, an outer circumferential wall 40a of the insertion tip portion 40 and an outer circumferential wall 41a of the outer circumferential stepped portion 41, which function as an axial misalignment suppressing surface, are formed in the front-rear direction with the seal member 50 in between. Therefore, the first member 20 and the second member 30 are sealed by the sealing member 50, and the length between the rear end of the outer peripheral wall 40a of the insertion tip portion 40 and the front end of the outer peripheral wall 41a of the outer peripheral step portion 41 is maintained. be able to.

For example, it is also possible to make only the outer circumferential wall 40a of the insertion tip portion 40 function as an axis misalignment suppressing surface without providing the outer circumferential stepped portion 41. In this case, in order to exhibit the same axis misalignment suppressing function as the drainage socket 10 according to the embodiment, it is necessary to increase the length of the insertion tip 40 in the front-rear direction. That is, the drain socket 10 according to the embodiment can seal the first member 20 and the second member 30 with the seal member 50 while reducing the length of the insertion portion 37 in the front-back direction.

(effect)
The drain socket 10 connects the outlet 7a of the flush toilet 1 and the drain pipe 6 provided on the floor 5. The drain socket 10 includes a first member 20, a floor-side connecting portion 31, and a bent portion 32. The first member 20 has an upper opening 22 connected to the outlet 7a. The floor side connection part 31 has a lower opening part 35 connected to the drain pipe 6. The bent portion 32 connects the first member 20 and the floor-side connecting portion 31. The first member 20 includes a first rib 25 that projects from the main body portion 21 extending downward from the upper opening 22 toward the bent portion 32 and is connected to the bent portion 32 .

As a result, when a load is applied to the drain socket 10 in the front-rear direction, for example, when the toilet main body 2 hits the drain socket 10 from the front-rear direction, the drain socket 10 can absorb the load through the first rib 25. It is possible to suppress the stress from being transmitted to the second member 30 and to concentrate on the first member 20, and the strength can be improved. Therefore, the drain socket 10 can suppress deterioration and damage of the first member 20, particularly the attachment portion 24 of the first member 20.

Further, for example, when the toilet bowl main body 2 hits the drain socket 10 from the front and rear directions, the load is transmitted by the first rib 25 at a location where the toilet bowl main body 2 is connected to the drain socket It will be located close to the point corresponding to number 10. Therefore, the load is transmitted to the second member 30 via the first rib 25 before the attachment portion 24 of the first member 20, and the load can be dispersed. Therefore, the drainage socket 10 can suppress deterioration and damage of the attachment portion 24 of the first member 20.

Further, in the drain socket 10, for example, polypropylene, which is difficult to bond, can be used for the first member 20 and the second member 30, and the strength can be improved, and material selectivity can be improved.

The first rib 25 is provided from the circumferential edge of the upper opening 22 .

Thereby, the drainage socket 10 can suppress deterioration and breakage of the upper opening 22 even when a load is applied to the upper opening 22 from the front.

The drain socket 10 includes a first fixing mechanism 60. In the first fixing mechanism 60, the first protrusion 38 that protrudes upward from the bending part 32 is inserted into the recess 25b formed at the lower end of the first rib 25, and the first rib 25 and the first protrusion 38 By engaging the first member 20 and the bent portion 32, the assembled state is maintained.

Thereby, the drain socket 10 can be maintained in a state where the first member 20 and the second member 30 are connected, and attachment to the floor surface 5 becomes easy. Further, the drain socket 10 can transmit the load to the second member 30 even when a load is applied to the first member 20 from either the front or rear direction. Therefore, the drainage socket 10 can improve its strength against loads applied from the front or rear.

The recess 25b is formed along the width direction of the first rib 25.

Thereby, when the drain socket 10 connects the first member 20 and the second member 30, for example, by rotating the second member 30 with respect to the first member 20, the first protrusion 38 can be moved into the recess 25b. can be inserted into the Therefore, assembly of the drain socket 10 becomes easy. Furthermore, even if a load is applied to the drain socket 10 in the front-rear direction, the direction in which the load is applied is different from the direction in which the engagement between the first protrusion 38 and the recess 25b is released. , it is possible to prevent the first protrusion 38 from disengaging from the recess 25b.

The drain socket 10 includes a second fixing mechanism 61 that is provided at a position facing the first fixing mechanism 60 and holds the first member 20 and the bent portion 32 in an assembled state.

As a result, when the drain socket 10 is subjected to a load in the front-rear direction, the second fixing mechanism 61 can transmit the load to the second member 30 and suppress concentration of stress on the first member 20. . Therefore, the drainage socket 10 can improve the strength, and can suppress deterioration of the first member 20, particularly the attachment portion 24 of the first member 20. By providing the second fixing mechanism 61 at a position facing the first fixing mechanism 60, the drainage socket 10 can improve its strength while suppressing an increase in the number of fixing mechanisms.

The drain socket 10 includes a seal member 50 provided at a connection point between the bent portion 32 and the first member 20.

As a result, when a load is applied to the drain socket 10, the seal member 50 can absorb the load, thereby suppressing deterioration and breakage of the connection portion, for example, the insertion portion 37 of the bent portion 32. be able to.

The first rib 25 is formed with an inclined portion 25 a on the peripheral end side of the upper opening 22 .

Thereby, the drain socket 10 can suppress contact between the toilet main body 2 and the first member 20.

The drain socket 10 includes a first reinforcing part 36a and a second reinforcing part 36b that connect the outer wall of the bent part 32 and the floor-side connecting part 31.

Thereby, the drainage socket 10 can improve the strength of the bent portion 32.

The drain socket 10 connects the outlet 7a of the flush toilet 1 and the drain pipe 6 provided on the floor 5. The drain socket 10 includes a first member 20, a floor-side connecting portion 31, a bent portion 32, and a sealing member 50. The first member 20 has an upper opening 22 connected to the outlet 7a. The floor side connection part 31 has a lower opening part 35 connected to the drain pipe 6. The bent portion 32 is connected to the floor-side connecting portion 31 and inserted into the first member 20 . The seal member 50 seals the first member 20 and the bent portion 32. The first member 20 includes an inner circumferential stepped portion 27 provided on the inner circumferential surface of the insertion port 28 . The bent portion 32 includes an insertion portion 37 that is inserted into the insertion port 28 . An outer circumferential stepped portion 41 is provided on the outer circumferential surface of the insertion portion 37 . The seal member 50 is provided in a gap 51 formed by the inner circumferential stepped portion 27 and the outer circumferential stepped portion 41 .

Thereby, in the drain socket 10, there is no need to provide a groove in which the seal member 50 is disposed along the circumferential direction of the insertion portion 37. Therefore, when molding the second member 30 using a mold, the mold can be removed and molded along the extending direction of the insertion portion 37, and the outer periphery of the insertion tip portion 40 where the sealing member 50 is disposed. It is possible to suppress the occurrence of burrs and the like on the wall 40a. Therefore, in the drain socket 10, the seal member 50 can be prevented from deteriorating due to burrs or the like, and the sealing performance of the seal member 50 can be improved.

Further, for example, if a groove in which the seal member 50 is placed is provided in the insertion portion 37, when inserting the insertion portion 37 into the insertion port 28, while confirming that the seal member 50 does not come off from the groove, It is necessary to insert the insertion portion 37 into the insertion port 28.

On the other hand, in the drain socket 10 according to the embodiment, when the insertion portion 37 is inserted into the insertion port 28, the seal member 50 disposed in the insertion portion 37 is pushed in by the outer peripheral step portion 41, and the seal member 50 is positioned There is no need to check for deviations. Therefore, the drain socket 10 is easy to assemble.

Further, the drainage socket 10 can improve the sealing performance even when, for example, a member that cannot be firmly bonded with an adhesive is used as the first member 20 and the bent portion 32. can. Therefore, the drainage socket 10 can increase the selectivity of the materials of the first member 20 and the bent portion 32.

In addition, the drain socket 10 can restrict movement of the seal member 50 and improve the sealing performance of the seal member 50 by forming the gap 51 with the inner circumferential step portion 27 and the outer circumferential step portion 41.

The drain socket 10 includes a first fixing mechanism 60 and a second fixing mechanism 61 that hold the first member 20 and the bent portion 32 in an assembled state.

Thereby, the drainage socket 10 can prevent the first member 20 and the second member 30 from shifting in position, and can suppress the sealing member 50 from shifting in position. Therefore, the drainage socket 10 can improve sealing performance. Further, before the drain socket 10 is fixed to the floor surface 5, the first fixing mechanism 60 and the second fixing mechanism 61 can prevent the first member 20 and the second member 30 from coming off.

An outer circumferential wall 41a is formed in the outer circumferential stepped portion 41 on the side closer to the first fixing mechanism 60 than the seal member 50, which suppresses axial deviation with respect to the insertion port 28.

As a result, in the drain socket 10, when a load is applied to the drain socket 10 and the insertion portion 37 is misaligned with respect to the insertion port 28, that is, when the axis misalignment occurs, the outer circumferential wall 41a of the outer circumferential step portion 41 The first inner circumferential wall 27a of the first inner circumferential wall 27a of Therefore, the drainage socket 10 can suppress the occurrence of axis misalignment, and can suppress the sealing performance of the seal member 50 from deteriorating. Further, in the drain socket 10, when the insertion portion 37 is inserted into the insertion port 28, the sealing member 50 is sandwiched between the outer circumferential wall 41a of the outer circumferential step portion 41 and the first inner circumferential wall 27a of the inner circumferential step portion 27. Therefore, deterioration of the seal member 50 can be suppressed.

In addition, in the drain socket 10, when an axis misalignment occurs, the outer circumferential wall 40a of the insertion tip portion 40 comes into contact with the second inner circumferential wall 27c of the inner circumferential stepped portion 27, which can suppress the occurrence of axis misalignment. Further, in the drain socket 10, the outer circumferential wall 41a of the outer circumferential stepped portion 41 and the outer circumferential wall 40a of the insertion tip portion 40, which suppress axis misalignment, are formed with the seal member 50 sandwiched therebetween in the front-rear direction. Therefore, the drainage socket 10 can reduce the length of the insertion tip 40 in the front-rear direction and suppress the occurrence of axis misalignment.

The diameter of the outer circumferential wall 41 a of the outer circumferential stepped portion 41 is smaller than the diameter of the outer circumference of the seal member 50 .

Thereby, the drain socket 10 can improve sealing performance by sandwiching the sealing member 50 between the insertion portion 37 and the inner circumferential stepped portion 27 in the radial direction of the insertion opening 28. When an axis misalignment occurs, the drain socket 10 allows the seal member 50 to absorb the load applied in the direction in which the axis misalignment occurs, and at the same time absorbs the load applied to the outer circumferential wall 41a of the outer circumferential step portion 41 and the first inner circumferential step portion 27. By bringing the inner circumferential wall 27a into contact with the inner circumferential wall 27a, occurrence of axis misalignment can be suppressed.

The outer circumferential stepped portion 41 is formed around the entire circumference of the insertion portion 37 . The inner peripheral stepped portion 27 is formed around the entire circumference of the insertion port 28 .

Thereby, the drainage socket 10 can stabilize the position of the seal member 50 and improve sealing performance. Furthermore, the drain socket 10 suppresses the seal member 50 from popping out from the insertion port 28 when the insertion portion 37 is inserted into the insertion port 28 , and the seal member 50 prevents the seal member 50 from protruding from the front opening 23 and the first protrusion of the bent portion 32 . This can prevent it from being pinched by the portion 38 or the like.

(Modified example)
As shown in FIG. 7, in the drainage socket 10 according to the modification, the insertion port 28 may be formed by an inner circumferential wall 27e and an annular wall 27f. That is, the drainage socket 10 according to the modified example does not need to have the inner peripheral stepped portion 27. FIG. 7 is a schematic diagram showing a part of the drainage socket 10 according to a modification. In the drainage socket 10 according to the modified example, the gap 51 is formed by the insertion tip portion 40, the outer peripheral step portion 41, and the insertion port 28.

Further, in the modified example of the drain socket 10, the outer peripheral stepped portion 41 may not be formed in the insertion portion 37. In the drainage socket 10 according to the modified example, the gap 51 is formed by the insertion portion 37, the first protrusion 38, and the inner circumferential step portion 27.

That is, the drain socket 10 may include a stepped portion (the inner circumferential stepped portion 27 and the outer circumferential stepped portion 41) in at least one of the insertion port 28 and the insertion portion 37. Also with the above configuration, the drainage socket 10 can improve the sealing performance.

In the drainage socket 10 according to the modification, the first member 20 and the second member 30 may be integrally formed. Further, in the second member 30 of the drainage socket 10 according to the modification, the bent portion 32 and the floor-side connecting portion 31 may be formed as separate bodies, and the bent portion 32 and the floor-side connecting portion 31 may be connected.

The first rib 25 of the drainage socket 10 according to the modified example does not need to be formed with the inclined portion 25a. In this case, the first rib 25 is formed from below the upper opening 22 .

Further advantages and modifications can be easily deduced by those skilled in the art. Therefore, the broader aspects of the invention are not limited to the specific details and representative embodiments shown and described above. Accordingly, various changes may be made without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents.

1 Flush toilet 5 Floor surface 6 Drain pipe 7a Discharge port 11 Drain channel 10 Drain socket 20 First member (toilet main body side connection part)
21 Main body 22 Upper opening 23 Front opening 25 First rib (rib)
25a Inclined portion 27 Inner circumferential stepped portion 28 Insertion port 29 Claw portion 29a Recessed portion 30 Second member 31 Floor side connection portion 32 Bent portion 35 Lower opening portion 36a First reinforcing portion (reinforcing member)
36b Second reinforcement part (reinforcement member)
37 Insertion part 38 First protrusion (convex part)
39 Second protruding portion 40 Insertion tip portion 40a Outer peripheral wall 41 Outer peripheral stepped portion 41a Outer peripheral wall (axial misalignment suppressing surface)
50 Seal member 51 Gap 60 First fixing mechanism 61 Second fixing mechanism

Claims (8)

A drain socket that connects the outlet of a flush toilet and a drain pipe provided on the floor,
a toilet main body side connection part having an upper opening connected to the outlet;
a floor side connection part having a lower opening connected to the drain pipe;
a bent part connecting the toilet main body side connection part and the floor side connection part,
The toilet main body side connection part is
a rib that protrudes from the main body portion extending downward from the upper opening toward the bent portion and is connected to the bent portion ;
The drain socket is
A convex portion protruding upward from the bent portion is inserted into a concave portion formed at the lower end of the rib, and by engaging the rib and the convex portion, the toilet main body side connecting portion and the bent portion are inserted. a first fixing mechanism that holds the parts in an assembled state;
A drainage socket characterized by comprising : The drain socket according to claim 1, wherein the rib is provided from a peripheral edge of the upper opening. The drainage socket according to claim 1 or 2 , wherein the recess is formed along the width direction of the rib. Any one of claims 1 to 3, further comprising a second fixing mechanism provided at a position facing the first fixing mechanism and holding the toilet main body side connection part and the bent part in an assembled state. Drain socket as described in one . The drain socket according to any one of claims 1 to 4 , further comprising a seal member provided at a connection point between the bent portion and the toilet main body side connection portion. The drain socket according to any one of claims 1 to 5 , wherein the rib has an inclined portion formed on a peripheral end side of the upper opening. The drain socket according to any one of claims 1 to 6 , further comprising a reinforcing member that connects the outer wall of the bent portion and the floor-side connecting portion. A flush toilet connected to the drain pipe by a drain socket according to any one of claims 1 to 7 .

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