JP2024044383A - Toilet bowl drain connection pipe and flush toilet bowl - Google Patents

Abstract

To provide a toilet bowl drain connection pipe capable of allowing a flush toilet bowl to be easily installed.SOLUTION: A toilet bowl drain connection pipe 40 includes: a first pipe 41A including a socket part 150 connected to a discharge port 74 of a toilet bowl body 70 at an upstream end part thereof; and a second pipe 42A connected to a downstream end part of the first pipe 41A when installed and extending in an inclined manner toward a downstream end from an upstream end obliquely downward in a state after installed.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to a toilet drain connection pipe and a flush toilet.

Patent Document 1 discloses a conventional toilet drain connection pipe. This toilet drain connection pipe connects a drain pipe provided on the rear wall of the toilet booth and an outlet of the toilet main body. This toilet drain connection pipe includes a first socket pipe. The first socket tube has an upstream tube section and a first adjuster tube section continuous from the downstream end of the upstream tube section. The first socket tube has an upstream tube section and a first adjuster tube section integrally formed. This toilet drain connection pipe connects a drain pipe provided in the toilet booth and an outlet of the toilet main body. In a state where the drain pipe and the discharge port are connected, the upstream pipe section extends substantially horizontally, and the first adjuster pipe section extends obliquely downward from the upstream end toward the downstream end.

JP2022-68533A

The first socket pipe of the toilet drainage connection pipe of Patent Document 1 has an upstream pipe section and a first adjuster pipe section integrally formed. Therefore, when connecting the drain pipe installed in the toilet booth and the outlet of the toilet main body, this toilet drain connection pipe has a narrow tolerance for misalignment of the outlet with respect to the drain pipe, making it difficult to install flush toilets. It may be time consuming.

The present disclosure has been made in view of the above-mentioned conventional situation, and an object to be solved is to provide a toilet drainage connection pipe that allows easy construction of a flush toilet.

The toilet drainage connection pipe of the present disclosure includes a first pipe that has a connection part connected to the discharge port of the toilet main body at the upstream end, and is connected to the downstream end of the first pipe at the time of construction, and in the state after construction. A second pipe extends obliquely downward from the upstream end toward the downstream end.

The flush toilet disclosed herein comprises a toilet body, a frame member to which the toilet body is fixed, and a toilet drain connection pipe to which the frame member is fixed.

1 is a partially cutaway perspective view showing the flush toilet of Embodiment 1. FIG. FIG. 2 is a cross-sectional view showing a state in which the outlet of the toilet main body and the drain pipe are connected using the first toilet drain connection pipe of the first embodiment. FIG. 2 is a cross-sectional view showing a first toilet drain connecting pipe of the first embodiment. FIG. 3 is a sectional view showing the second toilet drainage connection pipe of the first embodiment. FIG. 2 is an exploded perspective view showing the first toilet drainage connection pipe of the first embodiment. FIG. 2 is a perspective view showing a first toilet drain connecting pipe in an installed state according to the first embodiment. FIG. 3 is a perspective view showing a construction state of the frame member of Embodiment 1. FIG. 3 is a side view showing the construction state of the first toilet drainage connection pipe of the first embodiment. FIG. 2 is a perspective view showing a state in which a first toilet drain connecting pipe of the first embodiment is fixed to a frame member. A side view showing the state in which the drain socket of embodiment 1 is attached to the fixing portion of the frame member. FIG. 3 is a perspective view showing a state in which the drain socket of Embodiment 1 is attached to a fixed portion of a frame member. FIG. 2 is a perspective view showing a state in which the toilet body of the first embodiment is attached to a frame member. FIG. 3 is a perspective view showing a toilet drainage connection pipe according to a second embodiment.

Embodiments 1 and 2 embodying a flush toilet equipped with the toilet drainage connection pipe of the present disclosure will be described with reference to the drawings.

<Embodiment 1>
As shown in FIG. 1, the flush toilet 1 of the first embodiment is installed in a toilet booth T having a rear wall W1 and a pair of left and right horizontal walls W2 extending forward from both left and right ends of the rear wall W1. The flush toilet 1 includes a cabinet 10, a frame member 20, a toilet drainage connection pipe 40, a toilet main body 70, a toilet seat device 80, and a cleaning tank 90.

For convenience of explanation, the front of the user sitting on the toilet seat of the toilet seat device 80 attached to the toilet main body 70 of the flush toilet 1 installed in the toilet booth T will be referred to as the "front", and the rear will be referred to as the "rear". . The left side as seen from the user sitting on the toilet seat is defined as the "left side", and the right side is defined as the "right side". The direction away from the floor F of the toilet booth T is defined as "upward", and the direction close to the floor F is defined as "downward". In the three-dimensional orthogonal coordinate system shown in each figure, the positive direction of the X-axis is "forward", the negative direction of the X-axis is "backward", the positive direction of the Y-axis is "leftward", and the negative direction of the Y-axis is " The positive direction of the Z-axis is "upward," and the negative direction of the Z-axis is "downward."

The cabinet 10 is attached along the rear wall W1 of the toilet booth T. The left-right width of the cabinet 10 is approximately the same as the front of the toilet booth T. The cabinet 10 has an upper front panel 11, a lower front panel 13 (see FIG. 12), a pair of door members 15, and a counter 17. The upper front panel 11 forms the front surface of the center of the cabinet 10 above the toilet body 70 attached to the frame member 20. The upper front panel 11 conceals the flush tank 90 arranged inside the cabinet 10 so that it cannot be seen from the front. The lower front panel 13 is below the upper front panel 11 and forms the front surfaces of both the left and right sides of the toilet body 70 attached to the frame member 20 and the lower cabinet 10.

Each door member 15 is located on both the left and right sides of the upper front panel 11 and the lower front panel 13, and constitutes the front surface of both left and right end portions of the cabinet 10. Each door member 15 is provided to freely open and close each storage section provided in both left and right ends of the cabinet 10.

The counter 17 is detachably disposed at the top of the cabinet 10. The counter 17 is disposed at the top of the cabinet 10 and constitutes the top surface of the cabinet 10. In a plan view of the counter 17 disposed at the top of the cabinet 10, the counter 17 is rectangular and elongated from side to side. When the counter 17 is disposed at the top of the cabinet 10, the rear edge of the counter 17 is almost in contact with the rear wall W1 of the toilet booth T, and each of the left and right end edges is almost in contact with each of the pair of left and right side walls W2. Here, "almost in contact" means that there may be a small gap or they may be in contact. The counter 17 conceals the inside of the cabinet 10 so that it cannot be seen from above.

As shown in FIGS. 1, 7, and 11, the frame member 20 includes a pair of left and right vertical frames 21, an upper frame 23, a mounting section 25, a fixing section 27, a lower frame 29, and a pair of first fixing bolts B1. , a pair of second fixing bolts B2, a third fixing bolt B3, a pair of left and right support bolts B4, and four drain socket bolts B5.

The pair of left and right vertical frames 21 extend in parallel in the vertical direction with a predetermined interval in the left and right direction. Each vertical frame 21 has the same length. The lower end of each vertical frame 21 is fixed to the floor F. As shown in FIG. 11, each vertical frame 21 has a first fixing bolt B1 attached at a predetermined height. Each first fixing bolt B1 extends forward from each vertical frame 21. The pair of first fixing bolts B1 are used when attaching the toilet main body 70 to the frame member 20.

As shown in Figures 1 and 7, the upper frame 23 connects the upper ends of the vertical frames 21. The upper frame 23 extends horizontally in the left-right direction. Both left and right ends of the upper frame 23 extend further outward than each vertical frame 21. Support bolts B4 are attached to both left and right ends of the upper frame 23. The support bolts B4 extend rearward from the upper frame 23. The rear ends of the support bolts B4 are attached to a reinforcing bar H fixed to the rear wall W1. The frame member 20 is prevented from falling forward by connecting the upper frame 23 and the reinforcing bar H with the support bolts B4.

As shown in FIGS. 7 and 11, the mounting section 25 includes a mounting plate section 25A and left and right pieces 25B extending forward from left and right front ends of the mounting plate section 25A. The left and right pieces 25B are fixed to each vertical frame 21 above the first fixing bolt B1 attached to each vertical frame 21. The mounting plate portion 25A is located behind each vertical frame 21 and extends horizontally between the vertical frames 21. The mounting plate section 25A has a cleaning tank 90 mounted thereon and fixed thereon (see FIG. 1).

As shown in FIGS. 7 and 11, the fixing portion 27 has both left and right edges fixed to each vertical frame 21 below the first fixing bolt B1 attached to each vertical frame 21. The fixing portion 27 has a front surface 27A that extends on the same plane as the front surface of each vertical frame 21. The fixing portion 27 has a horizontally long rectangular shape when viewed from the front, and has a circular opening 27B formed in the center. A first pipe of a toilet drainage connection pipe 40, which will be described later, passes through the opening 27B. The fixing part 27 has four drain socket bolts B5 attached at equal intervals along the periphery of the opening 27B. Each drainage socket bolt B5 extends forward from the front surface 27A of the fixing portion 27. The four drain socket bolts B5 are used when attaching a drain socket 50 constituting a first pipe described later to the frame member 20. The fixing portion 27 has a pair of second fixing bolts B2 attached to both left and right sides of the opening 27B. The distance from the center axis of each second fixing bolt B2 to the center of opening 27B is larger than the distance from the center axis of each drain socket bolt B5 to the center of opening 27B. Each second fixing bolt B2 extends forward from the front surface 27A of the fixing portion 27. The pair of second fixing bolts B2 are used when attaching the toilet main body 70 to the frame member 20.

The lower frame 29 has both left and right end edges fixed to each vertical frame 21 below the fixing parts 27 fixed to each vertical frame 21. The lower frame 29 has a front surface 29A that extends on the same plane as the front surfaces 21A of each vertical frame 21. The lower frame 29 has a third fixing bolt B3 attached to its left and right center. The third fixing bolt B3 extends forward from the front surface of the lower frame 29.

As shown in FIGS. 3 and 4, the toilet drain connection pipe 40 is available in two types (a first toilet drain connection pipe 40A and a second toilet drain connection pipe 40B), which are provided on the rear wall W1. It can be used depending on the height of the drain pipe P1. The height from the floor surface F to the central axis of the drain pipe P1 is called the drainage height. The drainage heights of the existing drainage pipe P1 are 120 mm, 148 mm, and 155 mm (each tolerance is ±5 mm). When the drainage height is 148 mm and 155 mm, the first toilet drainage connection pipe 40A is used, and when the drainage height is 120mm, the second toilet drainage connection pipe 40B is used. These toilet drainage connection pipes 40A, 40B include first pipes 41A, 41B, second pipes 42A, 42B, and third pipes 43A, 43B.

The first pipe 41A, 41B is composed of a drain socket 50 and a bent pipe 53A, 53B. The drain socket 50 and the bent pipe 53A, 53B are made of hard polyvinyl chloride resin. The drain socket 50 is a common part in the first toilet drain connection pipe 40A and the second toilet drain connection pipe 40B. The drain socket 50 has a socket portion 150 and an insertion portion 151. The socket portion 150 has a cylindrical shape that extends linearly. As shown in FIG. 2, the downstream end of the toilet drainage channel 73 is inserted into the socket portion 150 from the front end opening 150A. The socket portion 150 and the downstream end of the toilet drainage channel 73 are connected in a watertight manner by disposing a packing P between the inner peripheral surface of the socket portion 150 and the outer peripheral surface of the downstream end of the toilet drainage channel 73. The socket portion 150 corresponds to a connection portion provided at the upstream end of the first pipe 41A, 41B.

As shown in FIG. 9, the socket portion 150 has four flanges 159 extending outward on the outer peripheral surface of the downstream end. The four flange portions 159 are arranged at equal intervals on the same circumference of the outer peripheral surface of the socket portion 150. Each collar portion 159 has one through hole 159A formed therein. The through holes 159A are arranged at equal intervals on the same circumference centered on the central axis A1 of the socket portion 150. A drain socket bolt B5 attached to the fixed portion 27 of the frame member 20 passes through each through hole 159A. As shown in FIGS. 3, 4, and 9, the socket portion 150 has an annular barrier 152 with a constant width extending inward from the inner peripheral surface at the downstream end. The inside of the barrier 152 forms a circular communication opening 152A. The center of the communication port 152A is located on the central axis A1 of the socket portion 150. The opening diameter of the communication port 152A is slightly smaller than the inner diameter of the upstream pipe portion 153A of the bent pipe 53A. The socket portion 150 has four-fold symmetry when viewed from the front.

As shown in FIGS. 3 and 4, the insertion portion 151 extends rearward from the rear surface of the barrier 152 of the socket portion 150 and is continuous. The insertion portion 151 has a cylindrical shape extending linearly. The central axis A1 of the socket part 150 and the central axis A2 of the insertion part 151 extend on the same straight line. The diameter of the insertion portion 151 is smaller than the diameter of the socket portion 150. The inner diameter of the insertion portion 151 is larger than the opening diameter of the communication port 152A. The insertion part 151 inserts the upstream pipe parts 153A and 153B of the bent pipes 53A and 53B.

The bent tubes 53A, 53B have upstream tube sections 153A, 153B, intermediate tube sections 154A, 154B, and downstream tube sections 155A, 155B. The upstream tube portions 153A, 153B and the downstream tube portions 155A, 155B of the bent tubes 53A, 53B have a cylindrical shape extending linearly. In the bent pipes 53A, 53B, intermediate pipe parts 154A, 154B between the upstream pipe parts 153A, 153B and the downstream pipe parts 155A, 155B are curved. The inner circumferential surfaces of the upstream tube portions 153A, 153B and the inner circumferential surfaces of the intermediate tube portions 154A, 154B are continuous with no difference in level. The diameter of the downstream pipe portions 155A, 155B is larger than the diameter of the intermediate pipe portions 154A, 154B.

In the first toilet drainage connection pipe 40A, as shown in FIG. 3, the central axis A3 of the upstream pipe part 153A of the bent pipe 53A and the central axis A4 of the downstream pipe part 155A of the bent pipe 53A intersect, and the intersection angle is α1 is approximately 22.5 degrees. In the second toilet drainage connection pipe 40B, as shown in FIG. 4, the central axis A3 of the upstream pipe part 153B of the bent pipe 53B and the central axis A4 of the downstream pipe part 155B of the bent pipe 53B intersect, and the intersection angle is β1 is approximately 30.0 degrees.

The outer diameter of the upstream pipe section 153A, 153B of the bent pipe 53A, 53B is slightly smaller than the inner diameter of the insertion section 151 of the drain socket 50, as shown in Figures 3 and 4. The upstream pipe section 153A, 153B of the bent pipe 53A, 53B is cut to a predetermined length during construction, as described below (see Figure 8). The upstream pipe section 153A, 153B of the bent pipe 53A, 53B and the insertion section 151 of the drain socket 50 are connected by bonding the outer peripheral surface of the upstream pipe section 153A, 153B of the bent pipe 53A, 53B and the inner peripheral surface of the insertion section 151 with an adhesive during construction, as described below. The central axis A1, A2 of the drain socket 50 and the central axis A3 of the upstream pipe section 153A, 153B of the bent pipe 53A, 53B extend on the same straight line. For this reason, as shown in Fig. 3, the first pipe 41A of the first toilet drain connection pipe 40A is bent at an intersection angle α1 of approximately 22.5 degrees between the central axis A1, A2, A3 of the upstream portion (the drain socket 50 and the upstream pipe portion 153A of the bent pipe 53A) and the central axis A4 of the downstream portion (the downstream pipe portion 155A of the bent pipe 53A). Similarly, as shown in Fig. 4, the first pipe 41B of the second toilet drain connection pipe 40B is bent at an intersection angle β1 of approximately 30.0 degrees between the central axis A1, A2, A3 of the upstream portion and the central axis A4 of the downstream portion.

The second pipes 42A and 42B have a cylindrical shape extending linearly, as shown in FIGS. 3 and 4. The second pipes 42A, 42B are made of hard vinyl chloride resin. The second pipes 42A, 42B are cut to a length corresponding to the drainage height during construction, as will be described later. The outer diameter of the second pipes 42A, 42B is slightly smaller than the inner diameter of the downstream pipe portions 155A, 155B of the bent pipes 53A, 53B of the first pipes 41A, 41B. The upstream ends of the second pipes 42A, 42B and the downstream pipe parts 155A, 155B of the bent pipes 53A, 53B of the first pipes 41A, 41B are the upstream ends of the second pipes 42A, 42B during construction, as will be described later. and the inner peripheral surfaces of the downstream pipe portions 155A, 155B of the bent pipes 53A, 53B are bonded and connected using an adhesive. The inner diameters of the second pipes 42A, 42B are approximately equal to the inner diameters of the intermediate pipe portions 154A, 154B of the bent pipes 53A, 53B. When the second pipes 42A, 42B are connected to the first pipes 41A, 41B, the inner peripheral surfaces of the second pipes 42A, 42B and the intermediate pipe portions 154A, 154B of the bent pipes 53A, 53B of the first pipes 41A, 41B are connected to each other. It is continuous with the inner peripheral surface without any difference in level. Therefore, in the first toilet drainage connection pipe 40A and the second toilet drainage connection pipe 40B, toilet drainage flows smoothly from the first pipes 41A, 41B to the second pipes 42A, 42B.

The third pipes 43A, 43B have upstream pipe parts 156A, 156B, intermediate pipe parts 157A, 157B, and downstream pipe parts 158A, 158B. The third pipes 43A and 43B are made of hard vinyl chloride resin. The upstream pipe portions 156A, 156B and the downstream pipe portions 158A, 158B of the third pipes 43A, 43B have a cylindrical shape extending linearly. In the third pipes 43A, 43B, intermediate pipe parts 157A, 157B between the upstream pipe parts 156A, 156B and the downstream pipe parts 158A, 158B are curved.

The third pipe 43A of the first toilet drain connection pipe 40A is composed of a single member, as shown in FIG. 3. In the first toilet drain connection pipe 40A, the central axis A5 of the upstream pipe section 156A of the third pipe 43A and the central axis A6 of the downstream pipe section 158A of the third pipe 43A intersect with each other at an intersection angle α2 of approximately 22.5 degrees. In the first toilet drain connection pipe 40A, the third pipe 43A is bent at the same bend angle as the first pipe 41A.

As shown in FIG. 4, the third pipe 43B of the second toilet drainage connection pipe 40B is composed of two members (a first member 44 and a second member 45). The first member 44 constitutes an upstream pipe section 156B and an intermediate pipe section 157B of the third pipe 43B. The second member 45 has an upstream portion inserted into and connected to the downstream portion of the first member 44 . A downstream portion of the second member 45 constitutes a downstream pipe portion 158B of the third pipe 43B. The outer diameter of the upstream portion of the second member 45 is slightly smaller than the inner diameter of the downstream portion of the first member 44 . The first member 44 and the second member 45 are connected by bonding the inner circumferential surface of the downstream portion of the first member 44 and the outer circumferential surface of the upstream portion of the second member 45 with an adhesive. A part of the inner peripheral surface of the upstream portion of the second member 45 is curved and narrowed inward toward the downstream side. The downstream portion of the second member 45 has a cylindrical shape. The outer diameter of the downstream portion of the second member 45 is larger than the inner diameter of the downstream portion of the first member 44 . The inner diameter of the downstream portion of the second member 45 is larger than the inner diameter of the upstream portion.

In the second toilet drain connection pipe 40B, the central axis A5 of the upstream pipe section 156B of the third pipe 43B intersects with the central axis A6 of the downstream pipe section 158B of the third pipe 43B, and the intersection angle β2 is approximately 30.0 degrees. The third pipe 43B is bent at the same bend angle as the first pipe 41B.

In each toilet drain connection pipe 40A, 40B, as shown in Figures 2 to 4, the inner diameter of the upstream pipe section 156A, 156B of the third pipe 43A, 43B is slightly larger than the outer diameter of the second pipe 42A, 42B. The upstream pipe section 156A, 156B of the third pipe 43A, 43B and the downstream end section of the second pipe 42A, 42B are connected by bonding the inner peripheral surface of the upstream pipe section 156A, 156B of the third pipe 43A, 43B and the outer peripheral surface of the downstream end section of the second pipe 42A, 42B with an adhesive during construction, as described below. The inner diameter of the intermediate pipe section 157A, 157B of the third pipe 43A, 43B is approximately equal to the inner diameter of the second pipe 42A, 42B. When the third pipes 43A, 43B are connected to the second pipes 42A, 42B, the inner circumferential surfaces of the intermediate pipes 157A, 157B of the third pipes 43A, 43B are continuous with the inner circumferential surfaces of the second pipes 42A, 42B without any steps. Therefore, the first toilet drainage connection pipe 40A and the second toilet drainage connection pipe 40B allow toilet drainage to flow smoothly from the second pipes 42A, 42B to the third pipes 43A, 43B.

The inner diameters of the downstream pipe portions 158A, 158B of the third pipes 43A, 43B are slightly larger than the outer diameter of the drain pipe P1 provided on the rear wall W1. As will be described later, the downstream pipe portions 158A and 158B of the third pipes 43A and 43B are connected to a drain pipe P1 provided on the inner circumferential surface of the downstream pipe portions 158A and 158B of the third pipes 43A and 43B and the rear wall W1 during construction. and the outer circumferential surface thereof are bonded and connected with an adhesive. The inner diameters of the intermediate pipe portions 157A, 157B of the third pipes 43A, 43B are approximately equal to the inner diameter of the drain pipe P1. In a state where the third pipes 43A, 43B are connected to the drain pipe P1, the inner circumferential surfaces of the intermediate pipe portions 157A, 157B of the third pipes 43A, 43B and the inner circumferential surface of the drain pipe P1 are continuous without a step. Therefore, in the first toilet drainage connection pipe 40A and the second toilet drainage connection pipe 40B, toilet drainage flows smoothly from the third pipes 43A, 43B to the drainage pipe P1.

As shown in Figures 1 and 12, the toilet body 70 is fixed at its rear end to the frame member 20 and is attached above and away from the floor surface F. The toilet body 70 has a toilet bowl 71, a toilet drainage channel 73, an upper surface 75, a side surface 77, and a rear surface 79. The toilet drainage channel 73 has an upstream end connected to the downstream portion of the toilet bowl 71. The downstream end 73A of the toilet drainage channel 73 has a cylindrical shape that extends in a straight line. The downstream end 73A of the toilet drainage channel 73 protrudes from the rear surface 79 and extends rearward. The downstream end opening of the toilet drainage channel 73 is the outlet 74 of the toilet body 70.

As shown in FIG. 12, the upper surface portion 75 is continuous with the upper end opening of the toilet bowl portion 71 and extends horizontally toward the rear. The side surface portion 77 extends downward continuously from the edge extending in the left-right direction from the front end of the upper surface portion 75, and hides the toilet bowl portion 71 from the front direction and the left-right direction. The left and right rear edges of the side surface portion 77 are continuous with the rear edge of the upper surface portion 75 and extend on the same plane as the rear edge of the upper surface portion 75 . When the toilet main body 70 is attached to the frame member 20, the rear edge of the top surface portion 75 and the left and right rear edges of the side surface portions 77 are in contact with the front surface of the lower front panel 13. The side surface portion 77 has a pair of left and right openings 77A formed on both left and right sides. The toilet main body 70 has a portion of the outer surface of the toilet bowl portion 71, a portion of the outer surface of the toilet drainage channel 73, and a front surface of the rear portion 79 exposed through the left and right openings 77A of the side portion 77. A pair of side covers (not shown) are removably attached to the left and right openings 77A of the side surface portion 77. The outer surface of the side cover attached to the left and right openings 77A is substantially flush with the outer surface of the side surface portion 77.

The upper edge of the rear surface section 79 is continuous with the lower surface of the upper surface section 75. Both left and right edges of the rear surface section 79 are continuous with the inner surface of the side surface section 77 along the rear end edges of the left and right openings 77A of the side surface section 77. The rear surface portion 79 extends in the vertical and horizontal directions in front of the rear edge of the top surface portion 75 and the left and right rear edges of the side surface portions 77 . In the rear surface portion 79, a downstream end portion 73A of the toilet drainage channel 73 protrudes rearward from the left and right center portions. In the rear surface portion 79, a water supply port (not shown) for supplying flush water to the toilet bowl portion 71 is formed above the downstream end portion 73A of the toilet bowl drainage channel 73. The water supply port is connected to a cleaning tank 90, which will be described later, via a cleaning pipe (not shown).

As shown in FIG. 12, the rear surface portion 79 is formed with a pair of first through holes 79A and a pair of second through holes 79B. Each of the first through holes 79A and each of the second through holes 79B can be visually recognized through the left and right openings 77A of the side surface portion 77. The pair of first through holes 79A are formed on both left and right sides of the downstream end 73A of the toilet drainage channel 73, and the first fixing bolts B1 are inserted when the toilet main body 70 is attached to the frame member 20. The pair of second through holes 79B are formed on both left and right sides of the downstream end portion 73A of the toilet drainage channel 73, and are formed closer to the left and right center than the first through hole 79A. The second fixing bolt B2 is inserted into the second through hole 79B when the toilet main body 70 is attached to the frame member 20.

The toilet seat device 80 is attached to the upper surface 75 of the toilet body 70 as shown in FIG. 1. The toilet seat device 80 has a toilet seat (not shown), a toilet lid 81, and a functional part 83. The functional part 83 houses a private part cleaning device and the like in a cover 83A. The toilet seat and the toilet lid 81 are rotatably supported by the functional part 83. The flush tank 90 is fixed to the mounting part 25 of the frame member 20 and is housed in the cabinet 10. The flush tank 90 stores flush water to be supplied to the toilet bowl 71 of the toilet body 70. When the toilet flush is performed, the flush water stored in the flush tank 90 flows into the toilet bowl 71 of the toilet body 70 through a flush pipe (not shown).

<Installation procedure>
The construction procedure for this flush toilet 1 will now be described. First, the builder measures the drain height of the existing drain pipe P1 that extends linearly from the rear wall W1 in the front-to-rear direction, and checks its left-to-right position. Depending on the drain height of the drain pipe P1, the builder selects and uses either the first toilet drain connecting pipe 40A or the second toilet drain connecting pipe 40B. When the drain height is 148 mm and 155 mm, the first toilet drain connecting pipe 40A is used, and when the drain height is 120 mm, the second toilet drain connecting pipe 40B is used.

From now on, the procedure for constructing the flush toilet 1 using the first toilet drainage connection pipe 40A will be explained, but the same procedure will be applied when constructing the flush toilet 1 using the second toilet drainage connection pipe 40B. It is. The projecting length of the drain pipe P1 provided on the rear wall W1 from the rear wall W1 is determined according to the drainage height, and the builder cuts the drain pipe P1 to that length. Next, the builder cuts the second pipe 42A of the first toilet drainage connection pipe 40A to a predetermined length. The length of the second pipe 42A is determined according to the drainage height.

Next, as shown in FIGS. 5 and 6, the builder assembles the bent pipe 53A of the first pipe 41A, the second pipe 42A, and the third pipe 43A that constitute the first toilet drainage connection pipe 40A. and connect it to the drain pipe P1. First, the builder assembles the bent pipe 53A, the second pipe 42A, and the third pipe 43A by bonding them together with an adhesive. At this time, the builder places a mark (not shown) on the outer peripheral surface of each of the downstream pipe section 155A of the bent pipe 53A, the second pipe 42A, and the upstream pipe section 156A of the third pipe 43A to indicate the upper end position. to connect the bent pipe 53A, the second pipe 42A, and the third pipe 43A. After assembling the bent pipe 53A, the second pipe 42A, and the third pipe 43A, the constructor connects the drain pipe P1 provided on the rear wall W1 to the downstream pipe section 158A of the third pipe 43A, as shown in FIG. Insert from the downstream end opening and connect with adhesive. At this time, the builder marks the drain pipe P1 provided on the rear wall W1 with a line indicating the upper end position, and indicates the upper end position of this line and the outer peripheral surface of the downstream pipe section 158A of the third pipe 43A. Align and connect the marks (not shown).

Next, the builder attaches the frame member 20 to the toilet booth T, as shown in FIG. In the frame member 20, the reinforcing wood H fixed at a predetermined height of the rear wall W1 and the upper frame 23 are connected by support bolts B4, and the lower ends of each of the left and right vertical frames 21 are screwed to the floor F. It will be stopped. The frame member 20 attached to the toilet booth T is in a state where the upstream pipe section 153A of the bent pipe 53A of the first pipe 41A is inserted into the opening 27B of the fixed part 27. As shown in FIG. 8, the builder cuts the upstream pipe portion 153A of the bent pipe 53A, which protrudes forward from the front surface 27A of the fixed portion 27 of the frame member 20, to a predetermined length L from the front surface 27A of the fixed portion 27. do.

Next, the builder attaches the drain socket 50 to the frame member 20, as shown in FIGS. 9 and 10. First, the builder attaches four drain socket bolts B5 around the opening 27B of the fixing part 27 of the frame member 20. As shown in FIG. 10, the upper two drain socket bolts B5 have a longer protrusion length from the front surface 27A of the fixing portion 27 of the frame member 20 than the lower two drain socket bolts B5. short. The upper two drainage socket bolts B5 have substantially the same length of protrusion forward from the front surface 27A of the fixing portion 27 of the frame member 20. The lower two drain socket bolts B5 have substantially the same length of protrusion forward from the front surface 27A of the fixing portion 27 of the frame member 20. The builder screws in the first flange nut N1 from the front end of each drain socket bolt B5. Each first flange nut N1 is screwed onto each drain socket bolt B5 with the flange portion facing forward and at a position where the front surface of the flange portion does not protrude forward of the front end surface of the bent pipe 53A.

As shown in FIGS. 9 and 10, the installer applies adhesive to the inner peripheral surface of the insertion part 151 of the drain socket 50 and the outer peripheral surface of the upstream pipe part 153A of the bent pipe 53A, and attaches the adhesive to the frame member 20. The four attached drain socket bolts B5 are inserted into the through holes 159A formed in the collar portion 159 of the socket portion 150 of the drain socket 50. As shown in FIG. 10, the installer inserts the two lower drain socket bolts B5 into the through holes 159A formed in the two lower flanges 159 of the socket part 150, and then inserts the drain socket While inserting the upstream pipe part 153A of the bent pipe 53A into the insertion part 151 of the socket part 150, insert the upper two drain socket bolts B5 into the through holes 159A formed in the upper two collar parts 159 of the socket part 150. insert. The mounting posture of the drain socket 50 is determined by inserting the lower two drain socket bolts B5 into the through holes 159A formed in the two lower flanges 159 of the socket part 150. The installer can easily attach the drain socket 50 compared to the case where the drain socket bolts B5 are simultaneously inserted into the through holes 159A formed in each of the four flanges 159.

As shown in FIG. 11, the installer screws the second flange nut N2 into the front end of each drain socket bolt B5. Each second flange nut N2 is screwed into each drain socket bolt B5 with the flange portion facing rearward. The installer tightens the first flange nut N1 and the second flange nut N2 from both the front and rear sides of the flange portion 159 of the socket portion 150 to fix the drain socket 50 to the frame member 20. By adjusting the screw-in positions of the first flange nut N1 and the second flange nut N2, construction errors can be absorbed. The drain socket 50, which is glued to the upstream pipe portion 153A of the bent pipe 53A that constitutes the first toilet drain connection pipe 40A, is fixed to the frame member 20. In this way, the first toilet drain connection pipe 40A is fixed to the frame member 20.

Next, the builder attaches the toilet main body 70 to the frame member 20, as shown in FIGS. 11 and 12. First, the builder attaches a pair of first fixing bolts B1, a pair of second fixing bolts B2, and a third fixing bolt B3 to the frame member 20. For each first fixing bolt B1, a nut C1 is screwed into an intermediate portion of the frame member 20 that is a predetermined distance away from the front surface of the vertical frame 21, and a washer C2 and a packing C3 are inserted in this order. Next, the builder attaches the lower front panel 13 to the frame member 20, as shown in FIG. The front surface of the lower front panel 13 is located slightly rearward of the packing CC3 of the pair of first fixing bolts B1 and the front surface of the head of the third fixing bolt B3.

Next, the installer attaches a connecting fitting (not shown) to the water supply port formed on the rear surface 79 of the toilet body 70, and attaches a packing P to the downstream end of the toilet drainage channel 73. As shown in FIG. 12, the installer inserts the downstream end 73A of the toilet drainage channel 73 with the packing P attached from the front into the socket portion 150 of the drain socket 50 (see FIG. 2), while inserting the first fixing bolt B1 into a pair of first through holes 79A formed on the rear surface 79 of the toilet body 70, and inserts the second fixing bolt B2 into a pair of second through holes 79B. The installer inserts the packing D1, washer D2, and nut D3 in this order from the front end of each first fixing bolt B1, and inserts the washer E1 and nut E2 in this order from the front end of each second fixing bolt B2. The installer tightens the nuts D3 and E2 to fix the toilet body 70 to the frame member 20.

After fixing the toilet body 70 to the frame member 20, the installer fixes the flush tank 90 to the upper surface of the mounting plate portion 25A of the frame member 20. The flush tank 90 is connected to the toilet body 70 via a flush pipe (not shown) and to a water supply pipe (not shown) that supplies flush water. Next, the installer attaches the upper front panel 11 to the frame member 20. Next, the installer attaches the toilet seat device 80 to the upper surface portion 75 of the toilet body 70. Next, the installer attaches a pair of door members 15 to both the left and right sides of the upper front panel 11 and the lower front panel 13 so that they can be opened and closed freely, and places the counter 17 at the upper end of the cabinet 10. Finally, the installer attaches side covers (not shown) to the left and right openings 77A of the side portion 77 of the toilet body 70 to complete the construction of the flush toilet 1.

<Embodiment 2>
As shown in FIG. 13, in the toilet drain connection pipe 140 of the flush toilet 2 of the second embodiment, the form of the third pipe 143 is different from the third pipe 43A of the first toilet drain connection pipe 40A of the first embodiment. The other configurations are the same as those in Embodiment 1, and the same configurations are denoted by the same reference numerals and detailed explanations will be omitted.

The third pipe 143 of the toilet drainage connection pipe 140 has an upstream pipe section 143A, an intermediate pipe section 143B, and a downstream pipe section 143C. The upstream pipe section 143A and the downstream pipe section 143C have the same form as the upstream pipe section 156A and the downstream pipe section 158A of the third pipe 43A of the first toilet drainage connection pipe 40A. The intermediate pipe portion 143B is curved, and its degree of curvature is different from the intermediate pipe portion 157A of the third pipe 43A of the first toilet drainage connection pipe 40A. The central axis of the upstream pipe section 143A of the third pipe 143 of the toilet drainage connection pipe 140 intersects with the central axis of the downstream pipe part 143C of the third pipe 143, and the intersection angle is about 90 degrees. This toilet drain connection pipe 140 has the downstream end opening of the downstream pipe section 143C of the third pipe 143 facing the right side wall W2 of the toilet booth T, and connects to the drain pipe P2 extending linearly from the right side wall W2 in the left-right direction. Can be connected.

As explained above, the toilet drainage connection pipes 40 (40A, 40B), 140 of Embodiments 1 and 2 have a socket part 150 at the upstream end, which is a connection part connected to the discharge port 74 of the toilet main body 70. 1 pipes 41A, 41B, and second pipes 42A, 42B that are connected to the downstream ends of the first pipes 41A, 41B during construction and extend obliquely downward from the upstream end toward the downstream end in the state after construction. It is equipped with. Since these toilet drain connection pipes 40 connect the second pipes 42A, 42B to the downstream ends of the first pipes 41A, 41B during construction, the tolerance range for the positional deviation of the discharge port 74 with respect to the drain pipes P1, P2 is widened. Therefore, the flush toilet bowls 1 and 2 can be easily constructed.

The toilet drain connection pipes 40 (40A, 40B), 140 in the first and second embodiments are provided with third pipes 43A, 43B, 143 that connect to the downstream ends of the second pipes 42A, 42B. By preparing multiple types of third pipes 43A, 43B, 143 with different shapes, these toilet drain connection pipes 40 (40A, 40B), 140 can be connected to drain pipes P1, P2 with different drain heights provided on the rear wall W1 or side wall W2, or to drain pipes provided on the floor surface F.

The first pipes 41A, 41B of the toilet drainage connection pipes 40 (40A, 40B), 140 of Embodiments 1 and 2 have curved portions. These toilet drainage connection pipes 40 (40A, 40B), 140 allow toilet drainage to flow smoothly in the first pipes 41A, 41B.

The third pipes 43A, 43B, 143 of the toilet drainage connection pipes 40 (40A, 40B), 140 of Embodiments 1 and 2 have curved portions. These toilet drainage connection pipes 40 (40A, 40B), 140 allow toilet drainage to flow smoothly in the third pipes 43A, 43B, 143.

The first pipes 41A, 41B and the third pipes 43A, 43B of the toilet drainage connection pipe 40 (40A, 40B) of Embodiment 1 have the same bending angle. In this toilet drainage connection pipe 40 (40A, 40B), the inclination angle of the socket part 150 at the upstream end of the first pipe 41A, 41B is the same as the inclination angle of the downstream pipe part 158A, 158B of the third pipe 43A, 43B. Therefore, the downstream end of the toilet bowl drainage channel 73 having substantially the same drainage gradient and the drain pipe P1 can be easily connected.

The second pipes 42A, 42B of the toilet drainage connection pipes 40 (40A, 40B), 140 of Embodiments 1 and 2 are rigid and extend linearly. These toilet drainage connection pipes 40 (40A, 40B), 140 allow toilet drainage to flow smoothly through the second pipes 42A, 42B, and are durable.

When the toilet main body 70 is attached to the toilet booth T, the downstream end of the third pipe 143 of the toilet drain connection pipe 140 of the second embodiment is connected to the drain pipe P2 provided on the side wall W2 located on the right side of the toilet main body 70. Connecting. This toilet drain connection pipe 140 can be connected to a drain pipe P2 provided on a horizontal wall W2 located on either the left or right side of the toilet main body 70.

The flush toilets 1 and 2 of the first and second embodiments include a toilet main body 70, a frame member 20 that fixes the toilet main body 70, a toilet drainage connection pipe 40 (40A, 40B), 140 that is fixed to the frame member 20, Equipped with: These flush toilets 1 and 2 are configured so that the toilet main body 70 and the toilet drainage connection pipes 40 (40A, 40B) are fixed to the frame member 20. , 140, the position can be easily adjusted, and the flush toilets 1 and 2 can be easily constructed.

The present disclosure is not limited to the first and second embodiments described above and illustrated in the drawings, and the following embodiments, for example, are also included within the technical scope of the present invention.
(1) The toilet drain connection pipe may not include the third pipe, and the downstream end of the second pipe may be connected to the drain pipe.
(2) The first pipe and the third pipe may not have a curved portion and may be bent.
(3) The third pipe may be composed of three or more members.
(4) The second pipe may have an elliptical cross-sectional shape perpendicular to the central axis.
(5) A template showing the cutting length according to the drainage height may be prepared, and the template may be used to determine the cutting length when cutting the second pipe.
(6) The cutting position according to the drainage height may be directly marked on the outer circumferential surface of the second pipe.
(7) The first pipe may be formed integrally with the drain socket and the bent pipe.
(8) In the first and second embodiments, the drain socket 50 is attached to the frame member 20 using the drain socket bolt B5 and the first and second flange nuts N1, N2. Alternatively, the drain socket 50 may be attached to the frame member 20 using a screw and a spacer sandwiched between the frame member 20 and the flange 159 of the drain socket 50. The drain socket 50 may be attached to the frame member 20 using the drain socket bolt B5, a spacer, and the second flange nut N2. The upper two flanges 159 of the drain socket 50 may be attached to the frame member 20 using the drain socket bolt B5, a spacer, and the second flange nut N2, and the lower two flanges 159 of the drain socket 50 may be attached to the frame member 20 using a screw and a spacer.

1, 2... flush toilet, 20... frame member, 40, 40A, 40B... toilet drainage connection pipe (40A... first toilet drainage connection pipe, 40B... second toilet drainage connection pipe), 41A, 41B... first pipe, 42A, 42B... second pipe, 43A, 43B... third pipe, 70... toilet body, 74... drain, 150... socket part (connection part), T... toilet booth, W2... side wall

Claims (8)

A first pipe having a connection portion at an upstream end thereof for connection to a discharge port of the toilet body;
a second pipe that is connected to the downstream end of the first pipe during construction and that extends obliquely downward from the upstream end to the downstream end after construction;
A toilet drain connection pipe having: The toilet drain connection pipe according to claim 1, further comprising a third pipe connected to the downstream end of the second pipe. The toilet drainage connection pipe according to any one of claims 1 and 2, wherein the first pipe has a curved portion. The toilet drainage connection pipe according to claim 2, wherein the third pipe has a curved portion. The toilet drain connection pipe according to claim 2, wherein the first pipe and the third pipe have the same bending angle. The toilet drain connection pipe according to any one of claims 1 and 2, wherein the second pipe is rigid and extends linearly. The toilet bowl according to claim 2, wherein the downstream end of the third pipe is connected to a drain pipe provided on either one of the left and right side walls of the toilet bowl body when the toilet bowl body is attached to the toilet booth. Drainage connection pipe. The toilet bowl body,
a frame member that fixes the toilet main body;
The toilet drainage connection pipe according to any one of claims 1 and 2, which is fixed to the frame member;
A flush toilet equipped with.

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