JP2018204261A - Drain trap - Google Patents

Abstract

To provide a drain trap with high degree of freedom in construction.SOLUTION: A drain trap 1 comprises a first pipe 2 inclined downward, a second pipe 3 inclined upward and a third pipe 4 inclined downward, which are provided in parallel. A first turn-back pipe 5 is connected between a downstream end of the first pipe 2 and an upstream end of the second pipe 3, and a second turn-back pipe 6 is connected between a downstream end of the second pipe 3 and an upstream end of the third pipe 4. A wall 13 is constituted between the first pipe 2 and the second pipe 3, and a wall 14 is constituted between the second pipe 3 and the third pipe 4. An upstream side connecting part 11 and a downstream side connecting part 12, which are made of pipes having a circular cross section, are respectively provided at an upstream end of the first pipe 2 and a downstream end of the third pipe 4. A center axis of the upstream side connecting part 11 and the center axis of the downstream side connecting part 12 are located on a same straight line L.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a drain trap.

  Conventionally, an S-shaped drain trap having a first pipe through which water flows downward, a second pipe through which water flows upward, and a third pipe through which water flows downward from the upstream side is known. (For example, refer to Patent Document 1).

  An upstream drain pipe is connected to the upstream connection section at the upstream end of the first pipe, and a downstream drain pipe is connected to the downstream connection section at the downstream end of the third pipe.

Japanese Patent Laid-Open No. 9-122527

  In the drain trap of the above-described conventional example, the central axis of the upstream connection portion and the central axis of the downstream connection portion are both positioned in the vertical direction and shifted in plan view. In this drain trap, the direction (posture) of the drain trap in the state of being attached to the upstream and downstream drain pipes has been determined.

  For this reason, avoiding interference with other members, the degree of freedom in construction of other members and drain traps is limited.

  This invention is invented in view of the said conventional problem, Comprising: It aims at providing the drain trap with a high freedom degree on construction.

  In the drain trap according to one aspect of the present invention, a first pipe, a second pipe, and a third pipe are arranged in parallel. The first pipe is inclined downward toward the downstream side, and the internal space becomes the first flow path. The second pipe is located on the downstream side of the first pipe, is inclined upward toward the downstream side, and the internal space becomes the second flow path. The third pipe is located on the downstream side of the second pipe, is inclined downward toward the downstream side, and the internal space becomes the third flow path.

  Between the downstream end of the first pipe and the upstream end of the second pipe, a first folded pipe whose internal space serves as a first folded flow path is connected. Between the downstream end of the second pipe and the upstream end of the third pipe, a second folded pipe having an internal space serving as a second folded flow path is connected.

  The portion on the second pipe side of the side wall constituting the first pipe and the portion on the first pipe side of the side wall constituting the second pipe are constituted by the same wall. The portion on the third pipe side of the side wall constituting the second pipe and the portion on the second pipe side of the side wall constituting the third pipe are constituted by the same wall.

  An upstream connection portion made of a pipe having a circular cross section is provided at the upstream end of the first pipe. At the downstream end of the third pipe, a downstream connection portion made of a pipe having a circular cross section is provided.

  A central axis of the pipe constituting the upstream connection portion and a central axis of the pipe constituting the downstream connection portion are located on the same straight line.

  In the drain trap according to one aspect of the present invention, the mounting direction of the drain trap connected to the upstream and downstream drain pipes is not limited. Interference with members can be avoided, and the degree of freedom in construction is high.

FIG. 1 is a cross-sectional view of a drain trap according to an embodiment of the present invention. FIG. 2A is a cross-sectional view of the main part for explaining the flow of water when the amount of water in the drain trap having no guide rib is large. FIG. 2B is a cross-sectional view of the main part for explaining the flow of water when the amount of water in the drain trap where no guide rib is provided is small. FIG. 3 is a cross-sectional view illustrating insertion of a high-pressure cleaning nozzle from the first opening in the drain trap according to the embodiment of the present invention.

  The drain trap which concerns on one Embodiment of this invention is demonstrated based on FIGS. 1-3.

  As shown in FIG. 1, the drain trap 1 includes a first pipe 2, a second pipe 3, and a third pipe 4 arranged in parallel.

  The first pipe 2 is provided so as to be inclined downward toward the downstream side when the drain trap 1 is in use, and the internal space serves as the first flow path 20. In the first flow path 20, the direction of the water flow (hereinafter simply referred to as “flow”) flowing through the inside is constant downward.

  Here, the upper and lower sides of the drain trap 1 in the normal use state are defined as the upper and lower sides in the present embodiment, and are shown in FIG.

  The pipes (the first pipe 2, the second pipe 3, the third pipe 4, the first folded pipe 5 and the second folded pipe 6 described later) have a circular shape in a cross section perpendicular to the flow direction. The first flow path 20, the second flow path 30, the third flow path 40, the first return flow path 50, and the second return flow path 60, which are formed inside these pipes, are arbitrarily positioned in the flow direction. Are the same shape (circular shape) and the same size. These pipes are made of resin, and are integrally formed by blow molding or DSI (Die Slide Injection Molding) molding to constitute the drain trap 1.

  The second pipe 3 is located on the downstream side of the first pipe 2. The second pipe 3 is provided so as to be inclined upward toward the downstream side when the drain trap 1 is in use, and the internal space serves as the second flow path 30. In the second flow path 30, the flow direction is obliquely upward and constant.

  The drain trap 1 also includes a first folded pipe 5 connected between the downstream end of the first pipe 2 and the upstream end of the second pipe 3. The first return pipe 5 has an internal space serving as a first return flow path 50. The first folded pipe 5 changes the flow direction from the flow direction of the first flow path 20 to the flow direction of the second flow path 30.

  The upstream end 51 of the first return channel 50 is continuous with the downstream end of the first channel 20. At the upstream end 51 of the first return channel 50, the flow direction is the same as the flow direction of the first channel 20.

  Further, the downstream end 52 of the first return channel 50 is continuous with the upstream end of the second channel 30. At the downstream end 52 of the first return channel 50, the flow direction is the same as the flow direction of the second channel 30.

  In the intermediate portion 53 between the upstream end 51 and the downstream end 52 of the first folded pipe 5, the flow direction changes with a constant curvature.

  The third pipe 4 is located on the downstream side of the second pipe 3. The third pipe 4 is provided so as to be inclined downward toward the downstream side when the drain trap 1 is in use, and the internal space serves as the third flow path 40. In the third flow path 40, the flow direction is obliquely downward and constant.

  Further, the drain trap 1 includes a second folded pipe 6 connected between the downstream end of the second pipe 3 and the upstream end of the third pipe 4. The internal space of the second folded pipe 6 becomes the second folded flow path 60. The second folded pipe 6 changes the flow direction from the flow direction of the second flow path 30 to the flow direction of the third flow path 40.

  The upstream end 61 of the second return channel 60 continues to the downstream end of the second channel 30. At the upstream end 61 of the second folded flow path 60, the flow direction is the same as the flow direction of the second flow path 30.

  Further, the downstream end 62 of the second return channel 60 continues to the upstream end of the third channel 40. At the downstream end 62 of the second folded flow path 60, the flow direction is the same as the flow direction of the third flow path 40.

  In the intermediate portion 63 between the upstream end 61 and the downstream end 62 of the second folded pipe 6, the flow direction changes with a constant curvature.

  Further, a portion 21 on the side of the side wall constituting the first pipe 2 where the second pipe 3 is located and a portion 31 of the side wall constituting the second pipe 3 on the side where the first pipe 2 is located are the same wall. 13.

  Furthermore, the portion 32 on the side where the third pipe 4 is located on the side wall constituting the second pipe 3 and the portion 42 on the side where the second pipe 3 is located on the side wall constituting the third pipe 4 are the same wall. 14.

  Of the inner wall surface 41 of the third pipe 4, the guide rib 7 is provided at the upper end portion of the inner wall surface 411 on the side where the second pipe 3 is located. In the guide rib 7, the surface 71 opposite to the side where the second pipe 3 is located faces downward toward the distal end 73 (the normal of the surface 71 is horizontal), and the distal end 73 is separated from the inner wall surface 411. . Further, the guide rib 7 is inclined so that the surface 72 on the side where the second pipe 3 is located is directed downward toward the tip 73 side. The guide rib 7 is made of the same resin as the third pipe 4 and is formed integrally with the third pipe 4.

  The effect of the guide rib 7 will be described. As shown in FIG. 2A, when a large amount of water 8 flows in the drain trap 1 when the guide rib 7 is not provided, the inner wall surface on the side where the second pipe 3 is located among the inner wall surfaces 41 of the third pipe 4. 411 does not flow much water 8. For this reason, the oil and fat content contained in the water 8 is difficult to adhere to the inner wall surface 411 on the side where the second pipe 3 is located in the inner wall surface 41 of the third pipe 4. In addition, since the water 8 does not flow little by little to the inner wall surface 412 opposite to the side where the second pipe 3 is located in the inner wall surface 41 of the third pipe 4, Oils and fats contained in 8 are difficult to adhere.

  However, before the flow is stopped, as shown in FIG. 2B, the water 8 flows little by little on the inner wall surface 411 on the side where the second pipe 3 is located among the inner wall surfaces 41 of the third pipe 4. At this time, the oil and fat contained in the water 8 flowing so as to be transmitted easily adheres to the inner wall surface 411 on the side where the second pipe 3 is located.

  Therefore, in this embodiment, the guide rib 7 is provided in the drain trap 1. When a large amount of water 8 flows through the drain trap 1, the oil and fat contained in the water 8 is unlikely to adhere to the inner wall surface 411 and the inner wall surface 412 as in the case shown in FIG. 2A.

  In addition, before the flow is stopped, the water 8 which is to be transmitted through the inner wall surface 411 on the side where the second pipe 3 is located on the inner wall surface 41 of the third pipe 4 is the side where the second pipe 3 is located on the guide rib 7. Along the opposite surface 71 from the tip 73 (lower end). As a result, the oil and fat contained in the water 8 is suppressed from adhering to the lower side of the location where the guide ribs 7 of the inner wall surface 411 on the side where the second pipe 3 is located. Further, since the water 8 does not flow so much on the inner wall surface 412, the oil and fat contained in the water 8 is difficult to adhere to the inner wall surface 412.

  As shown in FIG. 1, the maximum width W1 of the first pipe 2, the maximum width W2 of the second pipe 3, and the maximum width W3 of the third pipe 4 are W1 = W2, W1 <W3, and W2 <W3. A drain trap 1 is formed so as to satisfy the relationship. Here, the maximum width is the inner diameter (diameter) of each pipe in the present embodiment in which the cross-sectional shape of each pipe is circular. The magnitude relation of the maximum width of the pipe matches the magnitude relation of the flow area of the pipe. Since the flow passage area of the third pipe 4 is larger than the flow passage area of the first pipe 2 and the flow passage area of the second pipe 3, oil and fat adhere to the inner wall surface 41 (particularly the inner wall surface 412) of the third pipe 4. Even so, it is suppressed that the third flow path 40 becomes narrower than the first flow path 20 and the second flow path 30.

  As shown in FIG. 1, an upstream connection portion 11 is provided at the upstream end of the first pipe 2. The upstream side connection portion 11 is composed of a pipe having a circular cross section, and is provided integrally with the first pipe 2. A male threaded portion 111 is formed on the outer surface of the upstream side connecting portion 11, and the upstream side connecting portion 11 and a drain pipe (not shown) of a sink located on the upstream side are connected to the male threaded portion 111. A nut member (not shown) is tightened.

  Further, a downstream side connection portion 12 is provided at the downstream end of the third pipe 4. The downstream side connection portion 12 is made of a pipe having a circular cross section, and is provided integrally with the third pipe 4. A male screw part 121 is formed on the outer surface of the downstream connection part 12, and a nut that connects the downstream connection part 12 to a drain pipe (not shown) located on the downstream side of the male screw part 121. A member (not shown) is tightened.

  The central axis of the pipe constituting the upstream connection portion 11 and the central axis of the pipe constituting the downstream connection portion 12 are located on the same straight line L. At this time, the central axis of the drain pipe and the nut member connected to the upstream side of the drain trap 1 and the central axis of the drain pipe and the nut member connected to the downstream side of the drain trap 1 are usually on the same straight line L. Will be located. In such an installation environment, the drain trap 1 is such that the central axis of the pipes constituting the upstream side connection part 11 and the downstream side connection part 12 is located on the central axis of the drain pipe and nut member to be connected. If it is, it can be installed.

  Therefore, the mounting direction of the drain trap 1 is not limited. For this reason, when installing the drain trap 1, the operator can avoid interference with other members by appropriately adjusting the mounting direction of the drain trap 1, and the degree of freedom in design and construction is improved. To do. In particular, in the case where not only the drain trap 1 but also an automatic faucet controller or the like is installed below the sink of the system kitchen, the degree of freedom of equipment installation can be adjusted by appropriately adjusting the mounting direction of the drain trap 1. Will improve.

  Further, the operator fixes the nut member so as not to rotate, and rotates the drain trap 1 around the central axis of the upstream connection portion 11 and the downstream connection portion 12 to connect the upstream connection portion 11 or the downstream connection. A nut member can be fastened to the portion 12.

  Further, the operator fixes the nut member so as not to rotate, and rotates the drain trap 1 around the central axis of the upstream connection portion 11 and the downstream connection portion 12 to connect the upstream connection portion 11 or the downstream connection. The nut member can be removed from the portion 12.

  Further, the drain trap 1 has a first opening 64 in the second folded pipe 6. The second folded pipe 6 is provided with a pipe 65 having a circular cross section that protrudes upward and has an internal space continuous with the second folded flow path 60, and the opening of the pipe 65 is a first opening 64. A male thread portion is formed on the outer surface of the pipe 65. A first closing member 66 that has a female screw portion fastened to the male screw portion on the inner surface and closes the first opening 64 is detachably attached to the pipe 65.

  Moreover, since the pipe 65 is provided in the dead space above the second folded pipe 6 and on the side of the upstream connection portion 11, the degree of freedom in design and construction is not impaired.

  By providing the first opening 64 in the second folded pipe 6, the operator can insert the tube 9 having the high-pressure washing nozzle 91 from the first opening 64 without being greatly bent as shown in FIG. Can do. Thereby, the worker can perform cleaning by ejecting cleaning water from the nozzle 91 toward the inner wall surface 411 of the third pipe 4 to which the oil and fat are relatively easily attached, and removing the oil and fat. The operator can also clean the drain pipe connected to the downstream side of the downstream connection portion 12 by inserting the nozzle 91 further into the back.

  Further, the drain trap 1 has a second opening 54 in the first folded pipe 5. The first folded pipe 5 is provided with a pipe 55 having a circular cross section that protrudes downward and has an internal space continuous with the first folded flow path 50, and the opening of the pipe 55 is a second opening 54. A male thread portion is formed on the outer surface of the pipe 55. A second closing member 56 that has a female screw portion fastened to the male screw portion on the inner surface and closes the second opening 54 is detachably attached to the pipe 55.

  By providing the second opening 54 in the first folded pipe 5, the operator can discharge the sealed water in the drain trap 1.

  Moreover, since the pipe 55 is provided in the dead space below the first folded pipe 5 and on the side of the downstream connection portion 12, the degree of freedom in design and construction is not impaired.

  Hereinafter, modifications of the above embodiment will be described.

  The material of the pipe (the first pipe 2, the second pipe 3, the third pipe 4, the first folded pipe 5, the second folded pipe 6), the guide rib 7, the upstream connection part 11 and the downstream connection part 12 is molded. Although it is preferable that it is resin from ease of carrying out, it is not limited to resin. Further, the material of the guide rib 7 may not be the same material as that of the third pipe 4.

  Moreover, the shape in a cross section perpendicular | vertical to the flow direction of a pipe is not limited to circular shape.

  Further, the first flow path 20 to the third flow path 40, the first return flow path 50, and the second return flow path 60 formed inside the pipe have the same shape in a vertical cross section at an arbitrary position in the flow direction. It does not have to be the same size, and the shape is not limited to a circular shape. Moreover, the length of the 1st flow path 20-the 3rd flow path 40, the 1st return flow path 50, and the 2nd return flow path 60 is not limited.

  Moreover, the direction of each flow in the 1st flow path 20, the 2nd flow path 30, and the 3rd flow path 40 does not need to be constant. That is, the flow direction in the first flow path 20 and the third flow path 40 only needs to have a downward component in the vertical direction, and the flow direction in the second flow path 30 is the upward component in the vertical direction. As long as it has.

  Moreover, how to change the direction of the flow (curvature) of the first return channel 50 and the second return channel 60 is not limited, and may not be constant.

  Further, the guide rib 7 may not be provided at the upper end portion of the inner wall surface 41 of the third pipe 4 on the side where the second pipe 3 is located, and the second pipe 3 of the inner wall surface 41 of the third pipe 4. May be provided at any location on the upper portion (at least the upper half, preferably the portion from the top to 1/3) of the inner wall surface 411 on the side where is located. The effect by the guide rib 7 is obtained if the guide rib 7 is provided above the lower end portion of the inner wall surface 41 of the third pipe 4 on the side where the second pipe 3 is located, and the effect obtained as it goes upward. Is big.

  Moreover, what flows through the drain trap 1 is not limited to water, but may be liquid, and the type of liquid is not limited.

  The upstream connection portion 11 has a circular cross section. In particular, the outer shape of the horizontal cross section has a circular shape. However, the shape of the internal flow path may not be circular. Similarly, the downstream connection portion 12 has a circular cross section, and in particular, the outer shape of the horizontal cross section has a circular shape. However, the shape of the internal flow path may not be circular.

  Further, the first closing member 66 is not limited to a lid fitted on the pipe 65, but may be a plug fitted into the pipe 65, and is not limited. Further, the first opening 64 and the first closing member 66 have arbitrary configurations and may not be provided in the drain trap 1.

  Further, the second closing member 56 may not be a lid fitted to the pipe 55 but may be a plug fitted into the pipe 55, and is not limited. Further, the second opening 54 and the second closing member 56 are arbitrary configurations, and may not be provided in the drain trap 1.

  As described above, as is clear from the above-described embodiment and its modifications, the drain trap 1 according to the first aspect of the present invention includes the first pipe 2, the second pipe 3, and the third pipe 4 arranged in parallel. Has been. The first pipe 2 is inclined downward toward the downstream side, and the internal space becomes the first flow path 20. The second pipe 3 is located on the downstream side of the first pipe 2, and the upward inclined internal space becomes the second flow path 30 toward the downstream side. The third pipe 4 is located on the downstream side of the second pipe 3 and is inclined downward toward the downstream side, so that the internal space becomes the third flow path 40.

  Between the downstream end of the 1st pipe 2 and the upstream end of the 2nd pipe 3, the 1st return pipe 5 from which internal space becomes the 1st return flow path 50 is connected. Between the downstream end of the second pipe 3 and the upstream end of the third pipe 4, the second folded pipe 6 whose internal space becomes the second folded flow path 60 is connected.

  A portion 21 on the second pipe 3 side of the side wall constituting the first pipe 2 and a portion 31 on the first pipe 2 side of the side wall constituting the second pipe 3 are constituted by the same wall 13. A portion 32 on the third pipe 4 side of the side wall constituting the second pipe 3 and a portion 42 on the second pipe 3 side of the side wall constituting the third pipe 4 are constituted by the same wall 14.

  An upstream connection portion 11 made of a pipe having a circular cross section is provided at the upstream end of the first pipe 2. At the downstream end of the third pipe 4, a downstream side connection portion 12 made of a pipe having a circular cross section is provided.

  The central axis of the pipe constituting the upstream connection portion 11 and the central axis of the pipe constituting the downstream connection portion 12 are located on the same straight line L.

  According to the drain trap 1 of the first aspect, the mounting direction of the drain trap 1 connected to the upstream and downstream drain pipes is not limited. Therefore, by adjusting the mounting direction of the drain trap 1 appropriately, Interference with members can be avoided, and the degree of freedom in construction is high.

  The second aspect is realized by a combination with the first aspect. In the second aspect, the second folded pipe 6 has a first opening 64 and a first closing member 66 that closes the first opening 64 is detachable.

  According to the second aspect, the tube 9 having the high-pressure cleaning nozzle 91 can be easily inserted from the first opening 64.

  The third aspect is realized by a combination with the first aspect or the second aspect. In the third aspect, the first folded pipe 5 has the second opening 54, and the second closing member 56 that closes the second opening 54 is detachable.

  According to the third aspect, the sealed water in the drain trap 1 can be discharged.

DESCRIPTION OF SYMBOLS 1 Drain trap 11 Upstream connection part 12 Downstream connection part 13 Wall 14 Wall 2 1st pipe 20 1st flow path 21 Part 3 2nd pipe 30 2nd flow path 31 Part 32 Part 4 3rd pipe 40 3rd flow path 42 Portion 5 First Folding Pipe 50 First Folding Flow Channel 54 Second Opening 56 Second Closing Member 6 Second Folding Pipe 60 Second Folding Flow Channel 64 First Opening 66 First Closing Member L Same Line

Claims (3)

A first pipe having a downward slope toward the downstream side and the internal space serving as the first flow path;
A second pipe located on the downstream side of the first pipe, inclined upward toward the downstream side, and the internal space serving as the second flow path;
A third pipe located on the downstream side of the second pipe and inclined downward toward the downstream side and having an internal space serving as a third flow path;
Between the downstream end of the first pipe and the upstream end of the second pipe, a first folded pipe whose internal space serves as a first folded flow path is connected, and the downstream end of the second pipe and the third pipe A second return pipe whose internal space is a second return flow path is connected to the upstream end of the
A portion on the second pipe side of the side wall constituting the first pipe and a portion on the first pipe side of the side wall constituting the second pipe are constituted by the same wall to constitute the second pipe. A portion of the side wall on the third pipe side and a portion of the side wall constituting the third pipe on the second pipe side are configured by the same wall;
An upstream connection portion made of a pipe having a circular cross section is provided at the upstream end of the first pipe, and a downstream connection portion made of a pipe having a circular cross section is provided at the downstream end of the third pipe. And
A drain trap, wherein a central axis of the pipe constituting the upstream connection portion and a central axis of the pipe constituting the downstream connection portion are located on the same straight line. The drain trap according to claim 1, wherein the second folded pipe has a first opening, and a first closing member that closes the first opening is detachable. 3. The drain trap according to claim 1, wherein the first folded pipe has a second opening, and a second closing member that closes the second opening is detachable.