JP6389990B2 - Drain pipe connection structure - Google Patents

Description

  The present invention relates to a connection structure for drainage pipes, such as a connection between drainage pipes and a structure for attaching a tank body and a drainage device in a drainage device attached to a drainage port of a bathtub, a sink, a wash basin or various tank bodies. is there.

A well-known drain pipe connection structure is used to connect a hose and an operation portion of a remote-operated drain plug device for remotely opening and closing a valve body disposed at a drain outlet of a bathtub.
The drain pipe connection structure of this conventional example includes a switch upper part which is an operation part of a remote-operated drain plug device, a switch lower part which is an operation part, a C-shaped ring body, a hose body, a release wire, and a mechanism part. And.
The upper part of the switch as the insertion tube is an operation part, which is a cylindrical member attached to the upper edge of the bathtub. At the lower end of the upper part of the switch, a flange portion that protrudes outward is formed.
The lower part of the switch as the receiving tube is an operation unit, in which an insertion tube is arranged, and a kerf is formed on the outer periphery. Note that the cut groove portion of the conventional example is formed in a groove shape on the outer periphery of the lower portion of the switch and does not penetrate the wall surface.
The C-shaped ring body is elastic and has a C-shape when viewed from above in the axial direction. A first claw portion that engages with the flange portion at the top of the switch is directed from the inner peripheral surface toward the central axis direction at the upper end in the axial direction. Configured to extend. In addition, a second claw portion that engages with a kerf portion at the lower part of the switch is configured to extend from the inner peripheral surface toward the central axis direction at the lower end in the axial direction. The C-shaped ring body is inserted into the cut groove portion from the side surface direction of the lower part of the switch through the open end. The second claw portion of the C-shaped ring body is slid from the side surface and engaged with the cut groove portion. When the upper part of the switch is inserted in the axial direction with respect to the lower part of the switch, the first claw part of the C-shaped ring body comes into contact with the flange part of the upper part of the switch and deforms due to its own elasticity in the lateral direction. Expand the diameter. If the upper part of the switch is inserted as it is, the first claw part of the C-shaped ring body whose diameter has been increased gets over the flange part of the upper part of the switch, and when passing through the flange part, the diameter is reduced by its own elastic deformation. Then, the first claw portion of the C-shaped ring body is engaged with the flange portion.
The hose body is a tube body connected to the lower part of the switch, and a release wire, which will be described later, is inserted into the hose body.
The release wire is composed of a cylindrical outer tube and an inner wire made of a metal wire that advances and retreats in the outer tube. One end of the release wire is connected to the mechanism unit of the operation unit, and the other end is connected to the valve body of the drain plug. Therefore, the valve body in the drain plug can be remotely opened / closed by moving the inner wire forward / backward by operating the operation unit.
The mechanism part is disposed in the upper part of the switch and in the lower part of the switch, one end is connected to the release wire, and the operation button is connected to the other end. Further, the mechanism portion is a mechanism for holding / releasing the advance / retreat position of the inner wire of the release wire. In this conventional example, a thrust lock mechanism used to hold the advance / retreat of the core of the ballpoint pen is employed. (Patent Document 1)

The drain pipe connection structure which is the above conventional example is constructed as follows.
The upper part of the switch is inserted and fixed in the opening at the upper edge of the bathtub, and the C-shaped ring body is attached to the lower part of the switch in advance. At this time, the second claw portion is inserted from the open end of the C-shaped ring body into the cut groove portion of the lower portion of the switch from the side surface direction of the lower portion of the switch toward the central axis, and is slid in the side surface direction to be engaged. In this way, the C-shaped ring body can be attached in advance to the lower part of the switch.
A hose body is connected in advance to the lower end of the lower part of the switch, and the hose body is connected in advance to the drain plug.
And from the back surface of the bathtub, the lower part of the switch to which the C-shaped ring body is attached is inserted into the upper part of the switch. Then, the upper part of the switch is inserted into the lower part of the switch, the flange part of the upper part of the switch comes into contact with the first claw part of the C-shaped ring body, and the C-shaped ring body is deformed by its own elasticity and expands in the lateral direction. If the lower part of the switch is advanced to the upper part of the switch as it is, the first claw part gets over the flange part, and the diameter of the part is reduced by the deformation caused by its own elasticity. If it does so, since a 1st nail | claw part engages with a flange part, a switch upper part and a switch lower part can be firmly connected by a C-shaped ring body.
Thus, the connection between the upper part of the switch and the lower part of the switch is completed.
Then, the release wire to which the mechanism part is connected from the upper part of the bathtub is inserted into the upper part of the switch. Pass the lower end of the switch and the hose body and insert the valve side end of the release wire to the drain plug side. And a mechanism part is attached to a switch lower part and an operation button is attached. Further, a valve body is attached to the end of the release wire on the drain plug side, and the construction of this conventional example is completed.

JP 2010-95925 A

The conventional drainage pipe connection structure has the following problems.
It is necessary to insert the claw part of the C-shaped ring body into either the groove part of the receiving pipe or the flange part of the insertion pipe and slide it in advance. Since it is configured to be deformable with elasticity, it may be slidably engaged below or above the flange or kerf, and if the C-shaped ring body is accidentally engaged, The insertion tube and the receiving tube cannot be connected, increasing the risk of water leakage. Moreover, since the drainage water flows through the insertion tube and the receiving tube, there is a problem when water leakage occurs. In addition, even if the C-shaped ring body is not properly inserted and arranged, the C-shaped ring body itself is elastically deformed, so that it is impossible for the installer or the user to confirm by visual confirmation that the C-shaped ring body is inserted and arranged by mistake. . Therefore, even if the C-shaped ring body is inserted and arranged in an inappropriate place by mistake, it often occurs that the installer is not aware of it.

In view of the above, the present invention aims to prevent the C-shaped ring body from being disposed at an inappropriate location and to prevent water leakage caused by erroneous placement.

The drain pipe connection structure according to claim 1 includes an insertion pipe 1 having a flange portion 12 formed by projecting outward on an outer periphery, a kerf portion 21 at an end, and the insertion pipe 1 being inserted therein. And a claw portion 31 that is configured to have a C-shape when viewed from above and is engaged with the flange portion 12 by being deformed by its own elasticity when the insertion tube 1 is inserted and disposed in the reception tube 2. Then, in the drainage pipe connection structure constituted by the C-shaped ring body 3 that connects the insertion pipe 1 and the receiving pipe 2, either one or both of the insertion pipe 1 and the receiving pipe 2 is provided with a C-shaped ring. a connecting structure of a drain pipe to prevent that constitutes the erroneous insertion prevention mechanism 4 is impossible place the body 3 in a position not appropriate.

The drain pipe connection structure according to claim 2 is configured such that the C-shaped ring body 3 is inserted into the insertion pipe 1 or the receiving pipe 2 from the side surface direction toward the central axis, and the erroneous insertion prevention mechanism 4 is provided. The insertion tube 1 or the receiving tube 2 is configured in a concave groove shape on the outer periphery of both or both, and the C-shaped ring body 3 is inserted into the erroneous insertion prevention mechanism 4 at the time of erroneous insertion to prevent erroneous insertion. The drain pipe connection structure according to paragraph 0007, wherein the drain pipe is connected.

The drain pipe connection structure according to claim 3 is configured such that the C-shaped ring body 3 is inserted into the insertion pipe 1 or the receiving pipe 2 from the side surface direction toward the central axis, and the erroneous insertion prevention mechanism 4 is provided. The insertion tube 1 or the receiving tube 2 is configured to have a convex rib shape on the outer periphery of one or both, and the C-shaped ring body 3 abuts against the erroneous insertion prevention mechanism 4 during erroneous insertion to prevent erroneous insertion. The drain pipe connection structure according to paragraph 0007, wherein the drain pipe is connected.

The drain pipe connection structure according to claim 4 is configured such that the C-shaped ring body 3 is inserted into the insertion pipe 1 or the receiving pipe 2 from the side surface direction toward the central axis, and the erroneous insertion prevention mechanism 4 is provided. The drainage according to paragraph 0007, wherein at least a part of the insertion tube 1 or the receiving tube 2 protrudes from the outer periphery of the insertion tube 1 or the receiving tube 2 along the circumferential direction. This is a pipe connection structure.

The drain pipe connection structure according to claim 5, wherein the guide portion 33 that guides insertion of the C-shaped ring body 3 from the side surface direction into either the cut groove portion 21 or the flange portion 12 is provided with the C-shape. The drain pipe connection structure according to any one of paragraphs 0007 to 0010, wherein the drain body is configured at an open end of the ring body 3.

The drain pipe connection structure according to claim 6 relates to the flange portion 12 of the insertion tube 1 configured such that the claw portion 31 of the C-shaped ring body 3 protrudes from one end in a sectional view toward the inner circumferential direction. The first claw portion 311, the second claw portion 312 engaged with the kerf portion 21 of the receiving pipe 2 configured to protrude in the inner circumferential direction from the other end in a sectional view, is characterized. The drain pipe connection structure according to any one of paragraphs 0007 to 0011.

The drain pipe connection structure according to claim 7 is configured such that the guide portion 33 is formed at the upper end and the lower end of the C-shaped ring body 3 at the open end, and the guide portion 33 is guided between the guide portions 33. The drain pipe connection structure according to paragraph 0012, wherein the restriction portion 34 for restricting the pressure is configured.

The drain pipe connection structure according to any one of paragraphs 0007 to 0013, characterized in that the C-shaped ring body 3 has a vertically symmetrical shape. It is.

The drain pipe connection structure according to claim 9 is the drain pipe connection structure according to any one of paragraphs 0007 to 0014, wherein the kerf portion 21 is formed in a slit shape.

The present invention described in claim 1 receives an erroneous insertion prevention mechanism 4 that prevents the C-shaped ring body 3 from being disposed at an inappropriate position in either or both of the insertion tube 1 and the receiving tube 2. Since the mouth tube 2 is configured, it is possible to prevent the C-shaped ring body 3 from being inserted and disposed at an inappropriate place, and further, water leakage due to erroneous insertion does not occur.
Since the present invention described in claims 2 to 4 constitutes the misinsertion prevention mechanism 4 in various forms, the misinsertion prevention mechanism 4 can adopt various forms.
In the present invention described in claim 5, the guide portion 33 for guiding the insertion of the C-shaped ring body 3 from the side surface direction into either the cut groove portion 21 or the flange portion 12 is provided on the C-shaped ring body 3. Since the C-shaped ring body 3 is appropriately guided so as to be easily inserted into the kerf portion 21 or the flange portion 12 because of the open end, the slide insertion is facilitated. Therefore, workability improved.
The present invention according to claim 6 is a first engagement of the claw portion 31 of the C-shaped ring body 3 with the flange portion 12 of the insertion tube 1 configured to project from one end in a sectional view toward the inner circumferential direction. Since the claw portion 311 and the second claw portion 312 engaged with the kerf portion 21 of the receiving pipe 2 configured to protrude in the inner circumferential direction from the other end in a sectional view, the C-shaped ring body 3 Since the upper part of the flange part 12 and the cut groove part 21 can be sandwiched between the first claw part 311 and the second claw part 312, the insertion pipe 1 and the receiving pipe 2 can be firmly connected.
The present invention described in claim 7 is configured such that the guide portion 33 is formed at the upper end and the lower end of the C-shaped ring body 3 at the open end, and the guide portion 33 is guided between the guide portions 33. Since the portion 34 is configured, even if the first claw portion 311 of the C-shaped ring body 3 is to be slid and inserted into an inappropriate place, the C-shaped ring body 3 includes the restricting portion 34. The guide portion 33 and the restricting portion 34 abut against the receiving tube 2 and the insertion tube 1 so that the second claw portion 312 of the C-shaped ring body 3 cannot be inserted into an inappropriate place. In addition, when the second claw portion 312 abuts or fits into the erroneous insertion prevention mechanism 4 by the restriction portion 34, the erroneous insertion of the C-shaped ring body 3 can be effectively prevented.
In the present invention described in claim 8, since the C-shaped ring body 3 has a vertically symmetrical shape, the insertion pipe 1 and the receiving pipe 2 are rotated by rotating the C-shaped ring body 3 upside down (upside down) or up and down. Even if it is inserted, the C-shaped ring body 3 has a vertically (upper and lower) symmetrical shape, so there is no functional difference, and it can be properly inserted and arranged without being erroneously inserted.
According to the ninth aspect of the present invention, since the kerf portion 21 is formed in a slit shape, the kerf portion 21 can be provided through the kerf portion 21 so that the C-shaped ring body 3 can be reliably inserted into the kerf portion 21. Became.

(A) It is a perspective view which shows the construction state of the drain trap in Example 1. FIG. (B) It is a side view which shows the construction state of the drain trap in Example 1. FIG. FIG. 4 is a cross-sectional view taken along the line A-A ′ in FIG. It is a top view of the connection structure part of the drain pipe in Example 1. (A) It is a side view of the C-shaped ring body in Example 1. FIG. (B) It is a top view of the C-shaped ring body in Example 1. FIG. (C) It is a perspective view of the C-shaped ring body in Example 1. FIG. It is A-A 'sectional drawing in (d) and (b). It is a side view from the direction in which the C-shaped ring body open end in the receiving pipe of Example 1 is inserted. It is a side view which shows the construction procedure of Example 1. FIG. It is a perspective view of FIG. 6 which shows the construction procedure of Example 1. FIG. In Example 1, it is a figure which shows the state by which the C-shaped ring body was misinserted. It is a side view which shows the other construction procedure of Example 1. FIG. It is a perspective view of FIG. 8 which shows the other construction procedure of Example 1. FIG. (A) It is a perspective view which shows the construction state of the drain trap in Example 2. FIG. (B) It is a side view which shows the construction state of the drain trap in Example 2. FIG. It is sectional drawing of the drain pipe connection structure part of Example 2. FIG. (A) It is a side view of the C-shaped ring body in Example 2. FIG. (B) It is a top view of the C-shaped ring body in Example 2. FIG. (C) It is a perspective view of the C-shaped ring body in Example 2. FIG. It is A-A 'sectional drawing in (d) and (b). It is a side view which shows the construction procedure of Example 2. It is a perspective view of FIG. 14 which shows the construction procedure of Example 2. FIG. In Example 2, it is a figure which shows the state by which the C-shaped ring body was misinserted. It is a side view which shows the other construction procedure of Example 2. FIG. It is a perspective view of FIG. 17 which shows the other construction procedure of Example 2. FIG. (A) It is a side view of the C-shaped ring body in another Example. (B) It is a perspective view of the C-shaped ring body in another Example. It is sectional drawing of the connection structure part of the drain pipe in other Examples. It is sectional drawing of the connection structure part of the drain pipe in other Examples. It is sectional drawing of the connection structure part of the drain pipe in other Examples. It is sectional drawing which shows the washstand in which the connection structure of the drain pipe of Example 1 and Example 2 is employ | adopted.

A present Example is the connection structure of the drainage pipe used for the kitchen sink shown by FIG. 1 thru | or FIG.
As shown in FIG. 23, the drain pipe connection structure of this embodiment is used for connecting a drain trap 5, which is a part of the drain pipe used in the washstand 6.
The drain trap 5 is a drain pipe bent in a U-shape to store a part of the drainage water and use it as sealed water so that odors and pests from the sewage do not flow back into the room. is there.
In this embodiment, as shown in FIG. 1, this connection structure is used as a connection portion at two locations on the upstream side and the downstream side, which is used for connecting the U-shaped bent pipe portion of the drain trap 5.
The connection structure of the drain pipe of the present embodiment includes an insertion pipe 1 that is a drain pipe, a receiving pipe 2 that is a drain pipe, and a C-shaped ring body 3.
The insertion tube 1 is a member that drains the waste water flowing down from the drain port of the wash basin 6 to the downstream side, and forms a flange portion 12 and a water stop member 13 on the downstream side.
The flange portion 12 is formed in a bowl shape toward the outer side on the outer periphery of the insertion tube 1, and a first claw portion 311 of the C-shaped ring body 3 to be described later is engaged therewith.
The water stop member 13 is an elastic member made of packing such as an O-ring, which is disposed on the downstream side of the flange portion 12 of the insertion tube 1. In this embodiment, an O-ring is used, which is in contact with the inner periphery of the receiving tube 2 and the outer periphery of the insertion tube 1 to be described later for watertightness.
As shown in FIG. 5, the receiving tube 2 has the insertion tube 1 disposed therein, and as a result, is disposed downstream of the insertion tube 1. In addition, the insertion tube 1 includes a column portion 22, a kerf portion 21, and an erroneous insertion prevention mechanism 4.
The column portion 22 is a column for forming the cut groove portion 21 at the upper end of the mouth tube, and is also used as a place where the open end of the C-shaped ring body 3 is inserted.
The cut groove portion 21 is formed by cutting the outer flow of the receiving port into a slit shape. Further, a second claw portion 312 of the C-shaped ring body 3 to be described later is engaged with the cut groove portion 21.
The erroneous insertion preventing mechanism 4 is a concave groove formed below the cut groove portion 21 of the receiving pipe 2, and as shown in FIG. 5, the side surface from the column portion 22 into which the insertion end of the C-shaped ring body 3 is inserted. As seen, the lower end is inclined (given an angle) in a direction toward the insertion direction of the C-shaped ring body 3. Since the erroneous insertion prevention mechanism 4 is formed in a concave groove shape, when the C-shaped ring body 3 is mistakenly inserted into a portion other than the cut groove portion 21, a guide that is a part of the open end of the C-shaped ring body 3 is used. The portion 33 and the restricting portion 34 are caught in the concave groove which is the erroneous insertion preventing mechanism 4 so that the insertion cannot be performed.
As shown in FIG. 4, the C-shaped ring body 3 is a ring body having an open end, and has a C shape when viewed from above. Further, the C-shaped ring body 3 includes a first claw portion 311, a second claw portion 312, a guide portion 33, and a restriction portion 34.
The 1st nail | claw part 311 is the nail | claw part 31 engaged with the flange part 12 of the insertion pipe 1, Comprising: From the inner peripheral surface of the upper end (upstream side) of the C-shaped ring body 3, it is bowl-shaped toward the center axis direction. Composed. In addition, the upper surface of the first claw portion 311 includes an inclined surface 32 that is inclined downward toward the central axis direction.
The 2nd nail | claw part 312 is the nail | claw part 31 engaged with the groove part 21 of the receiving pipe 2, Comprising: It is bowl-shaped toward the center axis direction from the internal peripheral surface of the lower end (downstream side) of the C-shaped ring body 3 Configured. The lower surface of the second claw portion 312 includes an inclined surface 32 that is inclined upward in the central axis direction.
Thus, the 1st nail | claw part 311 and the 2nd nail | claw part 312 were comprised in the C-shaped ring body 3, and formed in the up-down symmetrical shape. Therefore, even if the C-shaped ring body 3 is rotated up and down and the first claw portion 311 and the second claw portion 312 are exchanged, there is no change in function or shape. Therefore, it is properly arranged without erroneous insertion.
The guide portion 33 is configured at the open end of the C-shaped ring body 3 and guides the insertion of the C-shaped ring body 3 into the kerf portion 21 from the side surface direction. 3 is a rib piece extending in the circumferential direction from the open end of 3. In the present embodiment, guide portions 33 are formed at the upper and lower ends of both open ends.
The restricting portion 34 is a convex portion that is configured at the open end of the C-shaped ring body 3 and protrudes in the circumferential direction between the guide portions 33. Even if the first claw portion 311 of the C-shaped ring body 3 is passed and slidably engaged with the cut groove portion 21 of the receiving tube 2, the restriction portion 34 is inserted into the groove so that it is further in the lateral direction. In order to prevent sliding, the C-shaped ring body 3 is not erroneously inserted.

The drain pipe connection structure described above is constructed as follows.
As shown in FIGS. 6 and 7A, a drain pipe is attached to the drain port of the wash basin 6, and the insertion pipe 1 is connected to the drain pipe. Further, a downstream drainage pipe (insertion pipe 1) is connected to a rising pipe that is a sewage pipe under the floor.
Moreover, as shown in FIG.6 and FIG.7 (b), the receptacle pipe | tube 2 as a U-shaped bending pipe is previously provided in the groove part 21 comprised in the upper end (upstream side) and the lower end (downstream side). The C-shaped ring body 3 is inserted and arranged. The open end of the C-shaped ring body 3 is inserted in the side surface direction of the receiving tube 2, specifically, from the column portion 22, and is slid while the second claw portion 312 is engaged with the groove portion 21. At the time of this insertion, the guide portion 33 formed at the open end of the C-shaped ring body 3 is smoothly guided to the kerf portion 21. Further, even if the first claw portion 311 of the C-shaped ring body 3 is passed through and slidably engaged with the kerf portion 21 of the receiving tube 2, the restricting portion 34 is not inserted when the slide is inserted as shown in FIG. Since it is inserted into the concave groove of the erroneous insertion prevention mechanism 4, it is prevented from sliding further in the lateral direction. Therefore, the first claw portion 311 of the C-shaped ring body 3 is not erroneously inserted into the kerf portion 21.
Then, the C-shaped ring body 3 is slidably engaged with the upper end and the lower end of the receiving pipe 2, respectively, and inserted and arranged at appropriate positions. At this time, as shown in FIGS. 6 and 7B, the first claw portion 311 of the C-shaped ring body 3 is disposed above the groove portion 21 of the receiving tube 2.
Thereafter, as shown in FIG. 6 and FIG. 7C, when the upstream insertion pipe 1 that is a drain pipe of the wash basin 6 is inserted into the receiving pipe 2 from above the receiving pipe 2, the flange portion of the insertion pipe 1 is inserted. 12 the lower surface abuts on the first claw portion 311 of the C-shaped ring body 3, and the stress in the axial direction changes to the stress in the side direction due to the inclination of the upper surface of the first claw portion 311, and the C-shaped ring body 3 itself Due to elasticity, the C-shaped ring body 3 expands and deforms in the lateral direction, and gets over the flange portion 12 of the insertion tube 1. The first claw portion 311 of the C-shaped ring body 3 that has passed over the flange portion 12 is reduced in diameter due to the absence of stress, and the first claw portion 311 engages with the flange portion 12 of the insertion tube 1.
By doing in this way, as shown in FIG.6 and FIG.7 (c), the 1st nail | claw part 311 of the C-shaped ring body 3 is set to the flange part 12 of the insertion tube 1, and the 2nd nail | claw part of the C-shaped ring body 3 is shown. Since 312 is respectively engaged with the kerf 21 of the receiving tube 2, the insertion tube 1 and the receiving tube 2 are firmly connected.
After that, the C-shaped ring body 3 is engaged only by inserting the insertion port into the receiving tube 2 in the same manner as for the connection between the downstream receiving tube 2 and the drain port on the sewage pipe side. Therefore, it can be constructed very easily.
Thus, the construction is completed.
In addition, the upstream and downstream portions of the drain trap 5 that are connected at the time of the main construction are arranged in the axial direction at the time of construction in order to correspond to the displacement of the piping location between the location of the drain pipe and the start-up position of the sewage pipe. In this embodiment, the drainage pipe connection structure of the present invention is adopted, so that it is not screw connection as in the prior art, so loosening of the screw occurs and water leaks, It is possible to reduce the labor of construction for performing retightening.
In addition, the connection structure of the present invention allows the C-shaped ring body 3 to be easily detached toward the outer side in the side surface direction of the insertion tube 1 and the receiving tube 2, and after releasing the connection as described above. It can be easily constructed again.

As another construction method, the drain pipe connection structure described above includes the following construction methods.
As shown in FIGS. 9 and 10 (a), a drain pipe is attached to the drain of the wash basin 6, and the insertion pipe 1 is connected to the drain pipe. Further, a downstream drainage pipe (insertion pipe 1) is connected to a rising pipe that is a sewage pipe under the floor.
Thereafter, as shown in FIGS. 9 and 10 (b), the insertion tube 1 on the drainage side of the wash basin 6 is inserted into the receiving tube 2 from above the receiving tube 2, and the flange portion 12 of the insertion tube 1 receives the receiving portion 12. Insert until it contacts the upper end of the mouth tube 2.
Then, the open end of the C-shaped ring body 3 is inserted in the lateral direction of the receiving tube 2 and the insertion tube 1, specifically from the column portion 22, and the first claw portion 311 is inserted into the flange portion 12 of the insertion tube 1. The two claw portions 312 are slid while being engaged with the groove portions 21 respectively. At the time of this insertion, the guide portion 33 formed at the open end of the C-shaped ring body 3 is smoothly guided to the upper portion of the flange portion 12 and the groove portion 21. Further, even if the first claw portion 311 of the C-shaped ring body 3 is passed through and the slide groove portion 21 of the receiving pipe 2 is slidably engaged, the C-shaped ring body 3 is slid as shown in FIG. Since the restricting portion 34 is inserted into the concave groove of the erroneous insertion preventing mechanism 4 at the time of insertion, it is prevented from further sliding in the side surface direction. Therefore, the first claw portion 311 of the C-shaped ring body 3 is not erroneously inserted into the kerf portion 21.
By doing in this way, as shown in FIG.9 and FIG.10 (c), the 1st nail | claw part 311 of the C-shaped ring body 3 is set to the flange part 12 of the insertion tube 1, and the 2nd nail | claw part of the C-shaped ring body 3 is used. Since 312 is respectively engaged with the kerf 21 of the receiving tube 2, the insertion tube 1 and the receiving tube 2 are firmly connected.
After that, the connection between the downstream receiving pipe 2 and the insertion opening which is the drain pipe on the sewage pipe side is similarly inserted into the receiving pipe 2 and the C-shaped ring body 3 is inserted from the side. Because it is arranged and engaged, it can be constructed very easily.
Thus, the construction is completed.
In addition, the upstream and downstream portions of the drain trap 5 that are connected at the time of the main construction are arranged in the axial direction at the time of construction in order to correspond to the displacement of the piping location between the location of the drain pipe and the start-up position of the sewage pipe. In this embodiment, the drainage pipe connection structure of the present invention is adopted, so that it is not screw connection as in the prior art, so loosening of the screw occurs and water leaks, It is possible to reduce the labor of construction for performing retightening.
In addition, the connection structure of the present invention allows the C-shaped ring body 3 to be easily detached toward the outer side in the side surface direction of the insertion tube 1 and the receiving tube 2, and after releasing the connection as described above. It can be easily constructed again.

The connection structure of the drainage pipe of the present embodiment has the following drainage flow.
When drainage occurs in the wash basin 6, the drainage is discharged from the drain outlet to the drain pipe, and the drainage flows into the insertion pipe 1 connected to the drain pipe. Although drainage flows from the insertion tube 1 to the receiving tube 2, the insertion tube 1 is provided with an O-ring that is a water stop member 13, so that the insertion tube 1 and the receiving tube 2 are watertight. There is no leakage. Further, since the receiving pipe 2 itself is bent, a drain trap 5 is formed by the receiving pipe 2 itself, passes through the sealed water inside, and is drained downstream. The drainage is drained without leaking into the insertion pipe 1 connected to the downstream side of the receiving pipe 2 by the C-shaped ring body 3, and finally drained into the sewer pipe. As described above, the drainage flows down through the connection structure of the drain pipe.

A present Example is the connection structure of the drain pipe used for the kitchen sink shown by FIG. 11 thru | or FIG.
As shown in FIG. 23, the drain pipe connection structure of this embodiment is used for connecting a drain trap 5, which is a part of the drain pipe used in the washstand 6.
The drain trap 5 is a drain pipe bent in a U-shape to store a part of the drainage water and use it as sealed water so that odors and pests from the sewage do not flow back into the room. is there.
In this embodiment, as shown in FIG. 11, this connection structure is used as a connection portion at two locations on the upstream side and the downstream side, which is used for connecting the U-shaped bent pipe portion of the drain trap 5.
The connection structure of the drain pipe of the present embodiment includes an insertion pipe 1 that is a drain pipe, a receiving pipe 2 that is a drain pipe, and a C-shaped ring body 3.
The insertion tube 1 is a member that drains the waste water flowing down from the drain port of the wash basin 6 to the downstream side, and forms a flange portion 12 and a water stop member 13 on the downstream side.
The flange portion 12 is formed in a bowl shape toward the outer side on the outer periphery of the insertion tube 1, and a first claw portion 311 of the C-shaped ring body 3 to be described later is engaged therewith.
The water stop member 13 is an elastic member made of packing such as an O-ring, which is disposed on the downstream side of the flange portion 12 of the insertion tube 1. In this embodiment, an O-ring is used, which is in contact with the inner periphery of the receiving tube 2 and the outer periphery of the insertion tube 1 to be described later for watertightness.
The receiving tube 2 has the insertion tube 1 disposed therein, and as a result, is disposed downstream of the insertion tube 1. In addition, the insertion tube 1 includes a column portion 22, a kerf portion 21, and an erroneous insertion prevention mechanism 4.
The column portion 22 is a column for forming the cut groove portion 21 at the upper end of the mouth tube, and is also used as a place where the open end of the C-shaped ring body 3 is inserted.
The cut groove portion 21 is formed by cutting the outer flow of the receiving port into a slit shape. Further, a second claw portion 312 of the C-shaped ring body 3 to be described later is engaged with the cut groove portion 21.
The erroneous insertion prevention mechanism 4 is a convex rib formed below the kerf 21 of the receiving pipe 2, and the convex rib of the erroneous insertion prevention mechanism 4 is an axis of the receiving pipe 2 as shown in FIGS. 14 and 15. It is composed of a plurality of hanging in the direction. Since the erroneous insertion preventing mechanism 4 is configured in a convex rib shape in this way, a part of the open end of the C-shaped ring body 3 when the C-shaped ring body 3 is mistakenly inserted into a place other than the groove 21. The guide part 33 and the restricting part 34 are caught by the convex ribs which are the erroneous insertion preventing mechanism 4 and cannot be inserted.
As shown in FIG. 13, the C-shaped ring body 3 is a ring body having an open end, and has a C shape when viewed from above. Further, the C-shaped ring body 3 includes a first claw portion 311, a second claw portion 312, a guide portion 33, and a restriction portion 34.
The 1st nail | claw part 311 is the nail | claw part 31 engaged with the flange part 12 of the insertion pipe 1, Comprising: From the inner peripheral surface of the upper end (upstream side) of the C-shaped ring body 3, it is bowl-shaped toward the center axis direction. Composed. In addition, the upper surface of the first claw portion 311 includes an inclined surface 32 that is inclined downward toward the central axis direction.
The 2nd nail | claw part 312 is the nail | claw part 31 engaged with the groove part 21 of the receiving pipe 2, Comprising: It is bowl-shaped toward the center axis direction from the internal peripheral surface of the lower end (downstream side) of the C-shaped ring body 3 Configured. The lower surface of the second claw portion 312 includes an inclined surface 32 that is inclined upward in the central axis direction.
Thus, the 1st nail | claw part 311 and the 2nd nail | claw part 312 were comprised in the C-shaped ring body 3, and formed in the up-down symmetrical shape. Therefore, even if the C-shaped ring body 3 is rotated up and down and the first claw portion 311 and the second claw portion 312 are exchanged, there is no change in function or shape. Therefore, it is properly arranged without erroneous insertion.
The guide portion 33 is configured at the open end of the C-shaped ring body 3 and guides the insertion of the C-shaped ring body 3 into the kerf portion 21 from the side surface direction. It is a rib piece extending in the circumferential direction from the open end of the C-shaped ring body 3, and in this embodiment, guide portions 33 are formed at the upper end and the lower end of both open ends, respectively.

The drain pipe connection structure described above is constructed as follows.
As shown in FIGS. 14 and 15 (a), a drain pipe is attached to the drain of the wash basin 6, and the insertion pipe 1 is connected to the drain pipe. Further, a downstream drainage pipe (insertion pipe 1) is connected to a rising pipe that is a sewage pipe under the floor.
Further, as shown in FIGS. 14 and 15 (b), the receiving pipe 2 as a U-shaped bent pipe is preliminarily formed in a kerf portion 21 formed at its upper end (upstream side) and lower end (downstream side). The C-shaped ring body 3 is inserted and arranged. The open end of the C-shaped ring body 3 is inserted in the side surface direction of the receiving tube 2, specifically, from the column portion 22, and is slid while the second claw portion 312 is engaged with the groove portion 21. At the time of this insertion, the guide portion 33 formed at the open end of the C-shaped ring body 3 is smoothly guided to the kerf portion 21. Further, even if the first claw portion 311 of the C-shaped ring body 3 is accidentally slid and engaged with the kerf portion 21 of the receiving tube 2, as shown in FIG. The open end of this is in contact with the convex rib of the erroneous insertion prevention mechanism 4 so that no further insertion is possible. Therefore, the first claw portion 311 of the C-shaped ring body 3 is not erroneously inserted into the kerf portion 21.
Then, the C-shaped ring body 3 is slidably engaged with the upper end and the lower end of the receiving pipe 2, respectively, and inserted and arranged at appropriate positions. At this time, the first claw portion 311 of the C-shaped ring body 3 is disposed above the kerf portion 21 of the receiving tube 2.
Thereafter, as shown in FIGS. 14 and 15 (c), when the upstream insertion pipe 1, which is a drain pipe of the wash basin 6, is inserted into the receiving pipe 2 from above the receiving pipe 2, the flange portion of the insertion pipe 1 is inserted. 12 abuts on the first claw portion 311 of the C-shaped ring body 3, and the stress in the axial direction changes to the stress in the lateral direction due to the inclination of the upper surface of the first claw portion 311, and the elasticity of the C-shaped ring body 3 itself As a result, the C-shaped ring body 3 expands in the lateral direction and deforms, and gets over the flange portion 12 of the insertion tube 1. The first claw portion 311 of the C-shaped ring body 3 that has passed over the flange portion 12 is reduced in diameter due to the absence of stress, and the first claw portion 311 engages with the flange portion 12 of the insertion tube 1. By doing in this way, as shown in FIG.14 and FIG.15 (c), the 1st nail | claw part 311 of the C-shaped ring body 3 is set to the flange part 12 of the insertion tube 1, and the 2nd nail | claw part of the C-shaped ring body 3 is used. Since 312 is respectively engaged with the kerf 21 of the receiving tube 2, the insertion tube 1 and the receiving tube 2 are firmly connected.
After that, the C-shaped ring body 3 is engaged only by inserting the insertion port into the receiving tube 2 in the same manner as for the connection between the downstream receiving tube 2 and the drain port on the sewage pipe side. Therefore, it can be constructed very easily.
Thus, the construction is completed.
In addition, the upstream and downstream portions of the drain trap 5 that are connected at the time of the main construction are arranged in the axial direction at the time of construction in order to correspond to the displacement of the piping location between the location of the drain pipe and the start-up position of the sewage pipe. In this embodiment, the drainage pipe connection structure of the present invention is adopted, so that it is not screw connection as in the prior art, so loosening of the screw occurs and water leaks, It is possible to reduce the labor of construction for performing retightening.
In addition, the connection structure of the present invention allows the C-shaped ring body 3 to be easily detached toward the outer side in the side surface direction of the insertion tube 1 and the receiving tube 2, and after releasing the connection as described above. It can be easily constructed again.

As another construction method, the drain pipe connection structure described above includes the following construction methods.
As shown in FIGS. 17 and 18A, a drain pipe is attached to the drain of the wash basin 6, and the insertion pipe 1 is connected to the drain pipe. Further, a downstream drainage pipe (insertion pipe 1) is connected to a rising pipe that is a sewage pipe under the floor.
Thereafter, as shown in FIGS. 17 and 18 (b), the insertion tube 1 on the drain side of the wash basin 6 is inserted into the receiving tube 2 from above the receiving tube 2, and the flange portion 12 of the insertion tube 1 receives the receiving portion 12. Insert until the inner peripheral contact portion of the mouth tube 2 contacts. Then, as shown in FIGS. 17 and 18 (c), the open end of the C-shaped ring body 3 is inserted in the lateral direction of the receiving tube 2 and the insertion tube 1, specifically, from the column portion 22, and the first claw portion 311 is slid while being engaged with the flange portion 12 of the insertion tube 1 and the second claw portion 312 is engaged with the groove portion 21. At the time of this insertion, the guide portion 33 formed at the open end of the C-shaped ring body 3 is smoothly guided to the upper portion of the flange portion 12 and the groove portion 21. Further, even if the first claw portion 311 of the C-shaped ring body 3 is passed through the cut groove portion 21 of the receiving tube 2 as shown in FIG. 3 is in contact with the convex rib, which is the erroneous insertion prevention mechanism 4 of the receiving pipe 2, and prevents further sliding in the lateral direction. Therefore, the first claw portion 311 of the C-shaped ring body 3 is not erroneously inserted into the kerf portion 21.
By doing in this way, as shown in FIG.17 and FIG.18 (c), the 1st nail | claw part 311 of the C-shaped ring body 3 is set to the flange part 12 of the insertion tube 1, and the 2nd nail | claw part of the C-shaped ring body 3 is used. Since 312 is respectively engaged with the kerf 21 of the receiving tube 2, the insertion tube 1 and the receiving tube 2 are firmly connected.
After that, the connection between the downstream receiving pipe 2 and the insertion opening which is the drain pipe on the sewage pipe side is similarly inserted into the receiving pipe 2 and the C-shaped ring body 3 is inserted from the side. Because it is arranged and engaged, it can be constructed very easily.
Thus, the construction is completed.
In addition, the upstream and downstream portions of the drain trap 5 that are connected at the time of the main construction are arranged in the axial direction at the time of construction in order to correspond to the displacement of the piping location between the location of the drain pipe and the start-up position of the sewage pipe. In this embodiment, the drainage pipe connection structure of the present invention is adopted, so that it is not screw connection as in the prior art, so loosening of the screw occurs and water leaks, It is possible to reduce the labor of construction for performing retightening.
In addition, the connection structure of the present invention allows the C-shaped ring body 3 to be easily detached toward the outer side in the side surface direction of the insertion tube 1 and the receiving tube 2, and after releasing the connection as described above. It can be easily constructed again.

The connection structure of the drainage pipe of the present embodiment has the following drainage flow.
When drainage occurs in the wash basin 6, the drainage is discharged from the drain outlet to the drain pipe, and the drainage flows into the insertion pipe 1 connected to the drain pipe. Although drainage flows from the insertion tube 1 to the receiving tube 2, the insertion tube 1 is provided with an O-ring that is a water stop member 13, so that the insertion tube 1 and the receiving tube 2 are watertight. There is no leakage. Further, since the receiving pipe 2 itself is bent, a drain trap 5 is formed by the receiving pipe 2 itself, passes through the sealed water inside, and is drained downstream. The drainage is drained without leaking into the insertion pipe 1 connected to the downstream side of the receiving pipe 2 by the C-shaped ring body 3, and finally drained into the sewer pipe. As described above, the drainage flows down through the connection structure of the drain pipe.

In addition to the above-described embodiments, the present invention can be modified as appropriate without departing from the scope of the claims.
Moreover, in the said Example, although the regulation part 34 is equipped so that an edge part may be located inside the open end of the C-shaped ring body 3, as shown in FIG. You may comprise so that it may jump out. With this configuration, it is possible to effectively prevent erroneous insertion by further interfering with the erroneous insertion prevention mechanism 4.
Further, in the above embodiment, the erroneous insertion prevention mechanism 4 of the drain pipe connection structure is formed in the receiving pipe 2, but for example, as shown in FIG. You may comprise so that the character ring body 3 may not be inserted in the inappropriate place.
Further, in the above embodiment, the claw portion 31 of the C-shaped ring body 3 of the drain pipe connection structure is configured in two places, the first claw portion 311 and the second claw portion 312. For example, as shown in FIG. In addition, only one claw portion 31 may be configured.
Moreover, in the said Example, although the shape of the erroneous insertion prevention mechanism 4 of the connection structure of a drain pipe is formed by the convex rib or the concave groove, for example, as shown in FIG. 22, the receiving pipe 2 or the insertion pipe 1 The outer peripheral surface may be configured such that the outer peripheral surface bulges or protrudes in the circumferential direction. By doing in this way, even if the C-shaped ring body 3 tries to insert by mistake, the open end of the C-shaped ring body 3 abuts on the bulging portion and cannot be inserted any more.
Moreover, in the said Example, although the cut groove part 21 of the receiving pipe 2 of the connection structure of a drainage pipe is notched in slit shape, and it is set as the shape penetrated the outer wall of the receiving pipe 2, it is as the cut groove part 21 of the shape which does not penetrate Also good.

DESCRIPTION OF SYMBOLS 1 Insertion pipe 12 Flange part 13 Water stop member 2 Receptacle pipe 21 Groove part 22 Column part 3 C-shaped ring body 31 Claw part 311 1st claw part 312 2nd claw part 32 Inclined surface 33 Guide part 34 Restriction part 4 Incorrect insertion Prevention mechanism 5 Drain trap 6 Wash basin

Claims (9)

An insertion tube 1 provided with a flange portion 12 configured to protrude outward on the outer periphery;
A receiving tube 2 that forms a kerf 21 at the end and into which the insertion tube 1 is inserted;
It is configured in a C shape when viewed from above.
A C-shaped ring that connects the insertion tube 1 and the receiving tube 2 by forming a claw portion 31 that is deformed by its own elasticity and engages with the flange portion 12 when the insertion tube 1 is inserted and arranged in the receiving tube 2. Body 3 and
In the drainage pipe connection structure composed of
Connection structure of the drain pipe in one or both of the insertion tube 1 or receiver pipe 2 prevents configured erroneous insertion prevention mechanism 4 is impossible placed a C-ring member 3 at a position not appropriate. The C-shaped ring body 3 is inserted and disposed in the insertion tube 1 or the receiving tube 2 from the side surface direction toward the central axis, and the erroneous insertion preventing mechanism 4 is either the insertion tube 1 or the receiving tube 2. The drainage according to claim 1, wherein one or both outer circumferences are formed in a concave groove shape, and the erroneous insertion is prevented by inserting the C-shaped ring body 3 into the erroneous insertion prevention mechanism 4 at the time of erroneous insertion. Tube connection structure. The C-shaped ring body 3 is inserted and disposed in the insertion tube 1 or the receiving tube 2 from the side surface direction toward the central axis, and the erroneous insertion preventing mechanism 4 is either the insertion tube 1 or the receiving tube 2. The drainage according to claim 1, wherein one or both of the outer circumferences are formed in a convex rib shape, and the erroneous insertion is prevented by the C-shaped ring body 3 coming into contact with the erroneous insertion prevention mechanism 4 at the time of erroneous insertion. Tube connection structure. The C-shaped ring body 3 is inserted and disposed in the insertion tube 1 or the receiving tube 2 from the side surface direction toward the central axis, and the erroneous insertion preventing mechanism 4 is either the insertion tube 1 or the receiving tube 2. The drain pipe connection structure according to claim 1, wherein at least a part of the outer periphery of one or both of the outer periphery protrudes along the circumferential direction toward the outer peripheral direction. A guide portion 33 that guides insertion of the C-shaped ring body 3 from the side surface direction into either the cut groove portion 21 or the flange portion 12 is configured at the open end of the C-shaped ring body 3. The drain pipe connection structure according to any one of claims 1 to 4. The claw portion 31 of the C-shaped ring body 3 is
A first claw portion 311 that engages with the flange portion 12 of the insertion tube 1 configured to protrude in an inner circumferential direction from one end in a sectional view,
A second claw portion 312 that engages with the kerf portion 21 of the receiving pipe 2 configured to protrude in the inner circumferential direction from the other end in cross section,
The drain pipe connection structure according to any one of claims 1 to 5, wherein the drain pipe connection structure is configured as described above. The guide part 33 is formed at the upper end and the lower end in a side view, respectively, at the open end of the C-shaped ring body 3, and a restriction part 34 for restricting the guide of the guide part 33 is formed between the guide parts 33. The drain pipe connection structure according to claim 6. The drain pipe connection structure according to any one of claims 1 to 7, wherein the C-shaped ring body 3 has a vertically symmetrical shape. The drain pipe connection structure according to any one of claims 1 to 8, wherein the kerf portion 21 is formed in a slit shape.

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