JP2001349484A - Pipe coupler - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pipe coupler 10 capable of preventing the separation of unit pipes 70 without impairing the flexibility of a connecting part of the unit pipes 70 in a case of laying a pipe of small diameter 60 formed by connecting a number of unit pipes 70 inside of a pipe 50 of a large diameter. SOLUTION: This pipe coupler 10 has a fixed part 20 to be fixed to a cylindrical part 71 of one unit pipe 70, a mounting part 30 movably mounted on the cylindrical part 71 of the other unit pipe 70, and a connecting part 40 for connecting the fixed part 20 and the mounting part 30. An end part at a side opposite to a socket part 72, of the cylindrical part 71 of one unit pipe 70 keeps a state that it is inserted into the socket part 72 of the other unit pipe 70 with a clearance with respect to a depth part 73 of the socket part 72 of the other unit pipe 70, when the mounting part 30 is kept into contact with the socket part 72 of one unit pipe 70.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pipe connector, and more particularly, to a case where a plurality of small-diameter pipes are laid inside a large-diameter pipe so that unit pipes constituting the small-diameter pipe do not come off from each other. The present invention relates to a pipe connector of the present invention.

[0002]

2. Description of the Related Art A conventional general technique will be described with reference to the drawings. FIG. 6 is a conceptual diagram of a small-diameter pipe 60 composed of a large number of unit pipes 70, FIG. 7 is a cross-sectional view showing a portion where the unit pipes 70 are connected to each other, and FIG.
FIG. 9 is a perspective view showing the relationship between 50 and small-diameter pipe 60, FIG. 9 is a side view showing how small-diameter pipe 60 is laid inside large-diameter pipe 50, and FIG. FIG. 1 is a conceptual diagram showing the difference X between the inner and outer trajectories of the small diameter pipe 60 in FIG.
1 is a conceptual diagram showing a state in which unit pipes 70 connected to each other come off.

Conventionally, in the field of civil engineering work, large-diameter pipes called propulsion pipes laid underground or on the sea floor have been used.
The work of drawing a plurality of small-diameter pipes 60 into the inside of 50 is frequently performed. The trajectory of the large-diameter pipe 50 is not always straight, and may be curved or meandering depending on, for example, the topography, the presence or absence of a road, or a building.

For this reason, as shown in FIG. 6, the small-diameter pipe 60 is formed by connecting a large number of unit pipes 70, so that the connecting portions of the unit pipes 70 have flexibility. -ing
That is, the unit pipe 70 includes a cylindrical tubular portion 71 and the tubular portion 71.
Socket part 72 connected to one side of 71 and this socket part
72 and a packing 74 provided inside.

[0005] As shown in FIG. 7, the unit pipes 70 are connected to each other by connecting the cylindrical part 71 of one unit pipe 70 to the socket part 72 of the other unit pipe 70.
This is done by inserting it into Here, there are a plurality of small-diameter pipes 60 laid inside the large-diameter pipe 50. For this reason, inside the large diameter pipe 50, FIG.
As shown in the figure, lattice frames 80 for holding the small-diameter pipes 60 in a bundle are arranged at predetermined intervals, and the lattice frames 80
Thus, the plurality of small diameter pipes 60 are not complicated inside the large diameter pipe 50.

That is, the lattice frame 80 is formed so as to hold a total of nine small-diameter pipes 60 three by three in the vertical and horizontal directions, and to be laid on the inner wall or the inner wall of the large-diameter pipe 50. It has rollers that contact the rails.
Adjacent lattice frames 80 are connected by a connecting bar 90 having a predetermined length.

The small diameter pipe 60 is laid by pulling the lattice frame 80 holding the small diameter pipes 60 in a bundle, as shown in FIG. is there. By the way, as shown in FIG. 10, in a portion where the track of the large-diameter pipe 50 is curved, the length of the small-diameter pipe 60 </ b> A located at the center of the large-diameter pipe 50,
Small diameter pipe 60B located on one inner wall side of large diameter pipe 50
And the length of the small-diameter pipe 60C located on the other inner wall side of the large-diameter pipe 50 will be different. That is, an inner / outer trajectory difference X occurs.

However, such a difference X between the inner and outer tracks is absorbed by the socket portion 72 of each unit pipe 70.

[0009]

However, if the trajectory of the large diameter pipe is curved so as to form a cubic curve, the small diameter pipe will also be curved so as to form a cubic curve. Since small-diameter pipes are laid by pulling the lattice frame, when the joint between the unit pipes approaches the inflection point, an external force from the opposite direction is applied to the joint between the unit pipes It will be.

For this reason, as shown in FIG. 11, near the inflection point, the joint portion between the unit pipes is likely to come off. In view of the above, the invention described in claim 1 of the present invention provides a pipe connector that prevents unit pipes from being detached from each other while preventing flexibility of a joint portion between unit pipes. With the goal.

[0011] In addition, according to the second aspect of the present invention, in addition to the object of the first aspect, the pipe connector is more securely fixed to the unit pipe. With the goal. Furthermore, claim 3 of the present invention
The object of the invention described in (1) is, in addition to the object of the invention described in (1) or (2), to make it easier to attach the pipe coupler to the unit pipe.

[0012]

Means for Solving the Problems (Claim 1) In order to achieve the above-mentioned object, the invention described in claim 1 of the present invention provides a large-diameter pipe (50) inside a large-diameter pipe (50). 50)
When laying a plurality of small-diameter pipes (60) along the orbit, the small-diameter pipe (60) is formed by joining a number of unit pipes (70) in the longitudinal direction, and the unit pipe ( 70) is a tubular part (71)
And a cylindrical socket portion (7) connected to one side of the cylindrical portion (71) for connecting the unit pipes (70) to each other.
2) and the socket portion (72)
However, the inner diameter is formed to be larger than the outer diameter of the cylindrical portion (71), and the unit pipes (70) are connected to each other by the opposite socket of the cylindrical portion (71) of one unit pipe (70). Department (72)
Connect the other end to the socket (72) of another unit pipe (70).
A pipe connector (10) for preventing the connected unit pipes (70) from coming off from each other when the pipe connector (10) is inserted by providing play. ) Is the cylindrical part (71) of the unit pipe (70) without the socket part (72) at the connecting part (40).
An annular fixing part (20) and a socket part (7
An annular mounting portion (30), which is movably mounted along the longitudinal direction of the unit pipe (70) on the cylindrical portion (71) of the unit pipe (70) having 2), and a fixing portion (20). And a connecting portion (40) for connecting the mounting portion (30) with the connecting portion (30), and the mounting portion (30) has an inner diameter that is smaller than an outer diameter of the cylindrical portion (71) of the unit pipe (70). Is large and the socket (7
2) is formed smaller than the outer diameter, and when the mounting portion (30) comes into contact with the socket portion (72) of another unit pipe (70), the cylindrical portion (70) of one unit pipe (70) The other end of the unit pipe (72) has a gap between the end on the side opposite to the socket (72) and the rear end (73) of the socket (72) of the other unit pipe (70). It is characterized in that it is formed so as to be kept inserted in the socket part (72) of (70).

Here, the "large-diameter pipe (50)" is a so-called propulsion pipe or fume pipe.
A relatively large-diameter pipe laid underground or under the sea. "Small diameter pipe (60)" means large diameter pipe (5
0) means a relatively small-diameter pipe laid along the track of the large-diameter pipe (50). The “unit pipe (70)” refers to a pipe that is a unit component of the small-diameter pipe (60).

That is, the small-diameter pipe (60) is formed by joining a number of unit pipes (70) in the longitudinal direction. Further, the unit pipe (70) has a tubular portion (71) and a socket portion (72). Further, the “cylindrical portion (71)” refers to a portion serving as a main body of the unit pipe (70).

The tubular portion (71) is formed in a cylindrical shape such as a cylindrical shape or a polygonal cylindrical shape. The “socket part (72)” refers to a part for connecting the unit pipes (70). The socket (72) is formed in a cylindrical shape such as a cylindrical shape or a polygonal cylindrical shape.

The socket portion (72) is connected to one side of the cylindrical portion (71), and its inner diameter is changed to the cylindrical portion (71).
Is formed to be larger than the outer diameter. Then, the unit pipes (70) are joined together by connecting the cylindrical portion (71) of the one unit pipe (70) to the socket (72) side opposite to the socket (72) of the other unit pipe (70). This is done by inserting it with play.

As a result, the connecting portion between the unit pipes (70) has flexibility. In addition, the “pipe connector (10)” refers to a device for preventing the unit pipes (70) from being detached from each other while the connecting portion between the unit pipes (70) has flexibility. Say.

[0018] The pipe connector (10) includes a fixing part (20).
And a mounting part (30) and a connecting part (40). Also,
"Fixed part (20)" means the cylindrical part (71) of the unit pipe (70) without the socket part (72) at the connecting part (40).
The part fixed to The fixing portion (20) is formed in an annular shape, and is fixed to the cylindrical portion (71) of the unit pipe (70) so as to tighten the cylindrical portion (71) of the unit pipe (70).

The "mounting portion (30)" is a connecting portion (4
In (0), a unit pipe (7) having a socket (72)
The portion attached to the cylindrical portion (71) of (0) movably along the longitudinal direction of the unit pipe (70). The mounting portion (30) is formed in an annular shape, and has an inner diameter larger than the outer diameter of the cylindrical portion (71) of the unit pipe (70), and
It is formed smaller than the outer diameter of the socket part (72).

Thus, the mounting portion (30) is mounted on the cylindrical portion (71) of the unit pipe (70) so as to be movable along the longitudinal direction. The “connection part (40)” refers to a part for connecting the fixed part (20) and the attachment part (30) at a predetermined interval. The connecting portion (40) can be formed in, for example, a cylindrical rod shape or a flat bar shape.

The fixing between the connecting portion (40) and the fixing portion (20) and the fixing between the connecting portion (40) and the mounting portion (30) are performed by, for example, the fixing portion (20) and the mounting portion (30). If both of the connecting portion (40) and the connecting portion (40) are formed of metal, welding can be performed. The “rear end portion (73) of the socket portion (72)” refers to a rear end portion on the tubular portion (71) side inside the socket portion (72).

That is, the cylindrical portion (7) of one unit pipe (70)
When the end on the side opposite to the socket part (72) of 1) is inserted all the way into the socket part (72) of another unit pipe (70), the cylindrical part (71) of one unit pipe (70) Anti-socket part (7
2) The part where the end on the side abuts is the other unit pipe (7
This is the back end (73) of the socket (72) of (0). Also,
"A state in which the end of the cylindrical portion (71) of one unit pipe (70) on the side opposite to the socket (72) is inserted into the socket (72) of another unit pipe (70)" One unit pipe (70)
The end of the cylindrical part (71) on the side opposite to the socket part (72) is located inside the socket part (72) of the other unit pipe (70), and the one unit pipe (70) and the other This refers to a state in which the unit pipe (70) is connected without being detached.

And the pipe connector (10) according to the present invention.
Is used as shown below. First, the end of the cylindrical portion (71) of one unit pipe (70) on the side opposite to the socket (72) is connected to the socket (72) of the other unit pipe (70).
Insert it with play and make one unit pipe (70)
To another unit pipe (70).

Next, with the one unit pipe (70) loosely mounted on the other unit pipe (70), the fixing part (20) of the pipe connector (10) is connected to the one unit pipe (70). Fixing to the tubular part (71) and mounting part (30) for the pipe connector (10)
Is attached to the cylindrical portion (71) of another unit pipe (70) movably along its longitudinal direction. At this time, the following two conditions are satisfied in a state where the attachment portion (30) of the pipe connector (10) is in contact with the socket portion (72) of another unit pipe (70).

First, one end of the cylindrical portion (71) of one unit pipe (70) on the side opposite to the socket (72) and the other end of the socket (72) of the other unit pipe (70). Between part (73)
A gap is provided. Second, a state in which the end of the cylindrical portion (71) of one unit pipe (70) on the side opposite to the socket (72) is inserted into the socket (72) of another unit pipe (70). Try to keep.

Thus, the flexibility of the connecting portion between the one unit pipe (70) and the other unit pipe (70) is not impaired, while the one unit pipe (70) and the other unit pipe (70) are not damaged. (70) can be prevented from coming off. That is, the mounting part (30) of the pipe connector (10) is replaced with the socket part (72) of another unit pipe (70).
In contact with the cylindrical part (7) of one unit pipe (70).
1) The end opposite the socket (72) and the other unit pipe (7
If there is a gap between the back end (73) of the socket (72) of (0), the joint between one unit pipe (70) and the other unit pipe (70) is elastic. It is to have.

[0027] Also, a mounting portion (30) of the pipe connector (10).
Is in contact with the socket part (72) of another unit pipe (70), and the end of the cylindrical part (71) of one unit pipe (70) on the side opposite to the socket part (72) is another unit. As long as the pipe (70) is kept inserted in the socket (72), the joint between one unit pipe (70) and another unit pipe (70) will not be disconnected. (Claim 2) In addition, the invention described in claim 2 of the present invention has a structure in which a plate-like rubber ( 24) is affixed.

As described above, by attaching the plate-like rubber (24) to the inner peripheral surface of the fixing portion (20), the cylindrical portion (71) is more securely tightened by the fixing portion (20). So that the cylindrical part (7
Fixing to 1) can be performed more reliably. (Claim 3) Further, of the present invention, the invention described in claim 3 has the structure of the invention described in claim 1 or 2,
The fixing part (2) is attached to the end of the connecting part (40) on the fixing part (20) side.
0) is provided with an engaging portion (41) formed by bending an end portion inward in order to engage the connecting portion (40). The engaging portion (41) allows the connecting portion (40) and the fixing portion to be fixed. (20) is detachable.

Here, the "engaging portion (41)" is provided at an end of the connecting portion (40) on the fixing portion (20) side, and is fixed to the fixing portion (2).
0) is a portion for detachably engaging the connecting portion (40). The engaging portion (41) is formed by bending an end of the connecting portion (40) on the fixed portion (20) side. As described above, the engaging portion (41) for detachably engaging the fixing portion (20) with the connecting portion (40) is provided at the end of the connecting portion (40) on the fixing portion (20) side. By providing, the installation work of the pipe connector (10) on the site can be performed more easily.

[0030]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS (First Embodiment) Hereinafter, a first embodiment of a pipe connector 10 according to the present invention will be described with reference to the drawings. FIG. 1 is a perspective view showing a use state of a pipe connector 10 according to the present embodiment, and FIG.
FIG. 3 is a perspective view of the pipe 70, and a cross-sectional view of a main part of a connecting portion of the unit pipes 70. FIG. 3 is a pipe coupler according to the embodiment.
10 is a perspective view, and FIG. 4 is a pipe coupler according to the present embodiment.
FIG. 10 is a sectional view of a main part showing a use state of No. 10;

In the pipe connector 10 according to the present embodiment, when a plurality of small-diameter pipes 60 are laid inside the large-diameter pipe 50, a joint portion between the unit pipes 70 constituting the small-diameter pipe 60 does not come off. That's what we do. The small diameter pipe 60 is formed by connecting a number of unit pipes 70 in the longitudinal direction.

The unit pipe 70 has a cylindrical shape.
71, and a socket portion 72 continuously provided on one side of the cylindrical portion 71. In addition, the socket portion
72, the inner diameter thereof is formed larger than the outer diameter of the cylindrical portion 71, and the unit pipes 70 are joined together at the end of the cylindrical portion 71 of one unit pipe 70 on the side opposite to the socket portion 72. Is inserted into the socket section 72 of another unit pipe 70 with play.

The pipe connector 10 according to the present embodiment
Is a fixing portion 20 fixed to the cylindrical portion 71 of one unit pipe 70.
A mounting portion 30 that is movably mounted along the longitudinal direction of the cylindrical portion 71 of the other unit pipe 70, and a connecting portion 40 that connects the fixing portion 20 and the mounting portion 30. . Also,
The mounting portion 30 has an inner diameter that is a cylindrical portion 71 of the unit pipe 70.
Are formed larger than the outer diameter of the socket portion 72 and smaller than the outer diameter of the socket portion 72.

Further, the pipe connector 10 according to the present embodiment
When the mounting portion 30 comes into contact with the socket portion 72 of another unit pipe 70, the opposite socket portion of the cylindrical portion 71 of one unit pipe 70
The end on the 72 side has a gap between it and the rear end 73 of the socket 72 of the other unit pipe 70, and is formed so as to maintain the state inserted into the socket 72 of the other unit pipe 70. Have been.

The pipe connector according to the present embodiment
Reference numeral 10 denotes a unit for preventing the unit pipes 70 from coming off while keeping the flexibility of the connecting portion between the unit pipes 70. Below, first, large diameter pipe 5
0, the small-diameter pipe 60, and the unit pipe 70 will be briefly described, and then the pipe coupler 10 according to the present embodiment will be described in detail. (Large-Diameter Pipe 50) The large-diameter pipe 50 is also called a propulsion pipe or a fume pipe, and is a relatively large-diameter pipe laid underground or on the sea floor. (Small-diameter pipe 60) The small-diameter pipe 60 is a relatively small-diameter pipe laid inside the large-diameter pipe 50 along the track of the large-diameter pipe 50.

The small-diameter pipe 60 has a large number of unit pipes 70.
In the longitudinal direction. (Unit Pipe 70) The unit pipe 70 is a pipe which is a unit component of the small diameter pipe 60. As shown in FIG. 2A, the unit pipe 70 includes a tubular portion 71 and a tubular portion 71.
A socket portion 72 is provided on one side of the socket 71.

The tubular portion 71 is a portion that becomes a main body of the unit pipe 70 and is formed in a cylindrical shape. The socket portion 72 is a portion for joining the unit pipes 70 together, and is formed in a cylindrical shape having a larger diameter than the cylindrical portion 71. The socket portion 72 has an inner diameter larger than the outer diameter of the tubular portion 71.

A rear end inside the socket 72 on the side of the cylindrical portion 71 is a rear end where the end of the cylindrical portion 71 of another unit pipe 70 inserted into the socket 72 abuts.
It is 73. As shown in FIG. 2B, the unit pipes 70 are connected to each other by connecting the end of the cylindrical portion 71 of one unit pipe 70 on the side opposite to the socket 72 to another unit pipe 70.
This is performed by inserting the socket 70 into the socket 72.

At this time, the inner diameter of the socket 72 is
Is formed larger than the outer diameter of the unit pipe 70, so that the end of the cylindrical portion 71 of one unit pipe 70 on the side opposite to the socket 72 is provided with play in the socket 72 of the other unit pipe 70. As a result, the joint portion between the unit pipes 70 has flexibility. (Pipe connector 10) The pipe connector 10 is a unit pipe
It is used for connecting portions of the unit pipes 70, and is for preventing the unit pipes 70 from coming off while keeping the flexibility of the connecting portion between the unit pipes 70.

As shown in FIG. 3, this pipe connector 10
Is a fixing portion 20 fixed to the cylindrical portion 71 of one unit pipe 70.
And a mounting portion 30 that is movably mounted along the longitudinal direction of the cylindrical portion 71 of another unit pipe 70, and a connecting portion 40 for connecting the fixing portion 20 and the mounting portion 30. ing. (Fixing part 20) The fixing part 20 is formed in an annular shape and tightens the cylindrical part 71 of the unit pipe 70 so that the unit pipe
It is fixed to the cylindrical portion 71 of 70.

More specifically, the fixing portion 20 has two semi-annular bodies 21. The semi-annular body has a semi-annular portion 22 formed in a semi-annular shape, and a flat fastening portion 23 provided on both sides of the semi-annular portion 22. Further, the semi-annular body 21 is integrally formed of, for example, a metal such as iron, stainless steel, or aluminum.

A flat rubber 24 is attached to the inside of the semi-annular portion 22. In addition, a substantially circular bolt hole is provided substantially at the center of the fastening portion 23. Then, when the two semi-annular bodies 21 are united so that the fastening parts 23 on both sides are joined together, an annular fixing part 20 is obtained. Further, the two semi-annular bodies 21 are fastened by bolts 25 and nuts 26.

The inner diameter of the fixed portion 20 is smaller than the outer diameter of the cylindrical portion 71 of the unit pipe 70. As a result, the fixing portion 20 tightens the cylindrical portion 71 of the unit pipe 70 so that the cylindrical portion 71 of the unit pipe 70
It is to be fixed to. Note that, although it is not always necessary to attach the flat rubber 24 to the inside of the half-ring portion, if the flat rubber 24 is attached to the inside of the half-ring portion, the rubber 24 is attached to the cylindrical portion 71 of the fixing portion 20. Can be more securely fixed. (Mounting Part 30) The mounting part 30 is formed in an annular shape, and is mounted on the cylindrical part 71 of the unit pipe 70 so as to be movable along the longitudinal direction.

More specifically, the mounting portion 30 has two half-ring bodies 31. The half-ring body 31 includes a half-ring portion 32 formed in a half-ring shape,
And a flat plate-shaped fastening portion 33 provided continuously on both sides of the The half-ring body 31 is integrally formed of, for example, a metal such as iron, stainless steel, or aluminum.

At substantially the center of the fastening portion 33, a circular bolt hole is provided. And fastening parts on both sides
When the two half-ring bodies 31 are combined such that the 33 are joined together, an annular mounting portion 30 is formed. Also, 2
The two half-ring bodies 31 are fastened by bolts 25 and nuts 26. Further, the mounting portion 30 is formed to have an inner diameter larger than the outer diameter of the cylindrical portion 71 of the unit pipe 70 and smaller than the outer diameter of the socket portion 72.

As a result, the mounting portion 30 is
It is attached to the cylindrical portion 71 of the unit 70 so as to be movable along its longitudinal direction, and when it comes into contact with the socket portion 72 of the unit pipe 70, the movement is stopped. (Connecting part 40) The connecting part 40 is for connecting the fixed part 20 and the mounting part 30.

Specifically, the connecting portion 40 is formed in a flat bar shape. Further, the connecting portion 40 is, for example, iron,
It is integrally formed of a metal such as stainless steel or aluminum. Also, at one end of the connecting portion 40,
A semi-ring of the fixing portion 20 is fixed, and a semi-ring 31 of the mounting portion 30 is fixed to the other end.

The fixing between the connecting portion 40 and the half-ring body and the fixing between the connecting portion 40 and the half-ring body 31 are performed by welding. As a result, the fixing portion 20 and the mounting portion 30 are connected at a predetermined interval. (How to use) Next, the pipe connector 10 according to the present embodiment
How to use will be described.

First, the end of the cylindrical portion 71 of one unit pipe 70 on the side opposite to the socket 72 is connected to the socket of another unit pipe 70.
Insert it into the 72 with play, and make one unit pipe
Loosen 70 to other unit pipes 70. Next, as shown in FIG. 1, in a state where one unit pipe 70 is loosely mounted on another unit pipe 70, the fixing part 20 of the pipe connector 10 is attached to the cylindrical part 71 of the one unit pipe 70. Fix and fix the pipe connector 10
Is attached to the cylindrical portion 71 of another unit pipe 70 so as to be movable in the longitudinal direction.

At this time, the following two conditions are satisfied while the mounting portion 30 of the pipe connector 10 is in contact with the socket portion 72 of another unit pipe 70. First, a gap is provided between the end of the cylindrical portion 71 of one unit pipe 70 on the side opposite to the socket 72 and the back end 73 of the socket 72 of the other unit pipe 70. I do. Second, one unit pipe 70
The end of the cylindrical portion 71 on the side opposite to the socket 72 is kept inserted into the socket 72 of another unit pipe 70.

Thus, while maintaining the flexibility of the connecting portion between one unit pipe 70 and another unit pipe 70, the connecting portion between one unit pipe 70 and another unit pipe 70 can be prevented. Can be prevented from coming off. That is, as shown in FIG.
In a state where the mounting portion 30 of the unit 10 is in contact with the socket 72 of the other unit pipe 70, the end of the cylindrical portion 71 of the one unit pipe 70 on the side opposite to the socket 72 and the socket of the other unit pipe 70 If a gap is provided between the end portion 72 and the rear end portion 73, as shown in FIG. 4B, the end of the cylindrical portion 71 of one unit pipe 70 on the side opposite to the socket portion 72 and the other end portion. When the back end 73 of the socket 72 of the unit pipe 70 abuts, a gap is provided between the mounting part 30 of the pipe connector 10 and the socket 72 of the other unit pipe 70. Therefore, the joining portion between one unit pipe 70 and another unit pipe 70 has elasticity.

As shown in FIG. 4A, the mounting portion 30 of the pipe connector 10 is connected to the socket portion 72 of another unit pipe 70.
The end of the cylindrical portion 71 of one unit pipe 70 on the side opposite to the socket 72 is in contact with the socket 72 of the other unit pipe 70.
If one unit pipe 70 and the other unit pipe 70 are not further separated,
The joint between one unit pipe 70 and another unit pipe 70 does not come off.

Further, as shown in FIG. 4C, the end of the cylindrical portion 71 of one unit pipe 70 on the side opposite to the socket 72 has play in the socket 72 of the other unit pipe 70. Is inserted in a state, and since the mounting portion 30 of the pipe connector 10 is mounted with play on the cylindrical portion 71 of the other unit pipe 70, one unit pipe 70 and another unit pipe
The joint portion with 70 has flexibility.

Here, as shown in the prior art,
In the portion where the track of the large diameter pipe 50 is curved, the length of the small diameter pipe 60A located at the center of the large diameter pipe 50, the length of the small diameter pipe 60B located on one inner wall side of the large diameter pipe 50, and the large diameter There will be a difference from the length of the small diameter pipe 60C located on the other inner wall side of the pipe 50. That is, even if the rotation angles are the same, if the radii are different, a difference occurs in the length of the small-diameter pipe. In this case, the two unit pipes 70, 7 in the state shown in FIG.
The difference in length of the small-diameter pipe can be adjusted by approaching or moving away from zero. (Second Embodiment) Hereinafter, a pipe connector according to the present invention.
A tenth embodiment will be described with reference to the drawings.

FIG. 5 is a pipe coupler according to the present embodiment.
FIG. 10 is a perspective view of main parts of FIG. The pipe connector 10 according to the present embodiment is provided with an engaging portion 41 for engaging the fixing portion 20 with the connecting portion 40 at an end of the connecting portion 40 on the fixing portion 20 side. By 41, the connecting portion 40 and the fixed portion 20 are detachable. That is, in the first embodiment, the connecting portion 40 and the fixing portion 20 are fixed by welding, but in the present embodiment, the connecting portion 40 and the fixing portion 20 are
The connecting portion 40 is made detachable by an engaging portion 41 provided at an end portion on the fixed portion 20 side.

Specifically, as shown in FIG.
The engaging portion 41 is formed by bending an end of the connecting portion 40 on the fixed portion 20 side. Further, as shown in FIG. 5B, the semi-annular portion 22 of the fixing portion 20 is hooked on the engaging portion 41 formed by bending, thereby connecting the connecting portion 40 and the fixing portion.
20 is to be detachably engaged.

Then, as described above, the fixing portion 20 of the connecting portion 40 is
At the end on the side, an engaging portion 41 for engaging the fixing portion 20 with the connecting portion 40 is provided, and the connecting portion 40 and the fixing portion 20 are detachable, so that the small diameter pipe 60 Thus, it is possible to more easily mount the pipe connector 10 in the above manner.

[0058]

As described above, according to the first aspect of the present invention, the unit pipes are not separated from each other while the flexibility of the connecting portion between the unit pipes is not impaired. You can do it. Further, according to the invention described in claim 2, the fixing of the fixing portion to the cylindrical portion can be further ensured.

According to the third aspect of the present invention,
The work of attaching the pipe connector to the unit pipe can be performed more easily.

[Brief description of the drawings]

FIG. 1 is an external perspective view showing a use state of a pipe connector according to a first embodiment.

FIG. 2 is an external perspective view of a unit pipe, and a cross-sectional view of a main part of a connecting portion between the unit pipes.

FIG. 3 is an external perspective view of the pipe coupler according to the first embodiment.

FIG. 4 is an essential part cross-sectional view showing a use state of the pipe coupler according to the first embodiment.

FIG. 5 is a perspective view of a main part of a pipe coupler according to a second embodiment.

FIG. 6 is a conceptual diagram of a small-diameter pipe constituted by a number of unit pipes.

FIG. 7 is an essential part cross-sectional view of a joint portion between unit pipes.

FIG. 8 is a perspective view showing a relationship between a large-diameter pipe and a small-diameter pipe.

FIG. 9 is a side view showing a state in which a small-diameter pipe is laid inside a large-diameter pipe.

FIG. 10 is a conceptual diagram showing an inner / outer trajectory difference X of a small diameter pipe in a portion where a large diameter pipe is curved.

FIG. 11 is a conceptual diagram showing a state in which connected unit pipes come off.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 Pipe connector 20 Fixed part 21 Semi-annular body 22 Semi-annular part 23 Tightening part 24 Rubber 25 Bolt 26 Nut 30 Attachment part 31 Semi-ring body 32 Semi-ring part 33 Fastening part 40 Connecting part 41 Engaging part 50 Large diameter pipe Reference Signs List 60 Small diameter pipe 70 Unit pipe 71 Cylindrical part 72 Socket part 73 Back end part 74 Packing 80 Lattice frame 90 Connecting bar X Inner / outer track difference

Claims (3)

[Claims] When laying a plurality of small-diameter pipes inside a large-diameter pipe along a track of the large-diameter pipe, the small-diameter pipe connects a large number of unit pipes in a longitudinal direction. The unit pipe is formed so as to have a tubular tubular portion and a tubular socket portion connected to one side of the tubular portion for joining the unit pipes to each other, The socket portion is formed such that its inner diameter is larger than the outer diameter of the cylindrical portion, and the joining of the unit pipes is performed by connecting the end of the cylindrical portion of one unit pipe on the side opposite to the socket portion to another unit. A pipe connector for preventing the connected unit pipes from being detached from each other when being inserted into the socket portion of the pipe with play, wherein the pipe connector is a connecting portion. smell And an annular fixing portion fixed to the cylindrical portion of the unit pipe having no socket portion, and an movably attached along the longitudinal direction of the unit pipe to the cylindrical portion of the unit pipe having the socket portion. A mounting portion, a connecting portion for connecting the fixed portion and the mounting portion, the mounting portion has an inner diameter larger than the outer diameter of the cylindrical portion of the unit pipe, and When the mounting portion comes into contact with the socket portion of another unit pipe, the end of the cylindrical portion of one unit pipe on the side opposite to the socket portion is formed to be smaller than the outer diameter of the other unit pipe. A pipe connector characterized by having a gap between itself and a rear end portion of a socket portion of a pipe so as to maintain a state of being inserted into a socket portion of another unit pipe. 2. The pipe connector according to claim 1, wherein a plate-like rubber is attached to an inner peripheral surface of the fixing portion. 3. An engaging portion formed by bending an end of the connecting portion inward to engage the fixing portion with the connecting portion is provided at an end of the connecting portion on the fixing portion side. The pipe connector according to claim 1, wherein the connecting portion and the fixed portion are detachable.