JP2001227281A - Connecting pipe for pipe advancing apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connecting pipe for a pipe advancing apparatus allowing connecting pipe bodies to be surely and linearly fixed to each other. SOLUTION: This connecting pipe for a pipe advancing apparatus comprises connection parts 1A, 1B provided at both longitudinal ends of the connecting pipe body 1; a sliding cover 2 for linearly fixing the following connecting pipe by sliding on the connecting pipe body 1 to cover the connection parts 1A, 1B; and a stopper 1C provided at the connecting pipe body 1 to lock the sliding motion of the sliding cover 2. In the connecting pipe, at least one tip side of the connection part is contracted in diameter, and/or the connection part side of the connecting pipe in the sliding cover 2 is enlarged in diameter. The sliding cover 2 thereby slides smoothly along the preceding connecting pipe body 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connecting pipe for a pipe propulsion machine used for laying a tunnel or the like without digging the ground when laying a pipe or the like in the ground. The present invention relates to a connecting pipe of a pipe propulsion device in which a slide cover slides easily on the connecting pipe main body and a subsequent connecting pipe main body can be reliably fixed linearly.

[0002]

2. Description of the Related Art When burying various pipes such as a communication pipe into which a telephone line is inserted, a sewer pipe and a gas pipe, and the like, a plurality of connecting pipe bodies are flexibly connected to a connecting pipe. Non-cutting method has been adopted in which a tunnel is built without cutting the ground by pushing the pipe back after pulling it out after continuous propulsion using a pipe propelling machine.

A connecting pipe of a pipe propulsion machine used in such a non-cutting method is disclosed in Japanese Patent Laid-Open No. 11-117668.
Japanese Patent Application Laid-Open Publication No. H10-205,055 is known. The present invention is a slide cover that connects the connecting pipe bodies so as to bend freely by connecting sections provided at both ends in the longitudinal direction of the connecting pipe body, and slides on the connecting pipe main body to cover the connecting section. This is for fixing the pipe body linearly.

That is, the tube propulsion device comprises a hydraulic jack and a slide table. Here, in order to draw out the connecting pipe, first, the preceding connecting pipe main body is set on the slide table. At this time, the succeeding connecting pipe main body is bent at a connection portion with the preceding connecting pipe main body, and is in a vertically standing state. Then, the table is slid with a hydraulic jack, and the preceding connecting pipe main body is drawn out according to the guide and pressed into the ground. Next, when the hydraulic jack is returned and the table is slid in the opposite direction, the angle of the subsequent connecting pipe main body is gradually lowered, and when the slide table returns to the original position, the subsequent connecting pipe main body is placed on the slide table. To be set. Then, the succeeding connecting pipe main body becomes the preceding connecting pipe main body, and the connecting pipe main body is continuously drawn out by repeating the above operation.

The slide cover of the connecting pipe main body is
As the preceding connecting pipe body protrudes underground, it receives frictional resistance due to earth pressure and stays at that location, thereby covering the connection between the preceding connecting pipe body and the succeeding connecting pipe body, and Slide relatively until locked by a stopper on the body. Therefore, the front and rear connecting pipe main bodies are linearly fixed to each other by the slide cover, and rigidity is ensured, so that the connecting pipe main body is linearly propelled. The slide cover locked by the stopper of the subsequent connecting pipe main body is then propelled together with the subsequent connecting pipe main body.

[0006]

However, in the conventional connecting pipe of a pipe propulsion device, the slide cover is caught at the connecting portion between the connecting pipe bodies, and as a result, the connecting section cannot be covered. There was a problem that it could not be fixed properly. That is, when the preceding connecting pipe main body is extended with the hydraulic jack, the slide cover is stopped from moving by the projection provided on the slide table, and slides on the preceding connecting pipe main body to form a connection portion with the succeeding connecting pipe main body. Reach. However, if any bending remains at the connection portion at this point, the tip of the slide cover comes into contact with the inclined subsequent connecting pipe main body, and the upper and lower portions of the inner surface of the slide cover are connected to the outer surface of the succeeding connecting pipe main body. It becomes impossible to slide any more.

Accordingly, the present invention is to prevent the slide cover from sliding on the preceding connecting pipe main body by preventing the slide cover from engaging with the succeeding connecting pipe main body. An object of the present invention is to provide a connecting pipe of a pipe propulsion device in which a front and rear connecting pipe main body is fixed linearly in any situation by securely covering a connection portion with the main body. .

[0008]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and the gist of the present invention is to provide a connecting pipe in which connecting pipe bodies of a pipe propulsion device are connected to bend freely. A connecting portion provided at both ends in the longitudinal direction of the connecting pipe main body, a slide cover that slides on the connecting pipe main body to cover the connecting portion, thereby linearly fixing a subsequent connecting pipe, and a connecting pipe. The present invention relates to a connecting pipe of a tube propulsion device, comprising a stopper provided on a main body for locking a slide of the slide cover, wherein at least one end of the connecting portion has a reduced diameter.

Further, in the connecting pipe comprising the connecting portion, the slide cover, and the stopper as described above, the connecting portion is not reduced in diameter but, conversely, the connecting portion side of the connecting pipe in the slide cover is enlarged. It relates to a connecting pipe of a pipe propelling machine having a diameter. It should be understood that the diameter of at least one end of the connecting portion can be reduced and the diameter of the connecting portion of the connecting pipe in the slide cover can be increased.

[0010] Preferably, the connecting pipe main body and the slide cover are made of anodized aluminum surface, and the connecting pipe main bodies are connected to each other by a T-shaped pin inserted into the connecting portion and the pin. The present invention relates to a connecting pipe of a pipe propulsion machine connected by a retaining ring fitted to one end.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As described above, a connecting pipe of a pipe propulsion device according to the present invention has a connecting portion provided at both ends in a longitudinal direction of a connecting pipe main body, and the connecting portion slid on the connecting pipe main body. It comprises a slide cover that linearly fixes the subsequent connecting pipe by covering, and a stopper provided on the connecting pipe main body to lock the slide of the slide cover.

Here, the connecting pipe main body is sequentially drawn out by a pipe propulsion machine and is pressed into the ground. Therefore, the connecting pipe main body is propelled underground while receiving frictional resistance due to earth pressure. Therefore, since the connecting pipe main body is required to have appropriate strength, carbon steel is generally used.
On the other hand, the front and rear connecting pipe main bodies are connected each time in accordance with the propulsion of the preceding connecting pipe main body. Therefore, it is desired that the connecting pipe main body be lightweight from the viewpoint of workability.

Therefore, the connecting pipe body is made of aluminum,
It is preferable that the surface is anodized. This is because the weight can be reduced and the workability can be significantly improved by using aluminum, and the decrease in surface strength due to the use of aluminum can be compensated for by anodizing.

Further, connecting portions are provided at both ends in the longitudinal direction of the connecting pipe main body. That is, the connecting pipe is made flexible in consideration of easiness of setting and feeding out to the pipe propulsion machine. For this purpose, the connecting pipe main body at the front and rear is rotatably connected at the connecting portion. Here, the connection between the connection pipe bodies can be screwed with a general bolt / nut or the like, but a T-shaped pin is inserted into the connection portion, and a snap ring is fitted into one end of the pin to connect. Is preferred. This is because the front and rear connecting pipe main bodies are sequentially connected and drawn out when constructing the tunnel, and thereafter are pulled back and collected, so that the connecting and disconnecting work is frequent and easy work is required.

[0015] The connecting tube thus made flexible is:
It is fixed linearly by the slide cover. That is, the slide cover slides on the connecting pipe main body in accordance with the propulsion of the connecting pipe main body to cover the connecting portion. Therefore,
The bending of the front and rear connecting pipe main bodies is limited by the slide cover, and is fixed linearly.

Here, a stopper is provided on the connecting pipe main body so that the slide cover does not slide beyond the connecting portion. That is, when the slide cover slides on the preceding connecting pipe main body and reaches the connecting portion, it abuts against the stopper of the succeeding connecting pipe main body and is locked while just covering the connecting portion, and thereafter, with the subsequent connecting pipe main body. Promote together.

The slide cover is first stopped from moving by a projection provided on the slide table when the preceding connecting pipe main body is extended by a hydraulic jack, and slides on the preceding connecting pipe main body to slide the succeeding connecting pipe main body. To the connection. After that, the connecting pipe main body receives frictional resistance due to earth pressure when propelled underground, and stays at the connecting portion. Therefore, the slide cover is required to have strength enough to withstand bending at the connecting portion of the connecting pipe, and to be lightweight from the viewpoint of workability. Therefore, it is preferable that the slide cover is also formed by anodizing the surface of aluminum.

The greatest feature of the present invention resides in that at least one end of the connecting portion is reduced in diameter. Therefore, the engagement between the slide cover and the succeeding connecting pipe main body is prevented, and the slide cover slides smoothly on the preceding connecting pipe main body to cover the connection portion, and securely fixes the connecting pipe main bodies linearly. It is.

That is, when the preceding connecting pipe main body is fed out by the hydraulic jack, the slide cover is stopped from moving by the projection provided on the slide table, and slides to the connection portion with the succeeding connecting pipe main body. At this time, even if the connection portion still has a bend, in the present invention, since the distal end side of the connection portion is reduced in diameter, the upper and lower portions of the inner surface of the distal end of the slide cover correspond to the outer surface of the subsequent connecting pipe main body by that amount. You will come into contact late. Therefore, since there is time to allow the succeeding connecting pipe main body to be in a state in which the angle is sufficiently laid down, the slide cover slides smoothly on the preceding connecting pipe main body without being caught by the connecting portion between the connecting pipe main bodies. .

In this case, the diameter of the connecting portion at the distal end side can be appropriately prevented from engaging the slide cover and the connecting pipe body even if only one of the connecting portions is used. By increasing the diameter, the smoothness of the slide can be further improved.

Instead of reducing the diameter of the distal end of the connecting portion, the diameter of the connecting portion of the slide cover may be increased. In other words, the slide cover needs to have a moderately large inner diameter with respect to the outer diameter of the connecting pipe main body in order to slide smoothly on the connecting pipe main body. This is because, if the diameter is increased, it is possible to obtain the same operational effect as reducing the diameter of the distal end side of the connection portion. Furthermore, by simultaneously reducing the diameter of the distal end of the connecting portion and increasing the diameter of the connecting portion of the slide cover, the smoothness of the slide can be further improved.

The shape of the diameter of the connecting portion is not particularly limited, and various shapes can be adopted, such as tapering or reducing the diameter by providing a step. In addition, the shape of the diameter of the slide cover can be expanded without any particular limitation, such as expanding the inner surface in a tapered shape toward the connection portion side or expanding the diameter by providing a step. it can.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a view showing a connecting pipe of the pipe propulsion device of the present invention. Here, the connecting pipe is a connecting pipe main body 11, 1.
2, 13, 14 and slide covers 21, 22, 23,
24. The connecting portions 12A and 12B are provided at both ends in the longitudinal direction of the connecting pipe main body 12, respectively. The connecting portion 12A is provided for the connecting portion 11B of the preceding connecting pipe main body 11, and the connecting portion 12B is provided for the following connecting pipe main body 13. It is flexibly connected to the connection portion 13A.

Next, the operational relationship between the connecting pipe main body and the slide cover will be described. Initially, the slide cover 23 of the connecting pipe main body 13 is in contact with the stopper 13C side.
Then, when the preceding connecting pipe main body is extended to the left, the slide cover stays at that position by a projection provided on a slide table (not shown), and the connecting pipe main body 1
2, the connection portions 12B and 1
It will cover 3A.

At this time, even if a bend remains between the connecting portions 12B and 13A, the distal ends of the connecting portions 12B and 13A are each reduced in diameter. The upper and lower portions do not contact the outer surface of the connection portion 13A of the connection pipe main body 13. Therefore, the slide cover 22 smoothly slides on the connecting pipe main body 12 without being caught by the connecting portion 13A. And the connecting pipe main body 1
The connection portions 11B and 12 like the slide cover 21 of FIG.
A is completely covered, and the stopper 1 on the connecting pipe main body 12 side is used.
2C, the connecting pipe main bodies 11 and 12 are locked.
Is fixed linearly. After that, the slide cover 21 is propelled together with the connecting pipe main body 12.

FIG. 2 is a view showing the connecting pipe main body 1 and the slide cover 2. Here, the connecting pipe main body 1 and the slide cover 2 are each made of aluminum having an anodized surface. Further, connection portions 1A and 1B are provided at both ends of the connection pipe main body 1, respectively. here,
As shown in FIG. 2A, the connecting portion 1A has a shape that can be inserted between the connecting portions 1B, so that the front and rear connecting pipe main bodies can be connected to each other.

That is, as shown in the cross-sectional view of FIG. 2C, a T-shaped connecting portion 1A of one connecting pipe main body is inserted and connected between the connecting portions 1B of the other connecting pipe main body. A retaining ring 4 is fitted and connected to one end of the pin 3.
Therefore, both connecting pipe main bodies can be bent around the pin 3. In addition, the T-shaped pin 3 is also formed by anodizing the surface of aluminum.

Further, as shown in FIG.
A and 1B are both reduced in diameter, but the connecting portion 1A is tapered, and the connecting portion 1B is reduced in diameter by providing a step. The degree of diameter reduction is 4 times the diameter of the semicircle on the distal end side of the connecting portion 1A with respect to the outer diameter of the connecting pipe main body.
mm, and the diameter is reduced by 2 mm in the upper and lower directions on the distal end side of the connection portion 1B.

Further, as shown in FIG. 2D, the slide cover 2 has a cylindrical shape, and has a uniform diameter over the entire length in the example shown in the figure. The slide cover 2 slides on the connecting pipe main body 1 until it hits the stopper 1C.

[0030]

As described above, according to the present invention, the diameter of the connecting portion of the connecting pipe main body is reduced or the diameter of the connecting portion of the connecting pipe of the slide cover is increased. Engagement with the subsequent connecting pipe main body is prevented, and the slide cover smoothly slides on the preceding connecting pipe main body, and reliably covers the connection portion between the preceding connecting pipe main body and the subsequent connecting pipe main body. . Therefore,
In any situation, the front and rear connection pipe main bodies can be reliably fixed linearly.

[Brief description of the drawings]

FIG. 1 is a view showing a connecting pipe of a pipe propulsion device of the present invention.

FIG. 2 is a diagram showing a connecting pipe main body and a slide cover.

[Explanation of symbols]

 1 Connecting pipe body 1A, 1B Connecting part 1C Stopper 2 Slide cover 3 T-shaped pin 4 Retaining ring 11, 12, 13, 14 Connecting pipe body 11B, 12A, 12B, 13A Connecting part 12C , 13C Stopper 21,22,23,24 Slide cover

Claims (4)

[Claims] 1. A connecting pipe of a pipe propulsion machine used in a non-cutting method, wherein a connecting body is provided at both ends in a longitudinal direction of a connecting pipe main body. A slide cover that slides on the connecting pipe body to cover the connecting portion to linearly fix the subsequent connecting pipe, and a stopper that locks the slide of the slide cover provided on the connecting pipe body. Become
A connecting pipe for a pipe propulsion machine, wherein a diameter of at least one end of the connecting portion is reduced. 2. A connecting pipe of a pipe propulsion machine used in a non-cutting method, wherein the connecting pipes are connected to each other in a longitudinal direction of a connecting pipe main body. A slide cover that slides on the connecting pipe body to cover the connecting portion to linearly fix the subsequent connecting pipe, and a stopper that locks the slide of the slide cover provided on the connecting pipe body. Become
A connecting pipe for a pipe propulsion machine, wherein a connecting portion side of the connecting pipe in the slide cover is enlarged in diameter. 3. The connecting pipe main body and the slide cover,
The connecting pipe for a pipe propulsion machine according to claim 1, wherein the connecting pipe is made of aluminum having an anodized surface. 4. The connecting pipe main bodies are connected by a T-shaped pin inserted into a connecting portion and a retaining ring fitted into one end of the pin.
4. A connecting pipe for a pipe propulsion device according to any one of claims 1 to 3.