DE3230759C2 - Device for trenchless pipe laying - Google Patents

Abstract

The device has a tubular container (2), which is open on the side of the bottom extraction, and a compressed air penetration device (1) with an air distribution nozzle (6) and a reversing device. The compressed air penetration device (1) is rigidly connected to the other end of the container (2). The switch-on device for reversing the compressed air breakdown device (1) is designed in the form of a plate (7) which is mounted inside the container (2) in such a way that it covers the cross-section of the container (2) and is in contact with the ground that gets into the interior of the container (2). The plate (7) is located in the front part of the compressed air penetration device (1) and is connected to the air distribution nozzle (6) by tie rods (5). The invention is particularly suitable for laying various underground supply lines of large dimensions and large diameters.

Description

The invention relates to a device for trenchless pipe laying, in particular for laying Large diameter pipes. Such pipes serve as underground supply channels that are used for collecting lines, Connection cables, etc. can be used.

As is known, pipes are pressed into the ground, the soil located inside the pipe being mechanically or hydromechanical processes are dismantled. The extraction of the soil core happens with Shovels, scoops, conveyors, by hand, with hydraulic motors and the like.

Another known device for trenchless laying of pipelines (SU-PS 3 97 610) has one with a power cylinder connected jacket with an undercutting knife and a shovel for Removal of the soil filling the container. With this device is the control of the filling level the shovel difficult. Thus, the device performance is insufficient. They are also extensive Preparation and finishing work, a lot of manual work and a large amount of space required for the equipment necessary.

It is also known to cut a pipe into the ground to the required length with the aid of a compressed air penetration device drive in, taking the soil out of the pipe cyclically with a ladle with the compressed air punch Will get removed. This has the disadvantage that the length of the pipe being laid is limited, i. H. Does not exceed 20 to 25 m. This is due to the fact that the adhesive force of the Rohres on the ground is constantly increasing. As soon as this friction increases the impact performance of the pneumatic punch exceeds, the pipe movement ceases, i.e. H. the facility fails. Cleaning the inside of the pipe from The ground is not effective because the pipe due to the adhesive forces on the ground on the side and face of the Rohres is held.

Also known is a device for trenchless laying of pipes of large diameter, the one tubular container, which is open on the side of the bottom extraction, as well as a compressed air piercing device with an air distribution nozzle which is rigidly connected to the other end of the container The compressed air penetration device has a switch-on device for reversing the direction. On the side of the open At the end, a slide is provided in the container, which is used to hold the bottom during the return movement of the container is determined

The efficiency of this device is not satisfactory, because in it the automatic switching of the movement of the compressed air blower to the No return when the tank is completely filled with soil.

The aim of the invention is to eliminate the aforementioned Disadvantage.

The invention is based on the object of providing a device for trenchless pipe laying with an improved To create the construction of the sounding device for the reversal of the compressed air penetration device, the visual control of the degree of filling of the soil-receiving container is no longer necessary power and ensures an increase in the overall work performance of the facility

This task is based on a device for trenchless pipe laying with a tubular Container that is open on the side of the bottom extraction and with a compressed air punch device, which having an air distribution nozzle and a reversing device and to the other end of the container is rigidly connected, according to the invention achieved in that the switching device for the reversal of the compressed air punch device is designed in the form of a plate, which is attached inside the container is that it covers the cross section of the container and is in contact with the ground that ins Inside the container arrives, wherein the plate is arranged in front of the front part of the compressed air punch and with the air distribution stub d, rch tie rods connected is.

The container and the compressed air penetration device are expediently connected to one another with the aid of a socket tied together. It is advisable to attach the mentioned plate in a resilient manner relative to the mentioned socket. The springs have a double function, they guide the return of the plate to its original position and also fix the moment of change of direction.

Above all, the automatic switching of the device to the reverse allows the work to be done increase and achieve more convenient operation. This is done by safely filling the container the reversal of the same achieved on the return.

The otherwise required control of the movement of the container in the pipe by an operator is no longer necessary. The otherwise necessary switch to return is not required. The filling of the container is difficult to monitor. This is done via the movement at the intake of the hose through which the compressed air is delivered is fed to the soil-receiving container. The speed of movement of the hose during the transition of the facility to the "soil extraction" operating state decreases. After that the further Movement of the hose is fixed, and the device is switched to the return line.

This improvement of the reversing device results in an increase in the work performance of the entire input

direction.

The invention is explained in more detail, for example, with the aid of the drawing. It shows

F i g. 1 the device schematically in section and
Fig. 2 the section H-II from F i g. 1.

The device for trenchless pipe laying (FIG. 1) has a compressed air breakdown device 1 which is rigidly connected by a socket 3 to a tubular container 2, which is open on the side of the soil extraction. In the socket 3, bores 4 are provided in which tie rods 5 are located. The tie rods 5 (FIG. 2) enclose the compressed air penetration device 1 and are rigidly connected to an air distribution nozzle 6 (FIG. 1) which is attached to the rear end. The compressed air carrier is fed to the connector 6 is via hoses from a compressor (not shown). The switch-on device for reversing the compressed air penetration device 1 is designed in the form of a plate 7 which is arranged in the interior of the soil-receiving container 2 in front of the front part of the compressed air penetration device 1. The plate 7 covers the cross section of the container 2 and is connected to the socket 3 by springs 8 (FIG. 2) which are rigidly attached to the tie rods 5. A slide 9 (FIG. 1) is freely rotatably mounted in the interior of the container 2 on the side where the bottom is removed.
The facility works in the following way:
The compressed air carrier, under the influence of which the pipe moves in the ground, is fed from the compressor to the compressed air penetration device 1 via hoses. The soil enters the container 2, rotating the slide 9. In Fig. 1, the new slide position is indicated by dotted lines. As the container 2 continues to fill, the bottom reaches the plate 7 and begins to exert a pressure on it, which is absorbed by the springs 8. As soon as the container 2 has been completely filled with soil, the soil pressure exceeds the resistance of the springs 8 and the plate 7, the tie rods 5 and the nozzle 6 move to the left. The compressed air breakdown device 1 is reversed and the return of the device is initiated. The device is then led into the pit. The container 2 is cleaned from the floor. After the operations described, the operating cycle of the device is repeated.

By reducing this number of cleaning cycles, economic efficiency is promoted.

1 sheet of drawings

Claims (2)

Patent claims: 1. Device for trenchless pipe laying, especially for laying large pipes Diameter, with a tubular container (2), which is open for soil removal, and with a Compressed air penetration device (1), which has an air distribution nozzle (6) and a reversing device and is rigidly connected to the other end of the container (2), characterized in that that the switch-on device for reversing the breakdown device (1) in the form a plate (7) is carried out which is mounted inside the container (2) so that it has the cross section of the container is covered and is in contact with the ground in the interior of the container (2), the plate (7) being arranged in front of the front part of the compressed air penetration device (1) and is connected to the air distribution nozzle (6) by tie rods (5) 2. Device according to claim i, characterized in that the container (2) and the compressed air breakdown device (1) are connected to one another by a bushing (3), with respect to which the plate (7) is resilient is appropriate