RU2062941C1 - Device for replacement of underground pipe line - Google Patents

Abstract

FIELD: construction. SUBSTANCE: device has percussion mechanism, head with a socket for receiving the front end of a new pipe line and facility for destroying an old pipe line, and tank connected with the percussion mechanism and interposed between the percussion mechanism and head. A part of the outer surface of the head is conical. The facility for destroying an old pipe line is mounted inside the head or front part of the tank that is coupled with the percussion mechanism through radial ribs. The sides of the tank are provided with ports. EFFECT: enhanced efficiency. 6 cl, 4 dwg

Description

 The device relates to construction equipment and can be used for trenchless replacement of pipelines of fragile materials (ceramics, cast iron, asbestos cement, etc.) during the repair and reconstruction of underground utilities.

 A device is known (German patent E 3620026 A1), containing a cylinder head with a socket for accommodating the front end of a new pipeline, a device for destroying an old pipeline, made in the form of a cutting milling head and a screw mechanism located in the old pipeline. At its front end, the head covers the old pipeline. When the milling head rotates, the latter destroys the old pipeline and its fragments, together with the adjacent soil, are transported by a screw into the receiving pit. As the old pipeline collapses, the tip moves forward, pulling the new pipeline into the ground.

 When using this device, there is no pollution of the soil mass and groundwater.

 The disadvantages of this device are its bulkiness, high energy consumption of crushing the old pipeline and the unreliability of transportation of its fragments by a screw mechanism.

 A device is known (Europatent N 0411278 A1, prototype) comprising a percussion mechanism, a cylindrical head connected to it with a socket for accommodating the front end of a new pipeline, and a device for destroying the old pipeline, made in the form of radial ribs placed between the percussion mechanism and the head. The front end of the head covers the old pipe. When the percussion mechanism is operating, the tip moves forward. In this case, the old pipeline is destroyed and its fragments through the windows between the ribs enter the new pipe, where they are stored, and after laying the new pipe to the specified length, they are removed from it. This device is more compact than the one considered above, less energy-intensive, since such crushing of fragments of the old pipe is not required.

 The disadvantage of this device is that the body of the percussion mechanism and longitudinal ribs create significant resistance to the movement of fragments of the old pipeline. There are cases when fragments accumulate in front of the impact mechanism, forming a cork, which the impact mechanism is not able to penetrate. It is possible to eliminate such a plug only by digging a foundation pit from the ground and opening the device.

 The objective of the invention is to increase the reliability of its work.

 This task is achieved in that the device for replacing the underground pipeline containing a percussion mechanism, a head with a socket for placing the front end of a new pipeline and a device for destroying an old pipeline, according to the invention, is equipped with a container connected to the percussion mechanism and placed between it and the head.

 When replacing pipelines without increasing the diameter, the outer surface of the tip should be cylindrical. When replacing a pipeline with an increase in its diameter, it is advisable to perform a conical part of the outer surface of the head.

 When replacing pipelines located in light, incoherent or flooded soils, it is advisable to place the device for the destruction of the old pipeline in the head.

 When replacing pipelines located in heavy cohesive soils, it is advisable to place the device for the destruction of the old pipeline in front of the tank.

 When replacing pipelines of low-brittle brittle materials, it is advisable to make the node connecting the container with the shock mechanism in the form of radial ribs.

 When replacing pipelines located in adhering clay soils, it is advisable to make windows in the side walls of the tank.

 Equipping the device with a container rigidly connected to the percussion mechanism and placed between it and the head allows the accumulation of fragments of the old pipeline in this container and periodically remove them through the old pipeline. The percussion mechanism does not impede the entry of fragments of the old pipeline into the tank, which prevents the formation of a plug from the debris in the tip. In addition, if the shock mechanism fails, it can be replaced by a working one without tearing the foundation pit and opening the device. This provides increased reliability of the device.

 The invention is illustrated by drawings.

 In FIG. 1 shows a device for replacing pipelines without changing the diameter in longitudinal section during the destruction of the old pipeline.

 In FIG. 2 section AA in figure 1.

 In FIG. 3 section BB in FIG. 2.

 In FIG. 4 device for replacing pipelines with increasing diameter of the pipeline during transportation of fragments of the old pipeline.

 The device (figures 1, 4) consists of a head 1, a percussion mechanism 2, a container 3, rigidly connected to the percussion mechanism 1, and a device 4 for destroying the old pipeline.

 In FIG. 1 shows a device for replacing a pipeline when the diameter of the new pipeline is equal to the diameter of the old pipeline. In this case, the head 1 has a cylindrical outer surface. On the inner surface of the head 1 there is a device 4 for destroying the old pipeline, made in the form of radial inclined knives 5, evenly spaced (Fig. 2) around the perimeter of the head 1. The front of the head (Fig. 1) covers the replaceable pipe 6, and in the back The head 1 has a socket 7, in which the front end of the newly laid pipeline 8 is located. The tank 3 is connected to the percussion mechanism 2 by means of a conical sleeve 9 (Fig. 3) and flat radial ribs 10, evenly spaced around the perimeter of the tank ty 3. Capacity 3 and the percussion mechanism 2 are connected (Fig. 1) by a cable 11 and a winch (not shown), placed on one side of the replaced section of the pipeline, and cable 12 with another winch (not shown), placed on the other side of the replaced section. As the impact mechanism 2, a pneumatic impact machine may be used. The air supply line 13 of the machine is located in the newly laid pipeline 8.

 A second embodiment of the device is shown in FIG. 4.

 This device can be used when the diameter of the new pipeline 8 is larger than the diameter of the replaced pipeline 6. The device includes a head 1, covering the replaceable pipe 6 with its front part. A socket 7 is made at the rear of the head 1 for accommodating and securing the front of the laid pipeline 8. External the surface of the head 1 in the middle part of its length contains a conical section 14. The inner surface of the head 1 is equipped with a shoulder 15. A cylindrical tank 3 is placed between the head 1 and the impact fur ism 2 and is connected to the latter by means of a conical sleeve 9 and radial ribs 10. Windows 16 are made in the side walls of the container 3. The device 4 for destroying the old pipeline 6 is placed in front of the container 3 and is made in the form of radial inclined knives 5, evenly spaced capacity 3. The impact mechanism 2 and capacity 3 are connected by cables 11 and 12 with winches placed on both sides of the replaced section of the pipeline.

 The device operates as follows: head 1 (Fig. 1) is placed in front of the replaced section of pipeline 6 so that head 1 covers pipe 6. The first section of the new pipeline 8 is inserted into socket 7 of head 1. Depending on the conditions of work and the material of the new pipeline 8 it can be attached to the head 1 or freely enter its socket 7. A cable 11 is laid through the replaced section of the pipeline 6, it is passed through the head 1, the first section of the new pipe 8 and the container 3 and attached to the percussion mechanism 2. Connect the percussion mechanism 2 to the tank 3 and bring them into the first section of the new pipeline 8 until the front end of the tank 3 stops in the rear ends of the inclined knives 5. The air supply pipe 13 and the cable 12 are placed inside the first section of the new pipe 8. The container is tensioned by 11 3 with a percussion mechanism 2 to the head 1 and turn on the percussion mechanism 2. Under the influence of the pulling force of the cable 11 and the shock load from the shock mechanism 2, the device moves forward. In this case, the knives 5 of the device 4 interact with the walls of the old pipeline 6 and destroy it. Debris 17 of the old pipeline 6 enters the tank 3 and accumulate in it. Part of the debris 17, passing between the radial ribs 10, falls into a new pipeline 8 and is stored there. When securing a new pipeline 8 in socket 7 of head 1, a new pipeline moves forward together with the device under the action of cable tension forces 11 and shock load from impact mechanism 2. When the front end of pipe 8 is freely placed in socket 7, as the device moves, a new pipeline moves forward external the load applied to its rear end. As the new pipeline 8 is laid, it is being expanded section by section. After filling the tank 3 with debris 17 of the pipeline 6 being destroyed, the impact mechanism 2 is turned off, the cable 11 (Fig. 4) is weakened and the cable 3 filled with debris 17 is weakened by pulling the cable 12, together with the impact mechanism 2, they are removed from the laid section of the new pipeline 8. The head 1 is remains in the ground. The vessel 3 is cleaned of debris 17. To facilitate the removal of debris 17 from the vessel 3, if necessary, the impact mechanism 2 is activated. Impact of a dynamic load facilitates the removal of debris 17 from the vessel 3. The presence of windows 16 in the side walls of the vessel 3 also facilitates the removal of debris 17 ( Fig. 4). After cleaning the tank 3, it is brought forward by the front end into the laid pipe 8 and the cable tension 11 moves forward until it stops into the ends of the inclined knives 5 (Fig. 1) or into the shoulder 15 (Fig) 4) of the head 1. After this, the impact mechanism 2 is turned on and the destruction of the old pipeline 6 resumes. The cyclic repetition of the destruction of the pipeline 6, the laying of a new pipeline 8 and the removal of debris 17 of the old pipeline 6 continues until the penetration of the entire replaced section. YYY2

Claims (6)

 1. A device for replacing an underground pipeline, comprising a percussion mechanism, a cap with a socket for accommodating the front end of a new pipeline and an apparatus for destroying an old pipeline, characterized in that the device is equipped with a container connected to the percussion mechanism and placed between it and the cap.  2. The device according to p. 1, characterized in that part of the outer surface of the head is made conical.  3. The device according to paragraphs. 1 and 2, characterized in that the device for the destruction of the old pipeline is placed in the head.  4. The device according to claims 1 and 2, characterized in that the device for the destruction of the old pipeline is located in front of the tank.  5. The device according to claims 1 to 4, characterized in that the capacity is connected to the percussion mechanism by radial ribs.  6. The device according to PP.1 to 5, characterized in that the windows are made in the side walls of the container.

Images