RU2618802C1 - Method of pipelines protection from emergency situations, caused by karst holes - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method of pipelines protection from emergency situations, caused by karst holes, at which reveal the pipeline, perform the bored piles on its both sides, stack the metal socket under the pipeline, the half pipe with diameter larger than the pipeline diameter is used as the metal socket, metal socket is connected with bored piles using steel rope, which bends around the pipe, and the ends of the rope are fixed at the piles heads, using the slack adjuster, regulating the rope tension, cover the pipeline with the ground, install the sensors at the rope ends before the slack adjusters. Bored piles are made in such a way, that the pile top end and the pile metal shell top end are above the earth's surface at the same level, and the bottom of the pile metal shell does not touch the ground surface level. In the pile top end in the concrete, enclosed with metal shell, perform the end recess and guide, install the sensors at the rope ends before guide, insert the slack adjuster into the end recess, thereby protecting the slack adjuster and the rope ends from the military and weather actions. The horizontally turned cover is fixed to the metal hinged shell, which covers the end recess with the adjuster, reinforcing the adjuster protection. The electric contacts are reinforced at the horizontally turned cover and on the metal shell, while at the normal position, when the slack adjuster examination is not possible, the horizontally turned cover rests on the metal shell, while rotating the horizontal cover the electrical contacts are closed, turning on the warning device through relay, which alarms on the slack adjuster unauthorized inspection, that allows you to take measures in time.

EFFECT: improved protection of slack adjusters and steel rope ends from the military and weather actions, providing alarms, while the slack adjuster and steel rope unauthorized inspection is taken place.

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Description

The invention relates to the construction and operation of trunk pipelines and can be used to prevent emergencies in pipelines caused by karst dips and can be used to protect the tension sleeve and the ends of the cable, both from military and atmospheric influences, and to receive a signal about their unauthorized inspection.

State of the art

There is a method of protecting pipelines from emergencies caused by karst failures, in which the pipeline is opened, drill piles are arranged in pairs with a pitch of 6 meters on two sides, metal beams of the I-beam profile are laid under the pipeline, connected to bored piles, and the pipeline is filled with soil (see Khasanov, RN, Development of the technology for repairing gas pipelines laid in the karst zone, based on the floor-by-floor control of the stress-strain state: abstract, dissertation 25.00.19 Candidate of Technical Science, is protected 27.06.2002, Ufa, 23 pp.).

The disadvantage of this method is that it does not have the ability to receive a signal about unauthorized access to the connection of the I-beam with bored piles.

A known method of protecting pipelines from emergencies caused by karst failures, in which the pipeline is opened, bored piles are made on both sides, a metal lodgement is laid under the pipeline, it is connected to the bored piles, the pipeline is filled with soil, the bored piles are made so that the pile head was above the surface of the earth, half a pipe of a larger diameter than the diameter of the pipeline is used as a metal lodgement, I connect the metal lodgement t with bored piles using a steel cable that surrounds the pipe, and the ends of the cable are mounted on the ends of piles using tension couplings that regulate the tension of the cable, fill the pipeline with soil. In addition, sensors (12) are installed at the ends of the cable before the tension couplings (patent No. 2316630, published 02.10.2008, IPC E02D 27/46, RU). This method is adopted as a prototype. Signs of the prototype, which are common with the claimed invention, - open the pipeline, perform bored piles on both sides, put a metal lodgement under the pipeline, connect it to the bored piles, fill the pipeline with soil.

Signs of the prototype, which are common with the claimed invention, - open the pipeline, on both sides perform bored piles. Bored piles are made in such a way that the top end of the pile and the top end of the metal shell of the pile are at the same level above the ground and the bottom of the metal shell does not touch the level of the ground, at the top end of the pile in concrete covered by a metal shell form an end recess and a guide, a tension sleeve is introduced into the end recess. A horizontally rotated lid is attached to the metal shell on a hinge, and electrical contacts are attached to the lid and the metal shell. Lay a metal lodgement. As a metal lodgement, half the pipe of a large diameter is used than the diameter of the pipeline. Next, they take an elongated steel cable, pass it through the loops of the metal lodgement, bending around the pipe and passing through the guide. The ends of the steel cable are fixed to the end recesses of the piles using tension couplings at the ends of the cable in front of the guides, sensors are installed, the pipeline is filled with soil.

The disadvantage of this method, adopted as a prototype, is the lack of effectiveness in protecting the tension couplings and ends of the steel cable from military and atmospheric influences. Another disadvantage is the lack of a signal during unauthorized inspection of tension couplings and cable ends, due to the fact that the ends of the cable are attached to the pile heads using tension couplings, couplings and cable ends both along the perimeter and from above are not protected from military and atmospheric influences and are not provided signal of unauthorized inspection.

Disclosure of invention

The objective of the invention is to develop a method of protecting pipelines from emergencies caused by karst failures, in which the disadvantages of the analogue and prototype are eliminated.

The technical result of the invention is to increase the effectiveness of the protection of the tension couplings and the ends of the steel cable from military influences and from atmospheric influences, as well as providing a signal during unauthorized inspection of the tension couplings and steel cables.

The technical result is achieved by the fact that in the method of protecting pipelines from emergencies caused by karst failures, in which the pipeline is opened, bored piles are made on both sides of the pipeline, a metal lodgement is laid under the pipeline, half of the pipe with a larger diameter is used as a metal lodgement than the diameter of the pipeline , the metal lodgement is connected to the bored piles with the help of a steel cable, which surrounds the pipe, and the ends of the cable are mounted on the heads of piles using tension couplings t, regulating the tension of the cable, fill the pipeline with soil, at the ends of the cable before the tension couplings, sensors are installed according to the present invention, the bored piles are made so that the upper end of the pile and the upper end of the metal sheath of the pile are at the same level above the ground and the bottom of the metal the pile sheath did not touch the ground surface level, at the upper end of the pile in concrete covered by a metal sheath, they form an end recess and a guide, at the ends of the cable in front of the guide sensors are installed, a tension sleeve is inserted into the end recess, thereby protecting the tension sleeve and the ends of the cable from military and atmospheric influences, a horizontally rotated cover is attached to the metal sheath, which closes the end recess with the coupling, increasing the protection of the coupling, while horizontally rotated the lid and on the metal sheath are strengthened electrical contacts, in a normal position, when the inspection of the tension sleeve is not possible, horizontally rotated lid lies on the metal sheath ie, by turning the horizontal lid closed electrical contacts, including via the relay signaling device, signaling the unauthorized inspection clamping sleeve, which allows to take timely action.

Distinctive features, in combination with the known ones, make it possible to increase the efficiency of protection of tension couplings and ends of a steel cable from military action and from atmospheric influences, and also provide a signal during unauthorized inspection of a tension coupling and steel cable.

Brief Description of the Drawing

The drawing (Fig. 1) shows a diagram of a device for implementing the proposed method for protecting pipelines from emergencies caused by karst dips.

The device contains bored piles 1, made on both sides of the pipeline 2, and a metal lodgement 3 of the pipe 2 connected to them. Bored piles 1 are made in such a way that the upper end of the pile 1 and the upper end of the metal shell 4 of the pile 1 are above the ground, on one level, and the bottom with a metal sheath 4 piles 1 did not touch the level of the earth's surface. An end recess 5 and a guide 11 are formed in the upper end of the pile 1 in concrete covered by a metal shell 4, a tension sleeve 10 is introduced into the end recess 5. The upper end of the metal shell 4 and the upper end of the pile 1 are closed (opened) by a horizontally rotated cover 6, hinged (the hinge is not shown in the drawing) connected to the metal sheath 4. On the lid 6 and the metal sheath 4, the electrical contacts 7 are fixed. The metal lodgement 3 is connected to the bored piles 1 using a steel cable 8, which is passed through the loops 9 of the metal lodgement 3, enveloping it, and passed through the guides 11. The ends of the steel cable 8 are fixed to the end recesses 5 of piles 1 using tension couplings 10, regulating the tension of the cable 8. At the ends of the cable 8 in front of the guides 11 sensors 12 are installed.

The implementation of the invention

A method of protecting pipelines from emergencies caused by karst failures is as follows.

Geological services detect karst dips, open pipeline 2 in the place where the karst cavity is fixed.

Next, the installation drilled wells to a depth of non-stratified rocks to perform bored piles 1.

Bored piles 1 are performed in pairs with a certain step on both sides of the pipeline 2 so that the upper end of the pile 1 and the upper end of the metal shell 4 of the pile 1 are above the ground, at the same level, and the bottom of the metal shell 4 does not touch the level of the top of the ground, in the upper end of the pile 1 in concrete covered by a metal sheath 4, an end recess 5 and a guide 11 are formed and a tension sleeve 10 is introduced into the end recess. The step is determined by calculation based on the load and soil conditions. The size of piles 1 (length, diameter, reinforcement), the distance between piles 1 is determined by calculation in each case. The size of the metal sheath 4 piles 1 (length, diameter, metal thickness and steel grade) is determined by calculation in each case. With a large overturning moment, in order not to increase the diameter and length of the pile 1, it is possible to use anchor fasteners. Then, a metal lodgement 3 is laid under the pipeline 2, on which the loops 9 can be preliminarily installed. As a metal lodgement 3, use half of the pipe with a larger diameter than the diameter of the pipeline 2. Next, take an extended steel cable 8, pass it through the loops 9 of the metal lodgement 3, enveloping the pipe and passing through the guide 11. The ends of the steel cable 8 are attached to the end recesses 5 of the piles 1 using tension couplings 10. The steel cable 8 is pulled until the pipeline 2 acquires its design position. The diameter of the cable 8 and the diameter of the guide 11 is determined by calculation based on the load. Cable 8 is protected from weathering by mastics. The tension sleeve 10 and the ends of the cable are protected from military and atmospheric influences in concrete piles with an end recess 5 (inside of which there is a tension sleeve 10) covered by a metal sheath 4, as well as a horizontally swiveled cover 6. The cover 6 and the sheath 4 are pivotally connected (the hinge is not shown in the drawing). In the places specified by the designer of the design bureau (design bureau) on the lid 6 and the sheath 4, the electrical contacts 7 are insulated on the insulating material, isolating them from each other.

In normal position, i.e. when the inspection of the tension sleeve 10 and the ends of the cable is not possible, the horizontally rotatable cover 6 lies on the upper end of the metal sheath 4. For unauthorized inspection of the tension sleeve 10 it is necessary to rotate the horizontally rotatable cover 6, when it is rotated, the electrical contacts 7 are closed, which include a signaling device through the relay (on the drawing of the relay and the signal device is not shown), indicating an unauthorized inspection of the tension sleeve 10 and the ends of the cable. It is possible to use electronic contacts on the cover 6 and the metal sheath 4 for transmitting a signal to the operator’s console and / or to a mobile phone to the person responsible for the safe operation of pipeline 2. Next, fill the pipeline 2 with soil.

Karst processes continue to develop over time, so it is necessary to continue monitoring the stress-strain state of pipeline 2 and monitor it. For this, at the ends of the cable 8, located on the surface of the earth in front of the guides 11, sensors 12 are installed.

So there is the possibility of visual and instrumental control over the deviation of the pipeline from the design position, which allows timely measures to be taken to prevent emergency situations. Thus, the advantage of the proposed method for the protection of emergencies caused by karst dips, compared with the prototype, is to protect both the tension sleeve 10 and the ends of the cable both from military action and from atmospheric influences due to the formation of a recess 5 and a guide 11 at the end concrete piles 1, covered by a metal shell 4, and shelter of the tension sleeve 10 and the ends of the cable in the recess 5, and horizontally rotated cover 6, pivotally attached to the metal shell 4, and receiving a signal of unauthorized a visual inspection of the tension sleeve 10 and the ends of the cable by attaching electrical contacts 7 to the sheath 4 and to the cover 6.

Thus, the advantage of the proposed method of protecting the pipeline from emergencies caused by karst failures, compared with the prototype, is that it increases the effect of protection against military, atmospheric influences of the tension couplings and the ends of the cable, and also provides a signal during unauthorized inspection of the tension couplings.

Claims (1)

A method of protecting pipelines from emergencies caused by karst failures, in which the pipeline is opened, bored piles are made on both sides, a metal lodgement is laid under the pipeline, half a pipe of a larger diameter is used as a metal lodgement than the diameter of the pipeline, the metal lodgement is connected to the bored piles with the help of a steel cable, which surround the pipe, and the ends of the cable are mounted on the heads of piles with the help of tension couplings, regulating the tension of the cable, they fill the pipes grounding of the soil, sensors are installed at the ends of the cable in front of the tension couplings, characterized in that the bored piles are made so that the top end of the pile and the top end of the metal shell of the pile are at the same level above the ground and the bottom of the metal shell of the pile does not touch the ground surface , in the upper end of the pile in concrete covered by a metal sheath, an end recess and a guide are formed, sensors are installed at the ends of the cable in front of the guide, a tension is inserted into the end recess UF, thereby protecting the tension sleeve and the ends of the cable from military and atmospheric influences, a horizontally rotatable cover is mounted on the hinge to the hinge, which closes the end recess with the sleeve, enhancing the protection of the coupling, while electrical contacts are strengthened on the horizontally rotated cover and on the metal sheath, in the normal position, when inspection of the tension sleeve is not possible, the horizontally rotated cover lies on a metal shell; when the horizontal cover is rotated, contact contacts, which include a relay through the relay, signaling an unauthorized inspection of the tension sleeve, which allows timely action.

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