RU52463U1 - DEVICE FOR PROTECTING PIPELINES FROM EMERGENCY SITUATIONS CAUSED BY KARST FAILURES - Google Patents

Abstract

The invention relates to the construction and operation of trunk pipelines and can be used to prevent emergencies in pipelines caused by karst dips. The device includes bored piles made on both sides of the pipeline and a metal lodgement of the pipeline connected to them. Bored piles are designed so that the pile head is above ground level. The metal lodgement is made of half a pipe of a larger diameter than the diameter of the pipeline and is connected to the bored piles by means of a steel cable enveloping the pipe and the ends of piles fixed to the ends using tension couplings that regulate the tension of the cable. In addition, sensors are installed at the ends of the cable in front of the tension couplings. The technical result of the utility model is to reduce the labor and metal consumption of the structure, visual control over the structure during operation.

Description

The technical field to which the utility model belongs.

The invention relates to the construction and operation of trunk pipelines and can be used to prevent emergencies in pipelines caused by karst dips.

The prior art.

A device is known for protecting pipelines from emergencies caused by karst dips, including bored piles arranged on both sides of the pipeline with a pitch of 6 meters using casing pipes and metal beams of the I-beam profile, based on bored piles (see Khasanov R.N. Development of technology repair of gas pipelines laid in the karst in the karst zone, based on the phased control of the stress-strain state: abstract of dissertation 25.00.19 Candidate of Technical Sciences, defended on June 27, 2002, Ufa, 23 pp.). This device is adopted as a prototype.

Signs of a prototype that are common with the claimed invention are bored piles made on both sides of the pipeline and the metal lodgement of the pipeline connected to them.

A disadvantage of the known device adopted as a prototype is the high complexity of mounting the structure, due to the fact that the metal beam is connected to the bored piles by welding. Another disadvantage is the large metal consumption of the structure and the lack of visual control over the structure during operation.

Disclosure of a utility model.

The objective of the utility model is to reduce labor costs and metal consumption of the structure, visual control over the structure during

operating time.

The problem is solved due to the fact that in the known device for protecting pipelines from accidents caused by karst failures, including bored piles made on both sides of the pipeline and the metal lodgement of the pipeline connected to them, the bored piles are made so that the pile head is higher level of the earth’s surface, and the metal lodgement of the pipeline is made of half a pipe of a larger diameter than the diameter of the pipeline and connected to the bored piles by steel cable, enveloping the pipe, and the ends of the piles fixed on the heads with the help of tension couplings, regulating the tension of the cable. In addition, sensors are installed at the ends of the cable in front of the tension couplings.

Signs of the proposed device, distinctive from the prototype - the implementation of bored piles so that the tip of the pile was above the surface of the earth; execution of a metal lodgement of the pipeline from half the pipe of a larger diameter than the diameter of the pipeline; use for connecting a metal lodgement with bored piles of a steel cable enveloping the pipe and the ends of piles fixed to the ends with the help of tension couplings regulating the cable tension; the presence of sensors installed at the ends of the cable in front of the tension couplings.

Distinctive features in conjunction with the known ones allow to reduce labor costs and metal consumption of the structure, to produce visual control over the structure during operation.

A brief description of the drawings.

The drawing shows a schematic illustration of a device for protecting pipelines from emergencies caused by karst dips.

Implementation of a utility model.

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 so that the head 4 of the piles 1 is above the ground surface. The metal lodgement 3 of the pipeline 2 is connected to the bored piles 1 using a steel cable 5, which is passed through the loops 6 of the metal lodgement 3, around it. The ends of the steel cable 5 are fixed to the heads 4 of the piles 1 using tension couplings 7, which regulate the tension of the cable 5. At the ends of the cable 5, sensors 8 are installed in front of the tension couplings 7.

A device for protecting pipelines from emergencies caused by karst dips is used as follows.

Geological services detect karst soil dips, open pipeline 2 in the place where the karst cavity is fixed. Next, the installation drills wells to a depth of non-stratified rocks to make bored piles 1. Bored piles 1 are performed in pairs with a certain step on both sides of the pipeline 2 so that the tip 4 of the piles 1 is above the ground surface. The step is determined by calculation based on the magnitude of 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. 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 pipe 2, on which loops 6 can be preliminarily installed. As a metal lodgement 3, half the pipe with a larger diameter is used than the diameter of the pipe 2. Next, an elongated steel cable 5 is taken, it is passed through the loops 6 of the metal lodgement 3, enveloping the pipe. The ends of the steel cable 5 are attached to the heads of 4 piles 1 with

tension couplings 7. Tighten the steel cable 5 until the pipe 2 acquires its design position. The diameter of the cable 5 is determined by calculation based on the load. Cable 5 is protected from weathering by mastics. 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 5, located on the surface of the earth in front of the tension couplings 7, sensors 8 are installed.

Thus, the advantage of the proposed utility model, in comparison with the prototype, is that labor costs and metal consumption of the structure are reduced; visual and instrumental control is carried out over deviation of the pipeline from the design position, which allows timely measures to be taken to prevent emergency situations.

Claims (1)

A device for protecting pipelines from emergencies caused by karst dips, including bored piles made on both sides of the pipeline and a metal lodgement of the pipeline connected to them, characterized in that the bored piles are made so that the tip of the pile is above ground level and the metal the lodgement of the pipeline is made of half a pipe of a larger diameter than the diameter of the pipeline and connected to the bored piles by means of a steel cable enveloping the pipe, and ontsami mounted on the pile heads with tension clutch regulating the cable tension, in addition, at the ends of the cable to tension sleeves mounted sensors.