RU2012146160A - TRANSITION OF A GAS AND OIL PIPELINE UNDER ROADS, ENGINEERING STRUCTURES, WATER OBSTACLES, DEVICE AND METHOD FOR ITS ASSEMBLY - Google Patents

Abstract

1. The transition of the gas and oil pipeline with a diameter of 57-1420 mm, laid under roads, engineering structures, water barriers, in wet soils, swamps, in areas with harsh conditions and permafrost, in a protective casing (case) with a diameter of 114-1720 mm on supporting rails rings, while the annular space of the transition on both sides is sealed with non-rubber rubber cuffs, by securing them with pipe ties and the casing (case), from getting into the groundwater, characterized in that in the transition design made ventilation system, consisting of two vertical and one horizontal ducts that are interconnected through the annulus of the transition, while one of the vertical ducts is made on the end upper part of the casing (case) and connected directly to the annular space of the transition, the horizontal duct is made on the opposite end upper part of the casing (case) and is connected with the annular space of the transition and with the second vertical duct, in the lower part of which ying drainage device for collecting moisture sensor for monitoring its urovnya.2. The transition according to claim 1, characterized in that gates are installed in the upper part of the ducts to control the temperature in the annular space of the transition when seasonal temperatures change. The transition according to claim 1, characterized in that for pulling the pipeline into the casing (case), the support-guide rings are made of fiberglass interchangeable segments that are connected on the pipeline to the transition to the half ring using clamps manually and into the ring onto the pipe�

Claims (10)

1. The transition of the gas and oil pipeline with a diameter of 57-1420 mm, laid under roads, engineering structures, water barriers, in wet soils, swamps, in areas with harsh conditions and permafrost, in a protective casing (case) with a diameter of 114-1720 mm on supporting rails rings, while the annular space of the transition on both sides is sealed with non-rubber rubber cuffs, by securing them with pipe ties and the casing (case), from getting into the groundwater, characterized in that in the transition design made ventilation system, consisting of two vertical and one horizontal ducts that are interconnected through the annulus of the transition, while one of the vertical ducts is made on the end upper part of the casing (case) and connected directly to the annular space of the transition, the horizontal duct is made on the opposite end upper part of the casing (case) and is connected with the annular space of the transition and with the second vertical duct, in the lower part of which ying drainage device for collecting moisture from the sensor to control its level. 2. The transition according to claim 1, characterized in that gates are installed in the upper part of the ducts to control the temperature in the annular space of the transition when seasonal temperatures change. 3. The transition according to claim 1, characterized in that for pulling the pipeline into the casing (case), the support-guide rings are made of fiberglass interchangeable segments, connected on the pipeline transition to the half ring using clamps manually and into the ring on the pipeline using the device for assembly half rings into a ring without connecting bolts, with one or more sliding bearings made on each segment, on the end parts of each segment a receiving unit in the form of an opening is made, and on the other opposite end each of the first segment, an inlet assembly is made, which, when assembled in a half-ring or in a ring, enters from the inside into the opening of the inlet assembly of the segment to be connected, the end parts of the segments of the inlet and inlet assemblies are made with vertical protrusions relative to the plane of the segment, equipped with seats for fixed and movable clamps , in the vertical protrusion of the receiving unit in the horizontal plane, a seat is made for installing a fixed lock in it in the form of, for example, a wedge-shaped plate, on the sides the second part of which are made of opposite fastening elements, such as a herringbone, for connecting with a movable latch, which is also made in the form of a wedge-shaped plate having a length longer than the length of a fixed latch equipped with fastening elements of the herringbone type, in the vertical protrusion of the entry unit in a horizontal position, a seat for installing a movable latch that engages when moving with a fixed latch. 4. The method of assembling segments into a half-ring of a support-guide ring according to claim 3, characterized in that they pre-take a segment of the support-guide ring, where an input unit is made at one of the end parts, and lead it from the inside to the receiving unit of the second connected segment , then the fixed and movable clamps are installed in the seats, after which, with a small effort, the movable clamp is moved towards the motionless, when moving, the movable clamp engages with the fixed clamp, and its segment s are fixed to each other due to the fastening elements of the "herringbone" formed on the tapered side parts of each clamp, similarly connected to the remaining segments of the supporting-guiding ring. 5. The method of assembling the half rings in the support guide ring on the transition pipeline according to claim 3, characterized in that they first pre-take the half ring of the support guide ring with a rubber gasket glued from the inside and put it on the pipeline where its installation location is determined after they take the second half-ring with a rubber gasket and apply it from the bottom of the pipeline opposite the half-ring, and in a similar way, as in the assembly of two segments, end parts of the half-rings are brought in: from the inside, the entry unit of the upper the onion rings in the opening of the receiving unit of the lower half ring, and the inlet node of the lower half ring in the opening of the receiving unit of the upper half ring, then install the fixed and movable clamps in the seats, after which the movable clamp manually move towards the stationary clamp, when they are connected to each other, the half rings are fixed in the ring , using fastening elements, such as "herringbone", which are made on the lateral surfaces of the clamps, the final assembly and fastening of the rings on the transition pipeline is carried out at troystvom to build half-rings in the ring. 6. The transition according to claim 3, characterized in that the device for the final assembly of half rings into a ring on the transition pipeline consists of two stops of movable and fixed, a hole with a thread is made in the upper part of the movable stop for connection with a coupling screw, in a fixed stop in the upper of the part, a through hole is made through which a clamping screw passes, which is fixed by stop against displacement into the hole, and is connected to the movable stop by a threaded connection with the opposite end, end part from the stop l the tightening screw is made under a wrench to rotate it when moving the movable latch at the time of assembly and securing the support ring on the transition pipe. 7. The method of final assembly of support guide rings on the transition pipeline according to claim 4, characterized in that the half rings are pre-assembled into a ring on the pipeline manually, then a device for assembling support guide rings on the pipeline is taken, and its movable stop is installed from the end part a movable latch, a fixed stop is installed from the end of the fixed latch, then the coupling screw of the device is passed through the hole of the fixed stop and into the threaded hole of the movable stop, using a wrench The turn screw is turned on the key and the movable stop moves the movable lock towards the stationary one, because the fixed latch is installed in the fixed seat, the distance between the receiving and entry nodes increases due to the opening of the receiving node and increasing the width of the movable latch, which has the form of a wedge, which moves the receiving and entry nodes in opposite directions during movement, as a result, the diameter of the support ring decreases and the support - the guide ring on the pipeline is fixed and fixed with clamps, while simultaneously monitoring the tightening force of the support rings around the pipes the wires and check all the movable latches with a torque wrench, which is installed on the coupling screw of the device for assembling the support guide rings on the transition pipeline. 8. The transition according to claim 1, containing an informal rubber cuff for sealing the annular space, made both with a tap for the protective pipe of the fiber optic cable, and without tap, and consisting of two cylindrical sections connected by a conical part, characterized in that on the conical part the corrugation is made in the form of, for example, several semicircles, and the bend for the protective pipe of the fiber optic cable, the corrugation and bend is achieved by the fact that on the conical part of the mandrel of the informal rubber cuff is made and secured the mandrel of the corrugation removable mandrel for fiber optic cable, after which they manufacture an informal rubber cuff with corrugation and bend or with corrugation without bend, which eliminates the sliding of the rubber cuff from the casing (case) when moving the pipe with a protective pipe for fiber optic cable in linear and transverse directions during pipeline transition operation. 9. The transition according to claim 1, including a clamp-tie for attaching an informal rubber cuff to the pipeline, made of a crimp element, rolled into a ring, or in two half rings made of round metal, on the end parts of the crimp element at a distance of 40-150 mm from its end stops are mounted with holes, on the inside there are guides located parallel to the crimp element, taking into account the free passage between them when securing the rubber sleeve on the pipeline, characterized in that and the outer part of the crimping element from stop to stop by welding, a metal strip is fixed with a width equal, for example, to the width of the stops, eliminating the stretching of the crimping element and the destruction of the seats of the rubber sleeve when it is mounted on the transition pipe, while securing the rubber sleeve on the pipe with a diameter 114-445 mm, the clamp-clamp is made in the form of a ring, for pipelines with a diameter of 530-920 mm, the clamp-clamp is made in the form of two half rings, and for fastening the cuffs on pipelines of large diameters, the clamp The lance is made in the form of three sectors, each of which is structurally made in the same way as the clamp-coupler from a ring or from two half rings, providing the same functions. 10. The method of assembling the pipeline under roads, engineering structures, water barriers, characterized in that the lash of the transition pipeline of a given length is installed on the supports, so that from the lower part it is possible to freely attach the supporting half ring assembled from the segments at the manufacturer, and proceed to marking of the step and installation of support guide rings on the pipeline, at the end of the marking of the step of the support guide rings, they begin to assemble the fiber optic sensors on the pipeline, observing the condition that the dates they were in the free space between the support guide rings, after which they begin to assemble the half rings into the support guide rings on the transition pipeline, at that they take the half ring of the support guide ring with a rubber gasket and lay it on the pipeline where its installation location is determined, then take the second half-ring with a rubber gasket and is applied from the lower part of the pipeline opposite the upper half-ring and, in a similar way, as in the assembly of two segments, the end parts of the half-rings are started: lead-in unit top its half rings in the opening of the receiving node of the lower half ring, and the inlet node of the lower half ring in the opening of the receiving node of the upper half ring, then install the fixed and movable clamps in the seats, after which the movable clamp manually push towards the stationary clamp to engage them with each other, the half rings are fixed in ring with fastening elements, such as "herringbone", which are made on the lateral surfaces of the retainers, then for the final fastening of the support-guide rings on the pipeline e transitions are carried out using a device for assembling half rings into a support-guide ring on the transition pipeline, for which they take the device and its movable stop is installed from the end of the movable clamp, and the fixed stop is installed from the end of the fixed clamp, then the coupling screw is passed through the fixed hole stop in the threaded hole of the movable stop, the clamp screw has a stop to limit the passage to the fixed stop, and with the help of a wrench, rotate the end part of the clamp screw, and the movable stop moves the movable latch towards the fixed one, since the fixed latch is installed in a fixed seat, when it moves, the distance between the receiving and entry nodes increases due to the width of the latch, with further movement of the movable latch, which has the shape of a wedge, the receiving and entry nodes are further extended on the contrary, as a result, the diameter of the support ring decreases and the support-guide ring on the pipeline is fixed and fixed with clamps, after which check all the movable clips with a torque wrench, which is installed on the device’s turnbuckle, at the completion of the assembly of the support guide rings on the transition pipe, the protective pipe of the fiber optic cable is assembled, which is installed and fixed on the bracket between the sliding supports of the support guide rings, then the optical fiber assembly is assembled cable into the protective tube from the fiber optic sensors, and then to the front of the assembled pipeline on fiberglass support mounting rings are mounted on the guide rings with the protective pipe and the fiber optic cable - a device for securing the cable and pull the pipeline on the support rings in the casing (case); when the pipeline is pulled into the casing (case), a rubber sleeve is installed with a bend for the protective pipe of the fiber optic cable, they put a cuff on the pipeline and move it to the protective pipe of the fiber optic cable and to the casing (case), for this, first on the seats of the rubber cuff, on the pipeline, the casing (case) and the protective pipe of the fiber-optic cable is rewound with crude unvulcanized rubber, upon completion of the winding of the rubber, they begin to seal the annular space of the transition, which is carried out by installing the cylindrical parts of the rubber cuff on the seats of the pipeline, the casing (case) and on the protective pipe of the fiber-optic cable, and then fasten with cable ties screeds, depending on the diameter of the pipeline and the casing (case) and, having closed all flange connections on the pipelines, inject air into the inter the transition space, the pressure is supplied by the compressor and controlled by a pressure gauge welded into the casing (case), when the specified pressure for the informal rubber cuffs is reached, inspect and check them for air leakage in the sealing places, the specified pressure in the annulus of the transition is maintained for one hour , while maintaining this pressure value during this time, the annular space is considered airtight, after which shelters are installed to protect non-rubber rubber cuffs from damage and from the pressure of the soil, and carry out the commissioning, the operation of the gas and oil pipeline is carried out through a diagnostic system consisting of fiber optic sensors, a control fiber optic cable and an all-weather cabinet located on the earth's surface, which receives information from the sensors, from an all-weather cabinet, using a computer or various other data transmission systems at a distance, the following readings are taken about the operation of the pipeline in the annulus of the transition: pressure, temperature , pipeline deformation, humidity, the presence of water in the drainage device and the annular space, the displacement of the pipeline relative to the casing (case), gas contamination in the annular space and at the outlet of the vertical air ducts, the presence of an electrical contact between the main pipeline and the casing (case), which during operation determine technical condition of the transition.