RU2614952C1 - Well multi-way switch - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: well multi-way switch contains a body with radial type holes for the working fluid feed pipes connection, the cover mounted on the body, inside which the rotating hollow shaft is placed along the longitudinal axis. The shaft is connected to the measurement channel, formed as a tee, and a movable carriage, which is fixed by means of rollers and spring opposite to each liquid supply pipe. On the inner working surface of the body, the arc inserts with radial holes are mounted, coinciding with the radial holes in the body. The tee is arranged between the upper and lower end stops, formed on the hollow shaft, and communicates with the hollow cylinder. The movable carriage with rollers is installed on the cylinder. The cylinder is rigidly fixed in the plate hole, connected to the upper and lower end stops, by means of the cranks installed on them. At the upper end stop there is the pin with the ability to be located in the tee groove. On the both end stops there are balls uniformly positioned along the perimeter with ability to rotate around the shaft axis of the tee.

EFFECT: increase of durability and reliability in operation, ease of the maintenance and repair, ensuring high performance characteristics of the switch.

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Description

The invention relates to the oil field and is intended for manual and automatic switching of the direction of oil flow in automated group metering installations from the supply pipes from the well to the metering device.

Known multi-way well switch (RF patent 2505729, IPC F16K 11/085, published January 27, 2014), comprising a housing with several inlet nozzles and one common outlet nozzle, a cover with a nozzle for connection to a measuring device, a hollow shaft between the body cavities and covers. In the housing, channels are made from each inlet pipe to the inner surface of the flat bottom portion, one of the inlet pipes through the channel in the housing communicates with a hollow rotary selector pressed by the spring to the bottom of the housing and having a seal with a flat bottom of the housing, the rotary selector is connected to the shaft, while the remaining inlet nozzles of the housing communicate with the common outlet of the housing. A removable part can be installed inside the bottom of the case to protect the case and the possibility of repair without dismantling the case by replacing the replacement part. The seal between the selector and the mating part can be performed "metal on metal". The positioning of the selector is carried out by balls on a flat surface with recesses.

This device has a high complexity, the inability to process some parts, leads to an increase in the overall dimensions and mass of the multi-way switch wells; Designed for use with multi-way switch wells with eight inlet nozzles. The closest technical solution is a multi-way well switch (RF patent No. 2529270, IPC F16K 11/085, published September 27, 2014), which contains a housing with holes for connecting the nozzles for supplying working fluid, a hydraulic actuator. The hydraulic actuator consists of a housing, a hydraulic cylinder, a spring-loaded piston connected to a gear rack kinematically connected with a gear and a ratchet divider. The ratchet divider is connected to a rotating shaft to switch the measuring channel to the nozzles for supplying the working fluid. The measurement channel is made in the form of a tee with a movable carriage. The tee moves freely along the axis of the hollow shaft. The movable carriage is limited from turning around its axis by the tee stops and is fixed by means of rollers and a spring, opposite the inlet pipe, adjacent to the weld-on wear-resistant surface of the housing. To prevent corrosion and wear of the inner working surface of the body, it is proposed to surfacing with a stainless alloy.

This device has a high complexity of manufacturing and deposition on the body; the high cost of repairing the case, since it requires complete dismantling of the device; low maintainability in the field; low reliability of the rubber seal between the housing and the rotary mechanism; corrosion and erosion wear of the guide grooves, leading to an increase in their depth; the possibility of jamming due to mechanical impurities and salts entering the gap; fragility of the case, despite the stainless steel alloy surfacing.

The objective of the invention is to improve the usability of the switch, the possibility of repair in the field, increase reliability.

The technical result consists in improving the operational characteristics due to the constructive implementation, which ensures the elimination of leaks between the housing and the fluid supply pipes, the reduction of corrosion and erosion wear of the guide grooves, and the prevention of jamming of the switch. The indicated technical result is achieved by a multi-way well switch comprising a housing with radially made holes for connecting fluid supply nozzles, a cover mounted on the housing, inside of which a rotational hollow shaft is placed along the longitudinal axis, connected to a measuring channel made in the form of a tee, and with a movable carriage, fixed by means of rollers and a spring opposite the fluid supply pipe. In contrast to the prototype, arc inserts with radial holes matching the radial holes in the housing are fixed on the inner working surface of the housing, and the tee is placed between the upper and lower stops made on the hollow shaft and communicates with the hollow cylinder on which the movable carriage with rollers is mounted and which rigidly fixed in the hole of the plate connected to the upper and lower stops by means of cranks mounted on them, and on the upper stop a spike is made with the possibility of its location in the groove t spade, and on both stops, balls are evenly spaced around the perimeter with the possibility of rotation of the tee around the axis of the shaft.

The invention is illustrated by drawings, where in figures 1,2 shows the design of the device.

The multi-way well switch contains a housing 1 with holes radially made in it for connecting fluid supply nozzles from the well and one outlet nozzle to a common manifold (the position is not indicated in the drawing), a cover 2 with an outgoing metering nozzle (the position is not indicated in the drawing), a rotating shaft 3 with upper and lower stops, respectively 4 and 5, between which there is a tee 6. On the stops 4 and 5, cranks are fixed 7. The tee communicates with a hollow cylinder 8 on which a movable carriage 9 with rollers 10 is installed and which th is rigidly fixed in an aperture plate 11, connected to the upper and lower stops by cranks 7. hollow cylinder 8 is set spring 12 from the tee and the spring 13 from the movable carriage. Balls 14 are located on the upper and lower stops for smooth movement of the tee 6 relative to the stops 4 and 5 and to prevent jamming of the switch, as well as for self-centering of the tee relative to the holes on the housing. On the upper stop 4, a spike 15 is made, and on the tee 6 a groove 16 is made under it, the length of which is larger than the size of the spike. In the housing 1 on the inner cylindrical surface are fixed arc inserts 17 with radial holes 18 that coincide with the radial holes on the body. Gaskets 19 are installed between the arc inserts and the casing. In the arc inserts, guide grooves 20 are made with recesses 21 located opposite each hole 18.

The switch wells multi-way works as follows.

From the drive (not shown in the drawing), the rotation is transmitted to the rotating shaft 3 and the upper stop 4 with the spike 15 and the lower stop 5 rigidly fixed thereon. During the rotation of the rotary shaft 3 and the tenon 15 is moved from one wall of the groove 16 of the tee 6 to contact with another the wall using the cranks 7, the hollow cylinder 8 moves along its axis, at which one end enters the tee 6 and the other leaves the hole 18 of the arc insert 17. When the spike 15 on the upper stop 4 reaches the extreme wall of the groove 16 of the tee 6, which rotates shaft 3 passes tee, while the hollow cylinder 8 and the carriage 9 mounted on it with rollers 10 together with the tee 6 begin to rotate from one hole to another on the housing 1. During rotation, the carriage with rollers 10 moves along the guide grooves 20 and is clearly fixed in the recesses 21 opposite each radially made hole 18 in the arc inserts 17 using a spring 13 mounted on the hollow cylinder 8 from the side of the carriage 9. After turning and fixing the carriage 9 with the rollers 10 using the spring 12 mounted on the hollow cylinder 8 with side of the tee 6, the rotating shaft 3 together with the upper stop 4 and the lower stop 5 returns to its original position, the hollow cylinder 8 is moved into the inner cavity of the hole 18 of the arc insert 17 and is installed in the gasket 19, thereby preventing fluid leakage. The bolt fastening 22 of the arc inserts to the housing does not prevent the carriage 9 from moving and moving the rollers 10 along the guide grooves 20, since it is recessed on the inner surface of the arc inserts. In the case of wear of the guide grooves 20 on the arc inserts 17, jamming of the carriage 9 with the rollers does not occur, because, unlike the prototype, the main purpose of the carriage 9 is only to fix opposite each radially made hole in the housing 1. Due to the clear fixation of the carriage 9 opposite each radially the hole in the housing ensures the coincidence of the hollow cylinder 8 with the inner cavity of the hole 18 of the arc insert 17. The end of the hollow cylinder 8 included in the inner part of the hole is made in this way m, which ensures its tight abutment to the gasket 19 and coincidence with a hole in the arc box 17 in contact with solids in the gap at the time of switching. There will be no distortions during switching and operation, and therefore there will be no jamming, since the tee 6 is simultaneously self-centering with the hollow cylinder 8 and the movable carriage 9 and moves between the upper stop 4 and the lower stop 5.

In the case of severe wear of the guide grooves 20 on the arc inserts 17 there is no need for complete dismantling of the multi-path switch wells. To repair and replace the arc inserts of the switch, it is necessary to remove the cover 2, unscrew the bolt fastener 22 and dismantle the arc inserts 17 with worn guide grooves 20. There is no need to dismantle the rotating shaft 3, tee 6, hollow cylinder 8 and carriage 9 with rollers.

Thus, the claimed multi-path well switch provides increased durability, ease of maintenance and repair, reliability, and most importantly - high performance.

Claims (1)

A multi-way well switch, comprising a housing with radially made holes for connecting fluid supply nozzles, a lid mounted on the housing, inside of which a rotational hollow shaft is placed along the longitudinal axis, connected to a measuring channel made in the form of a tee, and with a movable carriage fixed by means of rollers and springs opposite the fluid supply pipe, characterized in that on the inner working surface of the housing are fixed arc inserts with radial holes matching radial holes in the housing, and the tee is placed between the upper and lower stops made on the hollow shaft and communicates with the hollow cylinder on which the movable carriage with rollers is mounted and which is rigidly fixed in the hole of the plate connected to the upper and lower stops by means of cranks mounted on them, on the upper stop, a spike is made with the possibility of its location in the groove of the tee, and on both stops, balls are installed evenly around the perimeter with the possibility of rotation of the tee around the shaft axis.

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