RU213138U1 - MONOBLOCK JET FOR HYDRAULIC RING VALVE - Google Patents

Abstract

The utility model relates to drilling technology, namely to valve devices that throttle the flow of the working fluid (oil) in the hydraulic part of the drilling jar and create a hydraulic delay. A monoblock jet contains a housing and a throttle block located in it in series, consisting of several throttle washers, the axes of the holes in which are offset relative to each other, a fine filter made of pressed metal powder, and a tightening nut with an external thread and a through hexagonal hole. The housing consists of two hollow cylinders of different diameters made in one piece, a mesh filter is fixed at the end of the housing of a smaller diameter. On the outer surface of the housing, the transition from a cylinder of a smaller diameter to a cylinder of a larger diameter is made in the form of a chamfer. From the end of the body of a larger diameter, a conical thread is made so that the outer diameter of the thread decreases from the end of the body to the body of the body. A cylindrical thread is made on the inner surface of the body from the end of the body of a larger diameter. The transition from a cylinder of a larger diameter to a cylinder of a smaller diameter forms an annular end, to which the said throttle block and the fine filter are attracted by means of the said tightening nut. The tightening nut is additionally integrally connected to the body. EFFECT: technical result is achieved - increasing the accuracy of the hydraulic delay time of the jar due to the elimination of leaks. 1 w.p. f-ly, 1 ill.

Description

Field of technology to which the utility model belongs

The utility model relates to drilling technology, namely to valve devices that throttle the flow of the working fluid (oil) in the hydraulic part of the drilling jar and create a hydraulic delay.

The drill jar is designed to free the drill string from sticking in the well by creating repetitive up and down dynamic shocks. Hydraulic delay is the most important technical characteristic of jar operation.

The utility model belongs to the priority direction of state policy in the development of the oil and gas industry in terms of import substitution.

State of the art

The release from sticking of the drill string in the well occurs as a result of the transformation of the energy of the stretched (compressed) drill string into the kinetic energy of the impact of the inner part of the jar on the ledges - the anvil, at a certain tension of the string. The working medium for moving the internal part is hydraulic fluid (oil). The impact force is controlled by tension (unloading) of the drill string during the hydraulic delay. Hydraulic delay is the most important technical characteristic of the jar operation, during which (30-150 sec) the maximum tensile (compressive) load is reached, transferred to the jar parts to prevent damage to it.

The hydraulic delay is created by a dosing device located in the hydraulic part of the jar.

From the existing prior art it is known that in order to create a hydraulic delay, a hydraulic annular valve is used, in which a valve device is installed that limits the flow of the working fluid and consists of a jet, a filter made of "sintered" bronze powder with a porosity of 25-50%, and a hollow screw with an internal hexagon for circulation of the working fluid - oil (see patent RU 2521993, IPC E21V 31/113, published 07/10/2014; RU 2540372, IPC E21V 31/113, published 02/10/2015).

The disadvantage of this design is that the valve device, which limits the flow of the working fluid, includes independent parts that are not connected to each other (a jet, a filter made of “sintered” bronze powder and a hollow screw with an internal hexagon). When parts of the valve device are installed in the annular valve, gaps often form between them and the surface of the axial opening of the valve (misalignment relative to the axis of the axial opening of the valve), as a result, the contaminated working fluid flows through the gaps, contamination of the parts of the valve device, especially the jet (metering device), abrasive particles accumulated in the working fluid (oil), as well as particles of wiping material that enters during maintenance of parts of the valve device. This, in turn, leads to a decrease in the service life of the metering device, a decrease in the wear resistance of the elements of the drilling jar, a violation of the stability of the specified time of the hydraulic delay of the jar, and a decrease in the reliability of the jar.

Another disadvantage of this design is the high time required to replace contaminated parts of the valve device with cleaned or re-installed parts of the valve device. Each part of the valve assembly is removed and then installed individually.

The disadvantages also include the fact that a significant number of parts of the valve device, in particular, dosing and filtering devices, screws, are imported from abroad, which significantly increases their cost. It is known that, for example, Lee Visco Jet devices manufactured by The Lee Company (USA) are widely used as dosing devices.

From patent RU 2 544 352 (MPK E21B 31/113, published on February 10, 2015) it is known that in the annular valve in front of the valve device a filter of “sintered” bronze powder with a porosity of 25-50% and a hollow screw with an internal hexagon for circulation of the working liquid-oil in the valve device, designed to secure the filter and bypass valve with a calibrated hole. The valve device, containing a filter, a hollow screw and a bypass valve with a calibrated hole, is installed in the annular valve in such a way that it shuts off and limits (throttles) the flow of the working fluid.

The disadvantage of this design is that the bypass valve with a calibrated hole, the filter made of "sintered" bronze powder and the hollow screw with an internal hexagon are independent parts of the valve device, they are installed separately, therefore, gaps often form between them and the surface of the axial hole of the valve (misalignment relative to the axis of the axial hole of the valve), as a result, the contaminated working fluid flows through the gaps, the parts of the valve device, especially the bypass valve with a calibrated hole, are contaminated with abrasive particles accumulated in the working fluid (oil), as well as particles of wiping material that enters when servicing parts of the valve assembly. This, in turn, leads to a decrease in the service life of the metering device, a decrease in the wear resistance of the elements of the drilling jar, a violation of the accuracy of the specified time of the hydraulic delay of the jar, and a decrease in the reliability of the jar.

Another disadvantage of this design is the high time required to replace contaminated parts of the valve device with cleaned or re-installed parts of the valve device. Each part of the valve assembly is removed and then installed individually.

The disadvantages also include the fact that a significant number of parts of the valve device, in particular, dosing and filtering devices, screws, are imported from abroad, which significantly increases their cost. It is known that, for example, Lee Visco Jet devices manufactured by The Lee Company (USA) are widely used as dosing devices.

An improved valve used in a hydraulic drilling jar is known, a metering device, an additional filter, a hollow screw with a hexagonal inner hole are used in the bypass channel of the valve (Patent US 5 123 493, IPC E21B 31/113, published 06/23/1992). As a dosing device, a device under the brand name "Visco Jet" is used.

The disadvantage of this design is that the dosing device and the additional filter are independent parts of the hydraulic valve, they are installed separately in the bypass channel of the valve. When parts of the valve device are installed in the annular valve, gaps often form between them and the surface of the axial opening of the valve (misalignment relative to the axis of the axial opening of the valve), as a result, the contaminated working fluid flows through the gaps, contamination of the parts of the valve device, especially the jet (metering device), abrasive particles accumulated in the working fluid (oil), as well as particles of wiping material that enters during maintenance of parts of the valve device. This, in turn, leads to a decrease in the service life of the metering device, a decrease in the wear resistance of the elements of the drilling jar, a violation of the accuracy of the specified time of the hydraulic delay of the jar, and a decrease in the reliability of the jar.

Public information about the analogues of the utility model known to the applicant with the selection of the analogue closest to the utility model in terms of its scope, the totality of the features declared in this utility model and the purpose of the claimed utility model (prototype) have not been identified.

The technical problem to be solved by this utility model is to increase the protection of the dosing device from contamination, increase the accuracy of the hydraulic delay time of the jar, as a result, increase the reliability of the jar, increase the accuracy of controlling the effort to release the drill string from sticking, reduce the installation time of the dosing device in hydraulic ring valve.

Another technical problem, which the utility model is aimed at, is the import substitution of used expensive foreign products with an economically advantageous device of domestic production.

The essence of the technical solution lies in the fact that the valve device for the hydraulic annular valve used in the drilling jar is a monoblock jet, which contains a housing and a throttle block arranged in series in it, consisting of several throttle washers, the axes of the holes in which are offset relative to each other , a fine filter made of pressed metal powder, and a tightening nut with an external thread and a through hexagonal hole, while the housing consists of two hollow cylinders of different diameters made in one piece, a mesh filter is fixed on the end of the housing of a smaller diameter, on the outer surface of the housing the transition from a cylinder of a smaller diameter to a cylinder of a larger diameter is made in the form of a chamfer, and a conical thread is made from the end of the body of a larger diameter so that the outer diameter of the thread decreases from the end of the body to the body of the body, on the inner surface of the body from the end of the body of a larger diameter a cylindrical thread is made, and the transition from a cylinder of a larger diameter to a cylinder of a smaller diameter forms an annular end, to which the said throttle block and a fine filter are attracted by means of the said tightening nut, the said tightening nut is additionally permanently connected to the body.

In the monobloc jet for the hydraulic ring valve, said strainer and compression nut are laser welded to the jet body.

The technical result of the claimed technical solution is the creation of a new valve device for a hydraulic annular valve, namely a monoblock jet that combines a dosing device, a filter and a screw with an internal hexagon into one unit and is designed to throttle the working fluid (oil) and provide a given time of hydraulic delay of the drilling jar , while reducing the installation time of the valve device in the channel of the annular valve, increasing the ease of maintenance of the valve device, eliminating distortions of the parts of the monoblock jet, namely the throttle block and the fine filter, relative to the axis of the body of the monoblock jet, and, consequently, the gaps between the specified parts of the monoblock jet jet and the inner surface of the body of a monoblock jet, eliminating the flow of the working fluid (oil) through the gaps due to the absence of the latter, increasing the protection of the metering device from contamination, increasing the accuracy in the jar hydraulic delay time, as a result, increasing the reliability of the jar, increasing the accuracy of controlling the force to release the drill string from sticking.

The technical result is also the import substitution of widely used expensive foreign products with an economically advantageous device of domestic production.

The essence of the device is illustrated in the drawing, which shows a monoblock jet for a hydraulic annular valve in a longitudinal section.

In the hydraulic annular valve 1, a monoblock jet 2 is installed, which contains a housing 3 and located in the housing 3 in series a throttle block 5, consisting of several throttle washers, the axes of the holes in which are offset relative to each other, a fine filter 6, made of pressed metal powder, and tightening nut 7 with an external thread and a hexagonal through hole.

Housing 3 consists of two hollow cylinders of different diameters made in one piece. The smaller diameter cylinder has an outer diameter equal to the diameter of the corresponding mating hole in the annular valve 2.

A mesh filter 4 is fixed at the end of the body 3 of a smaller diameter, the mesh filter 4 is connected to the body 3 by means of laser welding.

On the outer surface of the body 3, the transition from a cylinder of a smaller diameter to a cylinder of a larger diameter is made in the form of a chamfer 9, and a conical thread 8 is made from the end of the body of a larger diameter so that the outer diameter of the thread decreases from the end face of the body 3 to the body of the body 3. Tapered thread 8 by the outer surface of the body 3 corresponds to the tapered thread on the annular valve 1.

On the inner surface of the body 3 from the end of the body 3 of a larger diameter, a cylindrical thread is made, and the transition from a cylinder of a larger diameter to a cylinder of a smaller diameter forms an annular end 1G, to which a throttle block 5 and a fine filter 6 are attracted by means of a tightening nut 7. Cylindrical thread on the inner surface of the body 3 corresponds to the external thread of the tightening nut 7.

Compression nut 7 is additionally integrally connected to body 3, which allows using the hexagonal hole in compression nut 7 to install monobloc jet 2 into annular valve 1. Compression nut 7 is additionally connected to body 3 by laser welding.

The principle of operation of the device is as follows. The monoblock jet 2 is installed in the hydraulic annular valve 1 by screwing along the fastening and sealing tapered thread 8 using a hex socket wrench (not shown). The monoblock jet 2 is installed in the hydraulic annular valve 1 flush with the surface of the hydraulic annular valve 1 or with a recess limited by a chamfer 9 on the body 3 of the monoblock jet 2. The centering of the monoblock jet 2 in the annular valve 1 is carried out along the hole in the annular valve 1, which is in contact with a part of the body 3 monoblock jet 2, which has a smaller diameter. This design allows you to direct the entire flow of the working fluid (oil) through a monoblock jet 2 (fine filter 6 and throttle block 5), the flow of the working fluid (oil) between the inner surface of the housing 3 and the ends of the throttle washers included in the throttle block 5, a fine filter cleaning 6 does not occur, which increases the accuracy of the time of the hydraulic delay of the jar, as a result, increases the reliability of the jar, increases the accuracy of the force control to release the drill string from sticking. The absence of the specified overflow of the working fluid (oil) increases the protection of the metering device (throttle package 5) from contamination by abrasive particles. The design of a monoblock jet 2 reduces the time for its installation, maintenance and replacement, increases the convenience of its maintenance.

Monobloc orifice can be made according to the given dimensions of the channel in the hydraulic annular valve.

The operability and efficiency of the technical solution is confirmed by full-scale tests. Positive test results confirmed the possibility of its practical application.

Claims (2)

1. A monoblock jet for a hydraulic annular valve, characterized in that it contains a housing and a throttle block located in it in series, consisting of several throttle washers, the axes of the holes in which are offset relative to each other, a fine filter made of pressed metal powder, and a tightening a nut with an external thread and a through hexagonal hole, while the body consists of two hollow cylinders of different diameters made in one piece, a strainer is fixed on the end of the body of a smaller diameter, on the outer surface of the body the transition from a cylinder of a smaller diameter to a cylinder of a larger diameter is made in the form of a chamfer , and a conical thread is made from the end of the body of a larger diameter so that the outer diameter of the thread decreases from the end of the body to the body of the body, a cylindrical thread is made on the inner surface of the body from the end of the body of a larger diameter, and the transition from a cylinder of a larger diameter to a cylinder of a smaller diameter forms an annular end, to which said throttle block and a fine filter are attracted by means of said tightening nut, said tightening nut is additionally permanently connected to the housing. 2. A one-piece jet for a hydraulic ring valve as claimed in claim 1, wherein said strainer and compression nut are laser welded to the body.

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