RU213477U1 - DEVICE FOR HYDRAULIC AND PNEUMATIC TESTING OF PREVENTOR - Google Patents

Abstract

The utility model relates to the oil industry, namely to the testing of preventers designed to seal the wellhead in emergency situations. The device for hydraulic and pneumatic testing of the preventer contains a working platform fixed on the frame, on which a flange for mounting the preventer, a pump-compressor unit and a control panel are mounted. The control panel is installed behind a protective screen. The protective screen is made of steel sheet with a slot for glass. The protective screen is fixedly attached to the pump-compressor unit with its side. The bottom side of the protective screen is fixedly attached to the working platform. The height of the protective screen is at least two meters. The glass is impact resistant. The size of the glass provides an overview of the work area. The glass in the protective screen is fixed around the perimeter with plates. Achieved technical result - increased safety of work. 4 w.p. f-ly, 4 ill.

Description

The utility model relates to the oil industry, namely to the testing of preventers designed to seal the wellhead in emergency situations.

Known stand for pressure testing of oil and gas equipment according to the RF patent for the invention No. 2190081. The invention relates to the gas and oil production and exploration industries and is intended for hydraulic testing of oil and gas equipment. The stand for pressure testing of gas and oil field equipment consists of a high-pressure pumping unit, a line for injecting a working fluid. There is a system for controlling, regulating and monitoring the pressure of the injected working fluid. The node for mechanized sealing of the joint between the pressing and reinforcing flanges contains an adapter coil with a blind bottom and a mating flange at the top. The system of separate supply of the working fluid provides pressure regulation when the fluid is supplied to the cavity of the equipment under test and to the mechanized joint sealing unit. The reliability and quality of hydraulic tests are increased, the range of test pressures is expanded. The disadvantage of the invention is the inability to test oil and gas equipment in the field.

Known hydropneumatic station for hydraulic testing and pressure testing of blowout equipment according to the RF patent for invention No. 2720429. The invention relates to the oil and gas industry, to devices for hydraulic testing and pressure testing of blowout equipment. The hydropneumatic station includes a hydraulic circuit for testing hydraulic drives of the preventer, containing a tank designed to fill with working fluid, a hydropneumatic pump connected to the tank and connected to an air preparation unit, a pressure test pipeline designed to supply working fluid to the hydraulic drives of the preventer, connected to a hydropneumatic pump, connected to the pressure test pipeline: pressure gauge, pneumatic accumulator, two-section hydraulic distributors; outlets with quick coupling connected to hydraulic distributors; the pressure test pipeline is equipped with a ball valve to shut off the supply of working fluid to the pressure test pipeline and a safety valve connected to the drain pipeline. The station also includes an ultra-high pressure hydraulic circuit for pressure testing, containing a pressure pressure pipeline designed to supply working fluid to the pressure testing hydraulic system, connected to the pressure test pipeline to the section in front of the ball valve, including a high pressure manometer, high pressure shut-off valves, a safety valve associated with drain pipe, high pressure outlet. The station also includes: an air preparation unit containing a source of compressed air, a pressure regulator, an air pressure gauge; control panel, on which controls the flow of the working fluid and elements for controlling the parameters of the working fluid for controlling the hydraulic drives of the preventer and pressure testing, including the handles of the hydraulic distributor, the handles of the stop valves, the pressure regulator, and pressure gauges are mounted. The technical result consists in making it possible to carry out pressure testing of the body and test the performance of hydraulic drives of blowout preventer equipment by separate supply of the working fluid to check the strength and tightness of the body and the working fluid to check the performance and tightness of hydraulic drives. The disadvantage of the hydropneumatic station is the complexity of its design.

Known test bench for industrial pipeline fittings according to the RF patent for the invention No. 2159419. The invention relates to testing equipment and relates to the creation of a bench for testing industrial pipeline fittings. The stand has a base, a table, a column with a traverse made with fastening elements, as well as a pump. The column is equipped with a console, and the stand is equipped with an additional table with fastening elements. An additional table expands the range of tested products. The console has the ability to rotate around the axis of the column at an angle of 180o. The console can be made with a roller bearing. The traverse can be suspended on the rod of the hydraulic cylinder. It is expedient to make fastening elements on the table and traverse in the form of supports and levers pivotally mounted on supports, resting at one end on the hydraulic cylinder rod and pressing the flanges of the tested product with the other end. The technical result of the implementation of the invention is to expand the technical capabilities of the range of tested products and to reduce the amount of manual labor. The disadvantage of the test bench is the lack of field testing of blowout protection equipment

Known stand for testing the strength of blowout equipment according to the RF patent for utility model No. 52131. The utility model can be used for strength testing of blowout preventer equipment in the oil industry. The stand contains a clamping device with seals for the contacting surface of the flange and with a channel for communication with the source of the working fluid to fill the internal cavity of the blowout prevention equipment. The clamping device contains a hydraulic cylinder, on the rod of which a table is installed through a seal. The hydraulic cylinder is pinned to a plate with T-shaped radial grooves, in which the grippers move, ensuring that the flange of the equipment under test is pressed against the table. The hydraulic cylinder rod has a cavity into which the pipe of the BOP equipment under test enters. The disadvantage of the stand is the lack of field testing of blowout prevention equipment.

Known test stand for the patent of the Russian Federation for utility model No. 61778 (prototype). The stand for testing oil and gas field and blowout prevention equipment for tightness and strength, contains a base, a lower flange fixed on the base, which serves to install on it and fix one of the flanges of the tested object on it and has a channel for supplying liquid into the cavity of the tested object and a channel for draining the liquid from these cavities, and the upper flange, which serves to install it on the second flange of the test object fastened to it, and also contains a system for supplying liquid to the specified object, including a pumping station and a high-pressure hose for supplying fluid from the pumping station to the lower flange of the stand, with In this case, each of the flanges of the stand has fastening holes located along the same circumference, designed for the passage of fasteners when fastening the flanges of the stand and the flanges of the tested object, and the location of these holes corresponds to the location of the fastening holes of the flanges of the tested object. The lower flange on its surface facing the upper flange has an annular groove for the gasket. The lower flange is provided with a fitting screwed into the liquid supply channel, while the high pressure hose for supplying liquid is connected to the fitting. The lower flange is equipped with a fitting screwed into the channel for draining the liquid, while a drain cock is connected to the fitting through a gasket. The top flange has a hole for air displacement, closed with a plug. The top flange is provided with two eyebolts for transport. The lower and upper flanges are identical in their configuration and dimensions to the flanges of the tested object connected to them. The pumping station contains a liquid tank and a hand pump with a suction hose lowered into the tank. A pressure gauge, a pressure fitting to which a high-pressure hose is attached, and a drain fitting are installed on the high-pressure chamber of the pump. A tap is fixed to the drain fitting through a gasket, to which a drain hose is connected, lowered into the tank. The liquid tank has a lid and a carrying handle. The tank cover has a cutout for the passage of the suction hose. The suction hose is equipped with a filter. The stand is equipped with a fence covering the test area, in which there is a base with a test object fixed on it. The fence is made collapsible and consists of four supports and three shields mounted on the supports, while two side shields are connected by their sides to the sides of the central shield with the possibility of rotation relative to the latter. In the shields of the fence there are viewing windows equipped with laminated glass.

The disadvantage of the test bench is that it is made stationary and is not intended for testing in the field. Only the top flange can be transported. The lack of the possibility of transportation increases the test time by the time of moving the test object to the stand and back to the drilling rig. Also a disadvantage is the fencing shields that are not fixed to other elements of the stand structure, which can lead to injury to the operating personnel when they are moved in case of depressurization of the test object.

The task of creating a utility model is to increase the safety of work.

The solution of these problems is achieved due to the fact that the device for hydraulic and pneumatic testing of the preventer contains a working platform fixed on the frame, on which a flange for mounting the preventer is mounted, a pump-compressor unit and a control panel, characterized in that the control panel is installed behind a protective screen, moreover, the protective screen is made of a steel sheet with a slot for glass, the side side of the protective screen is fixedly attached to the pump-compressor unit, and the lower side is fixedly attached to the working platform. The height of the protective screen is at least two meters. The glass is impact resistant. The size of the glass provides an overview of the work area. The glass in the protective screen is fixed around the perimeter with plates.

The proposed technical solution has novelty and industrial applicability, i.e. all criteria of the utility model. The novelty of the technical solution is confirmed by patent research. Industrial applicability is due to the fact that in the manufacture of a device for hydraulic and pneumatic testing of a preventer, non-deficient materials and well-known technologies are used.

The essence of the utility model is illustrated in Fig. 1-4, where

in fig. 1 - device for hydraulic and pneumatic testing of the preventer,

in fig. 2 is a side view of a device for hydraulic and pneumatic testing of a preventer,

in fig. 3 - top view of the device for hydraulic and pneumatic testing of the preventer,

in fig. 4- fixing glass with plates.

The device for hydraulic and pneumatic testing of the preventer consists of a working platform 2 fixed on the frame 1, on which a flange 3 for mounting the preventer, a pump-compressor unit 4 and a control panel 5 are mounted, the frame 1 with the working platform 2 is made removable and can be installed on a car. chassis, ground or sledge, and the control panel 5 is installed behind a protective screen 6, and the protective screen 6 is made of a steel sheet with a slot for glass 7. The protective screen 6 with its side 8 is fixedly attached to the pump-compressor unit 4. The protective screen 6 with its lower side 9 is fixedly attached to the working platform 2. The height of the protective screen 6 is at least two meters. Glass 7 is made impact-resistant. Glass size 7 provides an overview of the working platform 2. Glass 7 in the protective screen 6 is fixed around the perimeter with plates 11.

The device for hydraulic pneumatic testing of the preventer works as follows.

The device is installed on a truck chassis, ground or sled in the immediate vicinity of the drilling rig. The preventer is attached to the flange 3 on the working platform 2. The operator, using the control panel 5 in accordance with the program, performs hydraulic and pneumatic tests of the preventer. At the same time, he is behind the protective screen 6 and can visually observe the testing process through the glass 7. A successfully tested BOP is installed at the wellhead. The use of the utility model made it possible to increase the safety of work and provide visual control over the hydraulic and pneumatic tests of the preventer.

Claims (5)

1. A device for hydraulic and pneumatic testing of a preventer, containing a working platform fixed on a frame, on which a flange for mounting the preventer, a pump-compressor unit and a control panel are mounted, characterized in that the control panel is installed behind a protective screen, and the protective screen is made of steel sheet with a slot for glass, the side side of the protective screen is fixedly attached to the pump-compressor unit, and the bottom side is fixedly attached to the working platform. 2. A device for hydraulic and pneumatic testing of a preventer according to claim 1, characterized in that the height of the protective screen is at least two meters. 3. A device for hydraulic and pneumatic testing of the preventer according to claim 1, characterized in that the glass is made impact-resistant. 4. A device for hydraulic and pneumatic testing of the preventer according to claim 1, characterized in that the size of the glass provides an overview of the working area. 5. A device for hydraulic and pneumatic testing of the preventer according to claim 1, characterized in that the glass in the protective screen is fixed around the perimeter with plates.

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