RU2619663C1 - Unit for oil pressure stabilization in the system of greasing gas-pumping units - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: oil pressure stabilizing device in gas-pumping unit lubrication system is in the form of sandwiched between the upper and lower legs perpendicular to the collector cylinder lubrication gas-pumping unit comprising a housing, an upper and a lower cover, piston with sealing and guide tape. The upper cylinder is provided with a lid fitting to connect the duct, and the piston is adapted to linear movement. The air conduit includes a pressure regulator and is configured so that the air pressure was varied in the range of more than and less hazard warning setting time for the maximum operation time.

EFFECT: provision of the smooth start-up and connection of the emergency power supply of any kind for a separate pumping unit and guild emergency source.

4 cl, 2 dwg

Description

The invention relates to devices designed to stabilize the oil pressure in the lubrication system of gas pumping units for a period of time after a voltage loss in the supply network before the emergency generator is started.

Mounted auxiliary generators are known and widely used, in particular explosion-proof synchronous generators of the VSG-315 type [Electronic access mode: https://www.tvid.ru/price/vzryvozasisennye-sinhronnye-generetory-serii-vsg], designed to provide autonomous work and exceptions for emergency shutdowns of the gas pumping unit at low pressure in the lubricating oil system during voltage losses in the supply network.

Such a mounted auxiliary generator provides autonomous power to all auxiliary devices of the gas pumping unit, including the lubrication system, however, the said generator has a number of significant drawbacks, the main of which are:

- low reliability of the main components and parts of the generator;

- operating costs for repair, adjustment and maintenance of the generator in connection with the high cost of components and additional dismantling and installation work during the repair of the gas pumping unit;

- loss of useful power of the gas pumping unit of about 150-200 kW and, as a result, a decrease in gas transport volumes.

Emergency generators of various types are also known, including diesel generators, expander-generator sets, gas power plants designed to provide power to a gas pumping unit in the absence of input power.

The main disadvantage of this type of emergency generators is the need to start the generator, which takes about 8-30 seconds, after a voltage loss in the supply network, and over this period of time, the oil pressure in the lubrication system of the gas pumping unit drops to an emergency value (the so-called pressure drop), which causes its emergency stop.

The objective of the invention is to provide a device for stabilizing the oil pressure in the lubrication system of a gas pumping unit, which allows preventing oil pressure drops in the lubrication system of a gas pumping unit during the period of time after a voltage loss in the supply network before starting the emergency generator, and, as a result, preventing the emergency shutdown of the gas pumping unit by emergency low oil pressure.

The technical result achieved with the use of an oil pressure stabilization device in the lubrication system of a gas pumping unit is to ensure unhindered start-up and connection of emergency power supplies of any kind for a separate gas pumping unit and a workshop emergency source.

The task and the specified technical result are respectively solved and achieved by the fact that the device for stabilizing the oil pressure in the lubrication system of the gas pumping unit is made in the form of a gas cylinder pumping unit perpendicular to the lubrication collector, comprising a housing, upper and lower covers, a piston with at least one seal and a guide tape and an air duct, the upper cover of the hydraulic cylinder having a fitting for connecting the air duct, and the piston is made with linear movement between the upper position, in which when the oil pressure in the lubrication system of the gas pumping unit, the value of which exceeds the air pressure on the piston, said piston is in contact with the upper cover of the hydraulic cylinder filled with oil, and the lower position into which the piston moves under the influence of air pressure in case of an emergency drop in oil pressure in the lubrication system, thus displacing oil into the lubrication manifold of the gas pumping unit, while the air duct contains t is a pressure regulator that is adjusted to the required minimum pressure during operation of the device, and the air duct is designed so that the air pressure value varies in a range of values greater than the emergency and less than the warning setting to ensure maximum operating time of the device.

The task and the specified technical result are respectively solved and achieved by the fact that the device for stabilizing the oil pressure in the lubrication system of the gas pumping unit contains an emergency relief valve designed to relieve pressure when the piston is linearly moved up and the hydraulic cylinder is filled with oil.

The task and the specified technical result, respectively, are solved and achieved by the fact that in the device for stabilizing the oil pressure in the lubrication system of the gas pumping unit, the hydraulic cylinder housing contains a cup made of fluoroplastic, which prevents piston wear and sparking.

The task and the specified technical result, respectively, are solved and achieved by the fact that in the device for stabilizing the oil pressure in the lubrication system of the gas pumping unit, the hydraulic cylinder body of the proposed device is provided with thermal insulation for operating the specified device at elevated or low temperatures.

The device for stabilizing the oil pressure in the lubrication system of a gas pumping unit is illustrated by a description of its preferred embodiment and graphic materials, where in FIG. 1 shows a hydraulic cylinder of the device in longitudinal section, and FIG. 2 - the device is depicted in a state prepared for operation.

Next, with reference to the accompanying graphic materials, a device is described for stabilizing the oil pressure in the lubrication system of a gas pumping unit in accordance with a preferred embodiment of the invention.

The device for stabilizing the oil pressure in the lubrication system of a gas-pumping unit is a hydraulic cylinder located on the lower support 1 perpendicular to the lubricant collector 2 of a gas-pumping unit, comprising a housing 3, a top 4 and a bottom 5 cover, a piston 6 with at least one seal 7 and a guide tape 8 and an air duct 9.

The top cover 4 of the hydraulic cylinder is equipped with a fitting 10 for connecting the air duct 9.

The piston 6 is made with the possibility of linear movement between the upper position, in which, when the oil pressure in the lubrication system of the gas pumping unit, the value of which exceeds the air pressure on the piston 6, the piston 6 is in contact with the upper cover 4 of the hydraulic cylinder filled with oil, and the lower position, in which the piston 6 moves under the influence of air pressure during an emergency drop in oil pressure in the lubrication system, thus displacing oil into the lubrication manifold 2 of the gas pumping unit.

The air duct 9 contains a pressure regulator, adjustable to the required minimum pressure during operation of the device.

The air duct 9 is designed so that the air pressure value varies in the range of values greater than the emergency and less than the warning setting to ensure maximum operating time of the device.

In a preferred embodiment of the invention, the device for stabilizing the oil pressure in the lubrication system of a gas-pumping unit comprises an emergency relief valve (not shown in FIG.) Designed to relieve pressure by linearly moving the piston 6 up and filling the hydraulic cylinder with oil.

In a preferred embodiment of the invention, in order to avoid wear of the housing 3 and the piston 6 and to prevent sparking, the hydraulic cylinder housing 3 comprises a cup made of fluoroplastic (not shown in FIG.).

To maintain the required temperature, essentially corresponding to the temperature in the grease manifold 2, it is necessary to ensure continuous oil circulation, which is realized by means of an additional circulation line.

Also, when operating the proposed device in conditions of elevated or lowered temperatures, it is preferable to provide the casing 3 of the hydraulic cylinder with thermal insulation.

The following describes the operation of the device for stabilizing the oil pressure in the lubrication system of a gas pumping unit, made in accordance with a preferred embodiment of the present invention.

The main structural elements of the device for stabilizing the oil pressure in the lubrication system of the gas pumping unit are placed perpendicular to the position of the grease manifold 2.

On a stopped gas pumping unit, when the oil pressure in the lubrication system is zero, the piston 6 is lowered to the lower position under the influence of air pressure in the air duct 9.

When starting through the oil pump lubrication system of the gas pumping unit, the pressure increases and when the value exceeds the air pressure on the piston 6, the piston 6 starts linear movement to the upper position, and the cavity of the hydraulic cylinder is filled with oil. In this case, the piston 6 linearly moves upward until it contacts the top cover 4 of the hydraulic cylinder.

When the pressure in the lubrication system of the gas pumping unit is lower than the air pressure on the piston 6, the piston 6 begins to move downward under the influence of air pressure, displacing oil into the lubrication manifold 2 and thereby providing the necessary oil pressure in the lubrication system of the gas pumping unit.

The operating time of the proposed device is determined by the volume of the displaced oil under the piston 6. For this, the cross-sectional area of the piston 6 and the length of the housing 3 of the hydraulic cylinder are selected accordingly.

The parameters of the air duct 9 are determined in such a way that the air pressure value varies in a range of values greater than the emergency and less than the warning setting to ensure maximum operating time of the proposed device.

Thus, the use of the proposed device in the lubrication systems of gas-pumping units will eliminate pressure drops in the lubrication system of gas-pumping units when the voltage of the external network disappears and ensure:

- start-up and connection of emergency power supplies of any kind, both for a separate gas-pumping unit and a workshop emergency source;

- reliable operation of energy supply in all operating modes of the gas pumping unit;

- the exclusion of the use of expensive inverter systems;

- preservation of the useful power (150-200 kW) of the gas pumping unit and, as a result, an increase in the volume of gas transport.

Also, the use of the proposed device will allow you to abandon the use of the generator of own needs.

You must understand that the above example embodiment of the invention is not limiting the scope of the invention, and, after reading the present description, specialists in the art can offer many changes and additions to the described embodiment, all of which fall within the scope of legal protection of the invention defined by the combination of features of the claims.

Claims (4)

1. The device for stabilizing the oil pressure in the lubrication system of a gas pumping unit, made in the form of a hydraulic cylinder arranged perpendicular to the lubrication manifold of the gas pumping unit, comprising a housing, upper and lower covers, a piston with at least one seal and a guide tape and an air duct, the upper cylinder cover being provided with a fitting for connecting the air duct, and the piston is made with the possibility of linear movement between the upper position, in which at the oil pressure in the system In the case of a gas pumping unit, the value of which exceeds the value of the air pressure on the piston, said piston is in contact with the upper cover of the hydraulic cylinder filled with oil and the lower position, into which the piston moves under the influence of air pressure during an emergency drop in oil pressure in the lubrication system, thus displacing oil to the lubrication manifold of the gas pumping unit, while the air duct contains a pressure regulator that can be adjusted to the required minimum pressure during operation of the devices , Wherein the air duct is formed so that the air pressure was varied in the range of values greater and less hazard warning setpoint to ensure maximum operation. 2. The device according to p. 1, characterized in that it contains an emergency relief valve designed to relieve pressure during linear movement of the piston up and filling the hydraulic cylinder with oil. 3. The device according to p. 1 or 2, characterized in that the cylinder body contains a glass made of fluoroplastic, which prevents piston wear and sparking. 4. The device according to p. 1 or 2, characterized in that the cylinder body is provided with thermal insulation for operation in conditions of elevated or low temperatures.

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