WO2015043607A1 - Universal gas-hydraulic differential pressure control valve - Google Patents

Abstract

The invention relates to the field of fluid regulators, and more particularly to adjustable flow regulators, and can be used in various technical fields for controlling with a high degree of precision the differential pressure of a flow of fluid, and can also be used as a shutoff valve, a return valve or an emergency valve and for the metered supply of a fluid. Inside the valve, in the flow passage, there is mounted a movable load of fixed weight, by which the differential pressure is controlled. The weight of the load can be adjusted by the installation or removal of additional adjusting plates, for which purpose a projection in the form of a rod and a screw for securing the plates are provided at the top of the movable load. The universal gas-hydraulic valve maintains a set differential pressure with a high degree of accuracy irrespective of pressure surges in the supply system. The valve can be used as a regulator of the differential pressure of a flow of a gas or liquid, as a shutoff valve or as a return valve. The valve can also be used as an emergency valve which, in the event that a set pressure is exceeded, directs the flow via a discharge pipe into a drainage pipe. The valve can also be used as a metering valve capable of smoothly altering the flow rate or gradually altering the flow rate in given increments according to the pressure.

Description

 UNIVERSAL GAS HYDRAULIC VALVE FOR

 PRESSURE DIFFERENCE CONTROL

DESCRIPTION

The invention relates to the field of fluid controllers, in particular to adjustable flow controllers, and can be used in various technical fields to control the pressure difference of a fluid flow with high accuracy, as well as a shut-off, non-return, emergency valve, and for dosed flow fluid flow.

The valve can be used as a regulator of the pressure difference of a gas or liquid flow; as a check valve. The valve can also be used as an emergency valve, when the specified pressure of the flow directing through the discharge pipe to the drainage pipe is exceeded. The valve can also be used as a metering valve, capable of smoothly changing the flow rate or stepwise changing the flow rate with a predetermined step depending on the pressure.

By the totality of the characteristics, there is no similar valve that would combine the above functions of a universal gas-hydraulic valve and possess the listed methods of using a universal gas-hydraulic valve.

In the prior art, a pressure differential regulator is known having an inlet motor control valve, a rod connected to the membrane or bellows, and a space under the membrane in communication with the inlet. The principle of operation of such a regulator is as follows: high pressure in front of the motor control valve is transmitted to the cavity under the diaphragm of the regulator. The average pressure through the channel in the rod is transmitted from the inlet fitting of the regulator into the cavity above its diaphragm. The regulator spring through the diaphragm counteracts the pressure in the lower cavity and, thus, sets the required differential pressure.

Emergency valves are known that, when the set pressure is exceeded, discharge the flow into the environment or into the drainage pipeline. Dosing valves capable of changing the flow rate are also known.

The objective of the invention is the simplest, most reliable and technologically advanced construction, capable of maintaining a constant pressure drop with high accuracy, and, in addition, capable of having additional functions: reverse and shut-off valve, smoothing pressure pulsation, emergency relief, dosed feed.

The technical result is achieved by the fact that inside the valve, in the passage section, a movable load of a fixed weight is installed, with the help of which the differential pressure is regulated.

The load has such a shape that, being in the lowest position, closes the completely bore section of the outlet pipe, and being in the highest position also closes the fully bore section of the outlet pipe, but at the same time opens the discharge pipe, for which there is an annular groove on the moving load . The overpressure flow is discharged through the discharge pipe until the pressure drops below a predetermined value, after which the load goes down and the cross section of the discharge pipe is blocked.

The function of the check and shut-off valves is achieved by the designs of the moving load and the relative position of the moving load and the nozzles of the universal gas-hydraulic valve, due to which the flow of the fluid in the forward direction is possible and the movement in the opposite direction is impossible.

The function of emergency relief when exceeding the specified limit pressure in the inlet pipe is achieved by the presence of the following elements: bypass pipe, outlet of the bypass pipe, equalizing drainage hole, plug with a calibrated hole.

The function of smoothing pressure pulsations is achieved thanks to the equalizing drainage hole, which connects the outlet pipe and the space above the moving load, equalizing the pressure in the space above the moving load and in the outlet pipe. By setting a fixed hole diameter, you can set the pressure equalization time and the degree of smoothing of pressure pulsations.

The function of the dosed fluid flow is achieved by designing the outlet pipe in the form of a slotted nozzle for supplying gas to the turbine blades, the opening height of the slotted nozzle being determined by the position of the moving load. Also, the function of the dosed supply of the fluid flow can be achieved by the execution of the outlet pipe in the form of a set of vertically arranged one above the other holes (nozzles) of a given diameter

The universal gas-hydraulic valve maintains a differential pressure difference with high accuracy regardless of pressure surges in the network. The rod on the central section of the load, ending with a nut, allows the installation and removal of additional calibration washers with a given weight. This allows you to build up, modify, and also adjust (fine tune) the pressure difference by changing the weight of the load.

The advantages of the valve include: maintaining the pressure difference with high accuracy; the ability to fine-tune the pressure difference in the process; extremely simple way to adjust the pressure difference; a reliable and non-volatile control method based on the action of gravity (which allows the valve to be used on objects located in areas of electromagnetic anomalies, either in the absence of a stable power supply, or operating in harsh environmental conditions, or requiring increased reliability); smoothing pressure pulsations at the outlet of the device.

The invention is illustrated in the drawing (Figure 1), which shows a diagram of the device universal gas-hydraulic valve

A brief description of the drawings:

Figure 1 shows a schematic diagram of an example implementation of a universal gas-hydraulic valve device consisting of a housing (1), a cover (2), a moving load (3), an inlet pipe (4), an output pipe (5), a bypass pipe (6), the outlet of the bypass pipe (7), equalizing drainage hole (8), plug with calibrated hole (9), interchangeable shims (10), nuts (1 1). Figure 2 shows a schematic diagram of an example implementation of a universal gas-hydraulic valve device, side view.

 On Fig.3 shows a schematic diagram of an example implementation of a universal gas-hydraulic valve device, top view.

Disclosure and implementation of the invention:

In the channel of a universal gas-hydraulic valve having a total cross-sectional area S, a movable load is located, capable of lifting vertically upward under the influence of gas or liquid flow pressure and lowering down. In the lowest position, the movable load completely covers the outlet pipe.

The pressure difference ΔΡ created by the valve is exactly the ratio of the weight of the moving load Md (i.e., in fact, the force of gravity acting on the load) to the total cross-sectional area of the valve channel, S: AP = Mg / S. Knowing the cross-sectional area of the valve channel and the pressure difference that must be created on the valve, you can set the exact weight of the moving load, and thereby ensure a decrease in pressure at the outlet of the valve compared to the inlet pressure by ΔΡ. If necessary, the weight of the load can be adjusted by installing or removing additional adjusting washers, for which a protrusion in the form of a rod and a nut for securing the washers is provided in the upper part of the moving load.

The installation method of the universal gas-hydraulic valve is exclusively in the vertical position. The only working position of the valve is vertical.

The valve has an equalizing drainage hole connecting the outlet pipe and the space above the movable load, so that the pressure in the space above the movable load is equal to the pressure in the outlet pipe, at the outlet of the valve. The hole is made in the valve body. By setting a fixed hole diameter, you can set the time for pressure equalization and return of the moving load to the lower position. A plug with a calibrated hole of a fixed small diameter can be installed in the equalizing drainage hole, which sets a fixed time for opening the output of the bypass pipe and returning the moving load to the lower position. The cork can be interchangeable. This function can be used in the regeneration of filters when it is required that the bypass pipe be open for a predetermined time interval.

All nozzles can have threaded connections or “soldered” connections, and for larger diameters, flanged connections.

For the outlet pipe, several different designs are possible, depending on the application. The outlet pipe may be made in the form of a pipe for connection with a pipeline. The outlet pipe may be made in the form of a slotted nozzle for supplying gas to the turbine blades. The valve can be rotated around a vertical axis for optimal interaction as part of a technical device (for example, for an optimal angle of gas supply to the turbine blades).

The outlet pipe can be made in the form of a set of vertically arranged one above the other holes (nozzles) of a given diameter, for the device to perform the function of a metering or dispensing valve. With the gradual lifting of the moving load upwards, the openings turn out to be open one after the other, while lowering the moving load the openings are closed.

It is possible to design a valve with no emergency relief function when the specified pressure limit in the inlet pipe is exceeded, as a result of which the design is performed without the following elements: bypass pipe, bypass pipe output, plug with a calibrated hole.

Claims

CLAIM

1. A universal gas-hydraulic valve comprising a housing, a cover, an inlet and an outlet nozzle, a bypass nozzle and an outlet of the bypass nozzle, an equalizing drainage hole, a plug with a calibrated hole, characterized in that a movable load is located inside the housing that controls the pressure difference of the fluid flow with high accuracy, and made in such a way that, being in the lowest position, the movable load closes the completely bore section of the outlet pipe, and being in the highest position, also closes the completely bore section of the outlet pipe, but, thanks to the annular groove available on the moving load, opens the bypass pipe, overpressure flows through the outlet of the bypass pipe, and the equalizing drainage hole connects the output pipe and the space above the moving load, and into the equalizing drainage hole can be fitted with a plug with a calibrated hole, which sets a fixed time for opening the output of the bypass pipe and returning the movable load in the lower position, and the valve can be rotated around a vertical axis for optimal interaction as part of a technical device.

2. The valve according to claim 1, characterized in that the weight of the moving load can be adjusted by installing or removing additional adjusting washers, for which a protrusion in the form of a rod and a nut for securing the washers is provided in the upper part of the moving load.

3. The valve according to claim 1 or 2, characterized in that the outlet pipe is made in the form of a set of holes vertically above each other of a given diameter.

4. The valve according to claim 1 or 2, characterized in that the outlet pipe is made in the form of a slotted nozzle, and the opening height of the slotted nozzle is regulated by the position of the moving load.

5. The valve according to any one of claims 1 to 4, characterized in that there is no discharge of excess pressure flow through the outlet of the bypass pipe, as a result of which there are no elements in the design: the bypass pipe, the output of the bypass pipe, a plug with a calibrated hole.