SU697777A1 - Gas pressure pulsation damper - Google Patents

Description

one

The invention relates to pulsator pulsations or fluctuations in gas pressure in pipeline systems that supply measuring equipment or sensors in automatic control circuits by technological processes, and is intended primarily for damping pulsations at low pressures or at low pressures.

Devices for damping pressure pulsations in pipelines are known, consisting of a buffer tank in which the inertial mass is placed in the form of a spring-loaded piston or ilphone with an elastic element 1, 2.

Such devices do not provide a sufficiently effective quenching of gas pressure pulsations in front of the measuring apparatus in automatic process control systems, which have no flow and are characterized by small volumes of measuring organs, and also do not protect the measuring apparatus from individual pressure shocks or discharges occurring due to the specific technology, if these blows significantly exceed the permissible limits of the measuring apparatus and are sufficiently long in time. Besides that;

oh, these devices are difficult to manufacture; .

The aim of the invention is to simplify the design and extend the range of applications, for example, to protect measuring equipment.

This goal is achieved by the fact that the inertial mass is made in the form of a fluid-filled vessel, for example, a transformer oil, a vessel in which the damping tank is installed with an open end, and in the upper part of the vessel openings are connected with the atmosphere, and

5 installed throttling elements, while the area of the annular surface of the liquid, bounded by the inner wall of the vessel and the outer wall of the damping tank, is equal to the area

0 the surface of the liquid inside the damping tank.

In addition, the vessel is equipped with a device for moving relative to

5 of the damping tank, for example screw support, and in the damping tank between the inlet and outlet fittings installed partition. Inlet and outlet fittings are located

0

I nososno.

The invention is illustrated in the drawing.

The gas pressure pulsation damper consists of the damping tank 1, the inlet and outlet fittings 2 and 3, the throttling elements 4 and 5, the vessel b, the free-lying lid 7 communicating with the atmosphere of the holes 8, the screw support 9, the partition 10 and the oil separator 11.

In order for the device to work equally as in the pressure region as well as in the dilution region, the internal diameter of the vessel G is chosen from such a calculation that the annular surface of the liquid, limited between the inner wall of the vessel b and the outer wall of the damping tank 1, is equal to the surface of the liquid inside the damping tank 1, divisions are applied to the outer surface of the damping tank 1 to control the penetration into the liquid with which the vessel 6 is partially filled.

Regulation of the deepening of the damping tank 1 into the liquid is made by moving the vessel 6 with the screw support 9 on which it is mounted. The baffle 10 serves to eliminate the influence of the direct action of the dynamic pressure of the gas from the inlet plug 2 on the outlet fitting 3. This influence can also be avoided by the misalignment arrangement of the fittings 2 and 3. The oil catcher 11 is designed to prevent oil from getting on the throttling elements 4 and 5 during disassembly devices.

The gas pulsation damper works as follows.

When the pressure in the damping tank 1 increases, the liquid in it drops and flows into the annular gap between the outer surface of the damping tank D and the inner surface of the vessel 6, and when the pressure decreases or the vacuum increases, the action occurs in reverse order. If the pressure in the pipeline feeding the measuring equipment exceeds the permissible limits, then the fluid from the damping tank 1 b / d is fully displaced and moved into the annular gap. Thus, the pressure in the damping tank 1 cannot in all cases be greater than the pressure of the liquid column, since the gas is released into the atmosphere through

water seal. When the gas pulsation damper is operating in the dilution mode, the liquid from the annular gap flows into the damping tank 1 and its level is higher than in the annular gap. When the permissible limits are reached, the liquid in the annular gap drops to the edge of the damping tank, and as the vacuum increases further, air leaks out - the vacuum in the damping tank will not exceed the height of the liquid column.

Claims (5)

1. A gas pressure pulsation damper containing a damping tank with inlet and outlet fittings and an inertial mass, which is so that, in order to simplify the design and extend the range of use, for example, to protect measuring instruments, The inertial mass is made in the form of a vessel filled with liquid, in which a damping tank is installed with an open end, with openings communicating with the atmosphere in the upper part of the vessel, and throttling elements are installed in the fittings. 2. The damper according to claim 1, characterized in that the area of the circular surface of the reservoir is limited to 1a by the inner wall of the vessel and the outer wall of the damping tank is equal to the surface area of the liquid inside the damping tank. 3. A damper according to claim 1, characterized in that the vessel is provided with a device for moving relative to the damping capacity, for example a screw support. 4. A damper according to claim 1, characterized in that a partition is installed in the damping tank between the inlet and outlet fittings. 5. Damper pop. 1, characterized in that the inlet and outlet nozzles are located non-axially. Sources of information taken into account in the examination 1 USSR Author's Certificate No. 518599, cl, 7 16 L 55/04, 1974. 2. USSR author's certificate No. 499454, cl. F 16 L 55/04, 1973,