RU129637U1 - MANOMETER SAFETY DEVICE - Google Patents

Abstract

Safety device for pressure gauges, comprising a housing with inlet and outlet fittings and a rigid horizontal partition inside with a bypass channel in the center, dividing the housing into two chambers, the upper and lower, and the first elastic separation diaphragm mounted in the lower chamber on the side of the supply fitting under the partition at a distance from it with the formation of the first cavity with a liquid, characterized in that it is equipped with a second elastic diaphragm mounted in the upper chamber from the side of a fitting fitting above the partition at a distance from it with the formation of a second cavity, while in the lower part of the partition from the side of the first elastic diaphragm a conical recess is made with a protrusion in the center around the bypass channel, the cavities are filled with a clean neutral liquid with air, and a radial channel is made in the partition, connecting the central channel to the fluid inlet fitting.

Description

The safety device claimed as a utility model relates to devices for damping pressure pulsations.

Known safety device for pressure gauges containing a sensing element connected by a rod with a valve that blocks the pressure channel (AS No. 181353).

The disadvantage of this device is the possibility of clogging the bypass channel sedimentary inclusions located in the working fluid.

A safety device is known comprising a damping chamber, consisting of a closed cup-shaped vessel with a membrane partition dividing the vessel into two parts, one of which is in contact with the measured pressure, and the other is filled with liquid and is connected to a manometer through a curved tube and two fittings. A rubber elastic washer was used in the cavity of the vessel (AS No. 133643).

However, the known device is characterized by a lack of compensatory qualities, which, although sufficient to protect against the destruction of gauge devices, are clearly not enough to protect pressure sensors from repeated switching in unsteady modes, especially when the sensors are installed in the most suitable place, i.e. near the pumps.

The objective of the utility model is to increase reliability.

The task is achieved due to a sharp increase in the compensatory qualities of the damper. And this is achieved due to the fact that the device containing the housing with inlet and outlet fittings and placed inside a rigid horizontal partition with a bypass channel in the center, dividing the housing into two chambers, the upper and lower, and the first elastic separation diaphragm installed in the lower chamber with the side of the inlet fitting under the partition at a distance from it with the formation of the first cavity with the liquid, is equipped with a second elastic diaphragm installed in the upper chamber from the side of the outlet fitting over the a town at a distance from it with the formation of a second cavity. In the lower part of the partition from the side of the first elastic diaphragm, a conical recess is made with a protrusion in the center around the bypass channel. A radial channel is made in the septum, connecting the central channel with the fluid inlet fitting, and the cavities are filled with a clean neutral liquid with air.

The drawing shows a General view of the claimed as a useful model of a safety device for pressure gauges.

The device comprises a housing 1 with inlet 2 and outlet 3 fittings, an installed horizontal rigid partition 4 with a conical recess 5 and a protrusion 6 with a central channel 7, which connects two variable cavities 8 and 9, limited by diaphragms 10 and 11 of elastic material. The variable cavities are filled with a clean neutral liquid 12 with air. In the steady-state operating mode, the force of gravity determines the location of air and liquid in the device, so they occupy the characteristic position shown in the drawing. In this case, the liquid 12, being in the lower 8 and upper 9 variable cavities and being connected by the central channel 7, is a single whole. The air in the lower variable cavity in the cone-shaped recess 5 of the rigid partition 4 and in the upper part of the upper variable cavity 9 bounded by a spherical elastic diaphragm 11 forms two separate compensation chambers 13 and 14.

The device operates as follows.

The fitting 2 is connected to the working line, and a pressure sensor or other command-measuring device is connected to the fitting 3. With a smooth increase in pressure through the elastic diaphragm 10, it is transferred to the variable cavity 8, where the air is partially compressed in the compensation chamber 13 and, at the same time, the liquid 12 is transfused from the lower variable cavity 8 through the central channel 7 to the upper variable cavity 9. When liquid enters, the air is compressed into the compensation chamber 14, and the pressure of the compressed air through the elastic diaphragm 11 is transferred to the nozzle 3 and increases until it is equal to the pressure in the working line. With a decrease in pressure in the working line, the opposite happens.

With a sharp change in pressure (water hammer), a sharp shock picks up the diaphragm 10 made of elastic material and transfers it to the already softened liquid in the lower part of the variable cavity 8, which is largely damped by air in the compensation chamber 13 and only partially, to a small extent, is transmitted with liquid through the central channel into the liquid of the upper variable cavity 9, where it is finally smoothed out by the air of the compensation chamber 14 and the elastic material of the diaphragm 11. Since the duration of the hydraulic shock is not ika (only a few thousandths of a second), then in a controlled volume there is practically no pressure change and therefore there are no repeated shutdowns and power-ups in the transitional starting period.

Thus, the safety device for manometers, proposed as a utility model, reliably protects command-measuring devices from water hammer and allows you to install them practically anywhere, even in the pressure port of the rod pump, which increases the economic effect by 20-40%.

Claims (1)

Safety device for pressure gauges, comprising a housing with inlet and outlet fittings and a rigid horizontal partition inside with a bypass channel in the center, dividing the housing into two chambers, the upper and lower, and the first elastic separation diaphragm mounted in the lower chamber on the side of the supply fitting under the partition at a distance from it with the formation of the first cavity with a liquid, characterized in that it is equipped with a second elastic diaphragm mounted in the upper chamber from the side of a fitting fitting above the partition at a distance from it with the formation of a second cavity, while in the lower part of the partition from the side of the first elastic diaphragm a conical recess is made with a protrusion in the center around the bypass channel, the cavities are filled with a clean neutral liquid with air, and a radial channel is made in the partition, connecting the central channel to the fluid inlet fitting.

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