SU146061A1 - Hydraulic switching device - Google Patents

Description

The present invention relates to hydraulic switching devices for automatically connecting in a predetermined sequence of pressure pulses or vacuum from a series of monitored points to a common pulse line of a measuring device, using changes in fluid level relative to the inlet and outlet pulse holes of the measuring device. The proposed switch differs from known themes. that it uses hydraulic throttle valves with different geometrical parameters, consisting of two communicating volumes connected via throttles to control lines, with one of the volumes connected by a pipeline with a controlled point, and the second with a common pulse line of the measuring device.

Such an embodiment of the switching device allows simplifying its design and increasing the switching speeds.

The drawing schematically shows a hydraulic device.

The device action and unlocking of the water seal is based on the change of fluid levels in adjacent vessels, due to their periodic switching of capacity with constant but different levels, after which all controlled points are automatically connected. The device consists of one common pulse line A going to the measuring sensor the device, the impulse lines B from the measured points, the hydraulic valves C and the device G, which provides in lines D and two different liquid heads (I and HZ) - Device G represents a two pressure tank, in each of which the liquid level is kept constant; lines D to E are connected to each tank through the cork taps. The hydraulic valves B consist of two volumes 1 and 2, two tubes 3 and two throttles 4. The automatic sequential connection of hydrovalves in a given order comes from the initial position. For this, the level I is set in the D line, and in the line, the level In volumes 1 of all hydrovalves, the liquid will take the position H, and in volumes 2 the position HZ. If necessary, “start automatic metering (automatic serial connection — to the device of impulses from the measured points), set the device G in line D to HZ level, and in line E to HI level and do not change them until the end of the process of running around all points; in all hydraulic valves, it begins to flow out of volumes / and flow into volumes 2. B because the mentioned volumes and throttles are different, the rate of change of levels in all valves will be different, which leads to the position shown on valve no. 3, udet prohodits all valves at different times. Valve M 3 is open to underpressure (pressure) passage.

In valves where this position is not reached (L 1 and M 2), or passed (Lo 4 and M 5), the pressure pulses will be locked with hydraulic locks. In those valves where the fluid reaches in volume / level HZ, in the volume of 2-level HI, fluid movement will stop (as shown for valve # 5).

Upon completion of the connection of all controlled points, such a position will be assumed by all valves. To bring the system to the initial state, liquid levels HI and H2 in the (V) and (VI) lines must be reversed. Each valve can be symmetrically configured (relative to the horizontal axis); then the end position of the fluid levels will be initial for a new connection of controlled points (for which the levels should be reversed) To speed up the system reset, parallel to each throttle, you can put back (to the working fluid path) valve (rubber, ball, conoid nozzle, etc.) The non-return valve is not shown in the drawing. The switching time from one point to another depends on the valve setting. Perhaps advancing the opening of the subsequent valve.

Valves can be made of plastic, rubber, glass by pressing or casting. For automatic operation of the device does not require a special programming device. The device is explosion-proof in operation.

A hydraulic device can be used on coke batteries. The invention

A hydraulic switching device for automatically connecting in a predetermined sequence of pressure pulses or vacuum from a series of monitored points to a common pulse line of a measuring device, characterized in that, in order to simplify the design and increase the switching speed, hydraulic throttle valves with different geometrical parameters are used, consisting of two communicating volumes connected via throttles to control lines, with one of the volumes connected by pipeline to controlled point, and the second with the total pulse line of the measuring device.

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