DE633842C - Meter and regulator for currents in closed lines - Google Patents

Description

Meter and regulator for flows in closed lines The invention relates to a device for measuring and regulating flows in closed Lines by means of a damming or floating body in a vertically standing, conical Measuring tube.

Around the position of the float in an opaque pipe To make it visible or to transfer the status to mechanical means, one has Float made of magnetic material already used and magnetic with outside magnets attached to the line. You also have the float with you connected to an outwardly guided rod or light cells through the float controlled. These known means are cumbersome and cannot be used everywhere.

According to the invention, it is the same over the entire length of the measuring tube large pressure drop. in the flow that the float acting as a throttle acts on its respective location, to display its status or for transmission used on mechanical devices. A simple and practical means of Transmission of the pressure drop is provided by differential pressure meters, e.g. liquid manometers, whose connections to the line are so far behind each other in the direction of flow, that the part of the float acting as a throttle is between the connections can and this position then a rash in the associated liquid manometer causes.

If you bring a plurality of such liquid manometers in of the line, whereby they are helical to shorten the height distances can put in the wall of the measuring tube, so is at every level of the float respond to a fluid manometer while the rest of them remain at rest. To this Way you get even with opaque lines or with inaccessible lines at any distance from the line an indicator for the state of the transverse body.

The invention offers various possibilities for writing down the measured value or to count: For example, the liquid manometer in well-known Way be filled with mercury and provided with contacts, so that with a a certain state a circuit is closed. The circuit can either be in known way to attract an electromagnet and thus a pen against press an unwinding strip of paper or switch an electrical resistor, which influences the rate of a counter. Finally, it is also possible for the rash to transfer the pressure gauge photographically in a known manner.

In order to regulate the measured value, one can use both the pressure drop evoked movement as an adjusting force itself as well as a trigger for a Use an assistant. It is particularly important for the first-mentioned type of regulation It is essential that, unlike differential pressure transducers with built-in resistors, such as B. Reservoir edges, not a variable with the flow rate, but an effective pressure that is the same for each flow rate is available as an adjustment force stands. A simple arrangement for regulating is that one at the upper and lower end of a conical tube, in deip sie4 'the floating body moves, each. a liquid manometer attaches, which at the Ans'px @ e = chen a circuit closes and där @ t. causes a throttle located in the line (in the upper Closing pressure gauge, opening of the lower pressure gauge) is adjusted.

Such an arrangement can also be used for writing and counting purposes find if the 'throttle is not installed in the main line, but in a Secondary line in which the float is located; the arrangement is then like this met that in the secondary line, despite variable flow velocities in the main line, the flow rates kept the same and the required for this Adjustments of the throttle located in the secondary line on a recorder or counter be transmitted.

The subject matter of the invention is shown in several examples in the drawings shown. Fig. I shows the measuring principle. In the conical measuring tube a appears the float b, the upper part of which acts as a congestion, depending on the flow at different altitudes. Several differential pressure meters c and are on the measuring tube d connected at various points so that the junctions are at a certain distance lie on top of each other. If the float b now occurs between the confluence points a differential pressure meter, a deflection of the instrument takes place, whereby the position of the float is marked.

Fig.2 shows an arrangement in section in which the differential pressure transducers e, f, g, h, i are arranged in a helical manner in the wall of the measuring tube, so that the position of the float is displayed at very short height intervals. -Abb.3 represents a control device. Two differential pressure meters L and m are built into the wall of the measuring tube h at short intervals one above the other. Between them is the float n, which is advantageously limited in its movement above and below by stops. In its upper position, the float is between the connections of the upper, and in its lower position between the connections of the lower differential pressure meter. The differential pressure meter, which is operated with an electrically conductive liquid, e.g. B. mercury, have into the tubes protruding electrical contacts which are connected to a switching mechanism o which controls the throttle. If the float moves into its upper position, the differential pressure meter L responds and closes the electric circuit; which .controls the throttle p in the closing sense. When the float is falling, the reverse process occurs.

Fig. 4. shows a registration device. In the conical measuring tube g, the float Y moves. On the measuring tube are those with an electrical conductive liquid-filled differential pressure meters s and t at short distances one above the other connected. They are provided with electrical contacts that when the float between their connection points, actuate a switching mechanism that controls the throttle v adjusted. The throttle v carries a pen w, which is written on the wandering strip of paper x writes a diagram. The device works in such a way that the float, if it affects the upper differential pressure transducer, the throttle in the switching mechanism actuated in the closing sense and vice versa, when he enters the lower differential pressure transducer Activity sets. So the flow in the diversion remains constant, but is the position of the throttle valve varies depending on the amount flowing through the main line and thus forms a measure for the latter, which is recorded on the diagram.

Claims (2)

PATENT CLAIMS: i. Meter and regulator for flows in closed Lines with a baffle or float in a vertically standing, conical measuring tube, this body has the same pressure drop in the flowing medium at every altitude generated, characterized in that the measuring tube in. Any number with two Pressure tapping points are provided for one differential pressure device each, which ®in the Direction of flow are arranged one behind the other in a known manner, so that at a certain flow rate of the bluff body between the two pressure tapping points of a certain differential pressure device comes to rest and thus the generated by it Transfers pressure drop to that particular device. 2. Device according to claim t, characterized in that the pairs connected to differential pressure devices Pressure tapping points to shorten the height distances from one another in a helical manner are arranged in the wall of the measuring tube.