DE931503C - Sending electrode for electronic flow measurement - Google Patents

Description

When measuring the flow velocity electronically, for example of gases, short voltage pulses are fed to the transmitter electrode and thereby the medium flowing past ionizes. The counter electrode as the second voltage pole. is arranged as close as possible to the actual transmitter electrode, to generate an electric field with a large potential gradient.

According to the invention, several punctiform, preferably on A common counter-electrode is assigned to transmit electrodes arranged in a line, the conductive parts of which are aligned laterally through the points of the transmitter electrode lines imagined by the flow. Because the counter electrodes are in the direction of flow are arranged to the side of the transmitter electrodes is prevented; that the The tips of the transmitting electrodes generate charge carriers on a direct path to the counter electrode arrive and be discharged there. Rather, the load carriers become complete detected by the flowing medium and the spaced-apart Emp collecting electrode fed.

The shape of a comb is expediently chosen for the transmitter electrode, the tips of which are in line and point in the direction of the flow. The counter electrode can, for example, be made from a sheet metal that envelops the tips of the comb on the side exist, which runs parallel to the tips on both sides. Instead, you can also, for example, wires or rods laterally and parallel to one of the tips the line connecting the transmitting electrode. At. another embodiment the counterelectrode has the shape of a chain, with each link in the chain Surrounding the center of its surface is the tip of its transmitting electrode.

The drawing shows four exemplary embodiments of the invention. the Sending electrodes with their counter-electrodes are shown in each of the figures a view of the tips, shown in side elevation and in section. Form the transmitter electrodes are the same in all figures. In a metal block A number of tips 2 are inserted next to one another (FIG. I). The metal body 1 is enveloped by an insulating body 3, for example made of Potlymetacryläureester can exist. The counter electrode 4 consists of a U-shaped bent sheet metal piece, the front edges of which are roughly perpendicular to the direction of flow through the tips Cut off 2 imaginary plane. The charge carriers formed at the tips become in this arrangement carried away by the current flowing in the direction of the tips and practically cannot get to the counter electrode 4.

The transmitting electrodes can also be on an arc or a circular ring be arranged.

The counter electrodes. also have the shape of arcs or rings.

In Fig. 2 the counter electrode consists of two wires or rods 5, each between the tips of the transmitting electrode by cross connections 6 are connected to each other. The transmitting electrode had the same shape as in Fig. I.

In Fig. 3 the Ge, counter electrode 7 is in the form of a contiguous Chain executed, with the tips of the in the middle of the bordered area Sending electrodes are lying.

In the embodiment according to FIG. 4, finally, only form two symmetrical and parallel to one connecting the points of the transmitting electrode Lines or rods running in a line form the counter electrode. The wires or rods can still, z. B. be connected to each other at the ends by wire brackets or arches.

Claims (4)

PATENT CLAIMS: I. Transmitter electrode for electronic flow measurement, geliennzeic'hnet by several punctiform, preferably arranged on a line Sending electrodes in the form of tips pointing in the direction of flow and a common counter electrode, the conductive parts of which are at regular intervals to the side of imagined through the points of the transmitter electrode in the direction of the flow Lines lie. 2. transmitting electrode according to claim 1, characterized by two symmetrical and arranged parallel to a line connecting the points of the transmitting electrode Wires, rods, sheet metal strips or the like as a counter electrode. 3. Sending electrode according to claim 2, characterized by cross connections of the two counter electrodes between the individual point-shaped transmitter electrodes. 4. transmitting electrode according to claim I and 2, characterized by a The counter-electrode in the form of chain links fastened next to one another is the punklt-shaped Sending electrode in the middle of the area bordered by the relevant chain link.