DE497121C - Contactor with conductive liquid, such as B. Mercury - Google Patents

Description

Contactor with conductive liquid, such as. B. Mercury subject of the invention is a contactor with inside a closed earphone contained conductive liquid, such as. B. Ouecksilber, and to be connected by this Contact points. Such devices are for example in connection with Water knives. for electrical remote transmission, the measurement result is known. Included The aim is to always close the contacts brought about by the Ouecksilbertropf.en for a very short period of time. For this reason the Drive of the hollow body, which usually performs a tilting or pivoting movement be set up in such a way that the part of the movement causing the contact closure in any case quickly and the rest of the movement in accordance with that Movement of the drive process is completed. The implementation of this unequal Movement of the hollow body containing the mercury prepares considerable technical Difficulties and often gives rise to malfunctions or false reports.

In the figures of the drawing an embodiment of the object of the invention is shown in connection with a water knife; Figures i and z show an embodiment of the hollow body in connection with an impeller blade in a front view and a top view. a is the drive apparatus (e.g. water meter with non-running measuring element) for the contactor, which essentially consists of a self-contained glass tube b with the contact points g, Ir, o, p and the drop of mercury. The glass tube b is composed of four essentially straight rolling parts q, r, s, t, of which in relation to a certain horizontal plane the tube parts marked in: it r and t rise and the tube parts marked d and s fall down for the have mercury circulating in one direction. The glass tube b is carried by a bridge tc approximately in the middle of the tube parts r, t , which is rotatably mounted in the uprights x. The drive of the contactor takes place, for example, via two curved tracks 1, m attached to the bridge by a roller moved around in a circle with the arm v, the measuring wheel shaft 7e and the drive apparatus a. The raceways 1, in are arranged so that the roller n alternately lifts the pipe part q and the pipe part s of the pipe b on its circular path. The contactor can also be driven in any other way.

The new contactor works as follows: Every two contact points g, lz or o, p form a control contact for any electrical display device which is connected to its contact points by cables. As a result of the sloping course of the tube parts q, s, the mercury drop f moves immediately to the lowest point when it passes through these tube parts q, s. If, for example, the pipe part q is lifted by the roller n on its circular path by means of the track l, the mercury drop f moves through the pipe part r over the contact points o, p to the lowest point of the pipe part s Contact points o, p through for a moment, the mercury drop f connected to one another in a conductive manner. The drop of mercury f remains at the lowest point of the pipe part s until: the rollers n lifts the pipe part on their way through the intermediary of the track m. As soon as the pipe part t has reached the horizontal position and: is rotated beyond that, the mercury drop f moves through this pipe part t to the lowest point of the pipe part q. The contact points g, h are again temporarily connected to one another in a conductive manner by the mercury drop f. This game repeats itself with each revolution of the drive shaft w, so that with each revolution of the measuring wheel shaft w there is a double contact to .einem remote electrical display device. The peculiar arrangement of the individual tube parts q, x, s, t avoids the mercury drop f forming a conductive connection between the contact points g for a long time even when the rotary motion is slow or the measuring wheel shaft is at a standstill; h or o, p and thus causes an unnecessary load on the power source for driving the display instruments. Instead of four contact points g, h, o, p, only two contact parts can be arranged in one of the tube parts q, s. In this case, with each rotation of the measuring wheel shaft w only one contact is made.

The contactor can be used both for remote transmission with equal success of measurement results in connection with measuring instruments as well as for remote display of the Speed or power of prime movers or the number of revolutions Shafts used turn. As far as a continuously rotating measuring element shaft or a Transmission shaft from an engine is present, the contactor can in the simplest way as in the illustrated embodiment with the driving Shaft to be connected.

Another area of application for the new contactor is the Illuminated advertising systems in which there is a contactor driven by a clockwork or motor closes a circuit for a moment at certain time intervals. aside from that the contactor can be used wherever it is: by a continuous movement to generate an instantaneous contact.

Claims (1)

PATENT CLAIMS: i. Contactor with conductive liquid, such as. B. mercury, which is enclosed in a hollow body pivoted about an axis with several approximately straight channel pieces connected to one another to form a circuit, characterized in that: that always alternately a channel piece (q or s) with respect to .ein horizontal base plane sloping down , and the next following channel section (r, t) has a rising course for the mercury that always flows in one direction. a. Contactor according to claim i, characterized in that: that the rising channel pieces: (y, t) of the hollow body (b) transversely and the other channel pieces (q, s) approximately parallel .one through the pivot axis (u) of the hollow body (b) going vertical plane. 3. Contactor according to claim i, characterized in that the contacts (g, h, o, p) to be connected by the mercury (f) are each arranged at the beginning of the individual channel sections (q, s) with a sloping course.