DE374304C - Glow tubes for current measurement - Google Patents

Description

Glow tube for current measurement. With normal cathode drop, this is The base area of the negative glow light is approximately proportional to the current strength. on the so-called oscilloscope tubes are based on this phenomenon with a strip-shaped cathode (made of wire or sheet metal), in which the luminous Length is a measure of the strength of the current. Since the luminous phenomenon is almost free from Is inertia, one uses such oscilloscope tubes with the help of a rotating mirror to make rapid current changes visible or to record them in the photo. the Invention relates to a modification of this tube in the direction that they are for immediate Reading of the current strength, especially the peak values, which can be changed quickly Currents, is made usable. For this purpose the tube is equipped with facilities which cause the light phenomenon to be subdivided in such a way that the Amperage can easily be read from the number of luminous sections can. This goal is achieved either by showing the appearance of the glow light individual points is suppressed or by shielding the light beams accordingly will. The latter is more complicated and has the disadvantage of a poorer light output. It is easiest to give the cathode such an external design or it to be covered in places with a layer preventing the formation of the glowing light, that the glow light appears divided.

Some exemplary embodiments are shown in the figures. a is always the anode, k the cathode. Tubes for alternating current measurements are made naturally equipped with two subdivided electrodes, which alternate as cathode are effective.

In Fig. T the cathode is a wavy bent wire or sheet metal strip. The arrangement has the advantage of simplicity, but the disadvantage that the reading awkward when a large number of sections are lit.

In the embodiments shown in Figs. 2 to 8 is the Reading is made easier by having every fifth or tenth section by deviating Design is highlighted. In Fig. 2 the cathode has the shape of a comb, at where the prongs are the same length, but the tips form a wavy line. The shining one Area. is therefore the same for all sections, so that proportionality between Current strength and number of glowing prongs.

In the embodiments of Figs. 3 and 4, the sections are through Marked holes, the former has one row, the latter two rows of holes. The five and holes corresponding to tens are out of the rows and allow one Reading on the first view. The shape of Fig. Q. with two rows of holes enables reading of half scale divisions.

Fig. 5 shows an arrangement with slots where again the fives and Tens are highlighted by shifting.

In the embodiments discussed so far, the front surface is illuminated the cathode, while the glow light on the back, for example by a Lacquer layer or an applied mica plate can be suppressed. Within the holes or slits the light is brighter, especially if the hole or. Slot width is less than twice the thickness of the glue layer. In these embodiments it is not advisable to suppress the glow light on the front surface as well, because then hard to ignite the holes or slots further away from the anode, so that the information is smaller with increasing current strength than with decreasing current.

This disadvantage is avoided in the embodiments of FIG. 6 to 8, where the slots represent a coherent structure, so that the Glow light can spread steadily. In these embodiments, the front side the cathode must be covered, which is indicated by hatching. The glow light therefore only forms on the cut surfaces. In the embodiment _ the Fig. 6 all slots are connected to one another by a longitudinal slot; in the The rest of the arrangement corresponds to that of Fig. 5.

In the embodiment shown in Fig. 7, the slots open in the -upper. Edge of the cathode. every fifth incision is longer to compensate their distances from the previous incisions are smaller.

In Fig. 8 the spacing of the slots from each other is the same, each fifth slot is longer, but the other slots have extensions so that here, too, the luminous areas are the same size.

In all of the embodiments, those closest to the anode light up Open holes or slots first, and always in sequence as the current increases further holes or slots. The eye receives the impression of a luminous one Scale.

The tube can also be designed in such a way that the eye can get the impression receives luminous numbers or dark numbers on a luminous ground. The production however, such tubes are more cumbersome.

If the anode is small in relation to the cathode, this is achieved Effect of a gas discharge valve. The effect can be increased if you in a known manner, the anode forms as a short wire and inside a glass tube arranged, the inside width of which is only slightly larger than the diameter of the wire. If the distance between the anode surface and the inner wall of the tube is smaller than the thickness of the negative glow layer, this can change when the Current direction does not develop at all, and the current is completely blocked. In series connection with an X-ray tube, such a tube is used at the same time for Monitoring of the current strength and the suppression of the closing current, so that The arrangement of a special valve tube is unnecessary for this purpose.

It is advisable to use nitrogen or a mixture as the gas filling of nitrogen and argon, if the information on the tube is recorded in the photograph should. For direct observation, however, is a filling with a gas mixture preferable where neon or helium predominates.

The calibration can be done by regulating the gas pressure or by shunting be accomplished. ,

Claims (1)

PATENT CLAIMS: i. Glow tube for - current measurement, characterized in that that the cathode is divided in such a way by recesses or with one by recesses subdivided, the formation of the glow-preventing layer covered in this way is that the lighting effect has a subdivision that makes it possible to work on the Number of luminous or dark sections to read the current strength immediately. a. Glow tube according to claim i, characterized in that the subdivisions represent a coherent structure, so that the glow light increases with increasing Current strength can spread steadily, 3. glow tube according to claims r and z, characterized in that the subsections have the same area. .t. Glow light tube according to claims i to 3, characterized in that individual Sections are designed differently from the rest to facilitate reading. 5. glow tube according to claims i to q., Characterized in that the Sections or individual of the same are designed in the form of numbers.