DE952750C - Electronic scales - Google Patents

Description

Electronic balance The invention relates to an electronic balance.

Its purpose is, compared to the known electronic scales, in which the electronic device used to display the weight as a secondary system in Connection with a photoelectric, Piezoelectric, inductive or capacitive based encoder system is used, not only simplification in structure but also reduction the frictional influences affecting the weighing accuracy.

According to the invention this object is achieved in that an elongated Electron tube in which a large-area anode and a small-area anode overlap are arranged opposite in the tube ends and by a common between them lying cathode get emitted electrons, and that in a magnetic Force line field lying, bundled by this and in its position or direction certain electron streams can be pivoted against each other under the influence of the load are arranged so that the relative movement of the large-area anode and electron beam corresponds to the scale deflection and the resulting change in the Electron stream causes the weight display.

An exemplary embodiment of the invention is shown schematically in the drawing shown.

In an electron tube 1 of a tubular shape is attached to a Housed at the end of an anode 2 with a relatively large area. To the at the other end of the tube is an anode 3 with a much smaller area. the common cathode 4 emits electrons after both anodes.

For control purposes, corresponding grids 5 and 6 or several grids may be provided.

An electromagnet 8 is arranged around the glass tube 7. This electromagnet bundles the electrons very strongly and keeps them concentric in the magnetic Line of force field, also with movements of the glass tube. The glass tube is in the middle rotatably mounted in the bearing 9. The glass tube will now go through on one side Weight or a spring or some other force pivoted about the bearing g, it remains the electron bundle in the same position.

In the case of the relatively large-area anode 2, the electrons migrate not off while on the small area anode 3 depending on the degree of deflection the anode current decreases proportionally to the deflection. The measure of the ratio of the both anode currents are directly calibratable and measurable with an electrical measuring device the weight or the force.

If you want to use the balance principle only for a zero setting, so you can on the one hand by applying appropriate weight or force the anode currents return to the same by tilting the tube I in the starting position Bring value and then has a direct measure of the unit that one wants to measure, either strength, weight or the like. The anodes can be in a bridge circuit be combined via corresponding anode resistors 10 and II. The resulting Bridge branch 12, a display instrument 13, counter or the like can be switched on, to be able to make direct differential measurements.

The system offers the advantage that the measurement location and the reading location are arbitrary can be far apart, since simple wire connections are sufficient.

Any size can be achieved through appropriate translations or arrangements measure up.

However, a particular advantage for the principle is the weighing in the smallest orders of magnitude, in force measurement in the smallest orders of magnitude, because the sensitivity is higher than can otherwise be achieved with known devices leaves. Since the electron tubes also work without inertia, it makes sense the use of the measuring system nor the advantage of the instant display.

PATENT CLAIM: I. Electronic scales, characterized in that that an elongated electron tube in which a large-area anode and a small-area anodes are arranged opposite one another in the tube ends and electrons emitted from a common cathode between them received, and that lying in a magnetic field of lines of force, bundled by this and its position or direction determined electron flow under the influence of Load are arranged pivotable against each other, so that the relative movement of large-area anode and electron current bundle to each other corresponds to the scale deflection and the resulting change in the electron flow causes the weight to be displayed.

Claims (1)

2. Electronic balance according to claim I, characterized in that the electron tube is pivoted in the middle or at one end, while the electromagnet generating the magnetic force line field is fixedly arranged. 3. Electronic balance according to claim I, characterized in that the electron tube is fixed in a certain position and the electromagnet for the generation of the force line field and thus this is arranged to be rotatable. 4. Electronic balance according to claim 1 to 3, characterized in that that the anodes are in a bridge circuit. 5. Electronic balance according to claims I to 4, characterized in that that the anodes control various display systems. 6. Electronic balance according to claims I to 5, characterized in that that arranged for the control of the movement between the cathode and anode grid are. 7. Electronic balance according to claims I to 6, characterized in that that the electron flow is generated by two cathodes. 8. Electronic balance according to claims I to 7, characterized in that that instead of the magnetic an electrostatic field for the focus and Direction of the electron flow is used. Publications considered: Swiss patents No. 268895, 277 060; French patent specification No. 56,484 (I. addition to 880182).