DE501224C - Device to improve the vacuum of electric light bulbs by burning the light bulb clear in a strong magnetic field - Google Patents

Description

Device for improving the vacuum of electric light bulbs Clear burning of the incandescent lamp in a strong magnetic field It is known that in the manufacture of evacuated electric light bulbs the vacuum on the pump not achieved the necessary quality; this only happens when the lamp is »clear«. This is understood to mean the first energization of the lamp, with in accompaniment from strong ionization currents and bluish light appearance the existing resp. Gas residues released from the lamp components largely disappear, by appearing to be adsorbed on the walls of the flask.

In order to maintain a high vacuum that does not deteriorate later, a strong ionization of the gas residues is absolutely necessary; but this brings the Risk of filament burning through or burning off during passage of the ionization current with it. This danger arises from the fact that the negative Filament ends emitted thermions (electrons) on the positive pole or on bounce the positive filament end and bring this to a very elevated temperature bring, which can increase to the melting point of the filament, whereby the Thread burns through.

To avoid this risk of burning out, there are several Lamp designs proposed. The common-same feature of these constructions is that one uses appropriately arranged protective electrodes that the filament screen against the impacting thermions and even to catch them to serve.

In the context of the present invention, this risk of burning through in a very simple way - without any change in the lamp construction - Avoided that the lamp during the clear burning the effect of a strong, is exposed to a non-variable magnetic field.

As is well known, the path of one in a field-free space is straight moving electron through the magnetic field into one wound around the line of force Converted helix. This then turns them into the magnetic lines of force perpendicular dimensions of a discharge are greatly reduced. So it is z. B. a well-known Artifice, the cathode ray bundle in a Braun tube by application a strong magnetic field parallel to the direction of the cathode rays to concentrate on the narrowest possible cross-section.

Proceeding from this known phenomenon, experiments have now been carried out found that by the action of a magnetic field can largely influence the ion currents occurring during clear firing, and in such a way that the discharge, which otherwise fills the entire lamp, is caused by the magnetic Field on a narrow, cylindrical, with its longitudinal direction parallel to the lines of force Space - on a power tube - is limited.

Will the magnetic field or its lines of force be parallel to the Lamp axis (to the direction of the straight filament sections) applied so the discharge becomes on a cylindrical enveloping the negative filament end Delimits space that does not extend to the positive filament end; the filament is therefore before the thermal effect of the impacting electrons, i.e. before it burns through protected. If the clear firing, as it usually happens, is done with alternating current it is imperative that this arrangement of the magnetic field be used; because in any other direction the filaments through which alternating current flows become strong Vibrations, which can lead to various evils (thread breakage, short circuit of the individual thread departments with each other).

When burning with direct current, on the other hand, there are no vibrations, So you can change the direction of the magnetic field, e.g. B. also vertically to select the thread direction. If the direction of the current is chosen correctly, one obtains that by the magnetic effect of the first and the last thread section from each other removed, further reducing the risk of burnout. In this arrangement (so-called transverse magnetic field) the runs through the Light appearance filled the power tube perpendicular to the filament sections, and only a small part of the filament falls into the actual discharge space. For this reason, this arrangement is special for preventing burnout effective, and preference will be given to this in the case of direct current prebaking.

Numerous measurements have shown that the height of the Vacuum, which was created after playing the clear burning process, through the fact whether a magnetic field was used or not, in none Way is influenced, which has been proven that the clear burning of the lamp in one strong magnetic field, the production of a good incandescent lamp vacuum is very safe designed.

Claims (1)

PATENT CLAIM: Device for improving the vacuum of electrical Incandescent lamps by burning the incandescent lamp clearly in a strong magnetic field, characterized in that the magnetic field in terms of its direction and Size is immutable.