SU680084A1 - Sealed power lead-in - Google Patents

Description

(54) ENERGY TERMINAL

The invention relates to the electrical industry, in particular to light sources in quartz flasks, and can be widely used in the manufacture of vacuum tubes.

Sealed foil current leads are known; they are two strips of foil located at different heights and connected in parallel to l3. This design allows you to increase the load on the water without increasing the shank length. The disadvantage of this design is the presence of a large number of elements that are interconnected by means of resistance welding, which does not complicate the lamp manufacturing technology, but also reduces the reliability of the current lead.

 The closest in t-: nical entity to the proposed invention is a sealed current lead to a quartz lamp containing a foil provided with two thickened sections to which

internal and external current leads 2J are connected respectively.

The thickness and width of the foil of the specified current lead determines the allowable value of the current load and the geometrical dimensions of the lamp foot. With an increase in current load, it is necessary to increase either the foil thickness, which is bounded above by the condition of obtaining a reliable hermetic seal or foil width, which leads to an increase in the leg width and, accordingly, to an increase in the diameter of the lamp bulb. In order to obtain a reliable hermetic seal, the thickness of the foil should not exceed 0.05 mm.

The purpose of the invention is to increase the current load on the input with the constant width of the foil.

Claims (2)

To achieve this goal, in a hermetic foil current lead containing a foil with thickened zones along the edges connected to the internal and external current leads, respectively, said thickened zones are located along the entire length of the foil. To increase the current load a daa or more, the foil is provided with at least one additional, thickened zone, located along the entire length of the foil and dividing it into parallel working areas with a corresponding electrical connection of the thickened zones to the internal and external current leads. Fig. 1 shows a longitudinal section of the current lead with daum thickened zones; in fig. 2 is a section A-A of FIG. Ij in FIG. 3 is a longitudinal section of the current lead with three thickened zones; FIG. cross section of FIG. 3. The backfill in the quartz leg 1 is a flat foil 2 along the edges that has thickening longitudinal zones 3, to which. welded inner 4 and outer S tops. To reduce the current load on the foil current with two thickened zones (Fig. 1 and 2), it is necessary to increase the foil cross-section area. In this case, this is achieved by a corresponding increase in the foil height (since the proposed design uses a longitudinal section of the foil) at constant values of its thickness and width. The height of the stamped HOSCK and increases slightly with the same IMM. The use of the proposed design, a foil current lead, simplifies the technology of extinction of quartz quartz lamps with high current load on a flat foil-current. OWLER, and also makes it possible to manufacture high-power quartz lamps with flat foil current leads, replacing bar current leads for transition ones stacks In the construction of the Plant with three or more thickened zones, the longitudinal section of the foil is used for passing through the foil, and sections of the foil separated by haxings of the zones are connected in parallel by connecting the output and the internal aiaeHa lamp to the thickened foil zones (Fig. 3 and 4) , which makes it possible to increase the current load on the flush 2 times or more with constant foil geometrical dimensions (lamp legs). The distance between the longitudinal thickened zones and the width of the zones themselves are selected in each case separately. The use of the proposed foil current lead construction simplifies the technology of manufacturing existing quartz lamps with a large current load on the current lead, making it possible to manufacture quartz lamps of high power with flat current leads, which allows replacing bar and cylindrical foil current leads in high-power lamps. Claim 1. A sealed current lead to a quartz lamp bulb containing foil with thickened zones along the edges connected respectively to the internal and external current leads, characterized in that, in order to increase the current load on the current lead with a constant Foil width, these zones are located throughout foil length, 2. Hermetic lead-in conductor according to claim 1, differing in that the foil is provided with at least one additional thickened zone, also located along the entire length of the foil and dividing it into parallel to the thawing area with an appropriate electrical connection of the warmed zones to the internal and external current leads. Sources of information. Grgr5pyu in schtmanie at expert 1, US Patent Ns 36816 0, l. 313-222, 1974. 2. US patent number 3548248, l. 313-331, 1972.