SU915127A1 - Cylindrical lead-in into quartz glass-made lamp - Google Patents

Description

The invention relates to the design elements of gas-discharge lighting lamps, namely to. input conductors, and can be used in the manufacture of quartz gas discharge lamps of continuous and pulsed radiation with cylindrical foil current leads.

A cylindrical foil current lead is known, which is a molybdenum foil bent in the form of an open cylinder (the distance between the edges is usually 1–2 mm). Inside the cylinder is placed a hollow or solid quartz insert. From one end of the cylinder is welded to the electrode, and from the other - to the conclusion. The electrode assembly assembled in this way is sealed into a quartz tube of the lamp [1].

The disadvantage of such a conductor is the large perimeter of the cross-section of the foil at the welding point, which, in order to ensure the reliability of the flow, leads to the need to increase the length of the welding zone and, accordingly, the lamp dimensions.

. The closest in technical essence to the present invention is the current lead to a quartz glass lamp containing co2

chambered in the form of an open cylinder and a cylindrical quartz liner tightly covering the entire length, molybdenum foil welded at the ends, respectively, to the electrode and output and welded into

5 foot lamp. In the foil, along the generatrix of the cylinder opposite the unclosed part, a notch is made equidistant from the ends of the liner and having a length 1.1 - 1.5 times less than the length of the liner, and the width equal to the distance between the edges of the open cylinder [2].

Reducing the perimeter of the cross-section of the uncoordinated junction foil-quartz allows you to increase the reliability of sealing the lamp and reduce the length of the welding zone 15 of the foil cylinder and, as a result, the overall current lead dimensions. Shorter current leads are mechanically more durable.

The disadvantage of the current lead-in is that when the MF ₂₀ bay is molybdenum foil into the cylinder, it is necessary to bend it so that the direction of its rolling coincides with the generator of the cylinder. Bending across the foil with a thickness of 50-80 microns, used in cylindrical current leads of high-intensity lamps, in mass production nete915127

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This is logical because, due to the strong springing properties of the foil when bent across the rolled direction, installation of the electrode assembly becomes difficult, and the reliability of welding the cylinder to the electrode terminal is reduced. This disadvantage is absent when bending such a foil along the direction of its rolling. However, since the direction of sealing of the current lead (i.e. along the cylinder generator) is the same as the direction of rolled foil, then due to the possibility of formation of capillary channels along the foil during rolling, when welding the electrode assembly in the leg (soldering foil with quartz) scratches and scratches, the reliability of sealing the current lead decreases due to leakage through these capillary channels connecting the electrode with the output (ie, the internal volume of the lamp with the outside atmosphere). This reduces the reliability and durability of the lamp as a whole. In addition, when the foil is folded into the cylinder and forms along the direction of its rolling, the possibility of formation of longitudinal folds along the cylinder during welding, as a result of this, channels are formed in the junction leading to leakage.

The purpose of the invention is to improve the reliability of the sealing current lead and increase the reliability and durability of the lamp.

This goal is achieved by the fact that in a cylindrical current lead into a quartz glass lamp containing a cylindrical quartz insert bent in the form of an open cylinder and tightly covering the entire length of a cylindrical quartz insert, welded at the ends respectively to the electrode and the output and welded into. the lamp stem, a cut having a length of 1.1-1.5 times shorter than the liner length is made in the foil, and the width equal to the distance between the edges of an open cylinder is provided with at least one additional cutout having the same dimensions, with the gap between the edges of the cylinder and the notches are located at equal distances from each other around the circumference of the cylinder, and the direction of rolling molybdenum foil is perpendicular to the image of the youth center or base.

With this design, the springing properties of the foil are reduced to such an extent that folding the foil into a cylinder with the foil forming across the rolling direction becomes easy. At the same time, when the cylinder is rolled up in a similar way, possible capillary channels in the junction of quartz with foil are located around the circumference of the cylinder and cannot lead to leakage into the lamp. The load capacity of the current lead decreases slightly, since the width of the cut-outs does not exceed Ι - 2 mm and the foil section is reduced only by an insignificant value.

FIG. 1 shows the current lead before welding in the lamp leg; in fig. 2 is a cross-section of the current lead after welding in the leg.

The current lead consists of an electrode 1, a pin 2, molybdenum foil welded to them in the form of an open cylinder 3, a liner 4, and a leg 5 of a lamp. Cylinder 3 has several notches 6 whose width is equal to the distance between the edges of an unclosed cylinder 3, i.e. the width of the slit 7. Since this distance is small and amounts to 1-2 mm, the presence of cuts in the foil cylinder 3 only slightly reduces the total surface area of the foil current lead, therefore the load capacity of the proposed current lead decreases slightly compared to the known one. Even more than in the known current lead, reducing the perimeter of the cross section of the uncoordinated junction allows increasing the reliability of sealing the lamp and reducing the length of the welding zone of the foil cylinder and, as a result, the overall dimensions of the current lead. The notches 6 are equidistant from the ends of the liner 4 and have a length of 1.1-1.5 times shorter than the liner 4; therefore, the lamp is securely fastened in the most vulnerable places - the junction of the ends of the liner 4 with electrode 1 and terminal 2. The number of notches 6 is selected depending on the diameter of the cylinder 3, it is a consideration that the distance around the foil between adjacent cuts is 5-8 mm. In this case, from the point of view of obtaining a reliable quartz-foil junction and reducing the dimensions, the proposed current lead approaches even more well-known tape foil inputs than the well-known current lead, but the proposed current lead, in contrast to the well-known multilobed, is simple in assembly and technological, since the foil blank for a cylinder it is a single whole and is cut down at one time, and the operation of welding a cylinder with an electrode and a lead does not differ from that for known cylindrical current leads, due to the fact that the notches reach the edges of the foil. The direction of the rolled foil perpendicular to the forming cylinder 3, so the capillary channels along the scratches and scratches formed on the foil during hire, are directed around the circumference of the cylinder 3 and can not lead to leakage through the current lead. The presence of several notches 6 reduces the springing properties of the foil billet, which is bent transversely to the direction of hire, therefore the laboriousness of the current lead assembly and reliability, the welding of parts does not change compared to the known gokvodom.

The proposed construction of a cylindrical current lead to a quartz lamp

glass allows you to increase the reliability and

durability of the lamp as a result of eliminating the possibility of leakage through the capillary 915127

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quartz foil junctions in the channels. Besides

In addition, the longitudinal dimensions of the current lead are reduced, which leads to an increase in the mechanical strength of the lamp.

Claims (1)

Claim A cylindrical current lead into a quartz glass lamp containing a bent in the form of an open cylinder and a cylindrical quartz insert bently covering the entire length of molybdenum foil welded at the ends to the electrode and the output and welded into the lamp leg, and in the foil forming a cutout having a length 1.1 - 1.5 times shorter liner length, and width, .6 equal to the distance between the edges of an open cylinder, characterized in that, in order to increase the reliability of sealing the current lead and increase the reliability and durability of the lamp, the foil is provided with _{5 with} at least one additional notch having the same dimensions, with the gap between the edges of the cylinder and the notches located at equal distances from each other around the circumference of the cylinder, and the rolling direction of the molybdenum foil is perpendicular to the cylinder.