ES2205318T3 - INCRUSTATION OF A CRYSTAL MOLIBDEN SHEET AND ELECTRIC LAMP WITH A MOLIBDEN SHEET OF THIS TYPE INCRUSTED. - Google Patents

Abstract

THE INVENTION REFERS TO A LAMINAR INCRUSTATION OF MOLIBDEN IN QUARTZ CRYSTAL, WHICH CAN BE USED BY EXAMPLE FOR STEPS OF CURRENT STEPS TO THE LAMP CONTAINER GASES. THE EXTREME 4C LIMITED BY CUTTING SONGS 4B OF THE MOLIBDEN PLATE 4 INCRUSTED IN THE QUARTZ CRYSTAL 1 HAS BEEN CONFIGURED IN ACCORDANCE WITH THE INVENTION IN THE FORM OF A WEDGE. THE WEDGE MOLD IS GENERATED BY ROLLING THE EXTREME OF LAMINA 4C. THROUGH THIS, ARISTS ARE ELIMINATED IN THE CUTS OF CUT 4B AND THE RISK OF THE FORMATION OF FISURES OR HIGHLIGHTS IN THE QUARTZ CRYSTAL 1 IS PREVENTED.

Description

Embedding a molybdenum sheet in glass and electric lamp with such a molybdenum sheet embedded.

The invention relates to an inlay of molybdenum sheet in glass and an electric lamp with a molybdenum sheet of this type embedded according to the preamble of claims 1 and 4 of the patent.

I. Technical field

Inlays of molybdenum sheets in crystal are needed, for example, for current passages gas-tight electric in lampholders, consisting of quartz crystal, high pressure discharge lamps and halogen lamps With quartz crystal they are designated here crystals, whose percentage of silicon dioxide is at least 95% by weight. Indeed, since the quartz crystal of the Lampholder has a coefficient of thermal expansion essentially smaller than the power supply lines usually made of molybdenum wire and projected from the lamp holder, which are used for power supply electric to the luminous medium arranged inside the lamp holder, no it is possible to embed the power supply wires directly, that is, without auxiliary measures, on the glass of Lampholder quartz in a gas tight manner. If of a lampholder heating, for example during operation of the lamps, the wires of the molybdenum power supply approximately ten times more than the surrounding room glass. Mechanical tensions that derive from it would lead to cracks in the crystal of quartz. However, with the help of molybdenum sheets sufficiently thin of sufficient ductility, despite the coefficients of thermal expansion other than quartz crystal and molybdenum and the mechanical stresses that result from it, a gas-tight electrical current passage can be manufactured for lampholders. To this end, the opposite ends are welded each other of the molybdenum sheet usually in each case with a molybdenum power supply wire and this unit of construction that results in this way is then placed in the end of the lampholder to be welded in such a way that one of the Two power supply wires are projected within the interior space of the lamp holder, while the other end of The power supply is projected out of the lampholder. The quartz crystal at the end of the lampholder melts then and the end of the lamp holder is crushed tightly, for example, by crushing jaws on the unit of construction consisting of the molybdenum sheet and the power supply lines. The molybdenum sheet is then fully embedded in the end quartz crystal of the lamp holder. In the region of molybdenum sheet, the passage of the current that is constituted by the power lines of the current and molybdenum sheet is embedded so Gas tight at the end of the lamp holder.

Molybdenum sheet inlay They fulfill here, therefore, two different functions. In first instead, they serve to establish a conductive connection of electricity between the luminous medium arranged inside the lampholders and power supply lines that they project outside the lampholder and, secondly, guarantee a Gas-tight lamp holder closure. Molybdenum sheets They are usually cut from a reserve band. For the therefore, they have a rectangular surface, which is limited by two side edges and two cutting edges that extend perpendicular to the side edges. The surfaces of the Molybdenum sheets are usually curved convexly, that is, the thickness of the molybdenum sheets is reduced from continuous way from the center of the sheet towards the edges lateral.

II. State of the art

From the publication of US patent 4,587,454 molybdenum sheet inlays are known in crystal that, to avoid the formation of cracks in the crystal, They have molybdenum sheets with a rough surface through the sandblasting treatment. Molybdenum sheets have a cross section in the form of a spatula, that is, the sheet thickness is reduced continuously from a maximum value in the center of the sheets, in the direction of the two lateral sides of the sheet that extend in the direction longitudinally, transversely to the cutting edges of the sheets.

German patent publication DE 29 47 230 describes inlays of molybdenum sheets for sealing of lampholders, which are made up of at least 95% of quartz crystal. For the reduction of crack formation in the crystal, molybdenum sheets are provided with a Yttrium oxide contribution of 0.25 to 1% by weight.

British Patent Publication GB 1 594 976 publishes an inlay of molybdenum sheets in glass, in the that the molybdenum sheet has two opposite ends to each other and two lateral edges that extend perpendicular to them. The Molybdenum sheet is convexly curved, that is, the sheet thickness is reduced continuously from the center of the blade in the direction of the side edges. A Molybdenum sheet end is configured in the form of wedge, to eliminate stresses in the inlay. Wedge shape It is manufactured by means of a chemical pickling process.

It has been shown that through measurements mentioned above, which belong to the state of the art, you cannot always reliably prevent a formation of cracks in the glass surrounding the inlay of sheets of molybdenum. In particular, it has been found that in the ends of molybdenum sheets, limited by the edges of cut, cracks frequently occurred in the surrounding glass Molybdenum sheets.

III. Representation of the invention

The purpose of the invention is to prepare a Embedding molybdenum sheets in glass, which does not have the above mentioned inconveniences. In particular, it must reduce the danger of cracking in the crystal in the region of the ends of molybdenum sheets delimited by cutting edges In addition, the purpose of the invention is to prepare a electric lamp with improved sealing of lampholders in the region of the electric current passages.

This task is solved according to the invention by through the characteristic features of claims 1, 2 or 3 of the patent.

Inlays of molybdenum sheets in crystal according to the invention, at least one of the ends, in the form wedge of molybdenum sheet embedded in the glass, is delimited by a laminated cutting edge. Through this measure, burrs that have formed can disappear again in the cutting edge during the cutting of the molybdenum sheet to from the reserve band, so that these burrs that come from the cut cannot cause cracks or breaks in the crystal surrounding the molybdenum sheet. The wedge shape of end of the molybdenum sheet bounded by a cutting edge It can be generated through lamination of this end of the sheet Molybdenum Through lamination, the eventual ones are smoothed cutting burrs in the cutting edge of the molybdenum sheet. To the minus one of the molybdenum sheets of the sheet inlay of molybdenum, according to the invention, is delimited by two edges of cut and two lateral edges that extend transversely to the cutting edges and has parallel cutting edges a spatula shaped cross section. In this way, receive a curved surface convexly, which reduces tensions mechanical inlaying molybdenum sheet. Inlay of molybdenum sheet according to the invention can be used in a most advantageous way to seal gas tightly of electric current passages for lampholders.

IV. Description of the preferred embodiment

The invention will be explained in detail below. with the help of a preferred embodiment. In this case:

Figure 1 shows a top plan view over a current passage of a lampholder with an inlay of molybdenum sheet according to the invention in representation schematic

Figure 2 shows a side view of the passage of lampholder current of figure 1 representing schematic

Figure 3 shows a cross section to through the current passage of figure 1 along the axis longitudinal A-A and perpendicular to the plane of the sheet in schematic representation.

Figure 4 shows a cross section to through the current passage of figure 1 along the intersection B-B and perpendicular to the plane of the sheet in schematic representation.

Figure 1 shows a seal crushed 1 for a lampholder 2, which is constituted by quartz crystal, of an electric lamp with a current passage  electric, which has a molybdenum sheet embedded according to the invention. The passage of electric current is constituted by a power supply wire 3, which projects from the Lampholder, for a sheet of molybdenum 4 embedded in shape gas-tight on the quartz glass of the seal crushed 1 and by an electrode bar 6 that projects inside of the inner space 5 of the lamp holder 2. The passing wire of current 3 and electrode bar 6 are also constituted by molybdenum and both are welded together with the sheet of molybdenum 4. Molybdenum sheet 4 has a surface rectangular, whose edge is formed by two opposite cutting edges 4b each other and by two lateral edges 4a that extend in the longitudinal direction A-A, perpendicular to the cutting edges 4b. The cutting edges 4b result during cut molybdenum sheet 4 from a reserve band. The surface of molybdenum sheet 4 is curved in shape convex, that is, its thickness is continuously reduced to from the center of the sheet towards the two lateral edges 4a, of  so that the molybdenum sheet 4 has, parallel to the 4b cutting edges, a spatula-shaped cross section (figure 4). The ends 4c delimited by cutting edges 4b of the Molybdenum sheet 4 end in wedge-shaped tip. For generate the wedge shape, the ends 4c of the sheet are laminated before welding the molybdenum sheet 4 with the wire 3 power supply and electrode bar 6. Points welding 7 between electrode rod 6 and the sheet of molybdenum 4 or between the power supply wire 3 and the molybdenum sheet 4 is located outside the ends 4c of the wedge-shaped blade. The representations of figures 1 to 4 are not done exactly to scale, but only in a way schematic The thickness of molybdenum sheet 4 is approximately 20 µm in the center of the sheet. The diameters of the power supply wire 3 and the bar of electrode 6 are more than twenty times greater than the thickness of the sheet.

For the fabrication of sheet embedding a rectangular piece of molybdenum sheet is cut from molybdenum 4 from a molybdenum band arranged in a roll of reservation. This molybdenum band is already convexly curved, that is, its thickness is reduced continuously from the center of the band towards its lateral edges. In this way, also molybdenum sheet 4 has convex curvature. To remove burrs in the cutting edges 4b of the sheet molybdenum 4, ends 4c of the pointed blades are terminated in wedge shape through lamination. The ends of the sheet molybdenum 4 outside the wedge-shaped regions 4c are welded with the power supply wire 3 or with the bar electrode 6, which are both equally molybdenum. The construction unit 3, 4, 6 that results in this way is then introduced at the end of the lamp holder to close gas tight form. Then the glass of softens Quartz 1 in the region of the end of the lampholder through heating and is pressed, for example, by means of jaws crushing on molybdenum sheet 4. After the quartz crystal cooling 1, the structural unit that It consists of the power supply wire 3, the electrode rod 6 and molybdenum sheet 4 forms a step of electric current for lampholder 2, which is embedded in the gas-tight molybdenum sheet region in the end of the lamp holder.

Claims (3)

1. Embedding molybdenum sheet in crystal, presenting the embedding of molybdenum sheet the following features:

-

at least one sheet molybdenum (4), which has two ends (4c) opposite each other and two lateral edges (4a) that extend perpendicular to the ends, reducing the thickness of the molybdenum sheet (4) of continuously, from a maximum value, in the center of the sheet towards the two lateral edges (4a), so that the sheet molybdenum has a convex curvature, and at least one end (4c) of the molybdenum sheet (4) is configured as cradle,

-

a crystal body (1), whose crystal is constituted, at least, by up to 95% in weight of silicon dioxide, and in which it is embedded so gas-tight at least one of the molybdenum sheets (4),

-

one or several bars metallic (6) or wires (3), which are connected with at least one of molybdenum sheets,

characterized in that at least one of the ends (4c), wedge-shaped, is configured as a cutting edge (4b) laminated. 2. Electric lamp with one or several glass lampholders, with a luminous medium included in a lampholder and with electric current passages, characterized by one or more inlays of molybdenum lamps according to claim 1. 3. Procedure for manufacturing a molybdenum sheet inlaid in glass, which is made up of at least 95% by weight of silicon oxide, a convex curved molybdenum sheet (4) being prepared for embedding, which it has two ends (4c) opposite each other and two lateral edges (4a) that extend perpendicularly to the ends and whose thickness is reduced continuously from a maximum value in the center of the sheet towards the two lateral edges (4a) ), and at least one end (4c) of the molybdenum sheet (4) is wedge shaped, characterized in that the wedge shape of at least one of the ends (4c) is manufactured by cutting the molybdenum sheet (4) from a band of molybdenum and subsequent lamination of the cutting edge (4b), which limits the at least one end (4c).