JPH11510953A - Electric incandescent lamp - Google Patents

Abstract

(57) Abstract: An electric incandescent lamp has a lamp vessel (1) in which a filament (3) is arranged substantially concentrically with a longitudinal axis (2) of the lamp vessel (1). I have. A current conductor (4) extends from the vessel (1) of the lamp, and a part of its inner conductor (10) is substantially concentric with the axis (2) and a part (12) of a transversely open cross section. Having an end portion (11). The end part (6) of the filament (3) is wound on a cross-section (12) open beside the respective inner conductor (10) to constitute a clamping rotation (5). . The lamp is of a simple construction to reliably obtain concentrically mounted filaments.

Description

DETAILED DESCRIPTION OF THE INVENTION Electric incandescent lamp The invention is: a light-transmitting lamp vessel closed in a gas-tight vacuum manner and having a longitudinal axis; a helical approximately concentric with the axis and inside the lamp vessel. An incandescent body of tungsten wound around a current conductor each having a straight inner conductor substantially concentric with the axis and having an end portion surrounded by the rotation required for the incandescent body; and the current conductor is a lamp An electric incandescent lamp comprising exiting from a container. Such an electric incandescent lamp is known from EP-A-0 358 061. For example, when the lamp vessel has an infrared reflective filter, or when the centered position of the lamp in the fixture is to achieve the centered position of the incandescent body of the lamp in the fixture. It is important for electric incandescent lamps that the incandescent body should be approximately concentric with the vertical axis. The incandescent body of the known lamp has, at both ends, a number of turns necessary for a body of a diameter which is relatively small compared to that of the light emission of the incandescent body and which fits into the relatively large diameter end rotation. doing. The latter rotation is in peripheral contact with the lamp vessel and is thereby kept central. The inner conductor extends through the rotation of these ends, thereby being surrounded by a considerable distance, and passing a relatively small diameter rotation through the eye of the needle. Known lamps have a complex configuration that is difficult to reproduce. An incandescent body having the necessary portions of it on either side includes three different diameter turns. These add considerable complexity to the manufacture of the incandescent body and increase its cost price. It is a requirement that the incandescent body be centered in the lamp vessel by rotation of the largest diameter. However, these rotations are only connected to the incandescent body by a flexible wire from which the incandescent body is wound, so that the centering of the former rotation provides no guarantee for the centering of the incandescent body itself. The inner conductor is simply passed through the needle of the smallest diameter turn, so that poor electrical contact is a concern. Further, during the passing, the handling of the incandescent body may lose the effect of centering. Other structures mentioned in the cited references also e.g. conical, widening continuously from the center to the edges, in which the free ends are also bent along the centerline of a suitable incandescent body It suffers from the disadvantages of complex shapes, such as a rotating incandescent body in which a wound inner conductor is housed. The object of the invention is to provide an electric incandescent lamp of the kind mentioned in the opening paragraph, which is of a simple and reliable construction which can be easily realized. According to the invention, this object is achieved in that the inner conductor has a laterally open cross section at the end portion thereof, and the incandescent body has, on each of its inner conductors, around its laterally open cross section each This is achieved by having a rolled end portion. The electric incandescent lamp according to the invention is easy and quick to produce and also differs in its appearance from conventional lamps. The incandescent body obtained in a conventional manner can be used for the manufacture of lamps, the straight ends of the wire on which the incandescent body is wound still project tangentially at both ends. The ends of these lines are also called the incandescent legs. The inner conductor is then brought into a centered position with respect to the incandescent body, for example in that the incandescent body and the conductor are held in a jig and / or a positioned chuck. The legs of the incandescent body are then wrapped around the inner conductor in that they are wrapped around the inner conductor in the direction of the free end away from the incandescent body. The area of transition from the incandescent body to the incandescent leg can be reduced, e.g., in nitrogen, or in nitrogen, e.g. Or in an inert or reduced atmosphere in a rare gas. The line is then easily deformed to the desired shape with a small force. Undesired deformation of adjacent parts is thereby avoided. An incandescent body having an inner conductor attached thereto is heated to remove bending stresses caused by winding into the entire product, for example, by passing current therethrough. An incandescent body is thus obtained, and the substantially concentric inner conductor connected thereto is then processed into the lamp in a conventional manner. When a wire, for example, an incandescent leg is wound around a round core, a round conductor, the wire has a tendency to bounce and tangentially slide along the core. The rotation then gains a larger diameter, and the stresses present in the wire for the coil are thereby reduced. Tangential movement is possible because the wire is wound around the circular core with constant curvature along the helical track. The movement results in bad electrical contact. In the lamp according to the invention, the inner conductor has a cross-section that opens laterally at least at its ends, around which the ends or legs of the incandescent body are wound. The rotation of the wound leg has a curvature that varies within the rotation rather than a constant curvature, so that it (the rotation of the wound leg) counteracts the tangential movement of the rotation. In fact, the rotation hooks itself around the inner conductor. The rotation maintains the initial contact with the inner conductor obtained while making the rotation. As a result, the legs have good electrical and mechanical contact with the inner conductor. Once the centered position is obtained, it is protected by it, and it has a low contact resistance between the incandescent body and the inner conductor, so that (low contact resistance) benefits the brightness efficacy of the lamp. The inner conductor is manufactured, for example, from a metal strip and has a rectangular cross section. Alternatively, the inner conductor can be a round rod, for example, which is provided with a laterally open cross section by grinding. However, a very attractive embodiment is one in which the inner conductor is flattened in a deforming action, for example by impact or pinching. The transverse dimension of the conductor is smaller in the hammering and pinching device and larger in the direction across the hammering and pinching direction compared to its initial state and where no deformation has occurred. It is advantageous to give the inner conductor a laterally open cross-section by deformation, because this is done in a short time without creating unnecessary material, and because the shape of the cross-section changes but its dimensions Does not change or does not change substantially, so that the conductance of the conductor substantially remains the same. This is not the case if the material is removed, for example, by grinding. Since the legs of the incandescent body are wound directly on the inner conductor, these legs are in contact with the inner conductor for at least the majority of their wound length, and the inner conductor is on all sides Is in contact with If the pre-wound legs are applied around a laterally open conductor, the circular rotation will be oval, and the rotation will be in contact with the conductor only over each small portion. There will be. In addition, concentric positions of the incandescent body and the conductor cannot be achieved because they are then handled by hand. The rotation produced beforehand and then passed through the inner conductor must be wider inside than the outer diameter of the inner conductor. As a result, it will not be possible for the inner conductor to be in contact with the rotation on all sides. This is, to a considerable extent, correct for inner conductors having a cross section of a shape that varies along their longitudinal direction. The dimensional latitude of the winding spindle and the inner conductor also affects the fit of the prefabricated coil. The end portion of the incandescent body is gripped with a clamping fit around the end portion of the appropriate inner conductor. A preferred embodiment is one in which the inner conductor has only a locally open cross-section at the end. The transversely open cross section is then separated from the end of the inner conductor, which is located adjacent to the incandescent body. This embodiment has not only coupling between the incandescent body and the inner conductor based on the clamping force, but also coupling based on a matched shape due to the cross-section of the shape changing along the longitudinal direction of the conductor. It has the advantage that. It then requires a fairly high force to pull the rotation axially away from the inner conductor. The inner conductor may have several regions with a laterally open cross section at its end portions. Again, large forces are required to pull the rotation axially away from the inner conductor. Since the inner conductor is a discrete body added to a preformed incandescent body, the material of the conductor is selected as desired. It is often preferred to use tungsten because of the temperature and mechanical resistance of this metal. The lamp vessel can be made, for example, of glass having a content of at least 95% by weight of SiO ₂ , such as glass, for example quartz glass or alternatively hard glass. The lamp vessel may have various shapes, for example, cylindrical, spherical or oval. The lamp vessel may be assembled from an optical filter, for example, an infrared reflective filter, for example, a plurality of layers of high and low refractive index, and preferably matched with a dichroic filter having an intermediate layer of intermediate refractive index. The low refractive index material used for this is, for example, SiO ₂ , the high refractive index materials are, for example, Ta ₂ O ₅ , Nb ₂ O ₅ , Si ₃ N ₄ , and the intermediate refractive index material is For example, silicon oxynitride. The lamp vessel is evacuated or filled with a gas, for example a noble gas and / or an inert gas such as nitrogen, to which a halogen or a halogen compound such as HBr or CH ₂ Br ₂ is added to obtain a regeneration cycle. Can be An embodiment of the electric incandescent lamp according to the invention is shown in the drawings. In the drawings: FIG. 1 shows the lamp in side view; FIG. 2 shows the incandescent body seen along II in FIG. 1; FIG. 3 shows the steps in the assembly process of the incandescent body; 4 and 5 are side views of the inner conductor rotated by 90 ° with respect to each other. In FIG. 1, the electric incandescent lamp has a light-transmitting lamp vessel 1 made of quartz glass in the figure, and it (the lamp vessel) is closed in an airtight vacuum manner, and It has a vertical axis 2. A tungsten incandescent body 3 wound helically is arranged inside the vessel 1 of the lamp, substantially concentrically with the axis 2. The current conductors 4, each containing a straight inner conductor 10, emerge from the vessel 1 of the lamp, said inner conductors 10 being each substantially concentric with the axis 2 and surrounded by the required rotation 5 of the incandescent body 3. It has a portion of the edge that is cut. The molybdenum foil 4a is welded to the inner conductor 10 and each is connected to a molybdenum wire 4b to form the current conductor 4 together. The vessel 1 of the lamp has an elliptical outer surface on whose surface an infrared reflecting filter 7 is placed, which (infrared reflecting filter) reflects the infrared radiation generated by the incandescent body 3, Because of its position at the center of the incandescent body 3 on the vertical axis 2, the larger axis of the ellipse, it is substantially thrown back onto the incandescent body. The vessel 1 of the lamp is filled with an inert gas to which hydrogen bromide has been added. The inner conductor 10 made of tungsten in the figure has a transversely open cross section 12 at the end portion 11 and also see FIGS. 4 and 5, and the incandescent body 3 is placed on each inner conductor 10 , Each having a wound end portion 6 around a cross section 12 open to its side. A laterally open cross section 12 at the end portion 11 was obtained through deformation of this end portion 11. In the embodiment shown, and also see FIGS. 4 and 5, this is done by an anvil matching the hammer. Initially the substantially round conductor 10 is thereby locally thinned in the hammer ring device, see FIG. 4, and is spread transversely to the direction of the hammer ring, see FIG. Deformation has given the inner conductors a band of axes that not only open sideways but also change their shape. The laterally open cross section 12 is separated from the end 13 of the inner conductor 10 which is located adjacent to the incandescent body 3, see FIG. The end portion 11 of the inner conductor 10 has several, here two laterally open sections 12 created by local hammer bombardment, see FIGS. 4 and 5. In FIG. 3, the incandescent body 3 is held in a jig 20 having a path 21 for supplying an inert gas. Current conductor 10 is centered with respect to incandescent body 3 and is held by chuck 22. The burner 24 heats the outermost rotating part of the incandescent body 3 so as to make it soft and easy to bend, so that it moves in the direction of the inner conductor without its rotation and the remaining deformation of the other rotation. Can be easily bent. The right winding head 23 in the figure, the still straight end part 6 of the incandescent body 3 extending tangentially from the incandescent body 3 around the end part 11 of the internal current conductor 10, It is possible to wind up to form a wound end portion 5 of the left already finished type.

Claims (1)

[Claims] 1. A light-transmitting lamina closed in an airtight vacuum manner and having a longitudinal axis (2) Pump container (1);     A tape wound helically inside the lamp vessel (1), substantially concentric with the axis (2) Gusteng incandescent body (3);     Approximately concentric with the axis (2) and surrounded by the required rotation (5) of the incandescent body (3) Each having a straight inner conductor (10) with a cut end portion (11) A current conductor (4), and the current conductor (4) exits from the lamp vessel (1); To go   In electric incandescent lamps containing:     A cross section (12) in which the inner conductor (10) opens sideways at its end (11) And the incandescent body (3) has an open section (12) Each inner conductor (10) has a wound end portion (6). Electric incandescent lamp 2. 2. The electric incandescent lamp as claimed in claim 1, wherein the cross section is open laterally. Is the end of the inner conductor (10) through the deformation of the end (11) An electric incandescent lamp obtained in minutes (11). 3. The electric incandescent lamp according to claim 1 or 2, wherein the lamp is opened sideways. The cross section (12) corresponds to the end () of the inner conductor (10) which is placed adjacent to the incandescent body (3). 13) An electric incandescent lamp which is separated from (13). 4. The electric incandescent lamp according to any one of claims 1 to 3, The end portion (11) of the inner conductor (10) has a cross section (12) which is open sideways. An electric incandescent lamp having several areas. 5. The electric incandescent lamp according to any one of claims 1 to 4, wherein The inner conductors (10) have a laterally open cross section (12) which changes their shape in the axial direction An electric incandescent lamp comprising: