Electric lamp and discharge devices – With gas or vapor – Envelope with particular structure
Reexamination Certificate
2001-11-27
2003-12-30
Bradley, P. Austin (Department: 2833)
Electric lamp and discharge devices
With gas or vapor
Envelope with particular structure
C313S284000, C313S493000, C362S166000, C362S264000
Reexamination Certificate
active
06670758
ABSTRACT:
BACKGROUND AND SUMMARY OF THE INVENTION
The instant invention relates to short arc lamps, and more specifically to a short arc lamp having an improved housing structure which simplifies manufacturing and reduces cost, while also improving structural integrity and thermal performance.
Short arc inert gas lamps are well known in the prior art for use in applications requiring high intensity light, such as for example, in spectroscopy, or in other fiber optics illumination devices, such as endoscopes for the medical industry. Short arc lamps generally comprise a sealed chamber containing an inert gas, such as xenon, pressurized to several atmospheres, and an opposed anode and cathode defining an arc gap. The application of electricity to the anode and cathode cause an arc which glows brightly in the inert gas. A reflective surface within the chamber reflects light outwardly through a window. While the general configuration of these lamps is well known there are many different variations in the specific implementation. The variations are due to two significant issues that are paramount in the design and construction of such a lamp. The first issue is structural integrity of the housing to maintain the inert gas at elevated pressures and the second issue is heat transfer. Short arc lamps of this type operate at extremely high temperatures. Accordingly, there are many design issues in attempting to maintain structural integrity and also dissipate heat from the overall housing.
Throughout the prior art there have been many attempts to modify and improve both the structural integrity of the housing and to improve the thermal performance. In this regard, the U.S. patents to McRae et al U.S. Pat. No. 3,731,133; Roberts et al, U.S. Pat. No. 4,599,540; Roberts et al, U.S. Pat. No. 4,633,128; Roberts, U.S. Pat. No. 5,399,931; Takahashi et al U.S. Pat. No. 5,789,863; Sugitani et al, U.S. Pat. No. 5,903,088; Tanaka et al, U.S. Pat. No. 6,281,629 and Kiss et al U.S. Pat. No. 6,285,131 represent the closest art to the subject invention of which the Applicant's are aware.
Each of the patents listed hereinabove describes a short arc lamp comprising a ceramic body structure having a concave reflective surface, a conductive base structure supporting the anode, and a conductive window assembly supporting the cathode. The U.S. patent to McRae et al U.S. Pat. No. 3,731,133 is directed to a short arc lamp wherein the reflector surface of the ceramic body is metalized to provide the reflective surface. The U.S. patent to Roberts et al, U.S. Pat. No. 4,599,540 discloses a short arc lamp wherein the reflector surface of the ceramic body is formed by pressing the ceramic body, when hot, with an unpolished mandrel for greater accuracy in formation of the reflective surface configuration. The U.S. patent to Roberts et al, U.S. Pat. No. 4,633,128 concerns another embodiment of a short arc lamp wherein the ceramic reflector body is provided with a convex space behind the reflector surface so that the reflecting wall is relatively thin near the focal point of the lamp. A copper sleeve is attached to the reflecting wall within the convex space to conduct heat away from the reflecting wall. The U.S. Patent to Roberts, U.S. Pat. No. 5,399,931 is a further improvement to the Roberts '128 patent wherein a copper heat transfer pad is brazed to a base assembly and to an exterior ring such that heat is more efficiently transferred to the outside surfaces of the lamp. The U.S. Patent to Takahashi et al U.S. Pat. No. 5,789,863 is directed to a short arc lamp having a single cantilevered cathode support arm which is intended to reduce thermal influences in positioning of the tip of the cathode. The U.S. Patent to Sugitani et al, U.S. Pat. No. 5,903,088 discloses a short arc lamp wherein a gap is provided between a cathode support ring and an exterior conductive ring, and another gap is formed between a window support ring and the cathode support ring. The U.S. Patent to Tanaka et al, U.S. Pat. No. 6,281,629 concerns a short arc lamp structure wherein a heat transfer plate is positioned between the base and the ceramic body. The heat transfer plate has a higher thermal conductivity than the base. Finally, the U.S. Patent to Kiss et al U.S. Pat. No. 6,285,131 is directed to an arc lamp wherein the cathode suspension system is stamped from a sheet of Kovar® (Kovar® is a registered trademark of Westinghouse Electric) material and then brazed to an annular support ring.
While each of the above-noted devices is suitable and effective for the intended purpose, they are generally complex in construction and difficult to fabricate, and thus expensive to manufacture. There is thus a need in the art for an improved short arc lamp that concurrently simplifies construction while improving structural integrity and thermal performance.
The instant invention provides such a novel short arc lamp having an improved housing structure which simplifies manufacturing and reduces cost, while also improving structural integrity and thermal performance.
The improved housing structure for a short arc lamp includes a ceramic body having a concave reflective surface formed in an upper end thereof, a base adapted to receive the base end of the ceramic body in abutting relation, and a window frame assembly positioned in abutting concentric relation with the upper end of the ceramic body.
The ceramic body comprises a cylindrical mass of alumina having a first end in which a concave reflector surface is formed. The reflector surface has an axis of rotation and a focal region defined along the axis of rotation.
The base is integrally formed with a shoulder ring adapted to receive and seal the base end of the ceramic body. Integrated formation of the shoulder ring with the base has been found to provide a significant improvement in manufacturing, as the base, ceramic body, anode, exhaust tubulation and window frame ring can be easily assembled and brazed in a single brazing operation. In particular, the base is preferably formed from an iron alloy and more preferably formed from an alloy of iron, nickel and cobalt using a metal injection molding (MIM) metallurgical forming process. MIM provides the ability to mold complex geometries in a solid part that would not be feasible in conventional milling operations or may not be cost effective.
The window frame structure is integrally formed to include an annular flange having a substantially U-shaped cross-section and three circumferentially spaced cathode support arms extending radially inwardly therefrom. The cathode support arms further include an integrally formed cathode mounting ring at the terminal intersection thereof. The window frame structure is also preferably formed using MIM forming techniques so that the window frame and cathode support arms are formed as a single unitary structure. Forming the cathode support arms as an integral portion of the frame eliminates at least one brazing step from the prior art techniques and further eliminates the separate manufacturing step of forming the cathode support arms. In the prior art, the cathode support arms were formed separately and then brazed together with the annular flange of the window frame. Axial alignment and position of the cathode support arms was difficult and time consuming in the manufacturing process. Integrally forming the annular flange, cathode support arms and the cathode mounting ring improves the accuracy of axial alignment of the cathode. In the assembly process, a sapphire window and a cathode are assembled together with the window frame structure, and brazed together in a single process to provide a completed window frame sub-assembly.
As indicated above, the novel changes in construction of the components significantly simplifies the assembly process. In the preferred method of assembly, the anode, exhaust tubulation, ceramic body and window frame ring are assembled with the base and simultaneously brazed together in a single operation to form a body sub-assembly.
The window frame sub-assembly is then joined to the wi
Beech Paul L.
DeDonato Albert M.
Barlow Josephs & Holmes, Ltd.
Bradley P. Austin
León Edwin A.
Luxtel LLC
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