RU156784U1 - SEALED HOUSING - Google Patents

Abstract

A sealed case, including a wall of the case, which, through a gasket made of titanium with double-sided flanging, equipped with aluminum foil on both sides, is connected around the perimeter with an inlet window of leucosapphire, characterized in that the inlet window is made in the form of a plano-convex collecting lens, a flat surface which faces the gasket.

Description

The utility model can be used in the manufacture of sealed input-output of radiation sources into the working volume of various electrophysical installations, electrovacuum, gas-filled devices, as well as lasers.

A device for thermostating of a transmitting television tube located in a sealed enclosure. The input window of the transmitting television tube is made of a plate of a crystal of leucosapphire. Patent of the Russian Federation for the invention №2115860, IPC F21V 31/00, 1996

An irradiator is also known in which the window is made of leucosapphire. Patent of the Russian Federation for utility model No. 5346, IPC A61N 5/06, 1997

A two-electrode spark gap is known that contains a housing in which a cathode is located, having a tip and made of VNB-3 alloy, an anode made with a hole in the center, and a transparent window for inputting a laser beam (Russian Federation Patent Utility Model No. 119935, H01J 17 / 64, published on 08.27.2012).

Known sealed enclosure with an inlet window of leucosapphire, in which the sealed enclosure is made of alumina ceramics, and the wall of the sealed enclosure through an aluminum gasket with two-sided flanging is connected around the entire perimeter with the inlet window of leucosapphire by diffuse welding. Utility Model Patent of the Russian Federation No. 128780, IPC H01J 17/00, 2013

The disadvantage of these analogues is the low functionality of the input window, which is a plane-parallel plate. In many electrophysical installations and devices, it is required not only to pass control (acting) laser radiation, but also to focus it. For this purpose, collecting lenses are additionally used, which complicates the design of installations or devices and increases the loss of reflection of radiation.

A sealed case made of alumina-ceramics is known, in which the wall of the body through the gasket with two-sided flanging is connected around the perimeter with the inlet window of leucosapphire, and the gasket with two-sided flanging is made of titanium, and aluminum foil is located on both sides of the gasket. Patent of the Russian Federation for utility model No. 138893, IPC H01J 17/00, 2014. The indicated utility model is selected as a prototype. The disadvantage of the prototype, like analogs, is the low functional ability of the input window and, if necessary, focus radiation, high reflection losses.

The technical result of the utility model is the expansion of its functionality and the reduction of losses due to reflection of laser radiation.

The technical result is achieved in that in a sealed case in which the wall of the case through a gasket made of titanium, with two-side flanging, on both sides of which there is an aluminum foil, is connected around the perimeter with the entrance window of leucosapphire, made in the form of a flat-convex collecting lenses with a flat surface facing the gasket.

The essence of the utility model is illustrated by the drawing, which schematically shows a section of the wall of the sealed enclosure, where: 1 is the wall of the enclosure, 2 is a titanium gasket with two-side flanging, 3 is aluminum foil, 4 is an entrance window made of leucosapphire made in the form of a flat-convex lens. The flat surface of the entrance window 4 is facing the gasket 2 and is in contact with the aluminum foil 3, the convex surface is directed towards the incident laser radiation. This design of the sealed housing can be used to introduce laser radiation into a controlled arrester, which requires focusing of the laser radiation on the cathode. The implementation of the input window in the form of a flat-convex collecting lens can halve the loss of reflection in those cases when it is necessary to focus the laser radiation introduced into the installation or device, since the number of reflective surfaces is reduced by half.

The manufacture of a sealed enclosure is as follows. An assembled product in which a titanium gasket 2 with two-sided flanging is installed on the wall of the housing 1, aluminum foil 3 on both sides of the gasket 2 and an inlet window 4 made of leucosapphire are placed in the working chamber of the diffuse welding unit. Spend pumping in the working chamber to a pressure of ≈10 ^-7 Torr. Then, aluminum is activated through an oxide film on the surface of aluminum foil 3 by holding the product at a temperature of (520-660) ° C for (60-90) minutes without force. Then, with an axial force of more than 350 N, the product is maintained at a temperature of (400-580) ° C for 30-60 minutes. During physical contact, diffuse processes of the wall of the casing 1 of alumina-ceramic and leucosapphire window 4 with aluminum foil 3 occur, both on the surface of aluminum foil 3 and on the surface of titanium gasket 2. Then weld surfaces are connected under force (40-200) N at temperature (500-600) ° C for (40-70) minutes.

Thus, the proposed technical solution differs from the prototype in the presence of new features, mutual arrangement and form of execution, which give the object new properties that are manifested in the technical result.

Claims (1)

A sealed case, including a wall of the case, which, through a gasket made of titanium with double-sided flanging, equipped with aluminum foil on both sides, is connected around the perimeter with an inlet window made of leucosapphire, characterized in that the inlet window is made in the form of a plano-convex collecting lens, a flat surface which faces the gasket.

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