DE3221626C2 - - Google Patents

Description

The present invention relates to a Projection cathode ray tube according to the upper Concept of claim 1.

Such a projection cathode ray tube is for example, already on the basis of DE-OS 28 55 390 be knows. With this cathode ray tube that's in a predetermined distance in front of the concave Tube screen arranged optical Element in the form of a correction lens, which with the help of the provided mounting ring and one Plurality of spaced angled arms and an adjustable band on the cathode ray tube is attached. This well-known cathode ray tube has the disadvantage, however, that fluctuations in the external atmospheric pressure the dioptical lens system relatively strongly affect what is characterized by the concave formed tube screen is conditional.

In this context it should be mentioned that it is with cathodes jet tubes is already known (see embodiment 7 of DE-GM 18 04 396), in the front area one concave and one each provide convex wall, with the help a closed chamber of these two walls is formed, which with air under a diminished Pressure is filled. The size of the inside of this chamber prevailing air pressure is chosen such that the material stresses of the curved Walls have approximately the same size.

It is the object of the present invention that Projection cathode ray tube of the inputs named kind to the extent that under maintaining a satisfactory derivation of the resulting heat in the area of the tube screen Fluctuations in external atmospheric pressure to none adversely affecting the focusing properties of the intended dioptical lens system.  

According to the invention, this is provided by the in drawing part of claim 1 listed features reached.

The airtight fastening of the Windscreen on the concave tube screen can due to fluctuations in atmospheric pressure no changes in the optical properties of the dioptical lens system, even if such Projection cathode ray tube within one Passenger aircraft is installed. By filling the intended cavity is a lower mole Specular weight as an air expelling gas can furthermore  be achieved by the impact of the Electron beam onto the intended phosphor layer tube shield heating up due to gas convection adequately cooled within the intended cavity becomes, so that a satisfactory Operation of the projection cathode beam according to the invention tube even with continuous operation is guaranteed for longer periods.

Advantageous further developments of the invention result on the basis of subclaims 2 to 7.

The invention will now be based on execution examples are explained and described in more detail, wherein reference is made to the drawing. It shows

Fig. 1 is a schematic sectional view of a first embodiment of the projection cathode ray tube fiction, and

Fig. 2 is a schematic sectional view of a modified projection cathode ray tube according to the invention.

The projection cathode ray tube 1 shown in FIG. 1 has an inner half of the neck tube arranged electron gun generating system 4, is directed from which an electron beam on which are arranged on the inside of the tube screen phosphor layer 3 2. The provided tube screen 2 is concave in the direction of an intended dioptical lens system 5 in order to correct the resulting curvature of the image in this way. Due to this concave design of the tube screen 2 , an influencing of the enlargement or reduction of the optical lens system 5 can be achieved in order to form a rectilinear image plane in this way.

In the area of the tube screen 2 of the cathode-ray tube 1 , an open-ended glass bulb 9 is provided according to the invention, the end face of which is designed as a flat front glass pane 7 , which is arranged opposite one another, ie at a certain distance from the tube screen 2 of the cathode-ray tube 1 . From this front glass disc 7 is a mounting ring 10 , the end edge of which is attached with the help of an adhesive 6 airtight on the peripheral edge of the tube screen 2 of the cathode ray tube 1 . The cavity 11 formed in this way can be evacuated with the aid of a provided within the mounting ring 10 of the glass bulb 9 vent 12 , wherein within this cavity 11 there is a pressure which is lower than the external atmospheric pressure, but greater than that within the cathode ray tube 1 prevailing pressure in the range between 1.3 · 10 ^-6 and 1.3 · 10 ^-7 mbar. A gas which has a lower molecular weight than air is filled into this cavity 11 . Hydrogen or helium are particularly suitable as gases for filling the cavity 11 , the pressure prevailing within the cavity 11 being expediently set in the range between 0.13 and 667 mbar. When using the gases mentioned, a high molecular movement occurs, so that the desired cooling of the tube screen 2 is ensured in this way.

The described arrangement works as follows: The tube screen 2 , which is directly acted upon by the electron beam of the electron beam generator 4 , is separated from the outside atmosphere by the cavity 11 which is exposed to a lower pressure. This cavity 11 causes on the one hand a reduction in the compressive forces acting on the tubular screen 2 , while on the other hand due to the use of the low molecular weight gas there is a satisfactory heat dissipation by convection, so that in this way by the electron beam and its impact the phosphor layer 3 heated tube screen 2 is cooled in a satisfactory manner.

In the embodiment shown in FIG. 2, the front glass pane 7 and the outer mounting ring 10 are designed as separate elements, which are connected to one another to form the glass bulb 9 , which is open on one side, with the aid of an adhesive 6 .

In the embodiment shown in FIGS. 1 and 2, the front glass pane 7 of the glass bulb 9, which is open on one side, is formed in the form of a flat pane. The relevant front glass pane 7 can, however, also be curved or arched out, for example by the side facing the tube screen 2 being designed as a flat surface, while the outward-facing side of the front glass pane 7 has a concave surface.

The arranged in the embodiment of FIG. 1 in the region of the cylindrical mounting ring 10 Ent vent hole 12 may also be arranged in accordance with FIG. 2 in the peripheral region of the front glass pane 7 .

Claims (7)

1. Projection cathode ray tube for generating images with the aid of an optical lens system, the cathode ray tube being provided with an electron beam generation system arranged in the tube neck and being sealed in a vacuum-tight manner with a tube screen having a fluorescent layer on its inside, which is concave and fastened by one to a mounting ring The front glass pane is protected from outside influences, characterized in that the front glass pane ( 7 ) together with the mounting ring ( 10 ) is attached in an airtight manner to the concave tube screen ( 2 ) of the cathode ray tube ( 1 ), and that the mounting ring is provided by the tube screen ( 2 ) ( 10 ) and the front glass pane ( 7 ) formed cavity ( 11 ) is filled with a gas having a lower molecular weight than air, which is maintained at a pressure which is lower than the atmospheric pressure, but higher than that prevailing within the cathode ray tube ( 1 ) Dru ck is. 2. Projection cathode ray tube according to claim 1, characterized in that the gas located within the cavity ( 11 ) is hydrogen or helium, which is kept under a pressure in the range between 0.13 and 667 mbar. 3. Projection cathode ray tube according to claim 1 or 2, characterized in that the cavity ( 11 ) to the front limiting glass pane ( 7 ) is completely flat. 4. Projection cathode ray tube according to claim 1 or 2, characterized in that the cavity ( 11 ) to the front delimiting front glass pane ( 7 ) has an outwardly facing concave surface. 5. Projection cathode ray tube according to claim 3 or 4, characterized in that the front glass pane ( 7 ) and the mounting ring ( 10 ) form an integral piston ( 9 ) which by means of an adhesive ( 6 ) on the concave tube screen ( 10 ) of the cathode ray tube ( 1 ) is sealingly attached. 6. Projection cathode ray tube according to claim 3 or 4, characterized in that the front glass pane ( 7 ) and the mounting ring ( 10 ) are separate elements which, with the aid of an adhesive ( 6 ) with one another and with respect to the concave tube screen ( 10 ) of the cathode ray tube ( 1 ) are attached in a sealing manner. 7. Projection cathode ray tube according to one of claims 3 to 6, characterized in that the cavity exposed to a negative pressure ( 11 ) communicates with a closable vent hole ( 12 ), which optionally within the mounting ring ( 10 ) or the edge region of the glass pane ( 7 ) is arranged.