DE1064099B - Projection color television receiver - Google Patents

Description

The invention relates to color television receivers having multiple cathode ray tubes for display different colored partial images, which are brought into congruence with one another with the help of optical means, projected onto a screen and thus combined into the desired multicolored image. at Such recipients can easily affect the originally precisely set coverage of the partial images occur when the high voltage used to excite the cathode rays or the field strength of the concentration field changes. Such changes can result, for example Changes in the line voltage result. According to the invention, this disadvantage is avoided by one each Device connected to each tube for influencing the field distribution in the focusing space, the is adjustable so that undesired changes in the focus and the position of the partial images Fluctuations in the focusing current and the anode voltage of the cathode ray tube are kept to a minimum will.

The invention is explained in more detail with reference to its embodiment shown in the drawing.

Fig. 1 shows the schematic perspective view a projection color television receiver including three cathode ray tubes;

Figure 2 shows a side view of one of the cathode ray tubes of this receiver;

Fig. 3a shows the front view of the inventive mounting of the cathode ray tube ;

Fig. 3 b illustrates a section along the line 3 b-3 b of the storage according to FIG. 3a, and the

4 a, 4 b and 4 c are used to explain the mode of operation of the storage according to the invention Diagrams.

The image reproducing apparatus of the color television receiver shown in Fig. 1 includes a rectangular one Metal box 11, in its side walls 12, 14 and in its bottom 13 circular openings 16, 17 and 18 are provided. The top of the box is completely open or can be covered with a glass plate be, as well as the openings 16, 17 and 18 as Glass windows can be formed. In the box 11 are two with each other enclosing a right angle, Semi-transparent mirrors 20 and 21 arranged in diagonal planes of the box. Of the Mirror 20 can for example be designed in such a way that it transmits green and red light, on the other hand reflects blue light, while the mirror 21 can be designed so that it reflects blue and green light transmits, but reflects red light.

The image display device also contains projection color television receivers

Applicant:

Hazeltine Corporation,
Washington, DC (V. St. A.)

Representative: Dipl.-Ing. W. Mouths, patent attorney,
Frankfurt / M., Börsenstr. 17th

Claimed priority:
V. St. v. America April 4, 1955

William Frederick Bailey, Valley Stream, N, Y.,

Robert Page Burr, Huntington, NY,
and Frederick Charles Hallden, Floral Park, NY

(V. St. A.),
have been named as inventors

three cathode ray tubes 60, 61 and 62, each of which is provided with projection optics. The cathode ray tubes have spherical faces that serve as screens and with various types Phosphors are covered, which under the action of the cathode ray of different colors light up. The screen of the tube 60 can, for example, consist of a phosphor that lights up blue, that of the tube 61 is made of a green phosphor and that of the tube 62 is made of consist of a phosphor that lights up red. A frame 27, 28 is provided for each of the three cathode ray tubes and 29 are provided, in which the cathode ray tube sits together with its projection optics. One each this frame is arranged on both sides of the box 11, while the third frame is below of the bottom of the box 11 is located. Each rack contains one in the longitudinal axis of the cathode ray tube The spherical mirror 30 arranged opposite the screen and one with the longitudinal axis of the Cathode ray tube an angle of 45 ° enclosing plane mirror 32, which has an opening 33 has through which the cathode ray tube passes. Furthermore, there is a self in each frame with the associated circular opening of the box 11 covering aspherical correction lens 34 provided

909 609 / 194-

3 4

see. Above the box 11 is an inclined point at which the center of curvature of the plane mirror 35 is arranged, in front of which a screen of the cathode ray tube is to be located.
Image window provided in the receiver's housing to ensure that there is constant coverage of 36. The partial images produced on the screens of the cathode ray tubes appear differently colored, on the projection screen 36 it is initially necessary to have green, red and blue partial images, the concentration coil 55 and the auxiliary signals by means of the mirror 32 through the correction lens magnets 57 b of each cathode ray tube in behaves-34 on the semi-transparent mirror 20 and 21 reflected nis adjust to the tube spatially so that the Auftiert and through this to a multi meeting together of the cathode ray tube to the image color image combined, the by the mirror 35 to screen through changes in the anode high voltage image window 36 is reflected. or the concentration field not noticeably

Each of the cathode ray tubes must be shown in FIG. For this purpose, the anode high voltage is applied to the cathode clearly with deflection coils 54, a radiation tube, and current is supplied to the centering coil 55 and a corresponding concentration coil Terminal 70 for supplying the anode high voltage screen of the cathode ray tube is provided with a fixed •. The deflection coils 54 will appear from a point of light. If one now carries the anode plate 56, to which the concentration high voltage or the concentration coil tration coil 55 is attached by means of screws, which changes the current flowing through, a flange 57, an end plate 57a, and an end plate usually join Shifting the point of light on the screen adjusts the distribution of the concentration field. By changing the position of the auxiliary magnet 57 b ending adjustable auxiliary magnet 57 b and a relative to the cathode ray tube, the position of the annular spacer 58 can enforce. The point of light on the screen of the arbitrary beam tube 60 is where the electrode is changed. If one moves the end containing the auxiliary magnet 57 b system in a sleeve 51 connected to the housing 25 with unchanged high voltage and unchanged the concentration coil 55 and the power supply to the concentration coil in different directions at its other end in the deflection coils 54, one will notice that they hold. Movement of the auxiliary magnet in one direction

3 a and 3 b show the details of the smaller displacement of the light point with it storage of the cathode ray tube 60 including its 30 brings as the movement of the auxiliary magnet in the coils 54 and 55 in the frame 29. The frame 29 has other directions. By setting the auxiliary a part 71, which is expediently made of one piece with magnets in such a way that the dimension of the \ ^ ifferent metal box 11 of FIG. 1 consists. At the part of the light spot on the screen a mini 71 is a support ring 72 by means of screws 73 a, 73?) Mum, you can fix a position of the auxiliary magnet and 73 c , which can be found in holes 35 that are too large for them which sit the position of the light point on that of the support ring 72, so that the position of the support screen by changes in the anode high-tensioning ring 72 relative to the part 71 within certain voltage or the limits supplied to the concentration coil can be changed. A fourth stream, not shown, is no longer influenced.
Fastening screw sits in the hole 79 a of the support If the axis of the electrode system of the Karinges 72 and in the threaded hole 79 b of the part 71. The 40 method ray tube through the center of the image support ring 72 can by means of a screen screwed into it, the path of the undeflected cathode goes -Screws 74 and 74a, which are supported against the flanges of the beam with the axis of the magnetic lens formed by the concentration part 71 and coincide with springs 80 and 80a, and interact with the part 71 upwards and the concentration field evenly distributed is so adjusted downwards as well as to the right and to the left 45 will be due to changes in the anode high voltage. or the power supplied to the concentration coil

The storage also includes a horseshoe-shaped mes the location of the center of the screen in

Support 75, on which the cathode ray tube 60 does not change with the appearance of the light point,

means of the plate 56 by screws 79 c, 79 d and 79 e In practice, however, this independence is the

is attached. The support 75 has a projecting 50 position of the light point from the anode high voltage

the, lateral flange 75 b and carries above and below and from which the concentration coil flowing through

sleeve-shaped projections 79 and 81. In the sleeve 79 current is not in the center of the screen, but

an adjusting screw 76 is screwed in, the end of which can be given at a point located away from it,

a surface 81 of the support ring 72 rests. In the meantime, the aforementioned conditions are mostly not

In the same way, an adjusting screw 78 in the sleeve 81 55 is exactly met. It was found that with a

screwed in. Finally lies against the flange 75 b fourfold adjustment of the position of the concentration

of the support 75 a position in a flange 72a of the support field with respect to the cathode ray

ring 72 screwed in adjusting screw 77. With the point of light on the screen, in which

With the help of the adjusting screws 76, 77 and 78, the changes in the anode high voltage or the con-

the support 75 fixed cathode ray tube against the 60 centering coil flowing current no

the force of anchored on the support ring 72 and cause shifting of the point of light, in wide

the support 75 acting springs 96, 97, 98 and 99 limits changed and the center of the image

be pivoted in relation to the support ring 72, the screen can be very close. This fourfold where the pivot axis of the pivoting caused by one of these adjustment options of the concentration field is adjusting screws through the support points of the two other adjusting screws in the cathode ray tube shown in FIG. The pivot axis determined by the support points of the lateral displacements of the concentration coil 55 adjusting screws 76 and 78 and by displacements of the auxiliary magnet 57 b in FIG. 2 intersects the optical axis of the projection optics belonging to the cathode ray tube normal to the axis of the cathode ray tube in that 70 plane in two mutually perpendicular directions ver

pushed and can be pivoted by tilting the tube neck within the concentration coil about two pivot axes that are also located in the aforementioned plane and perpendicular to one another. So if after the first setting of the auxiliary magnet 57 b that position of the light point, which is not influenced by changes in the anode high voltage and the current flowing through the concentration coil, is away from the center of the screen, this position can be brought into the vicinity of the center with the help of the aforementioned settings of the screen.

After the three cathode ray tubes have been adjusted in the manner just described, they are attached to the support 75 of the racks 27, 28 and 29 screwed on. Deflection voltages and television signal voltages are then applied to the tubes, in order to be able to bring the partial images generated by them on the projection screen 36 into congruence. the The manner in which the coverage is set is explained with reference to FIGS. 4 a, 4 b and 4 c, which are different Show positions associated with any of the cathode ray tubes, such as tube 60, in FIG their frame 29 in relation to the spherical mirror 30 can take. A sharp image is obtained of the image appearing on the screen of the tube on the projection screen 36, if the spherical screen of the tube lies in an imaginary, curved surface 93, the center of curvature of which with the common center of curvature 94 of the screen and the spherical Mirror 30 coincides. It may now be the case that when you insert the cathode ray tube into the frame 29 the tube assumes the position shown in dashed lines in FIG. 4 a. Then the tube can follow Loosen the screws 73 a to 73 c with the help of the screws 74 and 74 a in the one shown in Fig. 4 b Able to be brought. Furthermore, the position of the tube can be corrected by means of the screws 76, 77 and 78 that it corresponds to FIG. 4c, the screen lying in the curved surface 93. now the screen of the tube can be moved along the curved surface 93 with the aid of the same adjustment screws be moved, with the help of the screw in one direction and by simultaneous actuation of the screws 76 and 77 in the normal direction. In this way the exact coverage can be obtained of the three partial images can be achieved while maintaining the focus, since each at any Point of the curved surface 93 appearing image shown sharply on the projection screen will.

Claims (3)

Patent claims: 1. Projection color television receiver with several cathode ray tubes for displaying different colors Partial images which are made to coincide with the aid of optical means on the projection screen, and means for adjustment the support of each cathode ray tube for the purpose of obtaining a sharp image and a displacement of the partial images relative to one another, characterized by one connected to each tube Device for influencing the field distribution in the focusing space, which can be set so that that undesired changes in the focus and the position of the partial images in the event of fluctuations the focusing current and the anode voltage of the cathode ray tube are a minimum. 2. Receiver according to claim 1, characterized in that the device for influencing the field distribution an adjustment of the cathode ray tube with respect to the focusing device with four degrees of freedom. 3. Receiver according to claim 2, characterized in that the cathode ray tube in two for Axis perpendicular directions displaceable in parallel and in two planes containing the axis is pivotable. Considered publications:
German Patent Nos. 889464, 822 247;
"Television" by Zworykin and Morton, 1954, p. 770. For this purpose 2 sheets of drawings © 909 609/194 8.59