DE2224404A1 - Color cathode ray tube - Google Patents

Description

Dr. F. Zumsteln sen. - Dr. E. Assmann Dr. R. Koenlgsberger - Dlpl.-Phys. R. Holzbauer - Dr. F. Zumstein Jun.

PATENT LAWYERS

TELEPHONE: COLLECTIVE NO. 225341

TELEX 529979

TELEGRAMS: ZUMPAT CHECK ACCOUNT: MUNICH 91139

BANK ACCOUNT: BANK H.AUFHÄUSER

8 MUNICH 2.

BRÄUHAUSSTRASSE 4 / MI

3 / Li
47P1O7-3

Tokyo Shibaura Electric Co., Ltd., Kawasaki, Japan

Parb cathode ray tube.

The invention relates to a color cathode ray tube, and more particularly a series-type parabolic cathode ray tube. This cathode ray tube contains a funnel-shaped envelope the front side with a front plate formed from a fluorescent screen, a triple cathode ray generating device, which consists of three cathode ray generator units, which are arranged in the same plane and in the neck part of the Sheath, a deflection coil to deflect the cathode rays from the cathode ray generating device so, that they scan the screen effectively and a focusing device at the cathode ray exit of the cathode ray tube Generating device is attached to three grids

209849/0884

draw resulting from scanning by three cathode rays.

In the case of the color cathode ray tube mentioned, the vertical drawing of the grid is carried out by a deflection coil to generate a regular, pincushion:? shaped, horizontal deflecting magnetic field and a regular, barrel-shaped, vertical deflection field. The horizontal drawing of the grid is achieved through dynamic focusing. This makes the grids complete drawn over the entire screen.

Where dynamic focus is not applied, there will be a screen 15 grid 1B, 1G and 1R formed, the side grid 1B and 1R unevenly from the central grid 1G are deposited in a horizontal plane on both sides of the screen 15, as shown in FIG. For a correct one Drawing such grids must be synchronized by a focusing coil, two extremely asymmetrical focusing currents 2B and 2R with a current for generating a horizontal magnetic field. The creation of such unbalanced Currents inevitably lead to a complicated arrangement of a circuit for obtaining such currents.

Accordingly, it is the object of the invention to provide a cathode ray tube to develop such a cathodic strahist Your device includes that the page grid in a horizontal Level on both sides of the screen can be set off equally from the central grid, so that the arrangement the focus circles is simplified.

The color cathode ray tube according to the invention contains a funnel-shaped one Sheath with a neck portion and a conical portion, a triple cathode ray generating device incorporated in the Neck part is added, a front panel covered with a color screen, which consists of a plurality of groups of the three Fluorescent elements that produce red, green and blue light,

209849/0864

"and a shadow mask arranged so that. they opposite the color screen. The triple cathode ray generating device is formed from three cathode ray generating units which are arranged in the same plane. the Focusing device v / e is a focusing magnet arrangement, those at the cathode ray output of the cathode ray generating device is attached, and an Iocussing coil assembly on, which is arranged around the cross section of the funnel-shaped shell. Around the outer edge of the envelope is a deflection coil for deflecting the cathode rays from the cathode ray generators appropriate. In the cathode ray passage between the kissing device and a cathode ray control device is disposed on the deflection coil. This control device contains a first control member for reducing the deflection angles from a horizontal plane of the side cathode rays from the Side cathode ray generator units compared to the same Deflection angle of the central cathode ray from the central one Cathode ray generator unit and a second control element to reduce the deflection angle from a perpendicular plane of the central cathode ray compared to that same ■ deflection angle of the side cathode rays. The additional Arrangement of this control device enables the side rasters that are displayed on the screen by scanning by the side cathode rays, passing through the control device are formed uniformly from the central grid that is made by the central cathode ray is obtained, are deposited. Such a uniform deposition of the side cathode rays allows the introduction of mutually symmetrical focusing currents in the üOkussierungsvorrichtung, whereby the arrangement a circuit for generating the locating currents is simplified.

In the following, using the accompanying drawing, an example, preferred embodiment of the invention. -. ■ -.- ■ ·

209849/086

Pig. 1 shows the arrangement of the three grids used in one known cathode ray tube can be formed in which the cathode rays are not subjected to dynamic focusing will.

Pig. 2 explains the waveform of the focusing currents that by the focusing coil arrangement of the known cathode ray tube to run.

Fig. 3 is a sectional view of a cathode according to the invention beam tube.

FIG. 4 is a sectional view showing, in enlargement, part of the cathode ray tube of FIG. 3.

Fig. 5 is a perspective view of a cathode ray control device.

Fig. 6 shows the first control member of the cathode ray control device: Fig. 6A is a front view and Fig. 6B is a plan view.

Fig. 7 shows the second control member of the cathode ray control device: Fig. 7A is a front view and Fig. 7B is a plan view.

Fig. 8 shows the arrangement of the grids made by cathode rays are formed, which run through the first control member.

Fig. 9 illustrates the arrangement of the grids made by cathode rays are formed, which run through the second control member.

Fig. 10 shows the arrangement of the grids made by cathode rays which are passed through both the first and the second control member.

Fig. 11 shows the waveform of the focusing current, the by the focusing coil arrangement of an inventive Cathode ray tube is directed.

Fig. 12 illustrates another embodiment of one according to the invention Cathode ray control device: Fig. 12A is a perspective view and Fig. 12B is a front view.

209849/0864

The one in the Pig. 3 and 4 includes the parabolic cathode ray tube shown a funnel-shaped shell 11 which has a conical part 12 and has a neck portion 13, a front plate 14 which is attached to the front of the cover 11, .eine fluorescent color chirin 15 »of a multitude of groups of the three fluorescent elements, which produce red, green and blue light, is formed, and coats the inner wall of the front plate, one hole mask 16 which is attached to the screen 15 opposite, and a cathode ray generating device 17 "of the row type, the consists of three cathode ray generator units 17R, 17G and 17B, which are arranged in the same plane and are accommodated in the neck part 13. The focusing device 18 in Pig. 3 Holds a focusing magnet assembly 19 attached to the cathode beam exit of the cathode ray generating device 17 is attached is, and a focusing coil assembly 20 arranged around the Edge of the neck part 13 is arranged so that they the Pokussiemngsmagnetanordnung 19 surrounds. In the connection between the neck part 13 and the conical part 14 is a deflection coil 21 attached to the cathode rays from the cathode ray generating device 17 distract. This deflection coil 21 generates a regular, pincushion-shaped, horizontal deflection magnetic field and a regular, barrel-shaped, vertical deflecting magnetic field. A cathode ray tube according to the invention in particular works effectively with these. Deflecting magnetic fields. Farther is a cathode ray control device 22 in a cathode ray pass: ■

which is defined between the cathode ray generating device 17 and the deflection coil 21, more precisely in a magnetic one PeId generated by deflection coil 21.

The cathode ray controller 22 in Pig. 5 includes first and second control members 23 and 24. The first control member 23 is formed from a pair of C-shaped elements 26, those made of a material of high magnetic permeability are made and - as in Pig. 6A shown - so arranged

209849/0864

are to surround the side rays 25B and 25R with the open ends of the C-shaped members 26 facing each other are arranged. The second control member 24 is formed from a pair of V-shaped elements 27 made of a material high magnetic permeability and, as shown in Fig. 7A, are arranged to face each other opposite - with the passage of the cathode rays 25B, 25G and 25R therebetween. The tips of the "convex Surfaces of the V-shaped elements 27 are in the passage of the central Cathode ray arranged ^ 25Gn.

The above-mentioned control device 22 will be described below. The first control member 23 shields the side cathode rays 25B and 25R to an appropriate extent from a horizontal Deflection magnetic field, whereby the horizontal deflection angle of the side cathode rays 25B and 25R with respect to that of the central Cathode ray 25G can be reduced. When the first control member 23 is formed in a suitable shape and size and suitable is arranged, the side cathode rays 25B and 25R can be shielded from the horizontal magnetic field as desired thereby allowing the side screens 28B and 28R (Fig. 8) resulting from scanning by the side beams 25B and 25R are uniformly spaced on both sides of the screen from the central grid 28G which is made up of Scanning through the central beam 25G results. The first controller 23 shields the side cathode rays 25B and 25R also to a small extent from the vertical deflection magnetic field, so that the side grids 28B and 28R are decreased in height more than the central grid 28G, creating a grid pattern such as it shown in Fig. 8 is generated. The second control member 24 increases the horizontal deflection angle of the Zentralstrah.les 25G versus those of the side electron beams 25B and 25A in With regard to the horizontal deflection magnetic field and decrease the vertical deflection angle of the central cathode ray 2 $ £ compared to those of the side cathode rays 25B and 25R, whereby

2098A9 / 086A

* ■ 7 -

a screen pattern as shown in Fig. 9 is obtained. If the second control member 24 is formed in a suitable shape and size and is appropriately arranged, then the Side grids 29B and 29R offset uniformly from the central grid "29G in a horizontal plane, thereby causing is that the height of the central grid 29G is decreased by an amount equal to the contraction at the height of the Side grids 29B and 29R resulting from the passage through the first control member 23.

In practice, the length C, the width T) and the depth E of the element 26 of the first control member 23 of FIG. 6 and the length F, the width H and the gap K of the element 27 of the second control member 24 of FIG. 7 determined experimentally so as to cause the grids to contain the various parts making up the grid pattern of Fig. 1 as well as those making up the grid pattern of Fig. 8 or 9. The location of the controller 22 with respect to the deflection coil 21 is determined in that the distance L ₁ between the deflection coil 21 and the first control element 23 and the distance L ₂ between the deflection coil 21 and the second control element _> 24 are calculated using the following equations.

(M ₁ - AM ₁ (L ₁ - L _1x ) + (M ₂ - Δ M ₂ (L ₂ - L _2x ) = S ... (1) K ₁ - AlT ₁ (L ₁ - L _1x ) = N ₂ - AN ₂ (L ₂ - L _2x ) .. (2)

In the above equations, b M denotes the enlargement of the horizontal Offset of the side grid compared to the central grid. This magnification makes a difference between the horizontal offset of the grid from the central grid, when the cathode rays are not through the cathode ray control device 22 run, and the horizontal offset of the side grid from the central grid when the cathode rays passed through the cathode ray controller 22. H represents the enlarged or reduced vertical

'209 849 / "086.4

Setting of the side grid with regard to the central grid if, represent them in the same way as with the horizontal Relocation is intended. Δ M and AN show the change in M and IT with a change in the distance between the deflection coil 21 and the control device 22 by 1 mm. The indices 1 and 2 correspond to the first and second control member 23 and 24. S denotes the horizontal offset of the side grids from the central grid.

If the shape, size and position of the first control member 23 are fixed, it may be sufficient to use the uniform one to achieve horizontal offset of the side grid from the central grid. In fact, however, there is a vertical dislocation the side grid instead, so that the arrangement of only the first control member 23 while trying to achieve a desired grid pattern to get, fails. Accordingly, a second will be added Control member 24 used to correct the arrangement of the grid due to the action of the first control member 23, making one in Pig. 10 is obtained. Such a desired grid arrangement makes it possible that each other. symmetrical currents through the focusing coil arrangement, which is intended for the complete drawing of the grid, are directed, whereby the construction of a one Focusing current generating circuit is simplified.

Referring to Pig. 12 is a further embodiment below of the invention described. The C-shaped first control member 26 surrounds the side rays 2533 and 25R, respectively, where their closed end faces are arranged opposite one another. The V-shaped second control elements 27 are arranged so that the first control elements 26 are arranged between the convex outer surfaces. The tips of the convex outer surfaces are in line with the passage of the central ray 25G. According to the embodiment of Pig. 1 the first and second control members 23 and 24 are arranged at the same distance from the deflection coil 21, whereby the space that

209849/0864

222U04

from the control device 22 in the neck part of the funnel-shaped Sheath 11 is occupied, and consequently the length of the cathode ray tube is decreased. Since the deflection coil 21 of the cathode ray tube generally in a range of about 2 mm in the axial direction of the tube for adjusting the color purity can be moved, the above-mentioned control device be designed so that a particularly strong offset of the grid is prevented even during this shift.

2098A9 / 086A

Claims (2)

Claims Color cathode ray tube with a funnel-shaped envelope having a neck portion and a conical portion, a with a fluorescent screen covered front plate, a perforated mask, which is arranged opposite the screen, a triple cathode ray generator consisting of a central and two side cathode ray generator units which are arranged in the same plane, a focusing device which is located at the output of the cathode ray generating device is arranged, a deflection device around the edge of the shell in front of the focusing device is arranged so that it deflects the cathode rays from the cathode ray generating device, characterized in that a cathode ray control device is in the passage of the Cathode rays are attached between the focusing device and the deflecting device to avoid the side rays of the side cathode ray generator units from a horizontal deflection field, which by the Deflector is produced and the central steel of the central cathode ray generator unit from a vertical one Shield the deflection field generated by the deflection device, thereby reducing the horizontal ^ deflection angles of the side cathode rays compared to that of the central ray and the vertical deflection angle of the central Ray compared to / compared to those of the side rays are reduced. 2. color cathode ray tube according to claim 1, characterized in that that the cathode ray control device has a first Control element for shielding the side beams from a horizontal deflection magnetic field in order to reduce the horizontal deflection 209849 / Q864 reduce the angle of the side beams compared to that of the central beam, and a second control member for shielding the side beams from a vertical deflection magnetic field to reduce the vertical deflection angle of the central Reduce ray compared to those of the side rays contains. Color cathode ray tube.according to claim 2, characterized that the first and the second control member are arranged in a line in the passage of the cathode rays the first control member comprises a pair of C-shaped members made of a high magnetic permeability material and arranged to surround the side rays with their open sides facing each other are disposed opposite, and the second control member comprises a pair of V-shaped members made of a material high magnetic isaher permeability are made, and their 'Convex outer surfaces are opposite one another, the Cathode rays between the tips of the convex outer surfaces, which are in the passage of the central cathode ray align with each other * can get through. Parb cathode ray tube according to Claim 2, characterized in that that the first control member comprises a pair of C-shaped elements made of a material of high magnetic strength Permeability are established and arranged so that they surround the side cathode rays, the closed Sides of the elements face each other, and the central ray can pass between them, and that the second control member comprises a pair of V-shaped members made of a high magnetic permeability material are made and whose convex outer surfaces are opposite one another, wherein the first control member is arranged therebetween and the tips of the convex outer surfaces in the Passage of the central ray align with each other. 2098A9 / 0864 3-arbkathode ens beam tube according to claim 1, characterized in that that the cathode ray control device is so constructed is that the horizontal displacements of the side screens formed by scanning by the side beams of the central raster, which is formed by scanning the central beam, are of the same size. 209849/086 Blank page