DE2428502C3 - Process for the production of a screen for a color television picture tube which is divided in the form of a striped grid - Google Patents

Description

The invention relates to a method for producing a divided grid in the form of a striped grid Screen for a color television picture tube with an array of electron guns which emitting a central electron beam and two side beams, and with one in front of the inside of the Screen mounted and a number of slot openings having shadow mask, by exposure of a rectilinear elongated light source whose direction of extension coincides with the direction of the Stripes on the grid or on the screen match, from through the shadow mask and one Correction lens arranged between the elongated light source and the shadow mask, at which the elongated light source in each exposure step into the respective electron beam corresponding position is moved.

A lighting device for producing a color television picture tube of the shadow mask type with a light source with an elongated light-emitting part is already known from DT-OS 22 48 643, a correction lens system and a diaphragm with a slit-shaped opening being used, which diaphragm is between the light source and the corrective lens system. The correction lens system can for example consist of a combination of a cylindrical lens and a rotationally symmetrical lens. In this known lighting device, almost no virtual azimuthal displacement of the light source or only as large a virtual azimuthal displacement as is necessary to obtain an optimal screen filling or to compensate for other unfavorable effects is curved such that the center of the gap crosses the longitudinal direction of the light emitting part of the light source almost perpendicularly and the two ends of the gap cross the longitudinal direction of the light emitting part of the light source at an acute angle. It is based on the knowledge that the required virtual displacement can partially be achieved with a real displacement of the effectively used, apparently punctiform part of an elongated light source. This part of the shift can be chosen in such a way that the part of the shift which still has to be obtained with the aid of the correction lens system. does not result in an undesired vinucllc azimuthal shift. The part of the light source used is determined according to the known proposal by the slit-shaped opening of the diaphragm which, viewed from a certain point on the screen, only lets through light from an apparently punctiform part of the elongated light source. The location of this apparently punctiform part depends on the shape of the gap and the viewed location on the screen.

A method for Manufacture of the fluorescent screen of a cathode ray tube known, which is characterized in that the surface of a faceplate is coated with a photosensitive layer containing phosphor And this layer is exposed to light which passes through the openings of a mask ai'f a light source passes through, which in the course of exposure of the layer to the light coming from it in at least two Positions with respect to the faceplate is rearranged in a direction parallel to a line in Distance from each other are perpendicular to the faceplate in the center of the same, whereupon the photosensitive layer is developed so that the phosphor only in selected areas of said Surface corresponding to the openings remains. This known method is intended to reproduce images or color reproduction in the edge areas of the screen are improved and it should in particular small errors in the angle of incidence of the electron beam in the edge areas of the screen a special widening of the grid strips in these edge areas can be compensated. The well-known The method is based on the well-known phenomenon of parallax. According to one embodiment of the known method, the light source is both in a direction perpendicular to the screen as also displaced in a direction parallel to the screen, but the exposure source is not brought into a position that corresponds to the position of 3 electron guns. Has the correction lens used in the known method an axial symmetry.

The object of the invention is to provide a method for producing a in the form of a Strip grid divided screen for a color television picture tube of the initially defined to create, in which with the help of a single arrangement the widths of the brightness of a reproduced Image-determining fluorescent strip over the entire surface of the screen with a desired compensation can be set.

Based on the method of the type defined at the outset, this object is achieved according to the invention

solved in that the correction lens has a plane of symmetry which is aligned so that it runs parallel to the direction of extension of the elongated light source in the exposure step corresponding to the central electron beam and perpendicular to the direction of extension of the elongated light source in the exposure steps corresponding to the side beams.

It was found that the manufacture of a Stripe grid for a color television picture tube with three electron guns arranged next to one another with the help of the shadow mask exposure process brings difficulties, since a special Corrective lens with radial correction ability and distortion correction ability must be used with respect to two lateral electron beams.

In order to be able to use such a correction lens for the entire exposure process, according to the invention a correction lens with a plane of symmetry is used and this is the case with those mentioned Exposure steps arranged in the manner mentioned

According to an advantageous embodiment of the method according to the invention it can be provided that the strip grid consists of alternating fluorescent strips between light-absorbing strips.

In the following preferred embodiments of the invention are explained in more detail with reference to the drawing, Es indicates:

F i g. 1 is a perspective view, partially broken away, of a color cathode ray tube associated with three is provided in a row of juxtaposed electron tubes,

2 shows a section through an exposure device, which is used in the manufacture of a screen of a color cathode ray tube,

3A to 3H show schematic representations of the process steps in the production of a screen,

4A-1 to 4A-3 are a plan view, one in section Holding front view or a sectional side view to explain an inventive Exposure process in connection with two side beams,

Figures 4B-1 through 4B-3 resemble Figures 4A-1 through 4A-3 Views for explaining the exposure method according to the invention in connection with a central one Electron beam,

Figures 5-1 to 5-3 are similar to Figures 4A-1 to 4A-3 Views to further explain the inventive Exposure process in connection with a central electron beam and

F i g. 6-1 to 6-3 are a plan view, a sectional front view and a sectional side view of one used in the exposure method of the present invention Correction lens.

Below is a method of making a screen first, and then the Exposure method according to the invention explained.

According to FIG. 3A, a light-sensitive layer 20, for example made of polyvinyl alcohol, which contains, for example, ammonium dichromate, is first provided on the inner surface of a front pane 2. The inner surface of the front pane 2 is then irradiated by a light source 21 via a perforated mask 7. A linear light source is used as the light source 21, so that the light-absorbing strips 5 are formed without the interruption sections corresponding to the bridges between the mask openings 8. The exposure takes place sequentially once each (a total of three times) each time the light source has been brought into a position corresponding to the deflection center of each electron beam . In the exposure according to the known method, an exposure device for a central electron beam and a further exposure device for two side beams are used.

After the exposure is complete, the mask 7 is removed from the front pane 2. The polyvinyl alcohol layer is then developed, and the undeveloped portions of that layer are then removed, so that the polyvinyl alcohol strips 22 according to Figure 3C lag behind. According to Fig. 3C, the longitudinal Strips 22 formed in a direction perpendicular to the plane of the drawing. According to Fig.3D Then a light-absorbing layer 23, for example made of graphite pigment, is formed on the inner surface of the front pane educated. The polyvinyl alcohol strips 22 are z. B. with a hydrogen peroxide solution dissolved, and then the strips 22 and these strips covering portions of the light-absorbing material 23 rinsed with warm water. Here, according to Figure 3E, the light-absorbing Strips 5 formed, with sections of the polyvinyl alcohol strips 22 as spaces 24 remain between the light absorbing strips. Thereupon, according to FIG Phosphor slurry, the green phosphor particles dispersed in a dichromated polyvinyl alcohol solution contains, existing layer 25 is formed. Then using a light source 26 which is in a position corresponding to the center of deflection of the central electron beam, an on the Light beam impinging on green fluorescent strips via mask 7 onto the inner surface of front pane 2 projected. After the exposure, the mask 7 is removed from the front pane 2, and the latter becomes subjected to a development in which, according to FIG. 3H the undeveloped sections of the windshield eroded to form green phosphor stripes 4G between predetermined light-absorbing stripes will.

The same procedure as in the case of the green fluorescent strips is also used for the blue light and red light emitting fluorescent strips repeatedly.

In the above-described method for producing the stripe grid, the light-absorbing Stripes are formed in front of the phosphor stripes, but the reverse process is also possible possible. Preferably, however, the light-absorbing strips are produced before the fluorescent strips, since the edges of the light-absorbing strips end according to FIG. 3E formed with a sharp boundary can be. In the method described above, as in the known method two separate exposure devices for the BiI d'ing of the light-absorbing strips and the light strips of fabric used. Although only a single exposure device was used for this purpose can be, in view of the production rate of the cathode ray tubes are preferably two used such devices. When the light absorbing strips are formed first, the width becomes the light emitting areas, d. H. the width of each portion in contact with the windshield; the fluorescent strips through the width of the spaces between the light-absorbing strips

determined so that the edges of the phosphor strips can overlap the light absorbing strips. this means that the width of the fluorescent strips need not be determined as precisely as that of the light absorbing strips.

Now, the following is an exposure method for the formation of the light absorbing strips.

According to FIGS. 4A and 4B, the linear light source 21 is arranged so that its direction of extension coincides with that of the stripes to be formed on the screen. The linear or elongated Light source 21 is used to prevent the appearance of shadows of the bridges of the shadow mask 7 on the To prevent screen and to deposit the phosphor in the form of strips on the front panel 2. When Correction filters can be used which have the same transparency characteristics like a common correction filter. For example, the correction filter has a radially graduated transparency factor, such that this factor increases towards the size of the filter.

A correction lens 28 must basically have radial correction and distortion correction capability with respect to two lateral electron beams. However, since a correction lens for the production of light-absorbing strips which are elongated perpendicular to the plane occupied by the tubes does not need to have any drawing correction capability in the longitudinal direction of the strips, the radial correction component 31 and the correction correction component 33 of the correction lens 33 are . 6-1 to 6-3 each formed symmetrically to an axis 32. In practice, however, the correction lens may have a slight drawing correction component in a direction V- Y perpendicular to the direction XX in which the drawing correction component 33 is provided.

In the exposure step in the formation of lichtabsorbicrcndcn strip corresponding to the one Scitcnslrahl the Korrckturlinsc 28 is arranged so Dall shown in FIGS. 4Λ-1 to 4Λ-3, the direction XX or the symmetry axis 32 forming Entzcichnungskorrckturkomponcntc to the plane of the three disordered in series Elektronenstruhlcn is correct. The light source 21 is arranged in a position corresponding to the one side beam. When the light-absorbing strips corresponding to the other number of light-absorbing elements are formed, the optical system with the light source 21, the corrugation lens 28 and the corrugation filter 29 is rotated over an angle of 180 "in the manner indicated by the arrow 30 in FIGS. 4A-I 16 of the front pane 2 rotated around relative to the front pane 2 and to the muscle 7. As a result, the position of the light source 21 shifts into a position corresponding to the other side chair Can be rotated 180 °.

When the light absorbing stripes corresponding to the central electron beam are formed should, the optical system is opposite the front panel 2 and the mask 7 by 90 ° from a Position for the one side ray according to FIGS. 4B-1 to 4B-3 twisted, whereupon only the light source is rotated further over 90 °. The light source 21 is therefore located as in dashed lines

ίο indicated, in a position corresponding to that central beam. However, the position of the light source 21 is not symmetrical to the center of the windshield, so that the width of the strips may gradually decrease from one end to the other; out For this reason it is desirable to have the light source 21, as indicated by the arrow 35 in Fig. 4B-1, in To move the direction of the stripes. In the exposure stage corresponding to the central electron beam the front panel 2 and the mask 7 on the in F i g. 5-1 shown way over 90 ° from a Are rotated relative position in which the front panel 2, the mask 7 and the light source 21 during the exposure levels corresponding to the side rays, and the light source was barely above 90 ° about its axis 36 can be rotated. A desired positional relationship between the optical system and the arrangement of the front screen and mask is also achieved when the correction lens 28 has a Rotated angle of 90 ° about the axis 16 and the light source 21 in the direction of the central axis 16 of the Front window 2 is moved.

When the light absorbing strips corresponding to the central electron beam are formed, the Axis of symmetry of the correction lens according to the determination

3 $ perpendicular to the plane of the three in a row LMcktroncnstruhlcn aligned. This does not throw any Problems arise because the light-absorbing strips are only precisely defined with regard to their width need, while no accuracy requirements are placed on their length. To this Way it is possible by means of the same exposure device in the desired positions ones Loan absorbent strips of predetermined width to train, which the individual Klcktronenstruhlcii correspond. After the formation of the lichiubsorbierciulcn Strips can thus the relevant fluorescent strips with a predetermined width in a μιιι balanced or balanced pattern across the (Jcsumifluchc the screen away uusgcbildci

be jo. Thus, it is possible in accordance with the present invention Furbkuihodcnsiruhlwiren with excellent coloring Establish fidelity.

Although the invention is described above in connection with mii Furbkuthodenstruhlröhrcn is described, the leucine have strips of water and light-absorbing strips The invention is also possible on cathode ray tubes! imwcndbur, the only drcifurbige light source strip exhibit.

For this 5 blult drawings

Claims (2)

Patent claims: "1. Process for the production of a screen divided in the form of a striped grid for a Color television picture tube with an array of electron guns forming a central Emit electron beam and two side beams and with one in front of the inside of the screen mounted and a number of slot openings, having shadow mask, by exposure of a rectilinear elongated light source whose direction of extension coincides with the direction of the Stripes on the grid or on the dsm screen match, from through the shadow mask and one Correction lens arranged between the elongated light source and the shadow mask, in which the elongated light source in each exposure step in the the respective electron beam corresponding position is shifted, characterized in that the correction lens has a plane of symmetry which is oriented to be used in the exposure step parallel to the central electron beam and correspondingly in the exposure steps the side rays perpendicular to the direction of extent of the elongated light source. 2. The method according to claim 1, characterized in that the strip grid of alternating There is fluorescent strips between light-absorbing strips.