DE1907010B2 - GRID FOR USE IN A COLOR TUBE - Google Patents

Description

30th

The invention relates to a grid structure for use in a color picture tube, consisting of a Plate, which is provided with a plurality of elongated, substantially parallel slots and with a die Electron beam attracting potential is to be applied.

The known color display tubes are used to deflect and refocus the electron beams provided with a lattice structure which has a multiplicity of lattice elements in the form of lattice wires, which are stretched over a frame generally designed in the form of a parallelogram are. To produce such lattice structures, the lattice wires are parallel to each other with a certain Tension initially stretched across opposing legs of a base frame. Then a grid frame is placed on the grid wires from the inside of the base frame, whereupon these are attached to two opposite support legs of the lattice frame and to the edges be cut off. The lattice frame is turned inwards by means of a clamping screw biased to the grid wires attached to the central portion of the opposing support legs of the Lattice frame are attached, a maximum tension and those lattice wires attached to the end parts of the retaining legs are attached to transmit a lower tension with the aim that all grid wires by the restoring force of the prestressed lattice frame after it has been released from the Base frame received a substantially uniform tension. The frame is pretensioned so that that it is most strongly curved in its middle part. When attached to such a lattice structure certain positive potential applied and from the electron beam system or the electron gun a cathode ray tube electron beams onto the fluorescent screen of the same are emitted, up to 10% and a little more electron beams hit the grid wires on and are passed on with heating of the grid wires This increases the temperature the bars increased so much that the bars stretch. The investigation of the stretched lattice wires shows that the elongation of the lattice wires due to thermal expansion, because the bending of the Frame in the middle part is largest, with the grid wires of the middle part by the restoring force of the prestressed frame is compensated as if they had not been elongated. These Grid wires therefore still have essentially the same nominal tension and do not sag. The elongation of the lattice wires arranged on both sides of the middle lattice wires caused by the thermal expansion However, lattice wires cannot due to the prestress or the restoring force of the frame be compensated, since the bend at the end parts of the frame is only slight. These grid wires lose hence their tension when their elongation is greater than the deflection of the frame. Self if the grid wires do not sag. so they do not have sufficient tension and lead in the case of the random occurrence of small impacts, vibrations of large amplitude can easily occur, which reduce the image quality is decreased.

To avoid these disadvantages, it has been proposed a grid structure intended for color picture tubes from a thin plate with formed from this, for. B. etched out leaf-shaped lattice elements to form, between which the plate is provided with a plurality of elongated slots.

The invention is based on the object of a lattice structure corresponding to this older proposal to train further that by a certain shape of the grid elements and the The operation of the lattice structure is further improved, and in particular, the slots running between them magnetic influences are largely eliminated, while at the same time ensuring that that the electron beam transfer factor is greatest in the central part of the lattice structure

The solution to this problem is according to the invention that the width of the slots over their Length according to the equation

B = K-, ix ¹ - liy ²

is varied, where B is the slot width. where χ and y are orthogonal coordinates proceeding from the center of the plate, in the longitudinal direction of the slots and perpendicular thereto, and where K. η and, J are constants, so that the width of each slot - in a manner known per se - in the center of the Slot is largest and decreases towards the ends and so that the maximum width of the slots progressively decreases from the slot in the center of the plate towards the slots furthest from the center of the plate.

With a lattice structure designed in this way, the disturbing influence of magnetic forces is in the essentially switched off and at the same time achieved that the mechanical resonance of the grid elements is reduced will. Due to the shape of the grid elements and the slots between them In addition, the electron beam deviation largely avoided and a high resistance of the

Finally, grid elements are guaranteed against vibration movements caused by external forces when using the grid structure according to the invention in a color picture tube, a high transmission factor for the electron beams in the middle part of the lattice structure and thus a greater luminance achieved

It is known from US Pat. No. 2,722,623 and German Auslegeschrift 1039094 for the purpose of vibration damping of the grating elements in grating structures for color picture display tubes to form the grid elements so that their cross-section from their ends towards the center decreases towards. However, these known lattice structures are those in which the lattice elements are formed by wires stretched on frames with a circular cross-section. aside from that the mentioned fonts do not contain any information that could suggest the width of the slots to vary according to the equation given for the invention.

An exemplary embodiment of the invention is described below with reference to the drawing. It shows

Fig. 1 is a view of a lattice structure according to the invention.

F i g. 2 is a cross section showing the arrangement of the lattice structure on a lattice frame;

F i g. 3 shows a partial view of the lattice structure with details of the same in a larger representation and

F i g. Figure 4 is a schematic illustration showing the width of the slots formed in the lattice structure shows.

The in F i g. 1 and 3 shown lattice structure consists of a thin sheet steel plate, e.g. B. made of stainless Steel from which certain parts of the surface have been etched out or removed in some other way, to a large number of elongated slots to form. The grid plate 10 can be parallelogrammfönnig, e.g. B. rectangular or square, shaped, or any other desired shape and also in any known shape Way to be made. Parallel to each other and to two opposite side edges of the plate 10 are by removing the surface parts elongated grid elements 13 formed which extend over the middle Extend FHichenbereich of the plate 10 and have a certain distance from each other. Furthermore are arranged on the other two opposite edges of the plate 10 slots 14 which are parallel to the grid elements 13 extend and each of which has a plurality of grid elements, in the case of the illustrated Embodiment three grid elements is assigned. Finally, on each side of the is the grid elements 13 containing area of the plate 10 each arranged a slot 15 which is parallel to the grid elements 13 runs. The slots 14 each form a series of tongues 16 that are separated from one another.

As already mentioned, a lattice structure produced in the manner described should offer full guarantee that the electron beams hit the color picture tube despite the influence of terrestrial magnetism. This applies in particular to the upper and lower parts of the lattice structure. Also should be avoided be that when exposed to external forces, the grid elements start to vibrate and thereby a deviation of the electron beams in the central part of the lattice structure is brought about. Around to switch off the influence of the earth's magnetism, the width of the grid elements Π existing slots 17 can be reduced by widening the grid elements 13. However, this would have the disadvantage that the luminance of the color image produced decreases considerably and that the wider ones Lattice elements have a lower mechanical resonance frequency, which is due to increased vibration the grid elements could lead to an increased deviation of the electron beams. To avoid such disadvantages are the slots 17 according to FIG

Invention designed so that they are wider in the middle than at their ends and after the Edges of the grid plate 10 taper gradually. The free of the slots 17 changes over their Length according to the equation

B = K - αχ ² - ßy ²

in which B is the slot width, χ and y starting from the center of the plate 10 in the longitudinal direction of the slots and orthogonal coordinates running perpendicular thereto, and K, α and β are constants. The slots 17 therefore have the characteristics shown in FIG. 3 shows a spindle-like shape to which the adjacent grid elements 13 correspond, in that they are narrower in their central part than at their ends and widen towards the opposite edges of the grid plate 10. With this design of the lattice structure, a deviation of the electron beams does not occur even under the influence of the horizontal component of the terrestrial magnetism. Since the

middle part of each slot 17 is wider than the width of the slot at its two ends is the transmission factor relatively high for the electron beam in the central part, which increases the luminance in the middle part of the color picture, which is provided by a color picture tube provided with the grid structure according to the invention is generated is increased significantly. By increasing the luminance of the generated image the viewer has the feeling that the luminance is enlarged over the entire screen.

This gives him the impression of a bright and lifelike picture.

Furthermore, since the lattice elements 13 due to the described shape of the slots 17 formed between them are narrower in the middle part than at their end parts, if an external force is exerted on the lattice structure and this z. B. is exposed to vibrational forces, the resonance frequency of each grid element is increased and thereby a considerable reduction in the electron beam deviation is achieved. This can be proven mathematically. For this purpose, it is assumed that lattice elements of length L are stretched or tensioned along an x-axis and attached at points χ = 0 and χ = L , the line density of the lattice elements being μ (χ). The movement of the grid elements at right angles to the x-axis corresponds to the following equation if the displacement is equal to y (x, t):

where T is the mechanical stress of the lattice structure

is at the moment of vibration.

If y = w (x) e ^jM ", where j is VT, w is the angular velocity and t is time, then the following equation applies:

dx ²

It is assumed that the line density μ (χ) is essentially constant and μ (χ) = / * <, + μ _ι (χ), where μ _{ι is} less than ^ ₀ . With regard to boundary conditions, a solution μ ⁽⁰⁾ at the point in time at which the line _{density is equal to / X 0} results as follows:

u <°> = M ^ sin

ΠπΧ

w can be expressed by the following equation:

ΛΪΪ- JHL '

] / Ho L

The solution of the equation (2) can be achieved by the pertubation theory using the equation (3). The frequency w " results approximately from the following equation:

It follows from the equation (5) that the influence of unevenness in the line density of the grid elements on the vibration frequency is a maximum at a point where the movement amplitude of the Lattice elements, which are not subject to pertubation, have their maximum value, and that this influence equals zero at a point where the amplitude is zero.

When the grid elements vibrate in resonance with an external force, the fundamental oscillation occurs (n = 1) and «" '(x) results in

As a result, if the line density is made small in the vicinity of χ = - = -, the vibration frequency of the grating member 13 becomes large, and the vibration frequency does not change much even if the line density is increased at x = 0 or χ = L . It also emerges that the inventive design of the slots in such a way that each slot is wider in the middle length range in the specified manner and narrower in the two end regions is advantageous for increasing the fundamental frequency The resonance frequency of the grid elements 13 is high and the deviation of the electron beams is significantly reduced, while at the same time the transmission factor of the electron beams in the middle field of the grid structure and the luminance of the image generated also increases in the middle part Lattice formation insignificant and can be neglected.

In tests with a 30 cm color picture tube, when using slots 17 according to FIG. 4 good results can be obtained. For the trials it was a 0.15 mm sheet made of stainless steel Thickness used in which the spacing of the slots 17

ίο 600 microns and the width of each phosphor stripe of the phosphor screen was 210 microns, and the phosphor stripes were arranged in the direction of the slits 17 in the order of red, green and blue. The width B of the slots 17 was selected at the points x, y in accordance with the equation given in the claim.

Since the grid plate 10 z. B. is easily produced when using a photo etching process, offers the Manufacture of the lattice structure according to the invention no difficulties. The lattice structure could can also be formed by arranging metal strips at a certain mutual distance, wherein slots of the shape described are arranged between each two adjacent metal strips will.

The lattice structure can be arranged according to FIG. 2 in a lattice frame, the two support legs 18 and two tendons 19. The tongues 16 separated from one another by the slots of the two rows of tongues are each captured by the opposing tendons 19, the corresponding one Form tendon groups and of which one group or both groups under one the length of the tongues and the quality of the tongue material is maintained at a moderate tension so that a certain stress distribution is achieved which is applied to the grid elements 13 is transmitted. Each tendon can be tensioned by a coil spring 20. The tendons 19 are arranged according to the design of the grid frame, so that the grid plate 10, in turn corresponds to the shape of the lattice frame, is kept taut or stretched In this stretched The grid plate is positioned on the support legs 18

welded, which in the from F i g. 2 apparent certain Position to each other are arranged.

After the grid plate 10 is welded onto the support legs 18, the over the support legs outwardly protruding part of each tongue 16 cut off.

The grid plate along the slots 15; which make it easier to cut the plate. In this way, the grid elements 13 easy to load on the support legs 18 of the lattice frame with a certain tensile stress distribution

to be consolidated. The slots 14 prevent the Applying the tensile stress to the tongues 16 bending or buckling of the grid plate 10 he follows

1 sheet of drawings

Claims (1)

Claim: Lattice structure for use in a color picture tube, consisting of a plate which is connected to a A plurality of elongated, essentially parallel slits and with one the electron beams attractive potential is to be acted upon, characterized in that the Width of the slots (17) over their length according to the equation B = K - αχ ² - ßf is varied, where B is the slot width, e, where χ and y are orthogonal coordinates starting from the center of the plate (11), in the longitudinal direction of the slots (17) and perpendicular thereto, and where K, α and β are constants, see above that the width of each slot (17) - in a manner known per se - is greatest in the middle of the slot and decreases towards the ends and so that the maximum width of the slots (17) differs from that in the center of the plate (11) lying slot from towards the slots furthest from the center of the plate (11) is progressively reduced.