FI57194B - ANORDING FOER FOERNYELSE AV TELEVISIONERS KATODSTRAOLROER OCH FOER OKULAER OBSERVERING AV KATODENS KONDITION - Google Patents

Description

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Italy-Italy (lT) 29657 A / 72 Proven-Styrkt (71) Safe Electronic Systems SA, Mauren, Liechtenstein (LI) (72) Enio di Cecco, Milan, Mario Costante Totti, Milan, Italy-Italy (lT) (7) ^) Leitzinger Oy (5¾.) Equipment for the renewal of television cathode-ray tubes and visual observation of cathode states - Anordning för förnyelse av tele-visioners katodstr & lrör och for oculär observering av katodens kondition

After several hours of operation, the images displayed on the cathode ray tube screen become more and less light until they completely disappear, which is very likely due to the growth of a special film on the tube cathode surface, which prevents the electron current required to achieve satisfactory fluorescence on the screen. Usually, such worn cathode ray tubes are discarded and replaced with new tubes.

The present invention relates to an apparatus for regenerating the cathode ray tubes of televisions and for the visual monitoring of cathode states, the apparatus comprising a voltage source having a plurality of poles from which a DC, AC or pulsating voltage of 50 V to 5000 V can be applied between the first and second poles. is intended to be connected between the cathode ray tube cathode and the gate electrode, and between the third and fourth poles a voltage of 6 V to 12 V similar to that intended to be connected between the cathode ray tube filament electrodes and at least one voltage terminal capable of being connected above 150 V can be applied between an anode electrode and a cathode.

A device of this type is known from U.S. Pat. No. 2,717,190.

57194 With this known device, it is not possible to visually monitor the state of the cathode, but the device is tested by measuring the internal impedance states of the cathode ray tube, the values of which are represented by a meter. Based on these measurement results, the regeneration operations are performed in said manner by connecting a suitable voltage between the tube cathode and the gate electrode, while the filament electrodes may be connected to their normal or excessive annealing voltage. The device has selector switches that provide different desired voltages to the device terminals depending on whether the device is used for checking or upgrading. This places special demands on the voltage source of the device, in addition to which the operation of the device is cumbersome and may lead to incorrect voltage connections between the output terminals of the device and the electrodes of the cathode ray tube.

The object of the invention is to provide an apparatus of the above-mentioned type which has been improved so as to allow both the restored efficiency of the cathode ray tubes of televisions and the visual monitoring of the tube cathodes to be visually monitored. to supply voltage values to these electrodes.

This object is achieved by a device according to the invention on the basis of the features of the invention set out in the appended claim 1.

In the following, an embodiment of the invention will be described with reference to the accompanying drawing, which schematically shows an apparatus according to the invention.

In the drawing, the two voltage inputs are denoted by reference numerals S1 and S2. The feeder SI is provided with two terminals A and B, through which it can be connected to a standard supply line, for example to a 220 V AC mains supply. The feeder S1 also has four terminals C, D, E and F, of which terminal C is connected to ground, as shown schematically in the drawing and denoted by reference numeral T.

3 57194

Said feeder S1 should be constructed to supply a voltage of about 50 V to 5000 V DC or AC voltage or a pulsating voltage between terminal D (relative to terminal C) and about 6 V to 12 V of a similar voltage between terminals E and F.

The output voltage at terminal D should preferably be 500 V to 3500 V.

In addition, the feeder S1 must be provided with a manually or automatically controlled device by means of which the above-mentioned voltages can be applied to said terminals for a predetermined time, bearing in mind that the voltage supplied to the terminal D must be cut off for 1 min. - about 1/4 sec. after, preferably about H sec. - 1/2 sec after, depending on the voltage value.

The same feeder can be constructed to supply to terminal D either a high voltage varying between a minimum and a maximum value (as mentioned above) or a constant high voltage. Furthermore, the feeder S1 can be provided with either a manually controlled slider or any time switch of a known type, e.g. a clock time switch or an electronic time switch.

A detailed explanation of the special structure of the feeder SI is unnecessary, since it can be easily done in many known ways on the basis of the starting points defined above. It is appropriate to add that the SI of the feeder has low manufacturing costs and is easy to use and reliable in operation.

Feeder S2 is connected in series with the feeder S1. More specifically, the feeder S2 is immediately connected to the terminals C and D via wires 3 and 4 and with the transformer of the feeder S1 via wires 1 and 2. However, it should be noted that said conductors 1 and 2 may also come from a voltage source other than the feeder S1, for example a 220 V supply line. However, the voltage between conductors 1 and 2 should be different from the voltage between terminals C and D. Thus, this voltage may be, for example, 220 V to 6000 V.

In addition to the four input lines mentioned above, the feeder S2 also comprises at least one output terminal board. Such a board further comprises two terminals E1 and F1> which are immediately connected to the terminals E and F of the supply terminal 57194, respectively, the terminal terminal G being connected to ground T. This supply is suitable for conducting a direct voltage of about 0 to -50 V, AC voltage or a pulsating voltage at terminal L1, a similar voltage at about 150 V-400 V at terminal L, a similar voltage at about 1000 V-3000 V at terminal M, and a similar voltage at about 4000 V-7000 Vsn at terminal AT.

Known voltage changers are also arranged in the feeder S2, by means of which the voltages supplied to the terminals can be adjusted manually.

The structure of the feeder with four inlet lines and five outlet lines will not be explained in more detail for the sake of simplicity, as it can be designed by any skilled person on the basis of the above-mentioned voltage values.

It is now assumed that the black-and-white cathode ray tube of the TV is partially or completely worn out, i.e. the images on the screen are very light or even faded away completely. Electrodes protrude from the rear and front ends of said tube, i.e. the connection terminals of the various electrical circuits are inside the tube, in particular one of such electrodes or pins is connected to the cathode, the other is connected to the gate and the other two electrodes are connected to internal filaments.

To restore the reduced efficiency of the cathode ray tube, the terminal C of the feeder S1 is connected to the tube tube electrode, which in turn is connected to the tube cathode, while the terminal D is connected to the first gate electrode and the terminals E and F are connected to the filament electrodes, respectively.

6 V-12 V AC is now applied to terminals E and F until the filament is properly overheated, i.e., which can be from a few seconds to a few minutes.

As soon as the filament is properly heated, a voltage of 50 V to 5000 V is applied to terminal D, which is pre-connected to the first gate of the tube, for a time which may be from one minute to 1/4 second, depending on the voltage applied. For example, a voltage of 1000 V 5 571 94 can be applied for 1.5 to 2 seconds. The tube has now been redesigned, i.e. it works in the same way as a new cathode ray tube so that sharp images can be obtained. In some cases, when the voltage of 1000 V has been found to be insufficient to achieve the required purposes, a voltage of 3000 V is applied to the terminal D for one second, whereby the efficiency of the pipe can be completely restored.

The color picture tubes of color televisions are equipped with separate electro-staples for red, blue and green. The structure of each cannon is similar to the structure of a black and white cannon, i.e. a monochromatic tube, in which case each color cannon can be renewed separately from the others, in which case the same cannons can be connected in series to the terminals of the feeder SI. However, as can be easily seen, the feeder SI can be provided with three separate groups of terminals, making it possible to simultaneously renew all the cannons of the color picture tube.

It is now assumed that the cathode condition of the black-and-white or color picture tube must be visually monitored before or after the regeneration treatment by the feeder S1, the terminals E1 and F1 are connected to the filament terminals, while the terminal G is connected to the cathode terminal, the first gate is connected , the terminal L is connected to the electrode of the first anode, the terminal M is connected to the electrode of the second anode, i.e. the focusing anode, and the terminal AT is connected to the electrode of the main anode of the tube.

By manually varying the voltages at the terminals of the feeder S2 within the above-mentioned values, an intact image, which is actually a cathode image, will appear on the screen of the tube. If this image is clear and smooth or almost flat, it means that the efficiency of the pipe is very good. If, on the contrary, the same image is spotted with more or less bright spots, this means that the tube must be subjected to the first and possibly also the second regeneration treatment with the feeder SI.

In the case of a color picture tube, it is self-evident that the three electron guns should be connected separately and successively to the feeder S2 or, conversely, the same feeder S2 may be provided with three different groups of terminals which can be connected to the tube electrode electrodes at the same time. However, in the latter case, it is possible to supply voltage separately to the electrodes of only one electron gun, in order to monitor its cathode separately from all other cathodes in the same tube.

Thus, with the relatively small device described above, it is possible to achieve both a rapid regeneration of the cathode ray tubes of televisions and a visual inspection of the condition of the same tubes. The basic feature of said device is that the two feeders with which it is provided are connected in series with each other, whereby most of the structure of the first feeder S1 can be used for the operation of the feeder S2, which is thus very simple and inexpensive. cheap as well as small in size. In other words, the production cost of the complete apparatus described above is in practice not much higher than the manufacturing cost of the feeder SI alone.

Claims (6)

7,571 94 1. Apparatus for retrofitting cathode-ray tubes for television and for visual inspection of cathode states, comprising a voltage source having a plurality of poles capable of supplying between 50 and 5000 V DC, AC or pulsating voltage between the first and second poles for for connection between the cathode-ray tube cathode and the gate electrode, and of which a similar voltage of 6 V to 12 V can be applied between the third and fourth poles for connection between the cathode-ray tube filament electrodes and at least one voltage terminal capable of connecting more than 150 V: voltage between an anode electrode and a cathode, characterized in that the device comprises a first and a second voltage supply (S1 and S2) connected in series, the first supply (S1) being connected directly to the supply line (A, B) and provided with at least four on a group of streets (C, D, E, F), one (C) of which is earthed (T), the other (D) is a single voltage of about 50 V to 5000 V and said 6 V to 12 V filament voltage is supplied between the third (E) and fourth (F) poles, while the second feeder (S2) is immediately connected (3, 4) to the first feeder (SI) to the first (C) and second (D) terminals and may simultaneously be connected (1, 2) to a second voltage source, said second input (S2) comprising at least one of seven terminals (E1, F1, G, H, L, M and AT) a group of which at least the first (E1) and second (F1) terminals are immediately connected to the third (E) and fourth (F) terminals of the first feeder (S1) for a 6 V to 12 V filament voltage, and that the second feeder (S2 ) is arranged for visual inspection of the condition of the pipe to supply a voltage of about 0 V to minus 50 V DC, AC or pulsating to the fourth terminal (H) intended to be connected to said gate, a similar voltage of about 150 V to 400 V to the fifth to the connection terminal (L), which is ref designed to be connected to the first anode of the cathode ray tube, a similar voltage of about 1000 V to 3000 V to the sixth terminal (M) for connection to the second anode of the cathode ray tube, and a voltage of about 4000 V to 7000 V to the seventh terminal (AT) for! to be connected to the main anode of the cathode ray tube while the third terminal (G) is grounded. Device according to Claim 1, characterized in that the first feeder (SI) comprises manually or automatically controlled devices β 57194 with which the time of the voltage supplied to the connection terminals (D, E, F) of the feeder can be precisely adjusted. Apparatus according to claim 1 or 2, characterized in that said second feeder (S2) is provided with manually controlled devices for varying the voltages applied to the terminals (H, L, M, AT) of this feeder within said limits. Apparatus according to claims 1-3, characterized in that said second voltage source to which the second feeder (S2) is connected (1, 2) comprises a transformer of the first feeder (S1). I * ·. 57194 9 1. Anodning for regeneration of a cathode circuit and for sync inspection of a cathodic conditioner, with an auxiliary voltage and voltage of a polar condition, variegated with an equalization and with a polarity of 50 V -5000 V, the cathode-ray tube cathode-ray tube cathodes and galler electrodes, and the colors of the cathode-ray tube and the ground poles are rated for voltage between 6 V and 12 V, with the exception of the cathode-ray tube cathode-ray tube the headlamps are connected to the anode-electrode and the cathode, they are connected to the anode and to the splitter (SI and S2) of the headlamps in a series of variables, the colors of the inertia (SI) can be directly connected to the matrix ) and the group consisting of a group of auxiliary contact (C, D, E, F), a reserve (C) and an order (T), an account of and (D) with a voltage of about 50 V - 5 000 V and three-way (E) and three-way (F) contacts with a current rating of 6 V to 12 V (C) and and (D) the contact-contact and the same contact (1, 2) to the spindle, and in this case (S2) up to a group of the splice contact (E1, F1, G, H, L, M and AT), with a single contact contact on the ground (E1) and on the other (Fl) with a direct connection to the internal material (SI) of the three (E) and lower (F) connection contacts for the voltage span from 6 V to 12 V and for the purpose of the inspection of the condition of the device (S2) and the anatomical contact, voltage or pulse voltage of about 0 V - minus 50 V to the ground connection contact (H), which is not included these circuits, with a voltage span of about 150 V to 400 V, have a ground contact (L), which is not the headband of the cathode-ray tube is connected to the anode, with a voltage of about 1000 V to 3000 V to the ground connection contacts (M), which can be used to connect the headband to the cathode headband to the anode, and with a voltage of about 4000 V to 7000 V ), which may be used for the purpose of the cathode ray tracks, as well as for three thirds of the contact points (G).