DE1282679B - Arrangement for the automatic demagnetization of a shadow mask tube - Google Patents

Description

ItUNDESREPUBLIC OF GERMANY DKVTSCIiES

PATENT OFFICE

PATENT LETTERING

in the. CL:

H (Mn

DeulicbiKL: 21 al-34/11

Number: 1292679

Aktcoickben: P 12 82 679.S-31 (S! 08414) Antacldc day: February 21st J9fi?

November 14, I9A8

ία July 1969

Trip day: Issue date: The patent specification is correct with the audit writing above

The luminescent screen of a Lochmaakcnröhrc (Ur Farbfcrnscli7.wrckc is known to look at a Vicltahl u'lir small letters arranged in groups of letters) imkic for the primary colors red, green and Ulau. Behind the ijaicfilscliirm SLDI is the shadow mask in proportionate S müJMg low Altvland. This be-flour mis a thin dlccn, which for each Lcucbt-Mulldretergrunpc a lock vinlnli in exact allocation. The ) U \ h of the LocJtroasken tube enthüi dici {KtteniK controllable Elcktrancnsirulikrxcttgf- ie MStvme, dx- symmetrical to the BiWröbrawiehsc, each stranded with 120 ', in gap-tapered tape. The deflection of the three Otektroncnrtralikn cilnlgi together in «kr usual technique. The bridging of the three beam generation systems is dug up. that they cross their cliironouirahlcn in the Llviic der Loctimi »kc. Enter the l: lcklro · nenvtralilcn through a Ma $ kcn1ocit, "" Irilit jcdci beam only on one of the three LcucliislolIsoMcn. If the sirulils are called the RaKcrablcnkiine in Zcilcniicri · te (inn: «vilcj. Dnnn are xic voe the i.ochmasVc on- ^ cfaiigcfi, i.e. faded out, until through the tiiklnic .Mavlcn <> iTnutni each ray repeats on the same ldff of the next Lwiditsloil-Drcicr irilil. Every Striihkirciijunp ^ plem is ibrull

to ^ eiwdnd. If you control the y roil den enli ^ neehendcn

then mim receives the WicdcrpJilK of ilrvi I- "arhmisyt" PDO: ldcr in small Hildelemeiilco inul ϋίίπιϊι by addii'tve l "arhmiwhui" p the full 3 "M.tiuli ^ c I ^: .irl * iild on the dildtchirm Tube.

In detail, «lie production! one tttkltcn l.4Kliinu> kc um-ic whose operation ols bckatinl \ xwuiis · jxv.-ui. l'eMnmeiiun Im jed <icli that the l. <xhmnskc. the l.ochmaskrahn> eii and also the bcfcsti- guii /; sralimen of FarbfernscUrfilirc aas magoclitcli illl "rich" SiahlMeclt, insiK-Minderc from pn mil smaller TemrKraluratndehnuny bcdie lul.; innilicli nkhl free of rcmutieinem ^ are. IXr Iirv "U this Sh> 1Il · d" iich

nienlferriin »: i |! neiHvhe Slnlfe ta hishee not yet succeeded. Consequently, rik iKS ^ th part can be made by the influence of macnciibeher fields, z. B. also dutch "lie lünffektuiic des inugncliscbcn Erdfelde", m ^ nelisilcrt weukn. The racing generated in these parts / magncihmus er7icu ^ i maruciiM'hc stray fields, which act with the electrons in the region Mi, since there is a £ c $ 4cll (c convcricn ^ behavior of the Hick * (! • '!! • 'UHtiatilctt jicstmt wild, lihi'nso Q (t ν kl 1 cine (.nnwiiwlfreie Fnibieiiilicil tlbcr the ponZiC IlildfUlchc ic hui nut reinnnen / frvien FKcnteilen the tube eirei · • it.-n. 1> .ihcf Ki nmncndl there ^ , die ljndimt ^ kf. «> · κ · η

Arrangement for aulonwliachcn enlma ^ netting

a perforated mouth tube c

Patent kit for Siemcrn Akilenge $ "Ibchafi, Berlin and Munich" BOCK) Munich 2, Wiuckbacbcrplalr 2 AIx lirfindcr named: Dr. Otlo Macck, mn urine

Frames and other bcilcltcndc on fcrrotnagiieibcbetn material parts of the shadow mask from toe to Zeil - especially with changes in the relative position of the Farbfcrn & clKmpfangcrs to crdmognctischcnFeld - cntmafnctisiercn 2 ". ErachUkb relieves this task of an automatic linimagnciiMcrunj the BoilTcr des C3crites, which is effective every time the device is switched on. This is all the more so, as - around the infeed of fractions herebatusctTcn - the DHd * r ^ hrc is often surrounded by a screen made of cold-rolled, uiuminisicrttm steel. Even the screen must be free from external inductors. As a result, the Mcloll screen must also cnlmagneiiniirn north.

The process of demagnetization is known per se. One applies to the ferromagnetic components to be magnetized, since strong majncibch "Wcd ^ clfcld" is applied, <kwcn amplitude decreases to zero every milky way. In practice it is sufficient. if the runicntc manelium is reduced to about 1 % of its original strength, d. h_ \ venn the α »ι magnet Hie rcmk Wcchselxtrotn to ctwfl! * / #» of its initial brand iihsinkl. Dk cinfnchate lintm.igneirtkiun ^ svLluiltuiij; Is shown hi Fig. 1. She is available to us with an enlniagnctitierunfssnutc 1 and one with Ulf in series uesehahcien elckiriulicn KalikiicrZ. All of the elements are due to an alternating source of electricity . The heat capacity of the clear cell 2 is chosen so that it warms up to a relatively high temperature in a relatively short period of time, like the heat. While in the cold Zu-Maiid. as "Ih; i Zifaincricmneraiur, his Wlikratnnd mi is small that he the amplitude de ·, supplied by the alternating% elitnmi <juclle 3 Wediuhininx-v almost unsclmidtt hhidiircItl. will the AmpiHudc

97) mn?

3 4

ses alternating current in the hot state of the cold A device corresponding to the invention

conductor 2 stands down to the specified fraction from a parallel connection of the demagnetization

presses that no longer bothers. If one wants the current rungsspulc 1 and an NTC thermistor 7. This parallel ·

finally switch off, so you need a switch combination is in series with the PTC thermistor 2 and

or a relay 4. 5 of an alternating current source 3. (A varistor can be

However, experience has shown that it turns and then as in an arrangement according to

Fig. 1 constructed simple degaussing Fig. 2 be connected; it is not necessary.) In

circuit is not sufficient in most cases. this circuit receives after heating the cold

This is mainly due to the fact that the thermistor from its own electrical circuit is too high for the technical conductors

feasible PTC thermistors the ratio of the largest io little energy to heat up. Hence a

achievable hot resistance to cold resistance external heating of the thermistor 7 is essential, according to

is mostly too small. One has therefore an extended of the invention by one when switching on the

Circuit shown in Fig. 2 is applied. Device strongly heating electrical resistance

In this circuit, the degaussing 10 of the device in which the arrangement is used

coil 1, the PTC thermistor 2 and a varistor 5 in series 15 and in direct heat exchange with the

switched, with the degaussing coil 1 and thermistor 7 is given.

the varistor 5 from a parallel connected directly Another arrangement according to the invention is heated thermistors6 are bridged. The residual flow is shown in FIG. In this arrangement, one of the PTC thermistors is used in this arrangement due to the externally heated (resistor 11 of the device) cold lead resistance combination compared to the residual current ao ter 8, which is considerably reduced in series with the magnetization of a simple PTC thermistor. Regarding the supply coil 1, the alternating current 3 and, if applicable, it should be noted that when an electrical fuse is used, a switch-off relay or the like is switched according to FIG Hot resistance to cold resistance of 1000: 1 finally switches off the magnetizing process, as is sufficient. The arrangement according to FIG. 4 is therefore no longer required. After switching on the even easier than that according to FIG. 3.
Voltage of the alternating current source 3 flows through the The device shown in Fig. 4 ofTen demagnetization coil 1 initially a high current, obviously a further embodiment of a device because the PTC thermistor in the cold state a high value according to FIG. 1. Due to the indirect heating value, the thermistor has a low value and at the 30th of the PTC thermistor it is achieved that its varistor temperature, despite the high current, is only a little bit higher than that caused by the self-heating?) ^ · voltage drop. Due to the self-heating due to the Stn flowing through the PTC thermistor
the PTC thermistor becomes high-resistance, and the series circuit is dependent. This results in a resistance t
coil 1 and varistor is due to a low hung of the PTC thermistor and thus a drop in the dt *. Voltage. Because of this low voltage, however, the electrical current flowing through the degaussing coil is also highly resistive, and the current through current, as it is due to the normal heating of the coil 1, is almost zero. So that the PTC thermistor is not reached by itself,
maintains its reached temperature, a residual must flow The Fremdbcheizung of the thermistor in a Anordstrom, which acts from the meanwhile heated voltage according to FIG. The NTC thermistor, however, usually gets to varistor. The total current of the arrangement is kept away from demagnetization when the change in resistance of the PTC thermistor is kept away from full coil, with little energy in order to heat itself up sufficiently. So you get a stronger one. As detected according to the invention, a drop in the current in the degaussing coil. However, by a simple measure 45 accordingly, it will be understood that further improvements can be made. Invention corresponding, in F i g. 3 depicted

It is therefore the object of the invention to provide an improvement order by a varistor in the sense of a

side and possibly simplified circuit arrangement according to FIG. 2 can be further improved

to find. can. The resulting device is then both

The invention relates to an arrangement for 50 of the device according to the invention according to FIG. 3 automatic demagnetization of a perforated mesh as well as the known device according to FIG. 2 kenröhre with a series connection of a Ent- much superior. However, it is to be noted that the principle magnetization winding, one capacitor and one piellc is that the indirect heating is actuated when the device is switched on. The inventions when this can be achieved with the help of a varistor.
Proper arrangement is characterized by at least one As the Frenidhcizung also by a cooling resistance caused by indirectly heated, temperature-dependent resistance of high temperature, whose indirect heating can be through, there is the possibility of an Andean heat exchange with a during the order, which is similar How the arrangement according to Fig. 3 operation noticeably heating or cooling 60 works, the externally heated electrical resistance to be used there of the shadow mask tube thermistor is given by a free PTC thermistor to be used. replace whose cold resistance is significantly below the

As a result of the use of such a foreign heating impedance of the demagnetizing coil lies. Flier must

zuiiji one can switch off or switch off the heated resistor with a device according to the Rr-

fiiichiiij »cine considerably increased and through the 65 the heating current from the resistor 10 (Fig. 5) to the

iirad of the Frenullieizuni; Resistor 11 can be switched within certain limits. With this va-

(Varistor l-liekl) controllable effect with a miniature can demagnetization at any time

iniiin realize in technical effort. made during operation of the device

when resistors 10 and 11 are equal. Preferably, to heat the externally heated, provided in a device according to the invention, temperature-dependent resistor uses a sieve resistor, as it is in every television set is present and which easily develops the required temperature. Appropriate is an installation of the thermistor or the PTC thermistor in a suitable wire resistor, the z. B. as a screen resistor of the television is in use. The F.ntmugnetisierungsspule 1 of the circuits described is located on the perforated mask tube 9 to be demagnetized. After these tubes are in the Reuel with a metal screen, e.g. B. from cold-rolled, aluminized in sheet steel, it is advisable to use the degaussing coil or demagnetizing winding on the inside of the shielding plate to attach, so that the Enlmagnctisierungsfeld also on the inside of the tube Components made of ferromagnetic material can act.

In the following, some details are given about the appropriate selection of the components to be used in an arrangement according to the invention. As noted, it is desirable for the initial current through the degaussing coil to be 220V. _{lf is} at least 1.5 A effective current. The final current should not be greater than about 2 to 5 mA _llff . Then there are no disruptive line grid shifts; Since the color television set needs about 3 minutes to show a stable picture, and the convergence of the electron beam in relation to the shadow mask is only correct when the device is at operating temperature, the picture will not be disturbed if the demagnetizing current drops to less than 2 to 5 after 3 minutes mA has decreased. You can therefore use screen resistors with lower power for external heating of the PTC thermistor. For the thermistor according to an arrangement according to FIG. 3, one could, for example, think of a thermistor with a specific resistance of 500 ohm · cm at 20 ° C. and an fr value of at least 3500. Such resistors are readily made of oxide mixtures, e.g. B. nickel-cobalt-manganese oxides or zinc-nickel-manganese oxides available.

When operating the PTC thermistor in the arrangements according to the invention one must in any case care Make sure that the PTC thermistor does not show any "varistor effect" when it is in a high-resistance state. If you z. B. a PTC thermistor is available, which stabilizes at a temperature at which the current is around 10 to "M üiA is, then this current value is still far enough removed from the current value at which - at the applied Voltage of around 220 V - the PTC thermistor becomes a varistor. When the temperature of the conductor - for example by external heating - becomes so high that the current flowing through it is about 1.5 mA • -.Mikl, then there is a high voltage applied <! ■ Danger that the PTC thermistor - as a varistor - will never- (icsolimiger becomes and thus self-destructs. Be-Miners one has to pay attention to this when one is provided with the one provided there in an arrangement according to FIG PTC thermistor provides additional external heating to increase the desired effect.

In any case, it is beneficial to be in the circuit de> PTC thermistor to install a tear fuse.

The induction coil I, which advantageously the Piston of the - for the sake of simplicity only in the arrangement according to FIG. 3 shown - shadow mask tube 9 encloses below the conical shield, there is z. B. from a number of like-minded Windings made of insulated stranded copper wire or copper wire, the number of windings being measured in this way is that the initial field required for demagnetization is achieved. An empirical value for this is with an effective initial current strength of 2.1 A seventy turns of the degaussing coil 1, whereby an initial field of 150 A / cm is reached. If the current drops to 6 mA or even less, only a residual field of 0.4 A / cm effectively remains. This remaining alternating flow is already below the specified interference limit.

It is recommended that the time constant with which the degaussing iron decreases not too small is chosen because the ferromagnetic !! Components

ao of the shadow mask tube may be sluggish with respect to the change in the magnetic induction be able. On the other hand, if the time constant is too large, this can lead to - possibly undesirable - heating of both the demagnetized

as the components as well as the degaussing coil come. This applies above all to an arrangement according to FIG. 4th In an arrangement according to FIG. 3 however, the thermal time constant of the PTC thermistor and thus also its mass can be selected to be large being. The time constant of the thermistor is expediently smaller. It is also recommended that the thermal Time constant of the resistor used for external heating is small compared to the time constant of the PTC thermistor. It is therefore advantageous to use resistors with a relatively low power, but for this purpose large surface to choose. The requested accomplish z. B. the so-called electrolytic capacitors and rectifier protective resistors from 5 to 6 ohms present in the power supply of each receiver. It is best to do this Resistors short and with an inner diameter of the insulator of about S to 12 mm with smaller Wall thickness (0.5 to 1 mm) to be selected. The hot or cold lead is then inside this tubular insulating body with a surface that is parallel to the outer surface of this insulating body extends.

Claims (7)

Patent claims: 1. Arrangement for the automatic demagnetization of a shadow mask tube with a one Service of a demagnification winding, a PTC thermistor and an alternating current source containing electrical circuit, the is activated when the device is switched on, marked through at least one indirectly heated, temperature-dependent resistor (7, 8), whose indirect heating through the heat exchange with a during the Operation noticeably heating or cooling electrical resistance (10, 11) of the The device using the shadow mask tube is given. 2. Arrangement according to Anspiiich I, characterized in that that the indirect behei / lo (H) is temperature-dependent Resistance (8) in series with the demagnetization winding (1) PTC thermistor is. 3. Arrangement according to claim 1 or 2, as by in that the indirectly heated (10) temperature-dependent resistance (7) is connected in parallel to the demagnetizing coil (1). 4. Arrangement according to one of claims 1 to 3, characterized in that the parallel connected to the magnetizing winding (1) tcmpcratiirahhänyipc resistance (7) an indirect heated (10) thermistor. ίο 5. Arrangement according to one of claims 1 to 4. characterized in that the currents and the maximum temperature of the temperature-dependent !! Resistors (2, 7, 8) are dimensioned such that a varistor effect with sickle is healing during the operation of the arrangement is avoided. 6. Arrangement according to one of claims 1 to 5, characterized by a varistor in Series with tier I-nt magnetization winding (1) - »0 is sounding. 7. Arrangement according to one of claims 1 to 6, characterized in that when there is an electrical thermistor (7) connected in parallel to the demagnetization winding (1) of the time constant T _{0 of} the PTC thermistor (2) connected in series with this demagnetization winding, a large thermal time constant of has at least 4 T ₀ . K. Arrangement according to one of claims 3 to 7. characterized in that in the absence of a temperature-dependent parallel resistance; (7) for demagnetization winding (1) of the for; Unmagnetization winding connected in series' electrical PTC thermistor (2) has a small Aufhcizzcitkonstantc of a maximum of about 10 seconds. Considered publications:
'Valvo reports'. Vol. XIl, 1966, Issue 1, pp. 11 to 19. 1 sheet of drawings 809 637/96 1168 Q Bundcsdnickcrei Berlin