DE1162493B - Electron beam tube for image reproduction with a glass bulb - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Kl .: HOIj

German KL: 21g -13/28

Number: 1 162 493

File number: N 20757 VIII c / 21 g

Filing date: October 31, 1961

Opening day: February 6, 1964

The invention relates to cathode ray tubes for image reproduction with a glass bulb, at least in those adjoining the image area of the tube and in those adjoining it Areas of the cone with a tape made of a plastic layer firmly adhering to the piston wall is surrounded by a pressure preventing the propagation of a crack in the glass bulb is exercised.

With such cathode ray tubes there is a risk that damage or aging of the Glass an implosion of the evacuated flask occurs. This can be especially true for larger picture tubes because of the flying fragments of the destroyed tube for people in the vicinity have serious consequences; a tube implosion can also lead to significant property damage. The danger of implosion applies in particular to tubes with an essentially rectangular image window. Because generally in the transition zone from the image window to the tube cone and around the image area of the If tensile stresses occur in the glass around the window after ventilation, this zone can show signs of aging occur in the glass, so that the risk of breaking the glass wall is greatest here. A wide variety of precautions have already been taken to prevent the undesirable consequences of a Implosion should be mitigated or the risk of implosion should be reduced as far as possible. To the unwanted To limit the consequences of an implosion to the immediate vicinity of the device housing, in which the cathode ray tube is arranged, a protective screen is attached in front of the picture window. However, this remedy is intended to protect those who assemble or repair the Device are not sufficient.

It is also known to use the image window and possibly also the adjoining ones The cone of a cathode ray tube with an elastic shell, e.g. B. made of rubber or plastic, too which hold the pieces together in the event of an implosion. Plastic can be put as a hood over the picture window and the adjoining part of the tubular cone and then screwed on. The hood material can also contain fillers such as asbestos or Be mixed with paper powder or silk threads, but it should be noted that the envelope before Image window must remain transparent.

It has been found that the known hoods are able to withstand the consequences of an implosion to mitigate considerably by the broken loose

Cathode ray tube for image reproduction
with a glass flask

Applicant:

N. V. Philips' Gloeilampenfabrieken,

Eindhoven (Netherlands)

Representative:

Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Named as inventor:

Marinus Stel,

Pieter Harm Fennema,

Willem Fokko Nienhuis,

Constantius Johannes Waltherus Panis,

Eindhoven (Netherlands)

Claimed priority:
Netherlands 3 November 1960
(No. 257 590)

Glass pieces are elastically caught and slowed down, but the disadvantage is accepted must be that the coating covers the entire picture window. The ones suitable for the purpose mentioned However, fabrics usually have a tendency to discolour over time; they are also prone to scratches and easily contaminated with smoke and dust particles.

An envelope is also known which encloses the tube piston with the exception of the picture window. With this tube, however, an implosion is accepted as inevitable and only expected that the screen glass fragments are torn into the tube and the glass of the tube cone not is thrown across the tube in opposite directions.

After all, it is also known on the flask glass in the highly endangered area between the picture window edge and the cone by means of a metal, Plastic or synthetic resin tape to apply pressure. With such a metal band, tensile

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Tensions in the glass are suppressed and the pistons will be wound. Glass fibers from a glass in the event of a crack, fracture surfaces with a low alkali content have become attached to the layer pressed against each other, so that the fragments proved to be particularly well suited. The shift is cannot move away from each other. The band lying around the tube, which is opaque due to the addition of fibers, does not stand up on the image surface of the fluorescent screen by the necessary pressure to be able to exercise the glass under tension; to be brought. Since the layer is on the wall is for this purpose either acts on the tube outside of its coverage area, is screwed or shrunk on and, in addition, such a cover is not necessary at all. Bonded to the glass with a thin layer of adhesive. The pre-bonded to the glass to improve adhesion. The intermediate layer seen can, however, if it is through the manufacture of this tube with a metal sight, cover the image surface in order to be known tape, however, encounters considerable difficulties, as it is possible to achieve certain optical effects, the metal strips, but not the tubular pistons with uniform dimensions available was proposed in connection with means are cash. So the tightly on the bulb-15 to reinforce the surface of the glass, like the lying metal strips are used in spite of the costly forehead attachment of a glass layer, Slightly different pressures on the sub-screen is the one for displaying the picture exercise different piston areas, thus understanding the all-used part of the image window. This Lateral prevention of the tensile stress is seriously in is mostly by the luminescent layer on the inside issue is posed. The thin layer of adhesive, which is in front of the 20 page, but often also through a mask on the applying the tape to the tape on the outside, which is applied to the tube or in the housing, can bring the necessary pressure equalization or in this case through the fiber-containing one do not bring about. Layer can be formed, determined.

Simple ribbons made of plastic, synthetic resin or The device described is based on a other similar materials, however, have 25 drawings explained in more detail in the not the tensile strength necessary for a safe im- Fig. 1, 2 and 3 different embodiments plosion protection is needed. The same also applies to cathode ray tubes, for a ribbon of glass itself. In FIG. 1 denotes 1 the cone of an electro-die The disadvantages mentioned are in the case of an electron beam tube to which a neck 2 and a beam tube are attached for image reproduction with a glass window 3 are melted, while on the piston, which on the side facing the screen inside of the window 3 of the luminescent screen 8 angedes Piston is surrounded by a plastic band, is brought. In zone 4, tensile stresses can occur in the through which a crack can spread in the glass-glass. At least the one on the scene piston-preventing pressure is exerted, thereby the bordering part of this zone 4 is with a strong, avoided that, according to the invention, the tape to 35 several millimeters thick plastic layer 5 beErhöung the strength of a fiber material, in particular that of a mixture of glass fibers whose glass fibers contains. a length of 1 to 3 cm and a hardened While plastic of all known types is made without unsaturated polyester resin, which works well on glass a suitable addition of fibers results in too low a strength. The mixture mentioned can, for. B. from 3 Gekeit has, by adding the fiber 40 parts by weight of glass fibers and 7 parts by weight of one materials, especially by adding a glass solution of an unsaturated polyester, e.g. B. styrene, fibers that consist of strength increased a hundredfold and can, for. B. by spraying on the and apparently so large that the glass parts are not applied to the glass surface and then by means of a be able to detach from the bandage and evade. Roll to be pressed.

However, it is also advantageous over a metal 45 The unsaturated polyester can be

tied that the fiber-containing plastic layer without densation of an α, ^ -unsaturated dicarboxylic acid and

Difficulties can be obtained evenly and adhering well to a polyhydric alcohol. Even

to be attached to the piston. When curing, the polyester can still be saturated and / or

the applied layer shrinks, and it turns out halogen-containing dicarboxylic acids modified

then the required pressure on the glass. To be a crack. As polyhydric alcohols, glycols are

in the glass, even turnable on one of the fiber-containing ones.

Layer uncovered wall part, such as expediently, solutions from 50 to 70 Gedem can be used Image window, does not spread. The tube is filled with weight percent unsaturated polyester in styrene rather, if such a crack find a turning point at all.

occurs slowly with air and otherwise remains 55 The hardening can be completely maintained under the influence of. For this purpose, known compounds from. B. improve, before applying the layer with a cobalt naphthenate or dimethylaniline, done as a glue acting intermediate layer made of a material ^6o To prevent the polyester from being prematurely provided, which hardens both on the glass and on, may be a short time before which adheres better to the layer than the glass to the layer bring the plastic into a solution of the catalyst. sators in one part of the polyester-styrene mixture The fiber-containing plastic layer contains preferably glass fibers with a solution of the curing accelerator in the form of short pieces, ⁶ 5 remaining part of the polyester-styrene mixture, for example with a length of a few centimeters. mixes.

mieren, in the plastic are embedded. The unsaturated polyester solution can also

Fibers can also be used as glass cords on the fillers, in addition to dyes and pigments.

fabrics, such as ζ. B. titanium dioxide (TiO ₂ ), to reduce the shrinkage of the layer and to prevent its cracking during curing.

The glass fibers can consist of almost any type of glass that is easy to process. very glasses with a low alkali content are suitable.

According to the advantageous embodiment shown in Fig. 2, a glass cord 6 is during the Spraying the glass surface with polyester resin wound on the piston and then pressed down so that there is also a dense fiber-containing layer that adheres well to the glass.

It has proven unnecessary to somehow restrict the image area that remains free from the layer. A covering of the tubular piston in the area of the strongly curved transition from the image area for melting the cone and over the adjoining front cone part is sufficient in most cases.

As indicated in Fig. 3, the piston is previously covered with a well-adhering intermediate layer 7, the z. B. consists of polyvinyl acetate and on which the fiber-containing plastic layer 5 is attached.

The plastic layer can optionally also be used to fasten the piston with holding pieces to provide the tube in a housing.

Furthermore, the fiber-containing layer allows the wall thickness of the piston to be considerably thinner and therefore considerably smaller the tube is considerably easier to manufacture because, on the one hand, the strength of the piston due to the covering has become larger and, on the other hand, an implosion or a rupture of the piston are now completely harmless, whereby the safety factor can be set lower.

If the outside of the cone is to be covered with a conductive layer, this can also be done be provided on the plastic layer. However, it is also possible to use the plastic layer to make conductive by adding metal or graphite carbon or conductive in the plastic layer Incorporate fibers or a metal mesh.

Claims (7)

Patent claims: 1. Cathode ray tube for image reproduction with a glass bulb, which is at least in the at the image area of the tube adjoining and in the adjoining areas of the Cone with a band consisting of a plastic layer firmly adhering to the piston wall, by which a pressure preventing the propagation of a crack in the glass bulb is exerted is, characterized in that the plastic layer to increase the strength is a fiber material, in particular glass fibers, contains. 2. Cathode ray tube according to claim 1, characterized in that between the fiber-containing Plastic layer and the glass of the tube flask to improve the adhesion between layer and glass an effective glue Liner is attached. 3. Cathode ray tube according to claim 1 or 2, characterized in that the glass fibers have a length of a few centimeters. 4. cathode ray tube according to claim 1 or 2, characterized in that the fiber-containing Layer contains a string of glass wrapped around the wall of the tube. 5. Cathode ray tube according to Claims 1 to 4, characterized in that the fiberglass material has a low alkali content. 6. cathode ray tube according to claim 1, 2, 3 or 4, characterized in that the Plastic consists of a hardened, preferably unsaturated polyester resin. 7. Cathode ray tube according to Claims 1 to 6, characterized in that the covering layer made of 3 parts by weight of glass fibers and 7 parts by weight of polyester resin. Considered publications:
U.S. Patent Nos. 2,031,722, 2,785,820;
British Patent No. 427 093. 1 sheet of drawings 409 507/324 1.64 © Bundesdruckerei Berlin