DE1439118C - Cathode ray tubes provided with implosion protection and process for producing the implosion protection - Google Patents

Description

is exposed to stress or a phenomenon of fatigue occurs as a result of a surface defect, which could give rise to an implosion in a conventional, known tube. Much more in the proposed cathode ray tube, the progression of the cracks in the glass, which the result of accidental impact or fatigue caused by the rigid belt slows down, and the pressures outside and inside are equalized without implosion Tube.

Since the implosion protection of the proposed tube has a solidified melt as a filler, the tube is not exposed to different voltages and voltage accumulations. Further attaching the implosion protection is easy.

While it was previously assumed that a tensioning effect of the rigid, surrounding the tube Belt "is an indispensable requirement for effective protection against implosion, one has according to the invention dispenses with such a pretensioning of the glass bulb of the tube. The elimination of this Tensioning brings about a significant simplification in the manufacture of the implosion protection. A prerequisite is, however, that the rigid belt has sufficient strength so that it can withstand stresses, as they occur when the tube breaks, does not give way.

In an earlier patent, a cathode ray tube with an implosion protection is described, the the fusion seam between the screen and the cone on both sides in the form of a seam touching the glass wall Belt surrounds the one of the circumferential surface of the cathode ray tube adapted, annular Metal band and a rigid filler material arranged between the metal band and the glass wall consists. The filling material here consists of intermediate layers, preferably made of plastic, which are between the glass wall and the metal band are attached. This implosion protection applies to the surface the tube does not exert essentially any pressure.

With the cathode ray tube according to the invention, the implosion protection can be much easier apply when the metal band consists of two adjacent parts that are on a plane borders, which intersects the tube axis perpendicularly and in front of the fusion seam in the direction of the Screen is down.

According to the invention, the filler material can be, for example, sulfur. Likewise, the filling material Be cement or a metal alloy.

The proposed cathode ray tube can be produced in a simple manner in that one of the two annular parts of the metal band centered on a support and then the tube with her Screen down, leaving a space on the ring-shaped part and placed then the second annular part is applied from above onto the first and connected to it is, whereupon in the space between the metal band consisting of the ring-shaped parts and the tube the filler is poured and solidified.

A uniform space between the two annular parts of the metal band and the tube can be achieved that to produce the space between the Screen facing part of the metal band and the tube following the inner circumference of this part Sealing ring is inserted and that by pretensioning the second, not connected to the first part Part against the tube, the sealing ring is tightly placed on the tube and then the Filler material is poured in.

The application of the implosion protection is made easier if the belt is only removed after the Tube is applied.

In the following, the subject matter of the invention is explained in more detail with reference to drawings. In the Show drawings

F i g. 1 to 3 cross-sections through tubes with implosion protection,

4 to 11 different phases of the manufacturing process.

The in the F i g. 1 to 3 tubes shown consist of a screen 1 and a glass cone 2, which are connected to one another along a fusion seam 3. The one serving as protection against implosion Belt extends over a zone that lies between two dashed lines 4 and 5, whose the first essentially forms the perimeter delimitation of the viewing areas of the screen 1.

Serving as implosion protection belt has a metal band 6, which is essentially the Shape of the tube is adapted and is at a radial distance from the tube. The space between Metal band 6 and tube are filled by a non-expanding filler material 7.

In the embodiment shown in Fig. 2, the metal strip consists of two adjacent, annular parts 6, 6 a, which are connected to one another. The annular parts can for example be pressed.

In the embodiment shown in Fig. 3, the metal strip consists of two ring-shaped parts 6, 6 a, which are, for example, cast and connected to one another by screws.

4 shows a carrier 11 with four centering fingers 12 is equipped.

The ring-shaped part 13 of the metal band is placed on this carrier (FIG. 5), which is on the Screen side of the tube is to be attached. Along the inner peripheral edge of the annular part 13 a seal 14 is attached. The tube 15 is then (FIG. 6) onto the annular part 13 put on. Centering plates 16 arranged diagonally to one another are used here (FIG. 7).

Now (Fig. 8) the ring-shaped part 17 surrounding the cone is from above onto the first applied annular part 13 and centered by the centering finger 12.

The two annular parts 13 and 17 are (Fig. 9) by means of electrical spot welding Welding tongs 18 connected to one another.

A tight application of the seal 14 (Fig. 10) to the tube 15 is achieved by screws 19 are screwed into threaded bores of the second annular part 17. The screws 19 are supported here on the tube and press the first annular part 13 with the sealing ring 14 tight against the tube 15.

Now the filling material 7, for. B. liquid sulfur, via one of a melting device 21 fed line 20 introduced. After the sulfur has completely solidified, it fills the

interstitial space 22 between the tube 15 and the consisting of the two annular parts 13 and 17 Metal band. The solidified sulfur secures in this way the firm and rigid connection between the metal band and the tube 15 without any pressure being applied to them. Subsequently the tube 15 is now lifted from the carrier 11.

In addition to the advantages already mentioned, achieved by attaching the belt described nor the easier fastening of the tube in the receiver housing, e.g. B. using the by combining the parts according to FIGS. 2 and 3 formed flange. The inside edge of the belt can be used as a decorative strip for the screen will.

1 sheet of drawings

Claims (7)

1 2 belts serving and touching the glass wall Patent claims:. is surrounded, which is made of a ring-shaped meter adapted to the circumferential surface of the cathode ray tube 1. Cathode ray tube for television purposes, metal band and one between metal band and glass tube Glass cone fused to the screen consists of 5 wall arranged, rigid filler material. is and its fusion seam on both sides with Furthermore, the invention relates to a method for one serving as implosion protection and the production of this implosion protection. Glass wall touching belt is surrounded, which originally were cathode ray tubes underneath from one of the circumferential surface of the cathode intermediate layer of a flexible layer of felt, Radiant tube adapted, annular metal band io asbestos od. Like. Fixed in brackets that are in their and a shape between the metal band and the glass wall of the outer shape of the tube in the zone of the arranged, rigid filling material, there- fusion seam between glass cone and picture- characterized in that the fill screen correspond. However, this arrangement served material (7) a solidified melt of a material exclusively for the storage of the cathode ray tube is. 15 ren and presented no protection against the danger of a 2. Cathode ray tube according to claim !, because implosion. It was therefore necessary to Röhdurch characterized in that the metal strip from Ren with a protective jacket and the Bildzwei adjacent parts (6, 6a; 13, protective shield made of safety 17) that adjoin a plane surrounding the glass in order to prevent the glass die Tube axis intersects vertically and splinters in front of the 20 during an implosion into the surrounding space Fusion seam (3) in the direction of the image exit. That being said, this arrangement umbrella (1) lies down. does not in itself constitute protection against implosion, it is 3. Cathode ray tube according to one of the also still very complex and space-consuming. Proverbs 1 and 2, characterized in that the implosion was further reduced The filler material (7) is sulfur. 25 danger with cathode ray tubes already tried 4. Cathode ray tube after one of the to the screen of the tube a mask made of glass or Proverbs 1 and 2, characterized in that a plastic material such as a security Glue on filling material (7) cement or a metal washer. With this measure you can alloy is. nen the effects of an implosion of the tube 5. Method of making cathode 30 forward decreased. However, it is possible according to jet tubes according to one of claims 2 to 4, as before, that glass parts are thrown backwards, characterized in that one of the two is changed and there becomes a completely Zerring-shaped parts (6, 6 a; 13, 17) of the metal band. cause interference in other parts of the device. centered on a support (11) and then the To reduce the risk of implosion, it is white tube (15) with its screen (1) downwards 35 known to turn metal tires as a rigid belt while leaving a gap (22), the possibly with the interposition of a ring-shaped part (6 a; 13) placed and appropriate adhesive or cement applied immediately to the closing the second ring-shaped part (6; 17) the tube and applied against the tube from above onto the first and with it be tensioned. is connected, whereupon in the space 40 with tubes with more or less rectangular (22) between the cross-section of the annular parts are when attaching a rigid to itself (6 ,, 6 a; 13, 17) existing metal band and the pressure applied to the fusion seam Tube (15) poured the filler material (7) and belt not the forces applied to the tube is solidified. evenly over the entire circumference of the tube 6. The method according to claim 5, characterized in 45 distributed and also not engaging perpendicular to the indicates that to produce the intermediate surface. As a result, there can even be space (22) between the part (6 a; 13) of the metal strip which is tial to the screen (1) and the part (6 a; 13) which, in contrast to the desired effect of the tube (15), has an impact on the inner circumference of this part. stands. Finally, in all cases, the following sealing ring (14) occurs in all cases of tension indications (6 a; 13) are accumulated at the points with the smallest curvature and that by prestressing the second radius, in the case of tubes with a rectangular cross section, the first part (6 a; 13) connected part cut open at the corners. (6; 17) against the tube (15) of the sealing ring It was therefore the basis of the invention (14) placed tightly on the tube and the subsequent task, a cathode ray tube with a ßend the filling material (7) is poured. 55 to create implosion protection, even with strong 7. The method according to any one of claims 5 and impact loads in each case an imploding 6, characterized in that the tube from the middle prevents the tube from not having additional literal band (6, 6 a; 13, 17) and the filler material (7 ) Chen, uneven tensions and tension-existing belts are only loaded after the accumulations have been evacuated and, in addition, the tube is simply applied. 60 can be produced. This is achieved according to the invention by that the filler material is a solidified melt of a Material is. With such a designed cathode ray The invention relates to a cathode ray tube ⁵ tube, there is no sudden break and no continuation for television purposes, the glass cone with the image flinging of glass splinters more on, even if the screen is fused and their fusion- any point on the surface of the tube a tongue seam on both sides with an implosion protection intended mechanical or thermal shock