DE2235709C3 - Light indicator tube - Google Patents

Description

45

The invention relates to an illuminated display tube according to the preamble of claim 1.

A well-known light indicator oil of this type (DT-OS 19 48 321) has a plurality of individual cathode elements and an anode element, which is arranged in five layers and supported by frame-shaped insulating plates are separated from each other. The luminous areas of the cathode elements form the segments of a the usual 7-segment display and a decimal point electrode. This known light indicator tube has the disadvantage that the electrode structure is very complicated is what an automation in particular because of the large number of different parts Assembly difficult. In addition, there are differences in the anode-cathode distances that to different ignition voltages and luminance levels.

Furthermore, from DT-OS 15 89 190 a light indicator tube known, in which one the gestall of the indicating Symbol prescribing mask plate is provided.

The object of the invention is to significantly simplify the structure of a light indicator tube of the type mentioned in the preamble of patent claim 1. . ,. ,,. ,

This object is achieved with the means mentioned in the characterization of patent claim 1 .

Due to the arrangement of the electrodes provided according to the invention, only two layers of electrodes are required, which are held in place by insulating plates , so that an extremely simple structure results. In the manufacture of the illuminated display tube , the electrodes of one electrode layer can initially remain connected during assembly via external webs, so that they can easily be brought into the correct position by machine. By suitably dimensioning the anodes and the insulating plate , it is possible to make the distances between the anode and the individual cathodes essentially the same, so that the conditions for the luminous discharge are almost the same for all cathodes. As a result of the continuous parallel arrangement of the cathodes in the / wide electrode layer, it is possible in the simplest possible way. without additional measures with the same basic structure to produce illuminated indicator tubes with the desired number of ZiI remote locations.

The invention is described below with reference to the description of an exemplary embodiment explained in more detail on the drawing.

F i g. 1 shows an embodiment of the indicator tube;

F i g. 2 shows a plan view of an insulating member, that as the upper, middle and lower insulating plate in the tube of FIG. 1 is used:

F i g. Figure 3 shows a top view of one in the tube of Figure 3. 1 lower metal plate used;

F i g. FIG. 4 shows a top view of the tube in FIG F i g. 1 used upper metal plate;

F i g. Fig. 5 shows a plan view of a in the tube of Fig. 1 g. I used masking plate;

6 shows an exploded partial view the tube according to FIG. I;

F i g. Figure 7 shows a front view of the tube of Figure 7. 1; and

F i g. Figure 8 shows a perspective view of the tube according to FIG. 1 with hood removed from a base board.

As shown in FIG. 1 has a three-digit Indicator tube 10 has a shaft 11 with a generally rectangular base 12. on which the follow the more detailed described electrode assembly of the tube 10 is carried. The shaft 11 be is made of insulating material: its base has an upper and a lower surface 13 and 14 respectively and is sluggish a conventional tube socket 15 with which the tube 10 can be emptied and filled with gas.

The lower insulating member 16, the plan view of which is shown in FIG. 2 is shown. is a plate made of ceramic or mica and is arranged on the base 12 with its bottom surface in contact with the upper surface 13 of the base W. As shown, the isolating plate 16 has generally rectangular openings 17. Ii and 19 extending through it parallel / one over the other, each opening corresponding to one of the three digits of a number to be displayed. The shape and size of each opening 17, 18 and 19 is chosen so that it includes a number. In the illustrated embodiment, each opening is formed such that. it is inclined slightly to the right. The insulating platti

16 also has small openings 20, 21 and 2Z running through it, all of which have a circular shape and are arranged on the lower right side of their associated rectangular opening 17, 18 and 19 in order to reproduce a decimal point if necessary.

A lower metal plate 25 , the top view of which is shown in FIG. 3, is arranged on the surface of the insulating plate 16 opposite the base 12. The measuring plate 25 has a number of elongated electrode sections.! Which extend inward from frame sections 30 and 31 , which are later removed; these electrode sections are arranged in three groups A, B and C , each group corresponds to one of the three digits that make up the number. In group A , elongated cathodes 32 and 33 are spaced axially aligned, elongated cathodes 34 and 35 spaced axially aligned parallel to the cathodes 32 and 33 and a central anode 36. tue extends from the frame sections 30 to 31 . The central anode 36 has a portion 37 of greater width formed substantially centrally therein. to promote the cathode lamp. The (j nippe A also has another anode 38, which is arranged on the right side of the cathode 35 and is used to represent a decimal point. Care must be taken in arranging the lower metal plate 25 on the lower insulating plate 16 , in order to ensure that the light areas of the longitudinal cathodes, which are shown by hatching 39, and the enlarged section 37 of the central anode 36 lie over their associated opening of the lower insulating plate 16.

A middle insulating plate 41 which is identical to the lower insulating plate 16 shown in FIG. is arranged on the upper surface of the lower metal plate 25, with its openings with the openings 17, 18 and 19 of the lower insulating plate 16 are aligned.

Then an upper metal plate 42, the plan view of which is shown in FIG. As shown, the upper metal plate 42 has four elongated cathode sections 43, 44, 45 and 46, which all lie parallel to one another and essentially transversely / u later removed frame sections 47 and 48. The transverse cathodes 43 to 46 each have three light areas, which are shown with hatching 50 and which are made to light up by the anodes 36 and 38 of the lower metal plate 25. Thus, it is essential that the thickness of the central insulating sheet 41 be chosen so as to keep the lower and upper metal plates 25 and 42 apart by a suitable distance. to let the cathodes 43 to 46 light up. Also, since the lower Ouerkaihode 46 is used to represent decimal points, it is important that the upper metal plate is placed on the middle insulating plate 41 so that the lower cathode electrode 46 is seen over the three small openings 20, 21 and 22 of the insulating plate 41 extends.

As in Fig. 1 is shown. is an upper insulating plate 52 which is identical to the lower and middle insulating plates 16 and 41 shown in FIG. 1 · 'i μ. 1 , placed on the upper surface of the upper metal plate with its three openings aligned with their respective openings 17, 18 and 19 of the insulating plates 16 and 41. The top insulating plate 52 acts as a spacer between the top metal

plate 42 and a mask tarpaulin 53 used on the insulating plate 52 is arranged, as best shown in FIG. 1 can be seen.

The in F i g. Mask plate 53 shown in Figure 5 is made of metallic material and has a number of elongated openings or gates in three groups A. B and C: the slots of each group are arranged in the shape of a figure eight. The mask plate 53 may be made of a metallic material made of opaque insulating maleria! exist. In group A , slots 55 and 66 are spaced but axially aligned and slots 57 and 58 are spaced but axially parallel to seat braids 55 and 56. Gates 59, 60 and 61 are all parallel to each other and substantially transverse to the other slots, with slots 59 and 61 being on the top and bottom of figure eight and slot 60 being in the center of figure eight. All seat seats are different and separate from one another. A small opening 62 in the shape of a circle is formed in the mask plate 53 on the lower right-hand side of its slits 55 to 61 for reproducing Dc / imalpunktcn.

As in Γ i g. b is shown. For example, the arrangement of the mask plates 53 is chosen such that the seven slits 55 to 61 and the one opening 62 lie over the corresponding l.lichtbereich of the cathode electrodes of the lower and upper metal plates 25 and 42. The shafts 55 to 61 have a slightly larger width than the luminous areas of the cathode electrodes. so that the Kaihodenleuchlen is visible through the slits of the working pipes.

After the electrode arrangement of the tube 10 in the manner described above on the Sehalt 11 according to Representation in FIG. 1, the frame sections 30 and 31 become the lower metal plate 25 and the frame sections 47 and 48 of the upper metal plate 42 removed so that the cathode and Anode elements are separated from each other. Then on the electrode assembly of the tube 10 a Front split 65 arranged and by means of any suitable sealing members or materials b6 on the Switching Il hermetically sealed. The face plate 65 is made of translucent material, so that in the interior seen from the outside, the light produced by the tube can graze.

When the tube is completed, a piston becomes the the shaft 11. the end plate 65 and the sealing member 66 includes, evacuated and over the Rohransat / 15 with gas. like neon oiler argon, filled. After that, will the Röhrenansat / 15 sealed in the usual way.

Electrical connections are provided on all cathode and anode elements so that they can be used in various combinations to produce the various desired representations of numbers. For example, use the cathodes and 33 or 34 and 35 to represent the number one !, the cathodes 43, 34, 44, 33 and 45 to represent the number two, the cathodes 43, 34.44. ii and 4t to represent the number three, etc. For this purpose, 111 of the illustrated Aus'uhningsforn ^{1 is} each corresponding cathode element 32 of the groups Λ. H and C mn are connected to a common connection wire 70, which is connected to a connection K <. leads, and each corresponding KathodeiK'lemcnt 54 is connected to a common connecting wire 71 which leads to a terminal K? leads, cleaner isi each corresponding cathode 3J connected to a common lead 72, the

leads to a terminal K), and each corresponding cathode 35 is connected to a common terminal terminal 73 which leads to a terminal K- \ Lühri. The Kathodcnclement 43 of the upper metal plate 42 is via a wire 74 with a terminal K; connected, the cathode terminal 44 is connected via a wire 75 to a terminal Kb , and the Kalhodenelemcnt 45 is connected via a wire 76 to a terminal Ki . The remaining cathode element 46 is connected to a connection K * via a wire 77. On the other hand, the central anode element 36 and the anode element 38 of group A are connected to a terminal Ai , as best shown in FIG. b can be seen. and the Anodcnelcmentc of each group B and C are also with connections A. 'or. Ai connected.

The light indicator tube of this type is usually operated by a known meter switching device. Kt is for example desirable that the tube 10 representing the number thirty, a negative potential to the terminals / C. 'Created Ka. K \ Kt and Ki and a positive potential to A3, whereby the Kaihodenclcmente 34, 35. 43rd 44 and 45 of group B are made to light up and thereby display the tens digit 3. Accordingly, a negative potential at Ai /. Ki Kj. Ka, Ks and Ki and a positive potential applied to Ai , so that the cathode elements 32, 34, 33, 35, 43 and 45 of group A are illuminated and thereby generate the units digit zero. To represent a decimal point, a negative potential is also applied to Ks and a positive potential to Ai . If the mask plate 53 consists of a metallic material, it is advantageous to connect it to a positive potential of less than 70% of the potential applied to the anode elements, since the mask plate 53 acts as a trap for cathode material which is sprayed off the cathode elements and otherwise gets on the frontal area 65 of the tube 10 is reflected. Another advantage of such a potential applied to the mask plate 53 is that a screen gap is created between the three digits of a number to be displayed.

F i g. 7 and 8 illustrate the manner in which the Tube is mounted on a base board 80. As best seen in Fig. 7 can be seen, has the baseboard 80 a zcmuil opening. into a cap 81 for Protection of the already sealed tube extension 15 is used. which extends downward, the

ίο flanges 82 of cap 81 the top surface of the base board 80 touch. The tube 10 is placed on the flanges 82 of the cap 81, and then a lid 83 is made with a window 84 - best shown in FIG. 8 - placed on the tube 10 so that the number accepting section of tube 10 is visible through window 84. The cover 83 can be attached to the base 80 by inserting pins 85 formed on it into their associated openings 86 and then bending them the peg can be fastened inwards or outwards on the bottom surface of the base board 80.

In this embodiment of the tube, the cathode and anode elements, which are in the form of narrow strips extending from the walls of the tube 10, are bent downwardly to extend to the top surface of the base board 80 upon which their electrical connections are made the terminals Ki to Ks and Ai to Ai are formed by using layers 90 of metallic material on the surface. The conductive layers 90 may be painted, sprayed, or otherwise applied to the top and bottom surfaces of the baseboard 80.

Since the Grundbrctl 80th on which the described Tube 10 is attached, has preformed and programmed conductive layers 90, are circumferential · before external wiring processes for operating dci No tube required. Furthermore, the basic area 80 is used to increase the mechanical strength de entire device and acts as a connection board.

For this purpose 4 sheets of drawings

Claims (5)

Patent claims: 1. Light indicator tube with gas-filled bulb and layers of strip-shaped electrodes which are insulated by insulating plates which frame the display surfaces, characterized in that two electrode layers (25, 42) are provided and in the first electrode layer (25) anodes (36 to 38) and Cathodes (32 to 35) run parallel to each other and form a corresponding number of groups (A to C) in the case of a multi-digit display of the number of digits, while in the second electrode layer (42) cathodes (4? To 46) parallel to each other and across all groups of the first Electrode layer run. 2. LED indicator tube according to claim 1, characterized in that each electrode group (A to C) of the first electrode layer (25) has two pairs of opposing cathodes (32, 34; 33, 35) for the upright segments of a 7-segment display and one has anode (36, 37) located between the cathodes, which at the same time interacts with the cathodes (43 to 45) of the second electrode layer (42) for the horizontal segments of the display. 3. light indicator tube according to claim 1 or 2, characterized in that a De / imalpunki through a short anode (38) of the first electrode layer (25) and a cathode (4b) of the second electrode layer (42) can be represented. 4. Illuminated display tube according to one of the preceding claims, characterized in that between the foremost insulating plate (52) and the front plate (65) of the tube piston one with the Mask plate (53) provided with recesses (55 to 62) corresponding to display segments is. 5. light indicator tube according to claim 4, characterized in that the mask plate (53) made of conductive Material exists and is connected to a potential.