DE4142860A1 - Vacuum fluorescent display tube - has spacer between facing substrates and fixed by glass mass also serving to fix lower part between spacer and substrate - Google Patents

Abstract

The lower substrate (20) has leads (22) and anodes (24) for displacing certain numbers, letters and signs, fluorescent material being deposited on the anodes. Grids (20) are regularly distributed over the anodes. Grid holders (28) are arranged next to the edge of the lower substrate so that their feet (30) or base elements extend to a sealing line (34) along which a glass mass is applied. A spacer is placed upon the latter. The spacer is united with an upper glass plate (44). The end of each foot or tongue of the grid holder grips the lower substrate and the spacer (42). Similarly, the tongue end (40) of an incandescent filament holder (38) is gripped between the lower substrate and the spacer. ADVANTAGE - A glass mass and a burning-in process can be dispensed with since the spacer is used to fix the grid and incandescent filament holder.

Description

The invention relates to a vacuum fluorescent display tube, where the grid and filament holders are accurate and without Difficulties can be placed on a substrate.

In a conventional vacuum fluorescent display tube, as shown in Fig. 3 of the accompanying drawing, anodes 6 , on which fluorescent materials or phosphors 4 are deposited, which can represent letters, numbers and characters, forms out on a lower substrate 2 . Grid 8 and filaments 10 are arranged in sequence at regular intervals above the anodes 6 . Using a spacer 14 and an upper cover slip 12 , the vacuum fluorescent display tube is sealed.

The operation of the conventional vacuum fluorescent display tube will now be described. Thermal electrons are emitted to the grids 8 , on which there is a positive voltage. The thermal electrons passing through selectively hit only the anodes 6 , to which a positive voltage is applied. As a result, the fluorescent materials emit light and thus show a desired pattern.

The distance between the anodes 6 and the grids 8 above the lower substrate 2 is held by a grid holder 8 a, which is firmly attached via a glass mass 16 . The Glühfä the 10 are taut attached to filament holder, not shown, which are firmly attached to both sides of the lower sub strates 2 over a glass mass. The upper deck glass 12 and the spacer 14 are also attached to each other via a glass mass 18 .

However, the glass mass 16 should have a higher melting point than the glass mass 18 , since the grating 8 and the holding elements te are first firmly attached and then the upper glass plate 12 and the spacer 14 are firmly connected to one another by firing, so that the first fired glass mass 16 does not melt again during the subsequent firing process of the glass mass 18 .

With a conventional vacuum fluorescent display tube two types of glass mass must therefore be formed. The like tubes still have the disadvantage of a low Productivity in their manufacture, since two firing processes must be provided.

The invention therefore aims at the manufacturing process a vacuum fluorescent display tube can be simplified that a glass mass and a burning process are unnecessary by  the spacer is used for the lattice and glow to fasten the thread holder.

The invention aims to increase the productivity of the manufacturer be improved by a vacuum fluorescence display tube is designed so that it is easy to assemble zen is.

To achieve this, the approaches are according to the invention or extensions of the lattice holder and the filament holder so far extended to a certain point between the Glass substrate and the spacer of the display tube housing can be detected and arranged firmly.

The following is based on the associated drawing particularly preferred embodiment of the invention closer described. Show it

Display tube Fig. 1 is an exploded perspective view of the embodiment of the vacuum fluorescence according to the invention, wherein the spacer and the glass plate from the lower substrate dissolved are shown,

Fig. 2 is a sectional view taken along the line II-II in Fig. 1 and

Fig. 3 in a Fig. 2 similar sectional view of a conventional vacuum fluorescent tube.

As shown in FIG. 1, lines 22 are arranged on one side of a lower substrate 20 and anodes 24 , which can represent specific numbers, letters and characters, are formed above them. Fluorescent materials or phosphors are deposited on the anodes 24 , as is the case with a conventional vacuum fluorescent display tube. Grids 26 are arranged at regular intervals above the anodes 24 . Grid holders 28 , which are connected to the grids 26 or are formed in one piece, are arranged next to the edge of the lower substrate 20 , with their feet 30 or their basic elements extending up to a sealing line 34 , along which a conventional glass mass is applied which is placed on a spacer. The spacer 42 is combined with an upper glass plate 44 , as shown in FIG. 1, but the spacer and the glass plate can also be formed separately from one another. The lower and upper plates or the lower and upper substrates and the spacer 42 form the housing of the display tube.

As shown in FIG. 2, the end of each foot or tongue 30 of the grid holder 28 is gripped between the lower substrate 20 and the spacer 42 . In the same way, the tongue end 40 of a filament holder 38 is gripped between the lower substrate 20 and the spacer 42 . The vacuum fluorescent display tube is manufactured by grasping or gripping the grating holders 28 and the filament holders 38 between the lower substrate 20 and the spacer 42 and baked therebetween to thereby be connected to each other.

Preferably, both the grid holder and the Filament holder bases or feet between the spacing holder and the lower substrate run, although that with only at least one of the holders must be the case.

As described above, the lattice holder 28 and the filament holder 38 are gripped or gripped between the lower substrate 20 and the spacer 42 and burned, so that the vacuum fluorescent display tube according to the present invention can be manufactured by firing in contrast to the conventional tube, which at the same time is costly reduced and increased productivity, since a glass mass must be used only one type.

Claims (9)

1. A vacuum fluorescent display tube having a housing comprising a first substrate and a second substrate opposed to each other and a spacer disposed between the opposite sides of the first and second substrates, with anodes, grids and filaments, a first device for holding the grid and a second device for holding the filaments, the first and the second device being arranged on that side of the first substrate which is opposite the second substrate, and with devices for fastening the spacer to the first and second substrate, characterized in that the first device ( 28 ) and / or the second device ( 38 ) have a part which extends between the spacer ( 42 ) and the first substrate ( 20 ) and with the first substrate ( 20 ) in Contact is made, the fastening device fastening this part to the first substrate ( 20 ). 2. Display tube according to claim 1, characterized in that the first and the second device ( 28 , 38 ) have parts which extend between the spacer ( 42 ) and the first substrate ( 20 ) and with the first substrate ( 20 ) are in contact so that the fastening device fastens all these parts to the first substrate ( 20 ). 3. Display tube according to claim 1, characterized in that the fastening device comprises a glass mass ( 34 ). 4. Vacuum fluorescent display tube with a housing comprising a first and a second plate and a spacer, anodes, grids and filaments arranged therebetween, a first device for holding the grids on one side of the first plate and a second device for holding the filaments on the one side the first plate, characterized in that the first and the second device ( 28 , 38 ) comprise basic elements which are in contact with the first plate ( 20 ), the first plate ( 20 ) on one side has an edge for sealing Connection to the spacer ( 42 ) has, the base elements extend to the edge and means are provided, the spacer ( 42 ) on the edge of the first plate ( 20 ) and on the base elements and the second plate ( 44 ) on the spacer ( 42 ). 5. display tube according to claim 4, characterized in that the fastening devices comprise a glass mass. 6. display tube according to claim 3, characterized in that the glass mass has a melting point. 7. display tube according to claim 5, characterized in that that the glass mass has a melting point. 8. Method of making a vacuum fluorescent display tube with a housing of a first and a second Plate and a spacer arranged in between, with Anodes, grids and filaments as well as a first and a  second device for holding the grids and filaments each on one side of the first plate, characterized net that at least part of the first and the second one direction between the first plate and the spacer is arranged and the first and the second device on the first plate are attached while the first Plate is attached to the spacer. 9. The method according to claim 8, characterized in that the fixing is done by firing a glass mass.