JPH01122553A - Flat display - Google Patents

Abstract

PURPOSE: To simplify the assembling of a display device, and facilitate replacing of a structural unit by providing a vacuum-tight multiple terminal through bushing in the rear portion envelope of a flat-panel display device, and electrically connecting the same to the respective electrodes of the single structure structural unit. CONSTITUTION: The vacuum vessel of a flat-panel display device is composed of a glass face plate 1 and a rear portion envelope 2, and a phosphor dot array 3 is provided inside the face plate 1. In order to operate the display device, a cyclic arrangement filament 4, pair electrodes 5 divided on a base plate 10, a hole-opened extraction anode 6, a control structure 7, and the like are provided. These are combined into one structural unit, the structural unit is fitted into the rear portion envelope 2 by a hold element 13, and the respective electrode terminals are led out outside by a vacuum-tight multiple terminal feed through bushing 8 fitted to the side portion wall of the rear portion envelope 2.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a flat display device whose interior space is a vacuum and includes a phosphor dot glass faceplate and a rear metal envelope.

[Prior art] This kind of bias (my brother) vacuum-sealed display device is patented in German patent P.
36 22 259.3. This structure was chosen because a planar cathode formed by a periodic array of filaments requires little power for uniform, high brightness phosphor dot coverage. No information is given regarding the assembly and attachment of the components included in the rear envelope.

OBJECTS OF THE INVENTION It is an object of the invention to provide a component contained within the rear envelope of such a flat display device which is simple to manufacture and of robust construction.

[Means and Actions for Solving the Problem] This 1'' target is mounted on a base plate connected to a segmented counter electrode or rear envelope, and a frame supporting the extraction anode and control structure is mounted at a short distance from the base plate. , achieved by a flat display device in which retaining bars are attached to two opposite sides of the frame, the filament is stretched between the retaining bars, and the rear envelope is provided with at least one vacuum-tight multi-terminal feed-through bushing. be done. Further advantageous features of the invention are set out in claims 2 to 8.

When the components located within the rear envelope are combined into a single structural unit, they can be easily assembled outside the rear envelope. This simplifies assembly of the flat display device.

In addition, this structural unit can be easily replaced in case of failure.

[Example] The present invention will be explained in further detail by means of an example shown in the accompanying drawings below.

FIG. 1 shows a longitudinal section of a flat display device. The glass face plate 1 and the rear envelope 2 form a vacuum vessel. A phosphor dot array 3 is provided inside the faceplate 1, but the individual phosphor dots are not shown. The phosphor dots are preferably surrounded by a black matrix. The rear envelope 2 is preferably made of pure iron and is entirely covered with a protective nickel film.

The electrodes required for operating the flat display device, namely the periodically arrayed filament 4, the segmented counter electrode 5 of the base plate 107, the perforated extraction anode 6 and the control structure 7 are in one structural unit. is combined with This structural unit is mounted in the rear envelope 2 by means of retaining elements 13 (FIG. 3). Vacuum-tight multi-terminal feed-through bushings 8 (two shown in detail) for leading out the terminals of the individual electrodes are attached to the side walls of the rear envelope 2. This has the advantage that the face plate 1 can be soldered directly to the peripheral flange 9 of the rear envelope 2.

During this soldering of the face plate 1 to the rear envelope 2, the flat display device is simultaneously evacuated. Since no heat treatment is performed thereafter, a solder glass that softens again can be used. A suitable solder glass is, for example, Schott type 4210. This means that in case of a failure, the glass face plate 2 can be replaced with its phosphor coating 3.
It has the advantage that it can be easily repaired.

The rear envelope 2 contains four getter wires 22 under the counter electrode 5, preferably of the Italian 5AES product, which are energized by passing an electric current and evaporate without leaving any residue. Several getter wire pairs have their first terminals passed through vacuum-tight foot-through bushings 23 or connected to pins 21. The second terminal of the getter wire is fixed to the bottom of the rear envelope 2, so that this getter wire connects the power source to the feedthrough pin 2.
1 and rear envelope 2. The getter wires are fixed in such a way that the evaporated getter feed occupies as large a spatial area as possible surrounded by the base plate 10 and the bottom of the rear envelope. It is also possible to use a non-vaporizing getter strip, such as the product St 101 from 5AES, which is energized by passing an electric current through it.

A structural unit (second
Figure 1) includes a base plate 10 and a frame 11, to which an insulating holding bar 12 is attached.

The base plate 10 supports a retaining element 13 and is thereby fixed to the rear envelope 2 (FIG. 3). Frame 1
1 is supported on the base plate 10 by insulating spacers 14. This frame is permanently connected to the base plate by a screw or rivet joint 15 surrounded by a ceramic bushing 16 in the area of the base plate 1o. These joint portions are preferably located near the corners of the base plate. A retaining bar 12 made of an insulating material such as glass is removed via a connecting member 19 to two opposite sides of the frame 11 τj.

The divided counter electrode 5 is placed on the side of the base plate IO facing the phosphor coating 3 (one segment of the counter electrode).
- is connected to the base plate 10 via an insulator or an insulator strip. In front of it are periodically arrayed filaments 4, which form a surface cathode. One end of each filament 4 is rigidly attached to a contact member 17 fixed to the retaining bar 12. Each filament! - The other end of 4 is connected to the holding bar via the spring 20. Spacing is saved if the contact elements I7 and the springs 2o are staggered on the retaining bar. Contact member 17 and spring 20 extend through retaining bar 12 and are provided with wire 18 and feedthrough bushing 8
Connected to the pin inside.

A perforated extraction anode 6 is attached to the side of the frame 11 over the periodic array filament 4. It is, for example, a perforated metal disc joined to the frame 11 by soldering glass. The extraction anode measures 400 micrometers x 100 micrometers with a diameter of 1.14 mm in the horizontal direction (line direction) and 0.611 mm in the vertical direction.
It has a pattern of rectangular holes with a pitch of 1 m. The extraction anode 6 is adjusted so that the center of the hole is horizontally aligned with the center of the segment strip. There are therefore as many holes in the extraction anode line as there are segment strips.

The extraction anode 6 is mounted in the frame 11 so that it is under slight mechanical tension at operating temperature, so that sagging is avoided. This frame is therefore made of a feed having a fat swelling coefficient such that the extracted anode is stretched as a result of the fat swelling difference after the soldering process. In this way, displacement of the hole pattern during operation is completely avoided. Soldering is done using, for example, Corning's 7598 crystal solder glass.
'C temperature.

The control structure 7 is bonded to the extraction anode 6 by insulating adhesive or crystal solder glass.

It includes two layers of intersecting metal conductors that are insulated from each other. The resulting aperture is adjusted to align with the hole in the extraction anode 6. In the layer of metal conductor closer to the extraction anode, the metal conductor is provided with holes.

The number and location of these holes is equal to the number and location of holes in the extraction anode. This conductor is connected to a pin in the feedthrough bushing 8 by a wire 18.

FIG. 3 shows a cross section of the flat display device with the retaining bar 12 removed. The structural units fixed in the rear envelope 2 are mounted, for example, by L-shaped retaining elements 13 attached to the sides of the rear envelope and each supporting one Z-shaped retaining element 24 fixed to the base plate 10. Such retaining devices are provided near each of the four corners of the base plate 10. Holding department month 24
The joint between the holding part lug 13 can be joined by welding or soldering, but it is also possible, for example, by a non-permanent joint, preferably an internal locking joint. The latter type of connection has the advantage that structural units fixed in the rear envelope 2 can be easily removed from the rear envelope if a fault is detected during testing. However, the base plate 10 may also be directly connected to the holding member 13.

In FIG. 3, the segments of the counter electrode 5 which lie one behind the other in the plane of the paper extend to the edge of the frame 11;
It is connected by wire 18 to a pin in foot-through bushing 8 .

FIG. 4 shows an enlarged view of the contact portion of the segments of the counter electrode 5. FIG. Contact may be made by wire as shown in FIG. 3, but the segments may also be joined to project beyond the base plate 10 as shown.

The pins in the feet-through bushings 8 are bent so that their ends lie in the plane of the segment, so that they are connected directly to the segment.

The metal parts of the counter electrode 5, the extraction anode 6 and the control structure 7 are made of pure iron and are coated entirely with a nickel film if necessary.

This flat display device is constructed as follows (+14).

The faceplate 1 comprises a phosphor array 3, the phosphor dots being surrounded by a black matrix. Bushings 8 and 23, getter wire 22 and retainer shrine 13 are fixed into rear envelope 2. The electrodes fixed to the rear envelope 2 are assembled as a structural unit. These three parts are then put together 1γ
Can be used.

After the structural unit incorporated into the rear envelope has been fitted and fixed in the rear envelope 2, electrical connections are made between the pins of the vacuum-tight foot-through bushing 8 and the individual electrodes, as indicated by wires 18. The phosphor dot facepray 1.1 is then placed on the rear envelope 2'', aligned and vacuum sealed to the rear envelope 2. At the same time, the bias display device is evacuated.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional view of the flat display device. FIG. 2 shows a detailed depiction of the X section in FIG. 1. FIG. 3 is a cross-sectional view of the flat display device. 3 shows a detailed depiction of FIG. 3. 1... Glass face plate, 2... Rear envelope, 3... Phosphor dot array, 4... Periodically arranged filament, 5... Counter electrode. 6... Extraction anode, 7... Control structure, 8... Feet through bushing', 9... Peripheral flange, 10... Base plate, II... Frame, 12... Insulation holding bar, 13
...L-shaped holding member, 14...Insulating spacer, 15.
・Rehet joint part, 16...Ceramic bushing, 17...Contact part, 18...Wire, 19
...Connection part, 20...Spring, 21...Feet through pin, 22...Getter wire, 23...
Bushing, 24...Z-shaped retaining part. Applicant's agent Patent attorney Takehiko Suzue

Claims (8)

[Claims] (1) The internal space is vacuum, the phosphor dot glass face plate and the periodic array filament in front of the divided counter electrode, the extraction anode with a hole drilled in front of the periodic array filament, and the extraction A flat display device comprising an anode and a rear metal envelope having a control structure between the anode and the faceplate, wherein a segmented counter electrode is mounted on the base plate connected to the rear envelope, and a frame supporting the extraction anode and the control structure. are mounted at a short distance from the base plate, retaining bars are mounted on two opposite sides of the frame, the filament is stretched between the retaining bars, and the rear envelope is provided with at least one vacuum-tight multi-terminal feedthrough bushing. A flat display device characterized by: 2. Flat display device according to claim 1, characterized in that the frame is made of a metal having an expansion coefficient such that the extraction anode soldered therein is stretched in the operating state. 3. A flat display device according to claim 2, characterized in that the control structure is bonded to the extraction anode by an insulating adhesive or crystal soldering glass. (4) Each of the filaments has one end connected to the retaining bar by a spring.
The flat display device described above. 5. A flat display device according to claim 1, wherein the base plate has retaining members fixed to the rear envelope at its corners. (6) The rear envelope includes at least one getter wire below the base plate, the getter wire being energized by the passage of an electric current and having its first terminal connected to the bottom of the rear envelope, while its second
A flat display device according to claim 1, characterized in that the terminals of are connected to one of the pins of a vacuum-tight feedthrough bushing mounted on the rear envelope. 7. The flat display device of claim 1, wherein each of the metal parts of the rear envelope, the counter electrode, the extraction anode, and the control structure are made of pure iron. (8) The flat display device according to claim 7, wherein the pure iron portion is coated with a thin nickel coating.