WO1983002683A1

WO1983002683A1 - Matrix type fluorescent display tube

Info

Publication number: WO1983002683A1
Application number: PCT/JP1979/000104
Authority: WO
Inventors: Ikuo Daisyaku
Original assignee: Ikuo Daisyaku
Priority date: 1978-04-25
Filing date: 1979-04-23
Publication date: 1983-08-04
Also published as: JPS54151372A; JPS583584B2

Abstract

A matrix type fluorescent display tube for displaying characters or figures in a dot pattern. This display tube comprises a hermetically-sealed tube composed of a glass cover (6) and an insulating substrate (8), a number of grid filament wires (13) arranged in parallel with each other within the tube, and a number of anode filament wires (11) arranged in parallel with each other and in perpendicular to the grid filament wires to thus form a matrix therewith, whereby fluorescent material adhered onto the wires (11) luminesces in dots at the intersections of the matrix. The filament wires (11) are so arranged in parallel as not to make contact with the surface of the substrate (8) within the display tube to thereby reduce the parallel array pitch so as to raise the distribution density of luminous points.

Description

SPECIFICATIONS Matrix matrix type

The present invention relates to a multiplicity of anode strips stretched in a parallel arrangement between mutually separated wire supports in a discharge cell space and a parallel connection between similarly spaced support members. A matrix is formed with a large number of grid strips stretched in an S-row shape, and a shadow filament is formed at the intersection of the matrix. The thermoelectrons emitted from the light are received by the luminous substance attached to the echelon, which emits light, and the letters and symbols are generated by the dot pattern of such emission. or during theft of time that the Ru can be selectively displayed the figure 9 Tsu _β related to click the scan-type fluorescent display tube

Background technology

From time to time, fluorescent display tubes that display characters and symbols using a fluorescent substance that emits light due to an excitation phenomenon when electrons collide are already known. Is also known to be used to display data to be displayed in characters and symbols:

One type of conventional fluorescent display tubes is disclosed in Japanese Patent Application Publication No. 45-202225, for example. It is necessary to display the characters (0) to (?) By the pattern. The elements of the number of the excretion are drawn on the insulating substrate by the fluorescent material. One of the image elements or the extrinsic number of the fluorescent substance is selected, and a positive character is applied to the selected element, thereby causing a desired character to be highlighted. Displaying characters by the 籙 pattern has the disadvantage that the number of characters that can be selectively displayed is small.

Another type of conventional fluorescent display tube is a matrix, i.e., which is made up of light-emitting points made of fluorescent substances scattered along the Suisu side. Therefore, the desired characters and symbols are displayed by a light emitting point, and are displayed by a so-called dot pattern. _Β This type of dot pattern display type is used. Has the advantage that characters and symbols can be selectively displayed in various types. However, the dot pattern display ^ is _Λ emission ^ _points : ^ Because of the low density, the very small shape represented by the dot pattern, which is a collection of the emission points The characters and symbols of the characters are not clearly displayed on complex figures. This means that the resolution is low or 'low'. Naturally, it is not suitable for expressing figures such as graphs, and it is necessary to replace expensive characters with 0 characters and symbols. The structure of the matrix-type fluorescent display tube described above, which is displayed by a doctor pattern, is composed of multiple dies that are arranged in parallel in the emission space of the display tube. Thin A large number of brass rods are arranged in parallel on the upper surface of the print base by a print marking means so as to form a matrix substantially perpendicular to the plane. After that, the upper surface of the print base was covered with an exquisite layer to envelop the solar cell, and a small through-hole was formed in the extremity layer at the intersection of matrices. In this through hole, a fluorescent material for providing a light emitting point is provided in a state of being electrically connected to the bubo cell. According to this structure, if the spacing between the two lines is reduced in order to increase the density of the light-emitting points, the creepage of each of the light-emitting lines will be reduced. Exquisite

¾ 齄 is short! ), An electrical leak phenomenon may occur between them.

The object of the present invention is that the distribution density of the light-emitting points is high, so that not only large-sized characters and symbols, but also small-sized characters and symbols can be clearly displayed, as well as graphs and complicated graphics. To provide a matrix-type fluorescent display tube that is also suitable for displaying images, and that makes it easy to combine and display the display colors on two colors or to select and display each. It is a thing.

Disclosure of presentation

The SJ or the present invention is such that a wall through which display light passes on at least one surface and an insulating substrate are opposed to each other to form an inner discharge space as a sealed discharge space. In order to create a matrix with a number of parallel lines for good gut, a large number of lines for parallel use are cut off. It is characterized by the fact that it separates from the upper surface of the base, and is characterized by the fact that crabs are separated from each other. : It is possible to prevent an electric leak phenomenon when the size is set to be sufficiently small. _{0 In} addition, the present invention places a minute distance from each other as described above. A large number of light-emitting points for display can be formed by providing each pixel that can be arranged in parallel with light to provide light at the intersection of the matrix. So! ? In this case, the distribution density of the light emitting points can be increased easily and simply by reducing the distance between the Yanging utilities.

According to the present invention, as described above, the distribution density of the light points forming the dot pattern can be obtained, so that the characters, symbols, etc. displayed by the dot pattern can be obtained. Since the resolution of the display is large if it can be displayed clearly even if it is a small one, as well as a large one, it is more preferable to display it in succession. It is suitable for displaying a graph graphic. However, according to the present invention, a plurality of pixels are formed in one light-emitting point by at least two solar cells and a grid for a grid which are sufficiently close to each other. By attaching a fluorescent material, such as a different luminescent color, to each pixel forming each pixel, it is easy to select two or more display colors or to select and display each color. Go to ^ get c Brief explanation of drawings

The drawings show the preferred form of the matrix type fluorescent display tube according to the present invention, however, the dimensional ratios between the parts of the display tube shown in the drawings are easily understood. It should be understood that it is shown exaggerated to

FIG. 1 is a vertical cross-sectional view of a matrix type fluorescent display tube according to one embodiment of the present invention.

Fig. 2 is a new section taken along the line I-i in Fig. 1.

FIG. 3 is a perspective view of the insulating substrate in a state where the anode fine wire constituting the display tube is supported.

Fig. 4 is a perspective view of the grate wrap for this display tube.

Fig. 5 is a perspective view of the diffusion grid in this display tube.

The Figure is a partial ¾ large plan view of one of the grayed Li Tsu preparative thin lines in the display tube ₀

FIG. 7 is an enlarged view showing a display form of a matrix in the display tube.

FIG. 8 is an enlarged view of a matrix according to another embodiment of the present invention o

Fig. 9 shows the placement of the diffusion grid in a further embodiment of the invention. FIG. 4 is a plan view of a diffusion grid One hundred one

Best Practices for Practicing the Invention

In order to Surudojutsu this invention by the鋅觑, reference to the accompanying drawings in钹connexion be described ₀ FIG. 1 ¾ in your in FIG. 7, Conclusions 9-click the scan type螯光display tube 1 according to the present invention The solar light unit 2, the grid cut, the diffused grid 4, the shade S filament 5, and the display light are suitable ₆ positive contact for Hoso籙Yu is composed of a glass la scan cover ό forming a as a wall section - Tsu DOO 2 the gas la scan cover 6 and the discharge甩空閬7 © to form ^ a Fortunately, the flat-bottomed masterpiece 8 is located on the upper surface, located at the right and left nodes in the drawing: 1: Parallel

9 r 10 is fixed by means of application by application of a low-point glass space, and a large number of solar brilliants 11 are supported in a parallel array by these wire supports 10. Please! ? This support is achieved by bonding each of the bridles 11 and each of the ear supports 9 and 10 by means of firing the low point glass space! ? Performed β Each anode 甩瓤鎳 1 1 at this supported 钦篛 is separated from the surface of insulation substrate 8 by wire supports 9, 1 and held taut ο This yang spasm strip 11 is made of an alloy of i (42 ^) and Cr (ά ^) mainly composed of Fe. Moreover, positive飆籙1 1 absolute籙基钗8 parallel to the plane © width dimension Ru been Takeshisa倒E if (2 2 0 X 1 0 " 8) becomes m long strip-shaped. Each positive铤埒Hoso鎳1 The parallel array bit of 1 is For example, it is specified as 0 · 3 «. Special wire support for each solar cell 1 1? , 10 are labeled with a fluorescent substance continuously by, for example, an electrical method. The fluorescent substance has a blue emission color when it is a compound of ZnS and As, a green emission color when it is a compound of Zn and ZnO, and ns (P0 *). _It emits red light when it is a compound of ₈ and Mn. The attachment of the fluorescent substance to the anode electrode 11 is not performed in a continuous manner as described above, but in such a manner that only the portion serving as a light emitting point described later is attached in a dot-like manner. Good. The above-mentioned grille unit 5 has a rectangular gap 12 as shown in FIG. 1 and FIG. 2. A large number of grids 颍鎳 13 are arranged in parallel in a bean-stretched pattern so that the side of the support extends between the sides 1 2 &, 12¾ of the brim. Then, each of the bridles 15 is fixed to the surface of the sides 12a and 12 by a firing means using a low melting point glass paste. In the case of this grid, the parallel arrangement pitch is determined as in the case of ^ 腸 1. As shown in FIG. 6, the slit porcelain 13 has a long strip shape in which a number of slits i Sa are formed in the longitudinal direction, and the slits 13 are formed. The width L of the segment 13 located on both outer sides of a is set to, for example, 0 · 05 ». The above-mentioned slit 13a was used to facilitate the passage of thermoelectrons O. _,--.—:- The diffusion grid 4 is provided with a rectangular eclipse 14 as shown in the s gr, and the diffusion grid 15 is fixed on one plane side of the square. This is a net-like object with a side of 0, 5 «or a grid or hexagon with 0. OS» ^ bottom material. In the diffusion grid 15, the electron 16 is extended, and the electric conductor 15 & is combined together. The electric conductor 15 & is located on the west side of Azusa Azusa 14. Fixed on top. As shown in FIGS. 1 and 2, conductive projections 17 and 18 made of conductive material are located near the left and right sides of the upper surface of the insulator 14 as shown in FIGS. It is fixed by firing means using an insulated low-temperature glass. A plurality of the shading filaments 5 are arranged in parallel between the rainy people while being supported by the rain support projections 17 and 18. The size of this impregnated filament is about 0.011 ^ 0.05 in diameter and its outer surface is coated with a mixture of B & 0, Ca0, SrO. is ₀ Ru in the Gala Sukaba at hotel Shimete not Tsuke嫠a transparent conductive film on the inner surface of the portion where the light is suitable passage, the full run-di part <[delta] & © underside low melting point glass is deposited by calcining one, At the same time, an exhaust pipe 19 with an inset diameter of about 5.0 was installed.

Assemble the display tube 1 on the green board 8 of the solar module 2! ? y 鉞 S S S S S © © © © © © © © © © © © © © © © © © © © © © © © © © D D Eleven

Therefore, the integration is achieved by firing the contact surface の of each part in the N n atmosphere with the glass space by stacking as described above! ), And then heat the integrated material as in 2: to about 400 ° C and exhaust through the exhaust pipe '19 to make the discharge space 7 empty. During the evacuation, the exhaust pipe 1 is cut off with a gas parner and sealed after the exhaust is completed. The storage relationship between the grid box 3 and the sun box 2 is such that the grid box 13 is connected to the grid box 11 via the space. since also defined in Let 's you orthogonal, in FIG. 2 by the hand, Remind as part 2 0 ¾ Conclusions click scan is both Hoso鎳1 1 1 5 and by configured _beta 2 1 is a well-known getter

(g e t t a). Also, in the drawing, 1 1 1 1 1 1 1 1 1 n 1 1 1 1 1 n are the coagulated particles formed by guiding each solar cell 11 out of the tube, 1 3 1 1 — N is an element formed by guiding each grid strip 15 out of the pipe, 17 & and 18 & are pipes that support a part of the support projections 17 and 18. It is a child formed by guiding it outside.

In the use state of the display tube 1, the shadow lever 5 is always heated to dark red by applying 4.5 V (AC), and the diffusion grid 1.5 has SOV (DC). The positive lever voltage is constantly applied, which is why! ? Thermoelectrons emitted from the negative filament 5 diffuse the grid 15 By the action, it is distributed throughout the matrix 20. In matrix 2 I, each solar cell 1

Each intersection point between 1 and each grid line 15 is a light emitting point, and this light emitting point is either one of the sunken thin line 11 and the grid thin line 13. Does not emit light when, for example, 110 V is applied.

Emit when 6 5 V is applied. For example, the voltage to be applied to each of the sunshade 1 1 and the channel 1 S — n, which is connected to the sun 1 1 At the same time, when the angle is changed from 110 ° to +, the light emitting point, which is the intersection of each of the curves 11 1 and 13, is applied from the shadow S filament 5 to the light emitting point. is release ffi ^! electrons are concentrated, the髡光Hotarusaki material attached to positive铤用Hoso籙1 1 positioned voice down bets is being luminescent spot-by collisions with ripe electronic ₀ tablets of By applying a positive g voltage to select the characters, symbols, and Si shapes that are to be displayed as 石石 1 and 甩甩 S 1 S, the dot pattern is obtained. Can be displayed. The letter ( _E) is displayed with a dot pattern according to matrix 20 and 钶 is shown in FIG. In FIG. 7, black circles 22 indicate light emitting points in a light emitting state. The noise principle of the matrix for displaying characters and the like using the matrix 20 is different from that of the conventional matrix-type fluorescent display tube. omitted the description of the drive West road ₀ A notable configuration of the present invention is a state in which a large number of fine wires 11 1 are supported in a parallel array on the recording base 8, and those fine rain wires 11 are made of a green substrate S ©. The contact surface is floated in the discharge space 7 without contact, and the fluorescent substance is directly attached to such a fine cathode wire 11 1. Since the mutual interaction of the 籙 1 is insulated by the 赂空 in the sky, the electrical writer phenomenon occurs between them!く結果このこのこのこのこの結果この結果このこの結果結果搔結果結果緦籙緦籙緦籙搔搔緦籙緦籙緦籙 1 1 1 緦籙 1 1 1 1 1 1 1. High density dot pattern can be obtained. Characters and symbols displayed in a high-density dot pattern are clearly displayed even if they are small, but are displayed in high-resolution colors such as complex figures and graphs. ₀ it becomes also arbitrary even €) good suitable 7 favored for is that

In the actual IS example described above, each solar cell 11 is provided on the green substrate 8 and is completely fixed in the green material at the nodes fixed to the upper surfaces of the wire supports 9 and 10. Since it is embedded and it is easy to lengthen the creepage lands of each of the fine details 11, it is possible to reliably prevent electrical creepage leaks at these support portions.

FIG. 8 shows a matrix 23 according to the present invention <D Another embodiment ₀ This matrix 2S is a single (or double-bubble) grid. A configuration in which one light emitting point 2 is formed by the thin wires 15 and the unit number of positive S wires 11 In this case, one unit of the positive S wire 11 is composed of three wires 11a, 11a and 11o that are sufficiently close to each other, and these two wires are used. 11a, 11¾, and 110 are fluorescent substances of different emission colors, for example, fluorescent substances that emit green, green, and red light. According to this composition, there are three light emitting points with a distinct color of light emitted by 24 jC light sources. Butterfly can be displayed with one emission color ₀

As shown in FIG. 7, even in a configuration in which each of the cells 11 and 13 forms one destination point with one element, the light emitting point Since the distribution density is high, the luminous intensity for the tangent is 1 1 A pattern can be displayed using a combination of tip colors.

No. The figure shows a diffusion good unit 25 according to a further implementation of the invention. This diffusion grid 25 has a matrix 2 £ 5 present in one remarkable frame 14 and displays an S-digit number, for example. The above-mentioned display digit areas &, 2, and 260 are respectively divided into three so as to correspond to the diffusion guts 27 &, 27 ¾, and 27 ο, respectively. Add to each diffusion gut 27 a, 27 ¾, 27 ο 霉 The configuration is such that the polarity of the pressure can be independently selected. According to the configuration shown in FIG. 9, if negative diffusion is applied to the diffusion grid corresponding to the display digit area in which the number display is prohibited, the fine grid 11 and the grid grid are applied. The number display of that digit can be prohibited without giving a display prohibition signal to the detail 13. Therefore, it is easy to form an electric circuit for providing a display signal to the positive S fine unit 2 and the good thin wire cutout.

Industrial availability

As described above, the matrix-type fluorescent display tube according to the present invention can be used in a type A control device or information processing device to display characters, symbols, figures, and graphics in a data dot pattern to be displayed. Useful for displaying a luff! ? It is particularly suitable for dot pattern display with high resolution.

Claims

The scope of the claims

1 * At least one side of the display tube is formed with a wall through which the display light passes, facing the insulating substrate, and a gap between them is provided in a sealed discharge space. An ear support, which is located on both sides of the discharge space and is present on the insulating substrate, and a portion between the rain support with the rain return supported between the two wire supports. A guide in which a fluorescent substance which emits light by the collision of thermoelectrons is attached to each of the surfaces of the green substrate so as to be in contact with the surface of the green substrate so as to be in contact with each other and to be arranged in a parallel array with a small interval therebetween. A large number of solar cells for raising the heat, a negative filament for thermionic emission provided at a position opposite to the wall in the space for electricity extraction, and the discharge electrode. A spider in the space.: Matter that is located between the filament and the group of positive S and forms a large number of light emitting points with the group of cells. Configure In order to achieve this, each solar cell and each A are stretched in a parallel array perpendicular to each other in a non-contact state, and a voltage is applied to select a light emitting point that concentrates the heat A matrix type fluorescent display tube comprising a conductive bristle wire for a grid of conductive bushes for emitting the fluorescent substance positioned at the light emitting point.

2. In the discharge space, diffusion grits> are further provided between the shading flutes and the dalit villas to release the shading from the shading levers / filaments. 5. The method according to claim 1, wherein the thermal electrons are dispersed. Trix fluorescent display tube.

3. Claim 1 characterized in that the fluorescent substances alternately attached to each unit of one or more fine lines for positive leverage emit different emission colors. Or the matrix type fluorescent display tube described in 2.

4. A plurality of wires attached with fluorescent materials of different emission colors, with the anode wire for forming one light emitting point perpendicular to the grid wire. The matrix-type fluorescent display tube according to claim 1 or 2, characterized in that one light-emitting point has a plurality of pixels. o

5. Claims 1 or 2 which are characterized in that the positive levers have a whirlpool shape, and the grip crucibles have a slit-like band shape. Matrix type light display tube described

6. In the matrix formed by the anode electrode group and the grid electrode group, the display area is divided into a plurality of sections. The matrix-type fluorescent display tube according to claim 2, wherein a diffusion grid is desired.