JPS635168Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a vacuum fluorescent tube that is most suitable for use as a display device for electronic equipment or a regular indicator light for predetermined characters, etc.

Vacuum fluorescent tubes can be used as display devices for electronic desktop calculators, electronic clocks, registers, etc.
In addition, it can be used as a light source for non-emissive display devices, night lights, or indicator lights that constantly display predetermined characters and numbers.
It has been used more frequently than before because it has advantages such as low power consumption.

By the way, this vacuum fluorescent tube generally has a filament cathode that emits electrons, a phosphor layer coated thereon, an anode part, etc. that emits light due to the impact of electrons, and
A conventional vacuum fluorescent tube consists of a support that holds both ends of the filament cathode. The anode section was provided on the substrate on which the anode section was formed. The above-mentioned anode part is limited between the cathode support part and the support part, so if the support part is formed on the substrate as in the past, the part where the anode part is formed is narrowed by the support part. There was a problem with being exposed.

The present invention was developed in view of the above-mentioned circumstances, and has a structure in which a filament cathode is supported on the side plate that constitutes a part of the envelope of a vacuum fluorescent tube, and the anode is provided almost entirely on the substrate. The object of the present invention is to provide a vacuum fluorescent tube that can be formed into a vacuum fluorescent tube.

Hereinafter, one embodiment of the vacuum fluorescent tube according to the present invention will be described with reference to the drawings.

FIG. 1 is an exploded perspective view showing the main parts of a first embodiment of a vacuum fluorescent tube according to the present invention, FIG. 2 is a sectional view of the same embodiment, and FIG. 3 is a cathode used in the same embodiment. FIG. 3 is a perspective view showing a mounting portion, and this first embodiment shows a vacuum fluorescent tube used as various light sources as an example.

1, 2, and 3, numeral 1 represents a vacuum fluorescent tube, and numeral 2 represents a substrate made of an insulating material such as glass or ceramics. Reference numeral 3 denotes a container part that constitutes an envelope part that is sealed around the periphery of this substrate 2 and whose inside is evacuated to a high vacuum state. The container part 3 is a so-called assembly type container part 3 which is formed by being assembled. That is,
The container section 3 is assembled into a frame shape provided at the periphery of the substrate 2, with an opposing face plate 4 held parallel to the substrate 2, and opposing end faces sealed between the opposing face plate 4 and the substrate 2. It has a box-like structure with a side plate 5 and a side plate 5. In this case, at least the side from which the emitted light is extracted needs to be constructed of a translucent member. For example, when emitting light from the container section 3 side, the facing plate 4 of this container section 3 is made of a translucent material such as glass, and when emitting light from the substrate 2 side, this substrate 2 is made of a material such as glass. Constructed from a translucent member.

Furthermore, if both the opposing face plate 4 and the substrate 2 are made of translucent members, it becomes possible to extract light from both directions. Reference numeral 6 denotes an anode conductor that is coated over a required portion of the inner surface of the substrate 2. This anode conductor 6 can be made of an opaque conductive material such as a graphite film or an A film when emitted light is extracted only from the container portion 3 side, but when emitted light is extracted from the substrate 2 side or from both sides, SnO ₂ membrane or SnO ₂
- It is necessary to configure it with a transparent conductive film such as an In ₂ O ₃ film. Furthermore, a phosphor layer 7 is applied to the upper surface of the anode conductor 6 to form an anode portion 8 . Further, a part of the anode conductor 6 is led out to the outside of the substrate 2 and serves as an external connection terminal 9. A sealing cement 10 is applied to the peripheral edge of the substrate 2 having the above structure, and the container portion 3 is sealed. Although not shown, an exhaust pipe is provided at an appropriate position that does not interfere with the display of the substrate 2 and the container portion 3, and after sealing, the inside is evacuated to a high vacuum state. A filament-shaped cathode 11 is stretched in advance in the container portion 3 . This cathode 11 is indirectly supported by the opposing side plates 5 of the container section 3. In this embodiment, the cathode 11 is attached to the side plate 5 via a cathode support 12 shown in FIG. The anchor portion 12a or the support portion 12b is formed in a cut-and-raised tongue shape as a support portion in a portion thereof. The support part 12b is used to fix one end of the cathode 11, and the anchor part 12a
is formed to have spring properties in order to absorb the slack of the cathode 11. For this reason, the cathode support 12 on which the anchor portion 12a is formed is made of metal with excellent spring properties. Furthermore, an external connection terminal 9a for supplying current to the cathode 11 is provided in a protruding manner on the cathode support 12.

Thus, the filament cathode 11 is connected to the side plate 5.
The substrate is stretched from end to end between the opposite side plate 5 and the anode part 8 can be formed almost entirely within the area surrounded by the side plate 5. .

Next, a second embodiment of the vacuum fluorescent tube according to the present invention will be described with reference to FIGS. 4 and 5. This second embodiment takes as an example a vacuum fluorescent tube as a display device that displays information such as characters and graphics in response to input signals.

Vacuum fluorescent tube 201 according to this second embodiment
A wiring conductor 221 and an insulating film 2 are formed on a substrate 202 made of an insulating material such as glass or ceramics.
22. It has an anode part 208 in which an anode conductor 206 and a phosphor layer 207 are sequentially deposited, and the anode conductor 206 and the phosphor layer 207 are divided into parts that are driven electrically independently of each other. Each segment is arranged in various shapes. As an example, numerical values are displayed in segments arranged in a diagonal pattern. Furthermore, the anode section 20
A control electrode 223 is disposed on the upper surface of the anode 8 , and a container portion 203 to which a filament-shaped cathode 21 is attached is sealed so as to cover the control electrode 223 and the anode portion 208 . Similar to the container part 3 in the first embodiment, this container part 203 is composed of an opposing face plate and a side plate, and a filament-shaped cathode 211 is stretched between the facing side plates 205 via a cathode support 212. It is installed on a rack. This cathode support 21
2, as shown in FIG. 5, a plurality of cut and raised tongue-shaped anchor portions 212a or support portions 212b are formed on one cathode support. Further, the cathode support 212 is provided with an external connection terminal 209a for the cathode.
This is the same as in the first embodiment.

A vacuum fluorescent tube 401 according to the third embodiment shown in FIG. A shaped cathode 411 is stretched, and 412 is a cathode support to which the cathode 411 is attached. This cathode support 412 has the same shape as the cathode support 12 shown in the first embodiment.

Further, in each of the above embodiments, exhaust pipes are provided at appropriate locations in the envelope section to evacuate the interior to a high vacuum state, and, for example, as shown in FIG. , 312, 412 are provided with getters 441 as necessary.

As explained above, in the vacuum fluorescent tube according to the present invention, there is no support member for the filament-shaped cathode on the substrate, and the anode portion can be formed on almost the entire substrate. This has the excellent effect of making it difficult to see from the outside.

Moreover, according to the present invention, the cathode support holding both ends of the filament-shaped cathode has a substantially cross-sectional shape that is fitted along the inner wall surface and the opposite end surface of the side plate constituting the envelope portion of the vacuum fluorescent tube. The filament cathode support part and the external connection terminal are protruded from a part of the U-shape, so the filament cathode can be connected to the filament cathode by the above-mentioned relatively simple fitting operation that does not require the use of special jigs. The end can be reliably positioned and fixed at an accurate position based on the side plate,
Furthermore, there is a practical effect that the external connection terminal for the cathode can be easily attached.

[Brief explanation of the drawing]

FIG. 1 is an exploded perspective view showing a first embodiment of the vacuum fluorescent tube according to the present invention, FIG. 2 is a sectional view of the same, and FIG.
The figure is a perspective view showing the cathode support used in the same embodiment, FIG. 4 is a partially cutaway plan view showing the second embodiment of the vacuum fluorescent tube according to the present invention, and FIG. 5 is a perspective view showing the cathode support used in the same embodiment. FIG. 6 is a perspective view showing the cathode support used, and a plan view of main parts showing a third embodiment of the vacuum fluorescent tube according to the present invention. 1,201,401...vacuum fluorescent tube, 2,2
02,402... Substrate, 3... Container part constituting the envelope part, 4... Opposing face plate, 5,205,405
... Side plate, 8,208 ... Anode section, 11,21
1,411...Filamentary cathode, 12,21
2,412...Cathode support.

Claims (1)

[Scope of utility model registration request] It has an envelope portion at least partially formed of a translucent member, and when a driving voltage is applied, electrons are emitted from the heated filament-like cathode,
In a vacuum fluorescent tube that emits light when the electrons impinge on an anode section, the envelope section includes a substrate on which the anode section is formed, an opposing face plate held substantially parallel to this substrate, and an opposing face plate held substantially parallel to this substrate. A box body is formed by a side plate whose opposing end face is sealed between the face plate and the substrate, and the side plate includes a substantially cross-sectional side plate that is fitted along the inner wall surface and the opposite end face of the side plate. A U-shaped cathode support is provided, and the inner wall of the cathode support is provided with a protruding support part on which the end of the filament cathode is stretched and held. A vacuum fluorescent tube characterized in that an external connection terminal is provided with at least a tip portion protruding outward from the envelope portion.