KR820002121Y1 - Tubular incandescent lamp - Google Patents

Abstract

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Description

Light bulb device

1 is a cross-sectional view of one embodiment of the bulb device of the present invention.

2 is an enlarged sectional view of the main part.

3 is a cross-sectional view showing the action.

The present invention is the most suitable for the improvement of the small-sized light bulb device, in particular, the general-purpose electronic copier.

In an electronic copier, in a plain paper copier using a selenium transfer drum, the selenium photosensitive surface is charged, a printing powder toner is attached to the photosensitive surface, and then transferred to plain paper. have. After the transfer, the photoelectric surface is irradiated to remove the charge in order to remove the remaining toner. As a light source for this purpose, fluorescent lamps are generally used. However, fluorescent lamps are expensive because they require ballasts, and since recent copiers have built-in microcomputers, this circuit may be adversely affected by the pulses emitted when the fluorescent lamps light up.

In recent years, an incandescent lamp has been used as a light source for toner removal of a copier for such a reason. Incandescent lamps developed for this purpose include a long filament encapsulation device in a tubular valve and a plurality of short filaments arranged in a line in the longitudinal direction along the axis in the tubular valve. Since both of these are inferior in vibration resistance and have a large amount of heat dissipation, there is a concern that the temperature of the selenium photoelectric surface rises and the performance decreases.

Therefore, the present applicant first proposed a light bulb device in which a plurality of small bulbs were arranged in the longitudinal direction in a translucent tubular appearance. This has the advantage that the temperature rise of the selenium entire surface is small because it is rich in shock resistance and has a small amount of heat radiation. However, after this, the bulb device was found to have a difference in light distribution during use, and thus, the countermeasures were studied to complete the present invention.

The present invention was made on the basis of such a situation, and the displacement of the small bulb was prevented by setting the difference between the outer diameter of the small bulb and the outer diameter of the small bulb to 1.5 mm or less.

Next, a description will be given with reference to the embodiment showing the details of the present invention.

(1) is a transparent glass straight tube with both ends sealed (2), (2). The plurality of small bulbs arranged in one row in the longitudinal direction in the outer shell 1, (2), (3) are mounted on both ends of the outer shell (1) described above, and the small bulbs (2), (2). It is a metal fitting part connected to.

The small bulb 2 coaxially seals the filament 5 in a shell-shaped valve 4 and connects the lead wires 6a and 6b connected to both ends of the filament 5 with the valve ( It is derived from both ends of 4). And these small bulbs (2), (2). Solders the lead wires 6a and 6b to 7 and 7. Connected in series by fixing them in the same way, and lead wires 6a and 6b at both ends of the light bulbs 2 and 2 at both ends are led out of the sealed end of the outer casing 1 so that the metal parts 3 And (3). The inside of the exterior 1 is evacuated from the exhaust pipe 8 to be a vacuum.

And the difference between the inner diameter D of the external appearance 1 and the outer diameter d of the valve 4 of the electric bulb 2 which are the characteristics of the electric bulb device of this invention is set to 1.5 mm or less.

Then, as in the prior art, the exterior 1 and each of the small bulbs 2... When the wall surfaces of the wall are parallel to each other, the contact area between the external light bulb and the small bulb increases, which causes the heat of the small bulb 2 to dissipate through the external shell 1, thereby depriving the heat of the filament, thereby reducing the efficiency. In addition, this heat causes various difficulties, such as causing the deterioration by heating the entire surface of selenium during use. In contrast, the present invention can minimize the contact area by inclining the small electric bulb shaft with respect to the axis of the exterior 1 as described above. However, if it is inclined too much, light distribution becomes unfavorable, and it is not preferable, and the limit is practical up to 2-1 mm centering on D-d = 1.5 mm between the exterior 1 and the small bulb 2. However, even in this case, small bulbs must be inclined with respect to their appearance.

In addition, the laying of a large number of small bulbs coaxially and avoiding contact in the exterior (1) is large in the axial direction due to thermal expansion of the lead wires of the small bulbs, and a droop occurs. Becomes completely in contact, and uneven distribution tends to occur.

In order to obtain the inclination during the lighting of each of the small light bulbs described above, the coaxial relationship between the exterior 1 and each of the small light bulbs is maintained and sealed by a conventional manufacturing method. Next, when the edging is performed at a voltage of about 110%, the lead wires 6a and 6b connecting the small bulbs expand to incline the shaft of the small bulb 2 as shown in FIG. This is gradually increased every time the light is turned on and off, so there is no difference over 1.5mm.

In addition, if the efficiency is set so that the average life span of the device is 6.2 mm and 12 small electric bulbs (2) of 8 V, 0.3 A standard are serially connected, the device can have an average life of 10000 hours. Becomes 150lm. In this case, the vertical illuminance at the position of 25 mm from the center of the exterior 1 in the perpendicular direction of the exterior 1 is 2500 lx. For example, if [D-d] is slightly over 1.5 mm, the roughness is reduced by 6%.

The device of this example can also withstand 5G impact.

As described above, the light bulb device of the present invention arranges a plurality of small bulbs in a longitudinal direction in the translucent tubular exterior, and limits the difference between the inner diameter of the exterior and the outer diameter of the small bulb to 1.5 mm or less, so that the light bulb is repeatedly lit. There is an advantage that there is no difference in light distribution.

Claims (1)

And a plurality of small bulbs arranged in a row in the longitudinal direction in a tube of a light transmitting tube, wherein a difference between the inner diameter of the outer appearance and the outer diameter of the small bulb is 1.5 mm or less.