JP2010218854A - Red bulb - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a red bulb preventing deviation of the chromaticity of red light obtained by a light fitting from a predetermined range and preventing color unevenness. <P>SOLUTION: The red bulb includes: a glass bulb 1 provided with a surrounding portion 1a having a space 1c formed inside and with a pinch seal portion 1b having a neck region N adjacent to one end of the surrounding portion 1a; a filament 2 sealed inside the surrounding portion 1a of the glass bulb 1; a terminal 3 led out to outside via the pinch seal portion of the glass bulb and attached to a flat face of the pinch seal portion 1b; and a red filter film 4 continued from the glass bulb and formed over the outer face of the neck region of the pinch seal portion. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a red light bulb that can be used for a taillight of an automobile.

  Red light bulbs used for automobile taillights are well known (for example, see Patent Document 1). In a conventional red light bulb provided with a pinch seal portion (for example, described in Patent Document 1), a color filter is formed only in a main valve portion (enclosure portion). This type of light bulb is lit by being mounted on a wedge base type socket. Also, some conventional red light bulbs have a red filter formed on a colorless and transparent glass bulb.

  Further, in a method for manufacturing a colored small bulb, which forms a colored film on the bulb outer surface of a small bulb having a pinch portion sealed at one end and colors the bulb, the pinch portion of the small bulb is sandwiched, and this pinch portion Soak the paint on the outer surface of the valve, and then remove the paint accumulated in the pinch part by suction, and then immerse the pinch part in the paint solution to dissolve and remove the paint adhering to the pinch part. The manufacturing method made to do is known (refer patent document 2).

  As described above, the prior art has a structure in which a colored filter is formed only in the main part (enclosed part) of the valve, and no colored filter is formed in the pinch seal part.

JP 2003-017007 A JP 2003-086148 A

  However, when a red light bulb with a conventional pinch seal is mounted on a wedge base socket and lit, the chromaticity of the illumination light emitted from the lamp falls within a predetermined range, even though there is no problem with the red filter. It turns out that it is easy to deviate.

  Therefore, as a result of investigation of the cause by the present inventor, the following facts were found. That is, the white light radiated from the filament leaks through the pinch seal part, and is radiated into the lamp from the gap formed between the socket and the pinch seal part. The illumination light is mixed with white light. For this reason, the chromaticity of the illumination light obtained by the lamp does not satisfy the standard of red light for automobiles, for example. In particular, in the case of a red light bulb, there is a problem that the influence of white light on mixed light with red light becomes large, and the resulting chromaticity of red light tends to deviate from a desired range. In addition, red light and white light may be separated to cause uneven color distribution.

  In addition, when a colored filter film is formed on the entire surface including the pinch seal part of the glass bulb, a colored filter film is also formed on the power receiving terminal. It tends to occur.

  An object of the present invention is to provide a red light bulb in which the chromaticity of red light obtained by a lamp hardly deviates from a predetermined range and color unevenness does not occur.

  Another object of the present invention is to provide a red light bulb that does not cause poor contact due to peeling off of the red filter film.

  In order to solve the above-described problems, a red bulb according to the present invention includes a glass bulb having an envelopment portion in which a space is formed and a pinch seal portion having a neck region adjacent to one end of the envelopment portion; A filament sealed inside the part; a power receiving terminal led out through the pinch seal part of the glass bulb and attached to the flat surface of the pinch seal part; and a pinch seal part continuously from the glass bulb; And a red filter film formed over the outer surface of the neck region.

  According to the present invention, since the red filter membrane is continuously formed from the surrounding portion of the glass bulb to the outer surface of the neck region of the pinch seal portion, white light emitted from the filament passes through the pinch seal portion. When it leaks, it is converted into red light by the red filter film in the neck region, so the light emitted into the lamp from the gap formed between the socket and the pinch seal part also becomes red light. As a result, it is possible to provide a red light bulb that does not cause the mixed light of the white light leaking through the section, the chromaticity of the red light as the illumination light hardly deviates from the predetermined range, and does not cause the color unevenness.

  Moreover, according to this invention, there exists an effect which can provide the red light bulb which does not cause the poor contact etc. by peeling a red filter film | membrane.

BRIEF DESCRIPTION OF THE DRAWINGS (a) based on the 1st Embodiment of this invention is a front view, (b) is a side view, (c) is a bottom view. It is the chromaticity diagram created based on the measured value of red chromaticity when the red light bulb of Example 1 and the comparative example 1 in the 1st Embodiment of this invention is mounted | worn with a wedge base type socket, and it lights. It is a center section front view concerning a 2nd embodiment of the present invention. It is a center section front view explaining an optical effect when it similarly attaches to a socket.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

  In the first embodiment of the present invention, the red light bulb includes a glass bulb 1, a filament 2, a power receiving terminal 3, and a red filter film 4, as shown in FIG.

  The glass bulb 1 includes a surrounding part 1a and a pinch seal part 1b. The surrounding portion 1a has an internal space 1c hermetically sealed against the outside air, and the filament 2 is disposed at a predetermined position in the internal space 1c. In addition, related members such as lead wires are also stored as appropriate. Further, an inert gas such as nitrogen (eg, argon (Ar), krypton (Kr), or xenon (Xe)) or an inert gas such as nitrogen is enclosed in the surrounding portion 1a to suppress evaporation and scattering of the filament 2. Has a long life. In addition, this invention is suitable for the glass bulb | bulb 1 whose outer diameter is about 5-20 mm. The pinch seal portion 1b is formed adjacent to one end of the surrounding portion 1a, and has a pair of flat surfaces 1b1 facing both surfaces thereof.

  The flat surface 1b1 is provided with a power receiving terminal 3 and locking portions 1b2, 1b3, which will be described later. The locking portion 1b2 is engaged with a locking tongue piece disposed in a socket (not shown) so that the red light bulb does not undesirably fall out of the socket. On the other hand, the latching | locking part 1b3 prescribes | regulates the insertion depth in the socket of a red light bulb by engaging with the other latching tongue piece arrange | positioned in the socket. Then, since the engaging portions 1b2 and 1b3 are disposed on the pair of flat surfaces 1b1 of the pinch seal portion 1b, the red light bulb can be mounted at a predetermined insertion depth of the socket.

  Further, the pinch seal portion 1b has a neck region N adjacent to the boundary portion B with the surrounding portion 1a. In a preferred aspect of the present invention, the neck region N includes a locking portion 1b2 disposed on the pinch seal portion 1b along the tube axis direction from the boundary portion B between the surrounding portion 1a of the glass bulb 1 and the pinch seal portion 1b. It is a range to the upper end in the figure of 1b3.

  The locking portions 1b2 and 1b3 are protrusions in the figure, but if they are intended to be engaged with the socket side, some or all of them may be concave steps.

  The filament 2 consists of coils, such as a refractory metal wires, such as tungsten, and can arrange | position single or multiple suitably. In this embodiment, the filament consists of a pair of main filaments 2a and 2b, each of which is disposed at a predetermined position in the space 1c in the surrounding portion 1a. Then, by selecting and switching the energization to the filaments 2a and 2b on the external circuit side, the selected filament 2a or 2b individually generates heat, exhibits an incandescent state, and emits white light.

  The power receiving terminal 3 is a means for supplying power to the filament 2, but two sets of power receiving terminals 3a1, 3a2, and 3b1, 3b2 are pinch seal portions 1b in order to cause the main and sub pair of filaments 2a, 2b to emit light separately. It is attached along the flat surface 1b1. Although not shown, two sets of related members such as lead wires are arranged between the two sets of power receiving terminals 3a1, 3a2 and 3b1, 3b2 and the filaments 2a, 2b.

The red filter film 4 is preferably formed using a paint mainly containing ferric trioxide (Fe ₂ O ₃ ), and extracts a red light component from white light emitted from the filament 2. This is an optical filter that converts red light. In the present invention, as shown in the figure, the red filter membrane 4 is shown with a dotted pattern in addition to the entire outer surface of the surrounding portion 1a of the glass bulb 1, and almost the outer surface of the neck region N of the pinch seal portion 1b. It is continuously formed in the part of the surrounding part 1a over the whole region.

  When the red filter film 4 is formed on the entire pinch seal portion 1b, the red filter film 4 is also formed on the locking portions 1b2 and 1b3 provided on the pinch seal portion 1b. When the red filter membrane 4 is formed on the locking portions 1b2 and 1b3, the red filter membrane 4 is peeled off due to the fitting with the socket, and the peeled red filter membrane 4 stays inside the socket. The contact resistance between the socket and the power receiving terminal increases, causing the socket to become hot and defective in conduction.

  Moreover, if the red filter film 4 is formed over a distance of 1 mm or more from the boundary portion B of the neck region N along the tube axis direction, white light may be formed even if it is not formed over the entire neck region N. Leakage can be substantially prevented. That is, when the red light bulb is mounted on the socket and lit, the portion exposed to the outside from the socket is not necessarily the entire neck region N but mostly the region up to 1 mm on the boundary B side. Therefore, it has been found that the effect of the present invention can be obtained if the red filter film 4 is formed at least up to 1 mm on the boundary B side of the neck region.

  Further, when the distance in the tube axis direction for forming the colored filter film 4 in the neck region N of the pinch seal portion 1b is L (mm) and the thickness t (mm) of the pinch seal portion 1b, the ratio L / t is L / t. It is preferable to satisfy the condition of t ≧ 0.33. That is, when the thickness t of the pinch seal portion 1b increases and the pinch seal portion 1b becomes thick, the amount of light reaching the pinch seal portion 1b from the surrounding portion 1a increases, and accordingly, the distance L is set accordingly. It is preferable to set it long. By satisfying the above conditions, even when the colored filter film 4 is not formed over the entire neck region N, the effects of the present invention can be achieved.

  In addition, when the front-end | tip part of the receiving terminal 3 extends to the position which opposes the neck area | region N as shown in figure, the part of the neck area | region N which opposes the site | part which formed the red filter film | membrane 4 of the red filter film | membrane 5. It is desirable to remove the red color filter film adhering to the power receiving terminal 3. Further, when a coating method is employed in which the red filter film 4 is formed in a region other than the predetermined region, the unnecessary region of the red filter film 4 may be removed by washing or polishing after coating. Further, it can be applied after masking in advance so that the red filter film 4 is not formed at an unnecessary portion.

  The red light bulb of the present invention can be applied to a stop lamp, a high-mount tail lamp, a rear fog lamp, etc., for example, for an automobile.

  Example 1 is a red light bulb shown in FIG.

Glass bulb: T20 type valve, pinch seal distance L = 5mm, thickness t = 3mm
Rating: 12V21W
Filament: C-6 type,
Main filament: DC 13.5V, 1.85A, 105lm,
Secondary filament: DC 13.5V, 0.44A, 8lm
Red filter: Chromaticity JIS (red); y ≧ 0.335, z ≦ 0.008
: Chromaticity SAE (red); y ≦ 0.33, y ≦ 0.98−x
Base: W3x16d type Illumination chromaticity: Fig. 2 ● As shown in Example 1, x = 0.6758, y = 0.3226, which satisfies the above red chromaticity standard.

[Comparative Example 1]

  The first comparative example is a red light bulb in which the red filter film is formed only in the surrounding portion 1 a and not formed in the neck region N in FIG. 1. The distance L = 0 mm and the thickness t = 3 mm of the pinch seal part of the glass bulb.

  Other specifications are the same as those in the first embodiment.

Chromaticity at lighting: As shown in Comparative Example 1 in FIG. 2, x = 0.6656 and y = 0.3317.

In the above comparative example, white light leaks from the neck region of the pinch seal portion when lighting, and red light and white light are mixed in the lamp, so the chromaticity x and y shift to 1/100 amber. The chromaticity changed undesirably.

The second embodiment of the present invention shown in FIG. 3 is different from the first embodiment in that the filament 2 is single and the power receiving terminal 3 is one set.

  As shown in FIG. 4, most of the white light emitted from the filament 2 indicated by the thin ink arrow is converted into red light indicated by the dark ink arrow by the red filter film 4 formed in the surrounding portion 1a. Then, it is emitted outside the red light bulb.

  However, a part of the white light directed to the pinch seal portion 1b leaks out from the neck region N. According to the present invention, since the red filter film is also formed in the neck region N, the red light bulb is connected to the socket. Even when a part or almost all of the neck region N of the pinch seal portion 1b is exposed to the outside when attached to S, the light leaking from the neck region N also becomes red light as shown by the thick arrow of dark ink. Therefore, the chromaticity of the red light does not deviate from the predetermined range and color unevenness does not occur. Note that the socket S schematically shows only the outline in the figure.

  DESCRIPTION OF SYMBOLS 1 ... Glass bulb, 1a ... Enclosing part, 1b ... Pinch seal part, 1b1 ... Flat surface, 1b2, 1b3 ... Locking part, 2 ... Filament, 2a ... Main filament, 2b ... Subfilament, 3, 3a1, 3a2, 3b1 3b2 ... Receiving terminal, 4 ... Red filter film, B ... Boundary portion, N ..., Neck region

Claims (2)

A glass bulb provided with a pinch seal portion having a surrounding portion in which a space is formed and a neck region adjacent to one end of the surrounding portion;
A filament sealed inside the enclosure of the glass bulb;
A power receiving terminal led out through the pinch seal portion of the glass bulb and attached to the flat surface of the pinch seal portion;
A red filter membrane formed continuously from the glass bulb over the outer surface of the neck region of the pinch seal;
A compact incandescent bulb characterized by comprising: The glass bulb has a locking part arranged on the flat surface of the pinch seal part;
The end of the portion where the red filter film is formed in the neck region of the pinch seal part is from the position 1 mm away from the boundary between the glass bulb surrounding part and the pinch seal part to the upper end position of the locking part. In range;
The small incandescent light bulb according to claim 1.

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