JPH0447603A - Lighting apparatus - Google Patents

Abstract

PURPOSE:To forming an elastic holder in the way of having a hollow structure in order to surely support bending parts even when the bending parts are formed unevenly by supporting the bending parts of a low voltage discharging light to be stored in a casing with holders made of a rubber-type elastic material and attached to the casing. CONSTITUTION:A bending-type lamp 6 is put in a casing 1 and the light radiated from the fluorescent lamp 6 is sent out through a light diffusing transmitting plane 20 installed in an open part. Since the fluorescent lamp 6 is supported holders 12a-12c, 13, sure elastic support is achieved. Especially, the bending part elastic holders 12a-12c are prepared by bending a silicone rubber plate into U-shape to have a hollow structure, so that their sagging volume becomes large and they can absorb the unevenness of formation of the bending parts 9a, 9b, 9c. Consequently, installation of the lamp becomes easy and the lamp is prevented from being damaged even if thermal expansion and shrinkage occur and impact and vibration are applied.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a lighting device that uses a low-pressure discharge lamp as a light source and is suitable as a backlight for a liquid crystal television or a liquid crystal meter.

(Conventional technology) LCD televisions, LCD meters, etc. display light on the LCD screen by shining light from the back of the LCD panel. Such backlights illuminate the entire LCD screen with a predetermined spread. Therefore, a lighting device that can emit light with uniform brightness is required.

Conventionally, this type of backlight has a hot cathode or cold cathode fluorescent lamp with a U- or W-shaped bulb housed in a shallow dish-shaped casing with a reflective surface on the inside, and the light from this lamp is A lighting device is employed in which the light is reflected by the reflective surface and emitted to the outside through a light diffusing and transmitting plate installed in the opening of the casing.

When a U- or W-shaped hot cathode or cold cathode fluorescent lamp is used as a light source, it has superior luminous efficiency and generates less heat than an incandescent bulb, has a long life, and has a long discharge path and a flat spread. Since it has a light emitting surface, it has the advantage that the light emitting area is large, the light distribution tends to be uniform, and a display surface of a predetermined size can be easily illuminated with uniform brightness.

By the way, when a fluorescent lamp like the one described above is attached to a casing, a structure is adopted in which the end portion with the electrode and the bent portion are supported by a holder made of a rubber-based elastic material such as heat-resistant silicone rubber. There is. When supporting a bulb with such an elastic holder, the elastic holder not only absorbs variations in bulb molding and holds the lamp, but also protects against thermal expansion/contraction, mechanical shock,
Vibration can be absorbed by this elastic holder, so
There are advantages such as being able to prevent damage to the lamp.

In particular, when applied to a vehicle meter, etc., it is advantageous in terms of shock resistance and vibration resistance.

(Problem to be Solved by the Invention) However, in the case of a fluorescent lamp that is bent and molded into a W-shape, for example, there are three bends in total, and the processed shapes of these bends are not constant due to variations in forming. There are many cases. In particular, the bending portion at the center tends to have larger molding variations than the two bending portions at the ends.

To support such a bent portion, a conventional elastic holder uses a silicone rubber prong and has four parts that engage with the bent portion.

However, in the case of a conventional elastic holder having a pro-lock structure, there is a limit to the amount of elastic deformation, and there are cases where it is not possible to fully absorb the variation in shaping of the bent portion.

That is, for example, if the amount of protrusion of the bent part at the center is large, the amount of deformation of the elastic holder is small, and the bent part must be forcefully pressed against the elastic holder, which requires time and effort to assemble, and absorbs vibrations and shocks. There is no longer enough room for elastic deformation, and the lamp becomes damaged and becomes unusable. Furthermore, if the amount of protrusion of the central bent portion is small, it will not reach the elastic holder, and the bent portion will be in a floating state, and if a shock or vibration is applied, it will come into contact with the casing and be damaged.

The present invention has been made based on the above circumstances, and the first object is to provide a device in which the amount of elastic deformation of the elastic holder is large and the bending portion of the lamp cannot be reliably supported even if molding variations occur. The object of the present invention is to provide a lighting device that can prevent damage to the lamp.

[Structure of the invention]

(Means for Solving the Problems) When the bent portion of a low-pressure discharge lamp housed in a casing is supported by a holder made of a rubber-based elastic material attached to the casing, the present invention provides a method in which the elastic holder is formed into a hollow structure. It is characterized by

(Function) According to the present invention, since the elastic holder has a hollow structure, the elastic holder has a large amount of elastic deflection, and therefore can reliably support the bent portion of the lamp even if there are variations in shaping.

(Example) The present invention will be described below based on a first example shown in FIGS. 1 to 3.

In the figure, reference numeral 1 denotes a shallow dish-shaped casing with an open upper surface, made of a metal such as conductive aluminum, and has a reflective surface 2 formed on its inner surface.

The upper surface of the casing is an opening, and fixed peripheral flanges 3 are formed in this opening.
A screw hole 4 is formed in ....

A bent fluorescent lamp 6 is accommodated in the casing.

The fluorescent lamp 6 of this embodiment is a W-shaped cold cathode fluorescent lamp. That is, 7 is a bulb bent into a W-shape, and this bulb 7 has linear portions 8a, 8b, and 8c that are substantially parallel to each other.

8d, and these straight portions 8a, 8b.

8c and 8d are communicated through U-shaped bent portions 9a, 9b, and 9c. Note that the bent portion at the center is indicated by 9C.

Cold cathode electrodes 1.0.10 are sealed at both ends of the bulb 7, and a cap 11.11 is attached to the end of the bulb.

A phosphor coating (not shown) is formed on the inner surface of the bulb 7, and a predetermined amount of mercury and a starting rare gas such as argon or xenon are sealed inside the bulb 7.

The fluorescent lamp 6 having such a configuration is housed in the above-mentioned casing, and is attached to elastic holders l2a-, 12b51.
2c and 13.13.

These elastic holders 12a% 12b, 12c and 1
3.13 are bent portions 9a and 9b of the valve 7;

Bent elastic holder 12a112b, 1 that holds 9C
2c, and an end elastic holder 1 that supports the end of the valve 7.
3, ]3.

The bent portion elastic holders 12a, 12b, and 12c are each made of, for example, heat-resistant silicone rubber, and are formed by bending a rubber plate into a U-shape, and thus have a hollow structure. Such a bending part elastic holder 1
2 a , 12 b , ], 2 c are attached to recesses 14 a s 1 formed on the end wall of the casing 1.
4 b s 14 c, respectively, and these attachments are fixed to the four parts via adhesive or the like. Note that it is not necessary to use an adhesive, and a valve may be used for pressing.

In this way, the above-mentioned bent part elastic holders 12a-, 12 are fitted into the four parts 14a, 14b, and 14c.
The bent portions 9a, 9b, 9c of the lamp 6 are pressed against the side surfaces of the bs12c, and therefore the bent portion elastic holders 12a, 12b, 12
One side wall of c is elastically deformed to support the bent portions 9a, 9b, and 9c.

The end elastic holders 13.13 each have an insertion hole 15.15 through which the end of the lamp 6 passes, and a fitting groove 16.16 on the outer peripheral surface.

These end elastic holders 13.13 are attached to the casing 1.
The bulb 7 is fitted into a notch 17.17 formed at one end thereof, and the end of the bulb 7 is passed through the insertion hole 15.15 to support the lamp 6.

Therefore, the lamp 6 is attached to these elastic holders 1, 2 a
, 1.2 b , 1.2 c and 13.13 and attached to the casing].

Note that the bottom wall of the casing 1 is integrally cut and raised with presser pieces 18, and these presser pieces ]8...
are brought into contact with the inner surfaces of the U-shaped bent portions 9a, 9b, and 9c of the fluorescent lamp 6 by caulking, respectively. For this reason, the fluorescent lamp 6 is immovably fixed.

Incidentally, the fluorescent lamp 6 is electrically connected to a high frequency lighting circuit device (not shown) and is turned on at high frequency.

A light diffusing and transmitting plate 20 is attached to the opening of the casing. The light diffusing and transmitting plate 20 is made of a milky white material such as acrylic resin and has a light diffusing and transmitting effect, and each linear portion 8a of the bulb 7 is formed on the outer surface (or the inner surface) of the light diffusing and transmitting plate 20. , 8b, 8c, and 8d are formed with thick wall portions 21.... The thickness of these thick portions 2] gradually becomes thinner as the distance from the valve 7 increases.

Connecting holes 22 are formed at the four corners of the light diffusing and transmitting plate 20, and screws 23 are inserted into these holes 22.

The screws 23 pass through the connecting holes 22 of the light diffusing and transmitting plate 20, and are screwed into screw holes 4 formed in the upper opening of the casing 1.

Therefore, the light diffusing and transmitting plate 20 is fixed to the casing 1 by screws 23...

The operation of the embodiment with such a configuration will be explained.

When the fluorescent lamp 6 is turned on by applying high frequency power, the lamp 6 emits light in a shape along the W-shaped bulb 7.

A part of the light emitted from the fluorescent lamp 6 is transmitted to the casing 1.
The remaining light is reflected by the reflective surface 2 of the opening and directed toward the light diffusing/transmitting plate 20 at the opening, and the remaining light is directed directly toward the light diffusing/transmitting plate 20. Therefore, almost all of the light emitted from the lamp 6 is irradiated to the outside through the light diffusing and transmitting plate 20.

In this case, the substantially parallel straight portion 8a of the W-shaped valve 7,
8b, 8c, and 86 are formed on the outer surface of the light diffusing and transmitting plate 20, so that the thick portion 21 exists directly above the bulb 7, and this thick portion 21 prevents light. In addition to reducing the amount of light transmitted, since the wall thickness becomes thinner as the distance from the thick portion 21 increases, the amount of light transmitted increases. Therefore, the light diffusing and transmitting plate 20
has the effect of eliminating brightness unevenness by itself.

For this reason, the brightness distribution on the light diffusing and transmitting plate 20 is equalized, uneven brightness is reduced, and uniform brightness can be achieved over the entire surface.

The fluorescent lamp 6 mounted in the casing 1 is attached to a holder 12 made of an elastic material... ]
Since it is supported by 3..., reliable elastic support is possible.

In particular, the bending part elastic holder 12 a s 12 b -
.

], 2c has a hollow structure made by bending a silicone rubber plate into a U-shape, so it has a large amount of deflection and can absorb molding variations in the bent parts 9a, 9b, and 9c.

That is, bent portions 9 a s9 formed at three locations in total
b and 9c, their shapes are often not constant due to molding variations, and in particular, the molding variations of the bent portion 9C in the center are large. However, the bent portion elastic holder 12 a is bent into a U-shape and has a hollow structure.
, 1.2 b, 12 c - Since the deflection of the side wall is large, if the bent part protrudes largely in the left-right direction in the drawing, the bent part elastic holder 1.2 a, 12
The side walls of b and 12c are pushed and undergo large elastic deformations. Therefore, the bent portion can be elastically supported without being forced onto the holder, and assembly is easy.

Furthermore, even if the amount of protrusion of the bent portions 9a, 9b, and 9c in the horizontal direction in the drawing is small, the bent portion elastic holders 1.2a, 12b, and 12c, which have a hollow structure, will have a shape close to a free state, and in this case, Since it has a hollow structure, it expands laterally to support the bend. Therefore, the bent portions 9as 9bs 9c
This makes it possible to avoid problems such as the elastic holders 12a, 2b, and 12c not reaching the elastic holders 12a, 2b, and 12c.
Prevents floating of %9b%9c.

For this reason, the bending part elastic holder 12a%
12 b s 12 c can reliably and elastically support the bulb 7 in cooperation with the end holders 13 and 13, so that the lamp 6 will not be damaged even if thermal expansion or contraction occurs or shock or vibration is applied. It can be supported reliably without causing any damage.

Note that the present invention is not limited to the above embodiments.

That is, the bent portion elastic holders 12a, 12b.

], 2C is not limited to simply a rubber plate bent into a U shape, but as shown in the second embodiment shown in Fig. 4,
Bend part 9 of valve 7 on - side 9 a s 9 b % 9
If the valve has an engaging recess 30 that can be inserted into and engaged with the valve, the reliability of supporting the valve will be high.

Also, bent portion elastic holders 12a, 12b.

1 and 2c may be bent in a U-shape, or may be cylindrical as shown in the third embodiment shown in FIG.

In addition to the W-shape, the lamp of the present invention may have a U-shape or the like, and one lamp or a plurality of lamps may be used.

Furthermore, the cross-sectional shape of the bulb 7 in the lamp 6 (the cross-sectional shape of the discharge space) is not limited to a circular shape, but may be a flat shape. If the lamp has a flat shape, the side surface with a large light emitting area can be placed face-to-face with the light diffusing and transmitting plate 20, increasing the effective utilization rate of the light emitted from the lamp.

Furthermore, the present invention may be a rare gas discharge lamp in which only rare gas is sealed in the bulb without mercury.

The lamp 6 is not limited to one used for high-frequency fishing.

[Effects of the Invention] As explained above, according to the present invention, since the elastic holder is formed in a hollow structure, the amount of elastic deflection is large, and therefore even if there is a molding variation in the bent portion of the lamp, the elastic holder can be reliably supported. can do. Therefore, the lamp can be easily installed, and the lamp will not be damaged even if it undergoes thermal expansion or contraction or is subjected to impact or vibration.

[Brief explanation of the drawing]

Figures 1 to 3 show one embodiment of the present invention, Figure 1 is an exploded perspective view of the whole, Figure 2 is a plan view, and Figure 3 is a sectional view taken along the line ■-■ in Figure 2. 4 is a perspective view of an elastic holder and a bulb showing a second embodiment of the invention, and FIG. 5 is a perspective view of an elastic boulder showing a third embodiment of the invention. ]...Casing, 6...Fluorescent lamp, 7...Bulb, 9a, 9b, 9cm...Bent part, 12a. 12b,], 2C...Bending portion elastic holder 13...
- End elastic holder 18... Pressing piece, 20... Light diffusing and transmitting plate.

Claims (1)

[Claims] A bent low-pressure discharge lamp is housed in a casing with an opening on one side, and the light emitted from the discharge lamp is transmitted through a light diffusion and transmission plate provided in the opening. A lighting device that illuminates the front surface of the plate and supports a bent portion of the discharge lamp by a holder made of a rubber-based elastic material attached to a casing, characterized in that the elastic holder is formed in a hollow structure. lighting equipment.