JP2008288130A - Bulb type fluorescent lamp - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bulb type fluorescent lamp whose cover body formed of nonmetal can employ a metal holder having a portion exposed to the outside. <P>SOLUTION: A bulb type fluorescent lamp 10 comprises a cover 2 formed of resin and a metal holder 4 holding a lighting device 6 covered with the cover 2. The side face 4d<SB>1</SB>of the outer edge 4d of the holder 4 is exposed to the outside with respect to the cover 2 and a glove 5. The cover 2 is held on the holder 4 via a cushion material 8. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a bulb-type fluorescent lamp having a resin cover and a metal holder.

  In general, a fluorescent lamp has a phosphor layer formed on the inner surface of a glass tube, and a discharge is generated in an arc tube formed by enclosing mercury and a rare gas in the glass tube, and the phosphor layer is formed by ultraviolet rays generated by the discharge. Excited to obtain visible light.

  The shape of this glass tube type fluorescent lamp is generally a straight tube type or a ring shape, but recently, in order to reduce the size and power consumption, a fluorescent lamp that can be directly screwed into a socket for an incandescent bulb. The lamp has been commercialized. Such a bulb-type fluorescent lamp is configured by supporting a fluorescent lamp in which a single discharge path is formed by connecting several bulbs bent in a U shape or the like on a cover body. . The cover body has a base and houses a lighting circuit for lighting a fluorescent lamp.

  In such a bulb-type fluorescent lamp, there is a concern that a temperature rise in the cover body during lighting may adversely affect electronic components constituting the lighting circuit. As a countermeasure, in Patent Document 1, a light-emitting fluorescent lamp in which a heat radiating plate made of a metal plate is attached to a lighting circuit and one end thereof is in contact with a resin cover or a fluorescent lamp and a resin holder that fixes the lighting circuit. Is disclosed. Thermally conductive silicone is filled between the heat radiating plate and the cover or holder.

  However, in the configuration of Patent Document 1, it is difficult to obtain good heat dissipation characteristics because heat release to the atmosphere is performed by a resin cover or holder. Moreover, since the metal heat sink is accommodated in the cover, it cannot be directly radiated to the atmosphere.

  Therefore, it is conceivable to make the holder having a portion exposed to the outside made of metal. Thereby, the heat generated in the lighting circuit can be radiated to the atmosphere via the holder, and the heat radiation characteristics can be improved.

  FIG. 2A shows a partially cutaway side view of a bulb-type fluorescent lamp provided with a metal holder having a portion exposed to the outside.

  As shown in FIG. 2A, the light bulb-type fluorescent lamp can be screwed into a metal holder 104 on which a spiral arc tube 103 and a lighting circuit 106 are mounted, and an incandescent light bulb socket (not shown). A resin cover 102 provided with a base 101 serving as a power input terminal and a glass globe 105 covering the arc tube 103 are provided. The outer ring portion of the globe 105 is fixedly held by the holder 104. Similarly, the outer ring portion of the cover 102 is fixedly held by the holder 104.

  FIG. 2B shows an enlarged view of a portion A in FIG. The holder 104 is provided with an engaging portion 104a, and the cover 102 is provided with a claw 102a. The holder 104 and the cover 102 are fixed by engaging the engaging portion 104a and the claw 102a.

The heat generated in the arc tube 103 and the lighting circuit 106 is conducted through the holder 104 and directly radiated from the side surface 104b of the holder 104 to the atmosphere. Thus, the metal holder having a portion exposed to the outside can improve the heat dissipation characteristics.
JP 2004-119324 A

  However, when a metal holder having a portion exposed to the outside is employed, the following problems may occur.

  Since the holder 104 is made of metal and the cover 102 is made of resin, there is a difference in the coefficient of thermal expansion between the two. For this reason, when the holder 104 expand | swells with a heat | fever, force is added to the cover 102 and the cover 102 may be damaged.

  On the other hand, in order to prevent the cover 102 from being damaged by applying such force, a gap 109 is provided between the engaging portion 104a and the claw 102a as shown in FIG. Conceivable. However, since the engagement becomes loose when the gap 109 is opened, there is a concern that the cover 102 may turn around or come off.

  Then, an object of this invention is to provide the light bulb-type fluorescent lamp which can apply the metal holder which has the part exposed to the exterior with respect to a nonmetallic covering body.

  In order to achieve the above object, a light bulb shaped fluorescent lamp of the present invention is a light bulb shaped fluorescent lamp having a non-metallic covering and a metal holder for holding a heating element covered with the covering. The portion is exposed to the outside with respect to the covering, and the covering is held by the holder via a cushioning material.

  According to the present invention, a gap is formed between the holder and the cover, and the cushioning material is disposed in this gap. Since the shock absorbing material absorbs the force due to the thermal expansion of the metal holder, the resin cover can be prevented from being damaged. Therefore, according to this invention, the metal holder which has the part exposed to the outside which can improve a thermal radiation characteristic with respect to a nonmetallic covering body is applicable.

  FIG. 1A is a partially broken side view of an embodiment of a light bulb shaped fluorescent lamp of the present invention. FIG. 1B shows an enlarged view of a portion B in FIG. B part is an enlarged view of the fitting part of a holder and a cover.

  A light bulb-type fluorescent lamp 10 is a resin provided with a metal holder 4 on which an arc tube 3 and a lighting circuit 6 are mounted, and a base 1 that is a power input end that can be screwed into an incandescent light bulb socket (not shown). And a glass globe 5 covering the arc tube 3. In other words, the bulb-type fluorescent lamp 10 of the present invention has a non-metallic covering including the resin cover 2 and the glass globe 5 and a heating element including the arc tube 3 and the lighting circuit 6.

The holder 4 has a generally disk shape, the arc tube 3 is disposed on the first surface 4b side, and the lighting circuit 6 is provided on the second surface 4c opposite to the first surface 4b. A peripheral edge 4 d is formed on the peripheral edge of the holder 4. Further, an engaging portion 4a for engaging with a claw 2a of the cover 2 described later is formed at the distal end portion of the peripheral edge portion 4d. The first surface 4 b and the arc tube 3 are covered with a globe 5, and the second surface 4 c and the lighting circuit 6 are covered with a cover 2. The side surface 4 d ₁ of the peripheral edge 4 d is exposed to the outside between the cover 2 and the globe 5 without being covered by either the cover 2 or the globe 5.

  At both ends of the arc tube 3, filaments (not shown) that emit electrons into the arc tube 3 are provided. Both ends of the arc tube 3 are bent so as to face the same direction, and these both ends are held by the holder 4. As the arc tube 3, in addition to a spiral tube structure in which a straight tube fluorescent lamp is spirally wound, a twin tube structure in which two straight tubes are paralleled, or a U shape in which a straight tube is bent in a U shape. A tube structure or the like is applicable.

  The lighting circuit 6 is configured by mounting a high-frequency lighting circuit component using a transistor inverter, and is located in a space covered by the cover 2.

  The cover 2 is made of a heat resistant synthetic resin. A screw-type base 1 that is a power input end is attached to one end of the cover 2. The base 1 is fixed by means such as adhesive or caulking. Further, a claw 2a is formed on the other end side of the cover 2 as shown in FIG. The cover 2 is fixed to the holder 4 on the other end side where the claw 2a is formed.

  The globe 5 is disposed to face the cover 2 with the holder 4 interposed therebetween. The globe 5 is made of transparent or light diffusing glass, but may be made of synthetic resin. The globe 5 has a cup shape with one end opened. The opening portion of the globe 5 is held by the holder 4.

As shown in FIG. 1B, a gap 9 is formed between the holder 4 and the cover 2. More particularly the gap 9a is formed between the engagement portion 4a and the claw 2a, a gap 9b is formed between the end face 2a ₁ of the end face 4d ₂ and the cover 2 of the peripheral portion 4d. The end surface 4d ₂ is an annular surface formed at the root portion of the engaging portion 4a. The end surface 2a ₁ is an open end surface of the cover 2 and is an annular surface. The end face 4d ₂ and the end face 2a ₁ are arranged to face each other.

A buffer material 8 is sandwiched in the gap 9. That is, since the cushioning material 8 is sandwiched in the gap 9a, the engaging portion 4a and the claw 2a are meshed with each other via the cushioning material 8 without directly meshing with each other. Moreover, since there cushioning material 8 in the gap 9b, the end surface 2a ₁ of the end face 4d ₂ and the cover 2 of the peripheral edge 4d not in direct contact.

  The cushioning material 8 is a member for preventing the force generated when the holder 4 is thermally expanded from being applied to the cover 2. The cushioning material 8 located in the gap 9a absorbs the force generated when the holder 4 expands radially outward (X direction in FIG. 1B). The cushioning material 8 located in the gap 9b absorbs the force generated when the holder 4 expands in the direction toward the base 1 (the Z direction in FIG. 1B).

  As the material of the buffer material 8, any material may be used as long as it has a buffer property. For example, as the material of the buffer material 8, vulcanized rubber, thermoplastic elastomer, silicone or the like can be applied. Further, an O-ring may be used as the buffer material 8. By applying these materials, the shock-absorbing material 8 can not only ensure shock-absorbing properties but also have a role of preventing the cover 2 from rotating and preventing it from coming off.

  Here, the heat radiation by the holder 4 and the operation of the buffer material 8 will be described.

The arc tube 3 and the lighting circuit 6 generate heat when activated. Heat generated in the arc tube 3 is transmitted to the holder 4 from the first surface 4b side. Further, the heat generated in the lighting circuit 6 is transmitted from the second surface 4 c of the holder 4. The heat transmitted from the arc tube 3 and the lighting circuit 6 is conducted to the peripheral edge 4d. The heat conducted to the peripheral edge portion 4d is radiated from the side 4d ₁ that is exposed to the outside to the atmosphere. Thus, since the part of the holder 4 is exposed to the outside, the bulb-type fluorescent lamp 10 of the present invention is radiated well without the heat being trapped in the bulb-type fluorescent lamp 10.

  Note that the peripheral edge 4d is thermally expanded during heat dissipation. However, since a gap 9 is formed between the holder 4 and the cover 2 and the cushioning material 8 is sandwiched in the gap 9, the force generated by the expansion of the holder 4 causes the cushioning material 8 to bend. It is absorbed by peeling. As a result, it is possible to avoid a situation in which the cover 2 is damaged by the expansion of the holder 4.

  On the other hand, the engaging portion 4a and the claw 2a are not directly meshed with each other, but are engaged with each other via the cushioning material 8. Further, since the cushioning material 8 functions as a slip stopper, there is no problem that the cover 2 is loosely attached and the cover 2 turns around or comes off.

  In the present invention, a silicone adhesive or the like may be used as the buffer material 8. In this case, since the silicone adhesive itself has adhesiveness, the connection between the holder 4 and the cover 2 may not be based on the engagement between the engaging portion 4a and the claw 2a. Therefore, in this invention, when using a silicone adhesive etc. as the buffering material 8, it is good also as a structure without the engaging part 4a and the nail | claw 2a.

It is the partially broken side view and B section enlarged view of one Example of the lightbulb-type fluorescent lamp of this invention. It is the partially broken side view and A section enlarged view of an example of the lightbulb-type fluorescent lamp relevant to this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Base 2 Cover 2a Claw 2a ₁ End surface 3 Arc tube 4 Holder 4a Engagement part 4b 1st surface 4c 2nd surface 4d Peripheral part 4d ₁ side surface 4d ₂ end surface 5 Globe 6 Lighting circuit 8 Buffer material 9, 9a, 9b Gap 10 Bulb-type fluorescent lamp

Claims (7)

In a bulb-type fluorescent lamp having a non-metallic covering and a metallic holder for holding a heating element covered with the covering,
A part of the holder is exposed to the outside with respect to the cover, and the cover is held by the holder via a cushioning material. The covering has a resin cover and a glove arranged to face the cover,
The bulb-type fluorescent lamp according to claim 1, wherein the cushioning material is disposed in a gap formed between the cover and the holder. The heating element includes an arc tube and a lighting circuit for lighting the arc tube,
The disc-shaped holder has a first surface that holds the arc tube, a second surface that holds the lighting circuit, and a peripheral portion formed on the periphery of the holder,
The globe covers the arc tube and the first surface, the cover covers the lighting circuit and the second surface, and the peripheral portion which is the part is between the cover and the globe. The bulb-type fluorescent lamp according to claim 2, which is exposed to the outside.   The light bulb according to claim 2 or 3, wherein the claw formed on the cover and the engaging portion formed on the holder are engaged via the cushioning material, whereby the cover is held by the holder. Shaped fluorescent lamp.   The bulb-type fluorescent lamp according to any one of claims 1 to 4, wherein the buffer material is made of one substance selected from the group consisting of vulcanized rubber, thermoplastic elastomer, and silicone.   The bulb-type fluorescent lamp according to claim 1, wherein the buffer material is an O-ring.   The bulb-type fluorescent lamp according to any one of claims 1 to 5, wherein the buffer material is a silicone adhesive.

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