JP6226633B2 - Lighting lamp and lighting device - Google Patents

Description

  The present invention relates to an illumination lamp and an illumination device including the illumination lamp.

  The illumination lamp includes a light source, a housing to which the light source and the like are attached, and a circuit board that supplies power for driving the light source. Here, the circuit board is provided in the housing, but if this circuit board is not fixed and rotates in the housing, damage to parts such as wiring and capacitors connected to the circuit board, Problems such as damage to the inner wall of the body may occur. Various mechanisms for fixing the circuit board in the housing have been proposed (see, for example, Patent Documents 1 and 2).

  The technique described in Patent Document 1 is provided with a holding portion on an inner wall of a casing as a holding mechanism that holds an end of the circuit board that faces the casing. The technique described in Patent Document 2 is provided with a holding portion inside the base portion as a holding mechanism that holds an end portion of the circuit board that faces the base portion.

JP 2012-94467 A (see, for example, FIG. 1) Japanese Patent No. 4914511 (see, for example, paragraph [0029] and FIG. 2)

  In the techniques described in Patent Documents 1 and 2, a holding portion as a mechanism for holding the circuit board in the housing is formed in a limited space in the illumination lamp. As described above, in the techniques described in Patent Documents 1 and 2, since the holding portion is formed, a space that can be effectively used such as installing other parts in the illumination lamp is reduced. In addition, since a certain manufacturing clearance is provided between the holding unit and the circuit board so that the circuit board can be attached to the holding unit, the space that can be used more effectively is reduced by this clearance. . As described above, in the techniques described in Patent Documents 1 and 2, the limited space in the illumination lamp cannot be effectively used for fixing the lighting circuit in the housing as much as the holding portion is formed. It was.

  The present invention was made against the background of the above problems, and an illumination lamp that restricts the casing and the lighting circuit from rotating relative to each other while effectively utilizing a limited space inside the illumination lamp. And a lighting device.

An illumination lamp according to the present invention includes a light source, a circuit board that drives the light source, a cylindrical first housing part in which the circuit board is installed, and a second housing that houses the first housing part. A circuit board having a body part , a light source is provided, and a rotation regulating part that regulates mutual rotation of the first housing part and the second housing part. A protrusion extending in the radial direction of the housing is formed, a slit into which the protrusion is inserted is formed in the first housing portion, and the rotation restricting portion includes the slit of the first housing portion and It is a rod-shaped engaging member that is attached to the second casing and extends in the radial direction of the casing .

  According to this invention, since it has the said structure, it can control that a housing | casing and a circuit board rotate mutually, utilizing effectively the limited space inside an illumination lamp.

It is sectional drawing which shows the illumination lamp which concerns on Embodiment 1 of this invention. It is explanatory drawing of the state which attached the circuit board to the 1st housing | casing part of the illumination lamp shown in FIG. It is a figure explaining the assembly of the 1st housing | casing part and circuit board of the illumination lamp shown in FIG. FIG. 4 is an assembled perspective view of a first housing part and a circuit board shown in FIG. 3. It is a figure explaining the assembly of the 2nd housing | casing part of the illumination lamp which concerns on Embodiment 1 of this invention, and the 1st housing | casing part which attached the circuit board. It is sectional drawing of the illumination lamp which concerns on Embodiment 2 of this invention. It is sectional drawing which shows the illumination lamp which concerns on Embodiment 3 of this invention. It is a figure explaining the assembly of the 1st housing | casing part and circuit board of an illumination lamp shown in FIG. It is sectional drawing which shows the illumination lamp which concerns on Embodiment 4 of this invention. It is a figure explaining the assembly of the engaging member of the illumination lamp shown in FIG. 9, a circuit board, a 1st housing | casing part, and a 2nd housing | casing part. FIG. 10 is an assembled perspective view of the illumination lamp shown in FIG. 9. It is a modification of the illumination lamp which concerns on Embodiment 4 of this invention. It is sectional drawing which shows the illumination lamp which concerns on Embodiment 5 of this invention. It is an assembly perspective view of the illumination lamp shown in FIG. It is the schematic which shows the illuminating device which concerns on Embodiment 6 of this invention.

  Hereinafter, embodiments of an illumination lamp and an illumination device according to the present invention will be described with reference to the drawings. The present invention is not limited to the embodiments described below. Moreover, in the following drawings including FIG. 1, the relationship of the size of each component may be different from the actual one.

Embodiment 1 FIG.
FIG. 1 is a cross-sectional view showing an illumination lamp 1 according to the first embodiment. FIG. 2 is an explanatory diagram showing a state in which the lighting circuit board 11 is attached to the first housing portion 6 of the illumination lamp 1 shown in FIG. FIG. 3 is a view for explaining assembly of the first housing 6 and the lighting circuit board 11 of the illumination lamp 1 shown in FIG. 1A is a sectional view corresponding to the XX section of FIG. 1C, FIG. 1B is a sectional view corresponding to the YY section of FIG. 1C, FIG.1 (c) is sectional drawing corresponding to the AA cross section of Fig.1 (a). 2 (a) and 3 (a) are sectional views of a plane parallel to the section in FIG. 1 (a), and FIGS. 2 (b) and 3 (b) are parallel to the section in FIG. 1 (b). FIG. FIG.3 (c) is sectional drawing of a surface parallel to the cross section in FIG.1 (c). Based on FIGS. 1-3, the structure of the illumination lamp 1 is demonstrated.
In the illumination lamp 1 according to the first embodiment, the housing 5 (first housing portion 6) and the lighting circuit board 11 rotate with each other while effectively utilizing the limited space inside the illumination lamp 1. The improvement which regulates that it is done is added.

[Configuration overview]
The illumination lamp 1 includes a light source 3 that irradiates light, a globe 4 that is provided so as to cover the light source 3, a housing 5 that forms a part of the outline of the illumination lamp 1, and a base attached to the housing 5. And a lighting circuit unit 10 provided in the housing 5.

(Light source 3)
The light source 3 uses, for example, a light emitting diode (hereinafter referred to as LED) 3a as light emitting means, and the light source 3 includes the LED 3a and an LED substrate 3b on which the LED 3a is placed. The light source 3 also includes a wiring member (not shown) such as a wire harness or a connector that is electrically connected to the lighting circuit unit 10 and supplies driving power from the lighting circuit unit 10 to the light source 3. In addition, the light source 3 includes an attachment member such as a screw 14 for attaching the LED 3 a to the housing 5, and an electronic component (not shown) that is appropriately required according to the design specifications of the illumination lamp 1. A board screw hole 3ba and a board wiring hole 3bb are formed in the LED board 3b, a screw 14 is connected to the board screw hole 3ba, and a wiring member is passed through the board wiring hole 3bb. Yes. In the first embodiment, the LED 3a is used as the light emitting means of the light source 3. However, for example, a laser diode, an organic EL, or the like may be used as the light emitting means of the light source 3.

(Glove 4)
The globe 4 has a dome shape (curved surface shape), and is attached to the housing 5 so as to cover the light source 3. The globe 4 is made of a material such as glass or resin, has translucency, and transmits light emitted from the LED 3a. When the globe 4 is a resin, polycarbonate, acrylic, or the like is selected as a resin material according to product specifications.

  The globe 4 may be configured to exert effects such as diffusion, condensing, and reflection on the light emitted from the LED 3a according to the specifications of the illumination lamp 1. These functions such as diffusion, light collection and reflection are performed on the base material by processing the diffusion layer or the diffusion surface, the lens, the reflection layer, the reflection surface, etc. on the glass, resin, etc., which are the base material of the globe 4 You may make it obtain. Moreover, you may make it obtain functions, such as a spreading | diffusion, condensing, reflection, by providing the member different from a base material on the surface of the base material of the globe 4, and combining these.

(Case 5)
The housing 5 includes a first housing portion 6 and a second housing portion 7, the light source 3 is placed on one end portion, and the base portion 9 is provided on the other end portion. is there.

(First housing portion 6)
The 1st housing | casing part 6 is a housing which accommodates the lighting circuit unit 10 inside, for example, is shape | molded using resin materials, such as a plastics. And as above-mentioned, this 1st housing | casing part 6 has comprised the cylinder shape, and while the space is formed in the inside, both ends are opened. In the first casing 6, the lighting circuit unit 10 is installed inside the first casing 6 by inserting the lighting circuit unit 10 from the opening at the end on the light source 3 side. . The first housing 6 has a weight-shaped portion 6f that gradually decreases in diameter from the light source 3 side toward the base 9 side. Further, a boss 6e which is a screw receiver for receiving the screw 14 and a housing screw hole 6d formed in the boss 6e are provided on the end surface of the first housing portion 6 on the light source 3 side.

  The first casing 6 is formed with a slit 61 into which the protrusion 12 is inserted. That is, the first casing portion 6 engages with the protruding portion 12 of the lighting circuit board 11 when the lighting circuit board 11 is housed in the first casing portion 6 on the end side on the light source 3 side. A slit 61 is formed. A number (two) of slits 61 corresponding to the protrusions 12 are formed in the first casing 6.

(Second housing part 7)
The second housing portion 7 is a heat sink that covers the outer periphery of the first housing portion 6 and dissipates heat from the first housing portion 6, and is formed of a metal material such as an aluminum alloy, for example. . In addition, you may comprise the 2nd housing | casing part 7 using the ceramic raw material etc. with which heat conductive materials, such as aluminum oxide (alumina), were mixed.
The second housing part 7 is fitted to the first housing part 6 so as to accommodate the light source 3 side of the first housing part 6. More specifically, in the second housing part 7, the light source 3 side is closed, the base part 9 side is opened, and a space used to accommodate the first housing part 6 is formed inside. Is. Then, the first housing portion 6 is fitted inside the second housing portion 7. Note that the second housing part 7 does not cover the weight-like part 6 f in the first housing part 6.

(Base part 9)
The base portion 9 has a cylindrical shape, and its side surface has a wave shape. The base portion 9 is fitted to the other end portion of the first housing portion 6. The base portion 9 is not fitted with the weight-like portion 6 f in the first housing portion 6 and is not in contact with the second housing portion 7. That is, the second housing part 7 and the base part 9 are electrically insulated by the weight-like part 6 f in the first housing part 6.

  The other end portion of the base portion 9 is provided with a base passage hole 9a for passing a wiring member (not shown). A central electrode 9b that seals the distal end of the cap passage hole 9a is provided at the distal end of the cap passage hole 9a. The wiring member passed through the cap passage hole 9a allows the center electrode 9b and The lighting circuit unit 10 is electrically connected. The center electrode 9b is provided by joining the wiring member and the other end of the base part 9 with solder or the like. And this nozzle | cap | die part 9 becomes an input terminal which inputs commercial electric power into the illumination lamp 1 via a lighting fixture by attaching to a lighting fixture (for example, socket) (not shown).

(Lighting circuit unit 10)
The lighting circuit unit 10 includes a lighting circuit board 11 and drives the light source 3. The lighting circuit board 11 is mounted with an AC-DC converter circuit (not shown) for converting AC power, which is commercial power, into DC power for driving the LED 3a. In addition, the lighting circuit unit 10 is electrically connected to the base part 9, and wiring members (not shown) such as a wire harness and a connector for supplying commercial power from the base part 9 to the lighting circuit unit 10. It also has. The lighting circuit unit 10 converts the commercial power input from the base unit 9 into driving power (DC power) and supplies it to the light source 3. In order to stably drive the LED 3a, a load fluctuation detection function, a control function for controlling the drive current output from the AC-DC converter circuit according to the load fluctuation, and an inflow or outflow via a commercial power supply path The lighting circuit unit 10 may be equipped with a filter function for removing or reducing noise. These functions are realized by circuit components such as electrolytic capacitors. In addition, when using a laser diode, organic EL, etc. as a light emission means of the light source 3, it is good to comprise the lighting circuit unit 10 by changing circuit components etc. suitably according to it.

  The lighting circuit board 11 is a flat plate member, and is a circuit board on which wirings, capacitors, and the like are mounted. In the state where the lighting circuit board 11 is attached to the housing 5, two projections 12 extending in the radial direction of the housing 5 are formed on the lighting circuit board 11 at the end on the light source 3 side. Yes. That is, the lighting circuit board 11 has a shape that follows the inner shape of the first housing part 6 from the base part 9 side toward the light source 3 side, and at the end of the lighting circuit board 11 on the light source 3 side. Is formed with a protrusion 12 extending in the radial direction of the first housing 6 (in the direction of arrow X in the figure). Note that a predetermined gap is provided between the inner surface 6g of the first housing 6 and a circuit component (not shown) mounted on the lighting circuit board 11, and the lighting circuit board 11 is provided. Are fixed inside the first housing part 6 without applying mechanical stress to the circuit components. Thus, the illumination lamp 1 has a structure in which the protruding portion 12 of the lighting circuit board 11 and the slit 61 of the first housing portion 6 are engaged.

[About dimensions]
Next, the dimensions of each member will be described with reference to FIG.
As shown in FIGS. 3A and 3B, in the lighting circuit board 11, the width (the length in the arrow X direction) of the part including the protrusion 12 of the lighting circuit board 11 is W1, and the lighting circuit board 11 is used. The width of the portion excluding the protrusion 12 (length in the arrow X direction) is W2, the width of one protrusion 12 (length in the arrow X direction) is W3, and the width of the other protrusion 12 (in the arrow X direction). The length (length) is W4, the height of one protrusion 12 (the length in the arrow Z direction) is L1, the height of the other protrusion 12 (the length in the arrow Z direction) is L2, and the depth, that is, the thickness ( The length in the arrow Y direction) is D1. For these dimensions, the relationship W1 = W2 + W3 + W4 holds. Note that L1 and L2 may have the same dimensions.

  Further, as shown in FIGS. 3A, 3B, and 3C, in the first housing portion 6, the outer diameter (the length in the arrow X direction) of the first housing portion 6 is determined. ) Is R1, the inner diameter (the length in the arrow X direction) is R2, the thickness of the first casing 6 (the length in the arrow X direction) is D2, D3, and the height of one slit 61 (the arrow Z direction). L3), the height of the other slit 61 (length in the arrow Z direction) is L4, and the width of both slits 61 (length in the arrow Y direction) is T1. For these dimensions, the relationship R1 = R2 + D3 + D3 holds. Note that L3 and L4 may have the same dimensions.

  A dimensional relationship between the lighting circuit board 11 and the first and second housing parts 6 and 7 will be described. Regarding the width direction (length in the arrow X direction), the relationship of R2 ≦ W1 ≦ R1, W2 ≦ R2, D2 ≦ W3, D3 ≦ W4 holds, and in the height direction (length in the arrow Z direction), L1 ≦ L3 and L2 ≦ L4 are satisfied, and in the depth direction (arrow Y direction), the relationships D1 ≦ T1 and D1 ≦ T2 are satisfied.

[About the protrusion 12 and the slit 61]
FIG. 4 is an assembled perspective view of the first housing 6 and the lighting circuit board 11 shown in FIG. FIG. 5 is a diagram for explaining assembly of the second housing portion 7 of the illumination lamp 1 according to Embodiment 1 and the first housing portion 6 to which the lighting circuit board 11 is attached. Based on FIG.4 and FIG.5, the protrusion part 12 and the slit 61 are demonstrated.
The protrusion 12 is provided at the end of the lighting circuit board 11 on the light source 3 side so as to extend in the radial direction of the housing 5. That is, the width of the lighting circuit board 11 is larger at the position where the protrusion 12 is formed than at the position where the protrusion 12 is not formed.
As shown in FIG. 4, the protruding portion 12 is illustrated as an example having an angular shape, but is not limited thereto, and may have a curved surface. Moreover, although the case where the protrusion part 12 is provided in the edge part by the side of the light source 3 of the lighting circuit board 11 is shown as an example, it is not limited to it, A cap part rather than the edge part by the side of the light source 3 The position may be shifted to the 9 side. Furthermore, although both the protrusion parts 12 are demonstrated as what has the same shape, it is not limited to it, It is good also as a different shape. In this case, the shape of the slit 61 may be set corresponding to the shape of the protruding portion 12.

  The slit 61 is not a hole formed so as to communicate the inner side and the outer side of the first housing 6, but is formed so that the light source 3 side is opened. As shown in FIG. 4, the lighting circuit board 11 is lowered from the light source 3 side to the base part 9 side of the first housing portion 6 until the protruding portion 12 comes into contact with the slit 61. Can be accommodated in the first housing portion 6. Two slits 61 are formed in the first casing 6. The positional relationship between the two slits 61 is symmetrical with respect to the axis O of the housing 5 and is a position on the straight line passing through the radial center of the first housing portion 6.

  As described above, the illumination lamp 1 has a structure in which the protruding portion 12 of the lighting circuit board 11 and the slit 61 of the first housing portion 6 are engaged with each other, so that the lighting circuit board 11 and the first housing are engaged. The body part 6 can be prevented from rotating with respect to each other, that is, the rotation can be stopped. In addition, since the slit 61 is formed not to be a hole but to be opened on the light source 3 side, the protruding portion 12 is inserted into the slit 61 by inserting the lighting circuit board 11 into the first housing portion 6. The slit 61 and the protrusion 12 can be easily engaged with each other.

[About assembly]
Next, the assembly process of the illumination lamp 1 will be described. As shown in FIG. 4, first, the lighting circuit board 11 is inserted from an opening formed on one end side of the first housing 6 (see FIG. 4A). The lighting circuit board 11 is inserted into the first housing portion 6 until the end surface of the protruding portion 12 on the base portion 9 side and the end surface of the slit 61 on the base portion 9 side are in contact with each other. The part 6 and the lighting circuit board 11 are assembled (see FIG. 4B). In addition, although the case where the lighting circuit board 11 was moved and inserted in the 1st housing | casing part 6 was demonstrated to the example, conversely, you may assemble by moving the 1st housing | casing part 6 to the lighting circuit board 11 side. However, it may be assembled by moving both.

  After that, as shown in FIG. 5, the other end side of the second casing unit 7 on which the light source 3 is placed is connected to one end side of the first casing unit 6 in which the lighting circuit board 11 is accommodated. The first housing 6 and the second housing 7 are assembled by insertion. In addition, although the case where the 2nd housing | casing part 7 was moved and inserted in the 1st housing | casing part 6 was demonstrated to the example, conversely, the 1st housing | casing part 6 is made to the 2nd housing | casing part 7 side. It can be assembled by moving it, or it can be assembled by moving both.

[Effects of Lighting Lamp 1 According to Embodiment 1]
In the illumination lamp 1 according to the first embodiment, since the slit 61 is formed in the first housing portion 6 and the protruding portion 12 that engages with the slit 61 is formed in the lighting circuit board 11, It is possible to restrict the casing 6 and the lighting circuit board 11 from rotating with each other, damage to components such as wiring and capacitors connected to the lighting circuit board 11, and the first casing 6 It is possible to suppress problems such as damage to the inner wall.

  The illumination lamp 1 according to the first embodiment is configured to hold the lighting circuit board 11 by forming the slit 61 without providing a holding portion like a conventional illumination lamp. That is, in the illumination lamp 1, it is not necessary to provide a space for separately forming the holding portion. For this reason, it can control that the lighting circuit board 11 rotates, utilizing the limited space in the 1st housing | casing part 6 effectively.

Embodiment 2. FIG.
Next, the illumination lamp 1a according to Embodiment 2 will be described. FIG. 6 is a cross-sectional view of the illumination lamp 1a according to the second embodiment. The second embodiment is different from the first embodiment in that the lighting circuit board 11a is provided at a position shifted from the axis O of the housing 5a. In the second embodiment, portions common to the first embodiment are denoted by the same reference numerals, description thereof is omitted, and differences from the first embodiment will be mainly described.

  The slits 61a of the first housing portion 6a are formed so as to face each other, but are formed at two locations that are not symmetrical with respect to the axis O of the housing 5a. And the lighting circuit board 11 is accommodated in the 1st housing | casing part 6a at predetermined intervals from the diameter center of the 1st housing | casing part 6a. In a state where the protruding portion 12a is inserted into the slit 61a and the slit 61a and the protruding portion 12a are engaged, the lighting circuit board 11a and the center of the diameter of the first housing portion 6a (axis O) A predetermined interval is provided between them. That is, the slit 61a is formed at a position where a preset interval is provided between the lighting circuit board 11a and the center (axis O) of the diameter of the first housing portion 6a. In the second embodiment, compared with the first embodiment, the length of the lighting circuit board 11 in the short direction can be shortened, and the material used for the lighting circuit board 11a can be reduced. Can be obtained.

Embodiment 3 FIG.
Next, the illumination lamp 1b according to Embodiment 3 will be described. FIG. 7 is a cross-sectional view showing an illumination lamp 1b according to the third embodiment. FIG. 8 is a view for explaining assembly of the first housing 6b and the lighting circuit board 11b of the illumination lamp 1b shown in FIG. 7A is a sectional view corresponding to the XX section of FIG. 7C, FIG. 7B is a sectional view corresponding to the YY section of FIG. 7C, FIG.7 (c) is sectional drawing corresponding to the AA cross section of Fig.7 (a). 8A is a sectional view of a plane parallel to the section in FIG. 7A, and FIG. 8B is a sectional view of a plane parallel to the section in FIG. 7B. FIG.8 (c) is sectional drawing of a surface parallel to the cross section in FIG.7 (c). The third embodiment is different from the first embodiment in that the sub circuit board 15 is connected to the lighting circuit board 11b. In the third embodiment, portions common to the first embodiment are denoted by the same reference numerals, description thereof is omitted, and differences from the first embodiment will be mainly described.

  As shown in FIGS. 7 and 8, the lighting circuit unit 10 b includes a lighting circuit board 11 b and a sub circuit board 15. The sub circuit board 15 is connected by a board connecting member 17 in a direction (arrow Y direction) perpendicular to the lighting circuit board 11b. The board connecting member 17 is a connector that electrically connects the lighting circuit board 11 b and the sub circuit board 15, whereby the lighting circuit board 11 b is electrically connected to the sub circuit board 15. The LED 3a in the light source 3 is driven and / or controlled by circuit components (not shown) mounted on the lighting circuit board 11b and the sub circuit board 15.

And the sub circuit board 15 is provided with the sub protrusion part 16 extended in the radial direction of the housing | casing 5b from the edge part. Further, in the first casing 6b, the end surface on the light source 3 side has, for example, a rectangular sub-portion extending from the end surface to the longitudinal direction (arrow Z direction) of the first casing 6b in addition to the slit 61b. A slit 62 is formed. The sub projecting portion 16 of the sub circuit board 15 is inserted into the sub slit 62 and engaged with the sub slit 62.
When the lighting circuit unit 10b is accommodated in the first casing 6b, the lighting circuit board 11b and the sub circuit board 15 are accommodated in the first casing 6b. The number of sub slits 62 is not limited to one, and a plurality of sub slits 62 may be formed.

  As shown in FIG. 8C, when the lighting circuit board 11b and the sub circuit board 15 are installed inside the first housing 6b, the protrusion 12b of the lighting circuit board 11b is engaged with the slit 61b. Then, the sub protrusion 16 in the sub circuit board 15 engages with the sub slit 62. As described above, in the third embodiment, the sub-projections 16 in the sub-circuit board 15 engage with the sub-slits 62 in the first housing 6b, so that in addition to the effects obtained in the first embodiment, Even if the sub circuit board 15 is connected to the lighting circuit board 11b, the sub circuit board 15 is prevented from swinging inside the first housing portion 6b.

Embodiment 4 FIG.
FIG. 9 is a cross-sectional view showing an illumination lamp 1c according to the fourth embodiment. FIG. 10 is a view for explaining assembly of the engaging member 13, the lighting circuit board 11c, the first housing portion 6c, and the second housing portion 7c of the illumination lamp 1c shown in FIG. FIG. 11 is an assembled perspective view of the illumination lamp 1c shown in FIG. 9A is a cross-sectional view similar to the cross section in FIG. 1A, and FIG. 9B is a cross-sectional view similar to the cross section in FIG. 10A is a cross-sectional view of a plane parallel to the cross section in FIG. 9A, and FIG. 10B is a cross-sectional view of a plane parallel to the cross section in FIG. 9B.
In the fourth embodiment, the light source 3 side of the second casing portion 7c is opened, the heat dissipating lid 8 is provided so as to close the opening, and the engaging member 13 is provided. And different. In the fourth embodiment, portions common to the first embodiment are denoted by the same reference numerals, description thereof is omitted, and differences from the first embodiment will be mainly described.

(Second housing part 7)
The second casing portion 7c covers the outer periphery of the first casing portion 6 and dissipates heat from the first casing portion 6 in that the second casing of the first embodiment. This is the same as part 7. The second housing portion 7c of the illumination lamp 1c according to the fourth embodiment is different from the first embodiment in that it has a cylindrical shape. That is, the second housing part 7c is opened not only on the base part 9 side but also on the light source 3 side. Here, the 1st housing | casing part 6c may be inserted from any edge part in the 2nd housing | casing part 7c.

(Groove 71)
A groove portion 71 is formed on the end surface of the second housing portion 7 c on the light source 3 side, for example, from the end surface to the longitudinal direction (arrow Z direction) of the second housing portion 7. Two groove portions 71 are formed on the end surface of the second housing portion 7c symmetrically with respect to the axis O of the housing 5c. Thus, a plurality of groove portions 71 may be formed. The first housing 6c and the second housing 7c are positioned so that the slit 61 and the groove 71 overlap.

(Heat dissipation lid 8)
The heat dissipation lid 8 is attached to the end of the second casing 7c where the groove 71 is formed, that is, the end on the light source 3 side, and closes the end of the second casing 7c. In addition, the LED substrate 3 b in the light source 3 is placed on the heat dissipation lid 8, whereby the heat dissipation lid 8 radiates heat generated from the light source 3. The heat dissipating lid 8 is provided with a lid screw hole 8a and a lid through hole 8b at positions corresponding to the board screw hole 3ba and the board through hole 3bb in the LED substrate 3b, respectively. Then, the screw 14 is inserted into the board screw hole 3ba and the lid screw hole 8a, and is screwed into the housing screw hole 6d. Further, the wiring member (not shown) is passed through the board wiring hole 3bb and the lid wiring hole 8b. The screw 14 may be inserted through only the lid screw hole 8a and screwed into the housing screw hole 6d. In this case, the LED substrate 3b can be configured to be bonded to the heat dissipation lid 8 using an adhesive member or an adhesive tape.

  The heat radiation lid 8 is made of a heat conductive material such as a metal material in order to secure heat capacity and obtain efficient heat radiation in consideration of heat generation from the light source 3. In addition, in the thermal radiation cover 8, materials other than a metal material can also be selected according to the design specification or purpose of a product. For example, the lighting circuit unit 10c installed inside the first housing 6c is affected by heat generated from the light source 3, but this effect is affected when the heat dissipation lid 8 is made of a resin material or the like. It has the effect of reducing heat insulation or heat insulation. Further, in the illumination lamp 1c that does not require heat dissipation or heat insulation, the heat dissipation lid 8 may be omitted. Thereby, reduction of material cost and reduction of an assembly man-hour can be aimed at.

(Engagement member 13)
The engaging member 13 has a rod shape, and engages with the slit 61c in the first casing 6 and the groove 71 in the second casing 7c. Thus, when the engaging member 13 engages with the slit 61c and the groove 71, the longitudinal direction of the engaging member 13 is parallel to the radial direction of the housing 5c. Further, two slits 61 c and two groove portions 71 are provided in the first housing portion 6 c and the second housing portion 7 c, respectively, symmetrically with respect to the axis O of the housing 5. For this reason, when the engaging member 13 engages with these slits 61c and the groove part 71, the engaging member 13 will be in the state which cross | intersected the axis | shaft O of the housing | casing 5c. Further, the slit 61c and the groove portion 71 are formed on the end surfaces on the light source 3 side in the first housing portion 6c and the second housing portion 7c, respectively. For this reason, when the engaging member 13 engages with the slit 61c and the groove portion 71, the first housing portion 6c and the second housing portion 7c rotate on the light source 3 side of the housing 5c. Is regulated. Thus, the engaging member 13 is a rotation restricting portion that restricts the mutual rotation of the first casing portion 6c and the second casing portion 7c.

  Note that the material, shape, and the like of the engaging member 13 are appropriately determined after having a predetermined strength. Moreover, the manufacturing method of the engaging member 13 is appropriately determined by an injection molding method, an extrusion molding method, a press molding method, or the like according to the selected material and shape. The engaging member 13 may be added with a heat transfer function for transferring heat generated from the light source 3 to the first housing portion 6, or the heat generated from the light source 3 may be added to the lighting circuit unit 10c. You may add the thermal insulation function which suppresses transmitting to. For example, when it is desired to add a heat transfer function, the engaging member 13 may be made of a heat conductive material such as a metal material. When it is desired to add a heat shielding function, the engaging member 13 is made of a resin material or the like. Good.

[About dimensions]
As shown in FIG. 10, in the engagement member 13, the width (length in the arrow X direction) of the engagement member 13 is W5, the height (length in the arrow Z direction) is L5, and the depth (length in the arrow Y direction). Is D4. In the second housing portion 7c, a width obtained by adding the length of the two groove portions 71 (length in the arrow X direction) to the inner diameter (length in the arrow X direction) of the second housing portion 7c is R3, The inner diameter (the length in the arrow X direction) of the second casing portion 7c is R4, the height of both the groove portions 71 (the length in the arrow Z direction) is L6, and the width of both the groove portions 71 (the length in the arrow Y direction). S) is T2.

  A dimensional relationship between the engaging member 13 and the first housing portion 6c and the second housing portion 7c will be described. With respect to the width direction (length in the arrow X direction), the relationship of R1 ≦ W5 ≦ R3 is established, and with respect to the height direction (length in the arrow Z direction), relationships of L5 ≦ L6 ≦ L3 and L5 ≦ L6 ≦ L4. In the depth direction (arrow Y direction), the relationship of D4 ≦ T1 and D4 ≦ T2 is established. In other words, the engaging member 13 is designed to be able to fit into the slit 61c in the first housing portion 6c and the groove portion 71 in the second housing portion 7c. The body portion 7c is designed not to reach the region 7d where the heat dissipation lid 8 is installed.

  Further, the protruding portion 12c of the lighting circuit board 11 is designed to engage with the slit 61c in the first housing portion 6c and not reach the region of the groove portion 71 in the second housing portion 7c.

  Next, the dimensional relationship in the height direction (arrow Z direction) between the engaging member 13 and the lighting circuit board 11c and the first housing 6c will be described. About these, the relationship of L5 + L1 <= L3, L5 + L2 <= L4 is formed. That is, both the engaging member 13 and the lighting circuit board 11c are accommodated in the slit 61c in the first housing portion 6c in the height direction (arrow Z direction). Furthermore, the dimensional relationship between the first housing 6c and the second housing 7c will be described. About these, the relationship of R1 <= R4 is formed. In other words, the outer diameter R1 of the first casing portion 6c is designed to be smaller than the inner diameter R4 of the second casing portion 7c, whereby the first casing portion 6c becomes the second casing portion. 7c can be inserted into the interior.

[About assembly]
Next, the assembly process of the illumination lamp 1c will be described. First, the 1st housing | casing part 6c in which the lighting circuit board 11c was installed is inserted from the other end part in the 2nd housing | casing part 7c, and is fitted. Then, the engaging member 13 engages with the slit 61c in the first housing portion 6c and the groove portion 71 in the second housing portion 7c. Thereafter, the heat dissipating lid 8 is placed on the second housing portion 7 c, and the LED substrate 3 b in the light source 3 is placed on the heat dissipating lid 8. Thereby, the illumination lamp 1c is assembled. In addition, the 1st housing | casing part 6c may be inserted and fitted from the one end part in the 2nd housing | casing part 7c.

  The fourth embodiment has been described above. Here, in the description of the fourth embodiment, the case where the number of the engaging members 13 is one has been described as an example, but two or more may be used. In this case, the number of slits 61c and groove portions 71 corresponding to the number of the engaging members 13 are provided.

(First modification)
FIG. 12 is a modification of the illumination lamp 1c according to the fourth embodiment. As shown in FIGS. 12A to 12E, five modified examples will be described.
Fig.12 (a) is a perspective view which shows the engaging member 13d in a 1st modification. The illumination lamp 1c according to the first modification is different from the engagement member 13 of the fourth embodiment in the shape of the engagement member 13d. As shown in FIG. 12A, the engaging member 13d has a cross-shaped structure instead of a rod shape. Accordingly, four slits 61 c are formed on the end surface of the first housing portion 6 c symmetrically with the axis O of the housing 5, and a groove portion is formed on the end surface of the second housing portion 7. Four 71 are formed symmetrically with respect to the axis O of the housing 5. In the first modified example, the engagement member 13d is engaged with the four slits 61 and the groove portion 71, whereby mutual rotation between the first housing portion 6 and the second housing portion 7 is restricted. ing. For this reason, the effect which controls rotation can be improved further. Note that the length of the engaging member 13d in the depth direction (arrow Y direction) is W5, as is the width (arrow X direction).

(Second modification)
Next, an illumination lamp 1c according to a second modification of the fourth embodiment will be described. FIG. 12B is a perspective view showing the engaging member 13e in the second modified example. The illumination lamp 1c according to the second modified example is also different from the first embodiment in the shape of the engaging member 13e. As shown in FIG. 12 (b), the engaging member 13e has a circular shape, and two protrusions 13i are formed on the periphery of the engaging member 13e symmetrically with the axis O of the engaging member 13e. The protrusions 13i engage with the slits 61c in the first housing 6c and the grooves 71 in the second housing 7c, so that the first housing 6c and the second housing 7c are connected. Mutual rotation is regulated.
In the second modified example, the engagement member 13e has a circular shape and therefore has a large volume. For this reason, the strength of the engaging member 13e can be improved. In addition, the lighting circuit unit 10c installed inside the first housing 6c is affected by heat generated from the light source 3. However, when the engaging member 13e is made of a resin material or the like, this influence is exerted. There is an effect of heat insulation or heat insulation to reduce the above. Furthermore, when the engaging member 13e is made of a heat conductive material such as a metal material, the heat capacity can be increased by increasing the volume of the heat conductive material, and the heat generated mainly from the light source 3 can be increased. The heat transfer property transmitted to the second casing portion 7c can be increased. In addition, the diameter of the circular part in the engaging member 13e is W2, similarly to the width of the part excluding the protruding part 12c of the lighting circuit board 11c.

(Third Modification)
Next, an illumination lamp 1c according to a third modification of the fourth embodiment will be described. FIG. 12C is a perspective view showing the engaging member 13f in the third modified example. The illumination lamp 1c according to the third modification is also different from the first embodiment in the shape of the engaging member 13f. As shown in FIG. 12 (c), the engaging member 13f has a circular shape, and four protrusions 13i are formed on the peripheral edge thereof symmetrically with the axis O of the engaging member 13f. Accordingly, four slits 61c are formed on the end surface of the first housing portion 6c symmetrically with respect to the axis O of the housing 5c, and a groove portion is formed on the end surface of the second housing portion 7c. Four 71 are formed symmetrically with respect to the axis O of the housing 5c.

  In the third modification, the four protrusions 13i are engaged with the slits 61c in the first housing portion 6c and the grooves 71 in the second housing portion 7c, so that the first housing portion 6c and the first housing portion 6c Mutual rotation with the two casing portions 7c is restricted. For this reason, the effect which controls rotation can be improved further. In addition, since the engaging member 13f has a circular shape, its volume is large. For this reason, the strength of the engaging member 13f can be improved. Further, the lighting circuit unit 10c installed in the first housing 6c is affected by heat generated from the light source 3, but this influence is caused when the engaging member 13f is made of a resin material or the like. There is an effect of heat insulation or heat insulation to reduce the above. Furthermore, when the engaging member 13f is made of a heat conductive material such as a metal material, the heat capacity can be increased by increasing the volume of the heat conductive material, and the heat generated mainly from the light source 3 can be increased. The heat transfer property transmitted to the second casing portion 7c can be increased.

(Fourth modification)
Next, the illumination lamp 1c which concerns on the 4th modification of Embodiment 4 is demonstrated. FIG. 12D is a perspective view showing the engaging member 13g in the fourth modified example. In the illumination lamp 1c according to the fourth modified example, the shape of the engaging member 13g is a cross-shaped cross section as in the first modified example. And as shown in FIG.12 (d), the engaging member 13g contacts the heat dissipation cover 8, and is mutually fixed. The material of the engaging member 13g can be appropriately selected according to the design specification of the illumination lamp 1, but when the engaging member 13g and the heat dissipating lid 8 are made of the same material. These engaging members 13g and the heat radiation lid 8 are preferably integrally formed. Further, when at least a part of the engaging member 13g is made of a material different from the material of the heat dissipating lid 8, the engaging member 13g and the heat dissipating are formed by bonding with an adhesive member, assembly using a screw, insert molding, or the like. The lid 8 is fixed. Note that the shape of the engaging member 13g is not a cross-shaped cross section, and is appropriately changed as long as it is a shape that can regulate the mutual rotation of the first housing portion 6c and the second housing portion 7c. be able to. In addition, let the diameter of the thermal radiation cover 8 be W6 larger than the width W5 of the engaging member 13g, and let thickness be L7.

(5th modification)
Next, the illumination lamp 1c which concerns on the 5th modification of Embodiment 4 is demonstrated. FIG. 12E is a perspective view showing the engaging member 13h in the fifth modified example. In the illumination lamp 1c according to the fifth modified example, the shape of the engaging member 13h is circular as in the third modified example, and further, the periphery thereof is symmetrical with the axis O of the engaging member 13h. Four protrusions 13i are formed on the surface. And as shown in FIG.12 (e), the engaging member 13h contacts the radiation | emission cover 8, and is mutually fixed like the 4th modification. The material of the engaging member 13h can be appropriately selected according to the design specification of the illumination lamp 1c. However, when the engaging member 13h and the heat dissipation lid 8 are made of the same material, These engaging members 13h and the heat radiation lid 8 are preferably integrally formed. If at least a part of the engaging member 13h is made of a material different from the material of the heat dissipating lid 8, the engaging member 13h and the heat dissipating are formed by bonding with an adhesive member, assembly using a screw, insert molding, or the like. The lid 8 is fixed. Note that the shape of the engaging member 13h is not a circular shape, and may be changed as long as it is a shape that can regulate the mutual rotation of the first housing portion 6c and the second housing portion 7c. Can do.

Embodiment 5. FIG.
Next, an illumination lamp 1d according to Embodiment 5 will be described. FIG. 13 is a sectional view showing an illumination lamp 1d according to the fifth embodiment. FIG. 14 is an assembled perspective view of the illumination lamp 1d shown in FIG. In the fifth embodiment, the rotation restricting portion that restricts the mutual rotation of the first casing portion 6D and the second casing portion 7D is not the engaging member 13 described in the fourth embodiment, but is lit. It is different from the fourth embodiment in that it is a protruding portion 12d on the circuit board 11d. Moreover, in Embodiment 5, the groove part 71d with the large dimension of the Z direction of the groove part 71 in Embodiment 4 is formed. In the fifth embodiment, portions common to the first to fourth embodiments are denoted by the same reference numerals, description thereof is omitted, and differences from the first embodiment will be mainly described.

  In the fifth embodiment, as shown in FIGS. 13 and 14, the engaging member 13 in the fourth embodiment is not provided, and the protruding portion 12d in the lighting circuit board 11d is formed by the first housing portion 6D. Is engaged with the slit 61d and the groove portion 71d of the second housing portion 7D. The width of the protruding portion 12d (in the direction of the arrow X) is longer than the thickness of the first housing portion 6D, that is, longer than the width of the protruding portion 12d in the first embodiment. The protruding part 12d is formed so as to extend outward from the outer peripheral surface of the first housing part 6D. As a result, the protruding portion 12d does not fit in the slit 61d, and its tip is exposed from the slit 61d. Then, the exposed tip engages with the groove 71d.

  A groove portion 71D is formed on the light source 3 side of the second housing portion 7D. The groove 71D is deeply formed up to the position where the protruding portion 12d of the lighting circuit board 11d is disposed. In the second housing portion 7D, a groove portion 71d into which a portion of the projecting portion 12d extending outward from the outer peripheral surface of the first housing portion 6D is inserted is formed at a position facing the slit 61d. ing. As shown in FIG. 13 and FIG. 14, the groove portion 71 extends in the direction from the light source 3 side toward the base portion 9 side so that the portion of the protruding portion 12 d exposed from the slit 61 d is inserted into the groove portion 71 d. It means that it is formed to stretch.

As an assembly process of the illumination lamp 1d, as shown in FIG. 14, the lighting circuit board 11d on which circuit components (not shown) are mounted is inserted from the opening on the light source 3 side in the first housing portion 6D. . At that time, the protruding portion 12d of the lighting circuit board 11d is engaged with the slit 61d of the first housing portion 6D. As described above, since the width of the protruding portion 12d is longer than the thickness of the first housing portion 6D, the protruding portion 12c does not fit in the slit 61c as shown in FIG. The tip is exposed to the outside of the first housing 6D.
The first housing 6D on which the lighting circuit board 11d is installed is inserted from the opening on the light source 3 side in the second housing 7D. At that time, in the projecting portion 12d in the lighting circuit board 11d, the tip of the projecting portion 12d exposed from the outside of the first housing portion 6D engages with the groove portion 71d in the second housing portion 7D.

  As described above, since the protruding portion 12d of the lighting circuit board 11d is engaged with the slit 61d of the first housing portion 6D and the groove portion 71d of the second housing portion 7D, as in the first embodiment. On the light source 3 side of the body 5c, the mutual rotation of the first casing portion 6D and the second casing portion 7D is restricted. Thus, in addition to the function for the protrusion 12d in the lighting circuit board 11d to be held by the first housing 6D, the first housing 6D and the second housing 7D are mutually connected. The engagement member 13 described in the fourth embodiment can be omitted. For this reason, while reducing the number of parts, cost can be reduced.

  Note that, as in the fifth embodiment, when the mutual rotation between the first housing 6D and the second housing 7D is restricted by the lighting circuit board 11d, a comparison of glass epoxy or ceramic is made. It is preferable to use a hard material. Furthermore, it is preferable that the lighting circuit board 11d has a strength capable of resisting the mutual rotational force between the first housing part 6D and the second housing part 7D by making the thickness as large as possible. . The assembly process of the illumination lamp 1d is not limited to the above. First, the first housing 6D is inserted from the opening on the base 9 side in the second housing 7D, and then the circuit components are mounted. The lighting circuit board 11d thus made may be inserted from the opening on the light source 3 side in the first housing portion 6D.

Embodiment 6 FIG.
Next, the illuminating device 2 which concerns on Embodiment 6 is demonstrated. FIG. 15 is a schematic diagram showing the illumination device 2 according to the sixth embodiment. The illumination device 2 includes the illumination lamp 1 according to any one of the first to fourth embodiments. As shown in FIG. 15, the lighting device 2 is attached to, for example, a ceiling, and the ceiling fixture mounting portion 24 is provided with a hole of a size that can store the lighting lamp 1. It has become.

  The appliance main body 21 is provided with a socket 22 to which the illumination lamp 1 is attached at the back. By attaching the base portion 9 of the illumination lamp 1 to the socket 22, the illumination lamp 1 is attached to the appliance main body 21. Installed. A dome-shaped reflector 23 for reflecting the light emitted from the illumination lamp 1 is provided on the inner wall of the instrument main body 21. Thus, the illumination lamp 1 can be installed on the ceiling and used as the illumination device 2 for the ceiling, but can also be used as another illumination device 2. For example, it can also be used as a lighting device 2 that is installed on a desk and illuminates the desk.

  DESCRIPTION OF SYMBOLS 1 Illumination lamp, 1a illumination lamp, 1b illumination lamp, 1c illumination lamp, 1d illumination lamp, 2 illumination device, 3 light source, 3a LED, 3b LED board, 3ba board screw hole, 3bb board wiring hole, 4 globe, 5 housing Body, 5a housing, 5b housing, 5c housing, 6 first housing portion, 6a first housing portion, 6b first housing portion, 6c first housing portion, 6d housing screw Hole, 6D first casing, 6e boss, 6f conical section, 6g inner surface, 7 second casing, 7c second casing, 7D second casing, 7d region, 8 heat dissipation Lid, 8a Lid screw hole, 8b Lid hole, 9 Nose part, 9a Nozzle line, 9b Center electrode, 10 Lighting circuit unit, 10b Lighting circuit unit, 10c Lighting circuit unit, 11 Lighting circuit board (circuit board) , 11a Lighting circuit board, 11 Lighting circuit board, 11c Lighting circuit board, 11d Lighting circuit board, 12 protruding part, 12a protruding part, 12b protruding part, 12c protruding part, 12d protruding part, 13 engaging member, 13d engaging member, 13e engaging member, 13f Engagement member, 13g Engagement member, 13h Engagement member, 13i Protrusion, 14 Screw, 15 Sub circuit board, 16 Sub projection, 17 Substrate connection member, 21 Instrument body, 22 Socket, 23 Reflector, 24 Instrument attachment part, 61 slit, 61a slit, 61b slit, 61c slit, 61d slit, 62 sub slit, 71 groove part, 71d groove part, 71D groove part.

Claims (12)

A light source;
A circuit board for driving the light source;
A casing having a cylindrical first casing portion in which the circuit board is installed and a second casing portion for accommodating the first casing portion , wherein the light source is provided; ,
A rotation restricting portion that restricts mutual rotation between the first housing portion and the second housing portion;
With
The circuit board is formed with a protruding portion extending in a radial direction of the housing,
The first housing part is formed with a slit into which the protruding part is inserted ,
The rotation restricting portion is
Attached to the slit and the second casing part of the first casing part,
An illumination lamp characterized by being a rod-shaped engaging member extending in a radial direction of the casing . A light source;
A circuit board for driving the light source;
A casing having a cylindrical first casing portion in which the circuit board is installed and a second casing portion for accommodating the first casing portion , wherein the light source is provided; ,
A rotation restricting portion that restricts mutual rotation between the first housing portion and the second housing portion;
With
The circuit board is formed with a protruding portion extending in a radial direction of the housing,
The first housing part is formed with a slit into which the protruding part is inserted ,
The rotation restricting portion is
Attached to the slit and the second casing part of the first casing part,
An illumination lamp characterized by being an engaging member extending in a radial direction of the housing and having a cross-sectional structure . A plurality of the slits into which the protrusions are inserted are formed in the first casing so that the end on the light source side is opened,
Wherein the circuit board, the illumination lamp according to claim 1 or 2, wherein the protruding portion of the plurality to be inserted into the slit is formed. The slit is
Between the center of the diameter of the circuit board of the first housing portion, that the pre-set interval is formed in a position which is provided in any one of claims 1-3, characterized in The described illumination lamp. The second housing part is formed on the end side on the light source side, and a groove part into which the rotation restricting part is inserted is formed.
The illumination lamp according to claim 1 or 2 , wherein the rotation restricting portion engages with the slit of the first housing portion and the groove portion of the second housing portion. The light source is placed on the end of the housing via a heat dissipation lid that dissipates heat generated from the light source,
It said engaging member, the illumination lamp according to claim 1 or 2, characterized in that it is fixed in contact with the heat radiating cap. The engaging member is
The heat generated from the light source, the first illumination lamp according to any one of claims 1, 2, 6, characterized in that it comprises a heat transfer function of transferring to the housing portion. The engaging member is
The illumination lamp according to any one of claims 1, 2 , and 6 , further comprising a heat shielding function that suppresses heat generated from the light source from being transmitted to the circuit board. A light source;
A circuit board for driving the light source;
Said circuit first housing substrate is cylindrical, which is installed inside and houses said first housing portion, wherein the light source is provided, et al is, a second housing portion which serves as a heat sink A housing including ,
A glove provided in the second housing and covering the light source;
A rotation restricting portion that restricts mutual rotation between the first housing portion and the second housing portion;
With
The second housing portion is provided with the light source,
The circuit board is formed with a protruding portion extending in a radial direction of the housing,
The first housing part is formed with a slit into which the protruding part is inserted ,
The rotation lamp is attached to the slit of the first casing part and the second casing part . A light source;
A circuit board for driving the light source;
Said circuit first housing substrate is cylindrical, which is installed inside and houses said first housing portion, wherein the light source is provided, et al is, a second housing portion which serves as a heat sink A housing including ,
A glove provided in the second housing and covering the light source;
With
The circuit board is formed with a protruding portion extending in a radial direction of the housing,
The first housing part is formed with a slit into which the protruding part is inserted ,
The protruding portion is formed to extend outward from the outer peripheral surface of the first housing portion,
A portion of the protruding portion that extends outward from the outer peripheral surface of the first housing portion is inserted into the second housing portion, and a groove portion that is parallel to the slit is formed. Lighting lamp characterized by. A light source;
A circuit board for driving the light source;
Said circuit first housing substrate is cylindrical, which is installed inside and houses said first housing portion, wherein the light source is provided, et al is, a second housing portion which serves as a heat sink A housing including ,
A glove provided in the second housing and covering the light source;
An attachment member inserted through the light source, the second casing, and the first casing;
With
The second housing portion is provided with the light source,
The circuit board is formed with a protruding portion extending in a radial direction of the housing,
The first housing part is formed with a slit into which the protruding part is inserted ,
The mounting lamp is fixed to the first casing, and the illumination lamp is characterized in that Lighting apparatus characterized by having an illumination lamp according to any one of claims 1 to 11.

Images