JP6913934B2 - LED lamp set - Google Patents

Description

The present invention relates to an LED lamp set that can be attached to a luminaire to which a fluorescent lamp can be attached.

In recent years, LED lamps using a power-saving and long-life LED element as a light source have become widespread. Along with this, LED lamps that replace existing round fluorescent lamps have also been proposed (for example, Patent Document 1).
In the LED lamp described in Patent Document 1, a metal printed circuit board having a strip-shaped portion and a comb-shaped portion is bent in an annular shape, and each comb-shaped portion is formed on a slope having a predetermined angle with respect to the strip-shaped portion. It is bent in three stages so as to have a portion, a horizontal portion substantially perpendicular to the strip-shaped portion, and a rear end portion substantially parallel to the strip-shaped portion. A pattern having a heat radiating pad portion and a power supply pattern is formed on the printed circuit board, and the power supply pattern on the slope portion of the one comb-shaped portion and the horizontal comb-shaped portion adjacent to the one comb-shaped portion are formed. A plurality of LED elements are attached by alternately contacting the electrodes of the LED element with the power supply pattern on the unit and contacting the heat dissipation terminal of the LED element with the heat dissipation pad portion. An annular heat sink having a width substantially the same as that of the strip is attached to the inner surface side of the strip. The printed circuit board to which the LED element and the heat sink are attached and the power supply board are housed in the upper case and the lower case.

Japanese Unexamined Patent Publication No. 2012-89450

However, in the LED lamp described in Patent Document 1, since the power supply board (circuit) is housed in the upper case and the lower case, light is not emitted from the power supply board portion, and the LED lamp becomes a non-light emitting portion.
An object of the present invention is to provide an LED lamp set that can be attached to an existing lighting fixture and can emit light from a wide range.

The LED lamp set according to the present invention is an LED lamp set that can be attached to a lighting fixture to which a fluorescent lamp can be attached, and includes an LED lamp having a plurality of LED elements as a light source and the LED lamp that is separate from the LED lamp. It includes a power supply unit that supplies lighting power to the LED element, a lamp-side cable that electrically connects the LED lamp and the power supply unit, and an appliance-side cable that electrically connects the power supply unit and the commercial power supply side.

According to the above configuration, since the power supply unit is provided separately from the LED lamp, the LED element as a light source can be arranged in a wide range.

It is the figure which looked at the luminaire with the shade removed from the front side. (A) is a perspective view of the LED lamp according to the embodiment as viewed from the front side, and (b) is a perspective view of the LED lamp as viewed from the back side. It is a perspective view which looked at the state which disassembled the LED lamp and cut it in half from the front side. It is a perspective view which looked at the state which disassembled the LED lamp and cut it in half from the back side. It is an enlarged view of the cross-sectional view of the LED lamp. It is a perspective view which looked at the state which attached the light source module to a part of the back bulb from the front side. It is a perspective view which looked at the state which attached the light source module to the back bulb and attached the support member to a part of the back bulb, as seen from the front side. It is the figure which looked at the state which attached the light source module to a part of the back bulb from the front side. It is the figure which looked at the state which attached the light source module to the back bulb and attached the support member to a part of the back bulb, as seen from the front side. (A) is a view of a part of the light source module seen from the front side, and (b) is a view of a part of the light source module seen from the back side. It is a perspective view which looked at the cross section in the state which removed the cover from an LED lamp from the back side. (A) is a perspective view of the LED lamp cut near the connecting portion of the support member from the back side, and (b) is a perspective view of the LED lamp cut near the connecting portion of the support member from the back side. It is a figure. (A) is a perspective view of the LED lamp cut in the circumferential direction near the connecting portion of the support member as viewed from the outer peripheral wall side, and (b) is the state in which the LED lamp is cut in the circumferential direction near the connecting portion of the support member. It is a perspective view of the state as seen from the inner peripheral wall side. (A) is a perspective view of the front valve and the back valve separated and cut near the second front inner joint portion on the front side and from the outside in the radial direction, and (b) is the front valve and the back. It is a perspective view which was seen from the inside in the radial direction on the back side in the state which separated from the valve and cut in the vicinity of the inner joint part of Table 2. FIG. (A) is a perspective view of the power supply unit according to the embodiment as viewed from the front side, and (b) is a perspective view of the power supply unit as viewed from the back side. It is a perspective view which looked at the disassembled state of a power supply unit from the front side. It is a perspective view which looked at the disassembled state of a power supply unit from the back side. It is sectional drawing of a power supply unit. It is a perspective view which inverted the state which removed the front housing from a power supply unit and removed a part of a circuit board. It is an enlarged perspective view of the periphery of the fixed holder in the state where the LED lamp is attached to the luminaire. (A) is a perspective view of the fixture according to the embodiment as viewed from the back side, and (b) is a side view of the fixture. (A) is a perspective view of the adapter according to the embodiment as viewed from the back side, and (b) is a perspective view of the adapter as viewed from the front side. (A) is a front view of the adapter, and (b) is a view of the adapter as viewed from the front side. It is a figure which shows the state which attached the LED lamp to the other type lighting fixture.

<Overview>
The LED lamp set according to one aspect of the embodiment is an LED lamp set that can be attached to a lighting fixture to which a fluorescent lamp can be attached, and is an LED lamp having a plurality of LED elements as a light source and a separate body from the LED lamp. It includes a power supply unit that supplies lighting power to the LED element, a lamp-side cable that electrically connects the LED lamp and the power supply unit, and an appliance-side cable that electrically connects the power supply unit and the commercial power supply side. .. As a result, the weight of the LED lamp can be reduced, and the load acting on the lighting equipment can be reduced.
In the LED lamp set according to another aspect of the embodiment, the LED lamp includes a plurality of conductive pieces for electrically connecting a plurality of the LED elements, a plurality of the LED elements, and the plurality of conductive pieces. And a valve body made of a translucent material. As a result, the LED lamp can be manufactured at low cost.
In the LED lamp set according to another aspect of the embodiment, the power supply unit has a mounting tool for detachably mounting on the side of the lighting fixture to which the fluorescent lamp is mounted. As a result, the power supply unit can be easily attached to the luminaire.
In the LED lamp set according to another aspect of the embodiment, the fixture includes a magnet. As a result, the power supply unit can be configured with a simple structure.
In the LED lamp set according to another aspect of the embodiment, the power supply unit has a circuit board on which electronic components for power supply are mounted, and the magnet is arranged on the luminaire side with respect to the circuit board. An LED for a nightlight is provided on the surface opposite to the lighting fixture in the above. This makes it possible to simplify the circuit configuration of the power supply unit.
In the LED lamp set according to another aspect of the embodiment, a light receiving element for receiving information regarding lighting of the LED element is provided on the surface of the circuit board on the side where the nightlight is provided. This makes it possible to simplify the circuit configuration of the power supply unit.

<Embodiment>
In the embodiment, a case where the LED lamp is attached to the luminaire in which the round fluorescent lamp is fixed by using the fixed power supply terminal and the fixed holder will be described. That is, a mode in which the LED lamp is attached to the G10q terminal, which is an example of the power feeding terminal, and the lighting fixture, which is an example of the fixed holder in the shape of “C”, by using a fixture or an adapter will be described.

1. 1. Overall Overview This will be explained mainly with reference to FIG.
The LED lamp 1 is detachably attached to the lighting fixture 9. The LED lamp 1 is electrically connected to the lighting fixture 9 side via the power supply unit 3. The LED lamp 1 is fixed by using a plurality of fixtures 5 (5A, 5B) and an adapter 7 (not shown because of the LED lamp 1 in the figure). Specifically, the fixture 5A fixed to the LED lamp 1 is fixed to the fixing holder 93 of the lighting fixture 9, and the fixture 5B fixed to the LED lamp 1 is connected to the G10q terminal 94 of the lighting fixture 9. It is fixed to 7.
In the above description, the fixtures 5A and 5B are fixed to the LED lamp 1, but for example, the LED lamp 1 may be fixed to the fixtures 5A and 5B fixed to the lighting fixture 9, or the LED lamp. The adapter 7 attached to the 1 side may be connected to the G10q terminal 94 of the lighting fixture 9. That is, when fixing the LED lamp 1 to the luminaire 9, the order is not particularly limited.
Here, the direction (side) of emitting light from the LED lamp 1 is the front side, and the direction (side) opposite to the direction (side) of emitting light is the back side. The radial direction of the round LED lamp 1 is simply referred to as the "diameter direction", and the circumferential direction of the LED lamp 1 is simply referred to as the "circumferential direction".
Hereinafter, each part and each unit will be described.

2. Lighting equipment This will be described with reference to FIG.
The luminaire 9 has a base 92 having an opening 91 in the center, a “C” -shaped fixed holder 93 provided on the base 92, a G10q terminal 94 provided on the base 92, and a sealing of the installation surface of the base 92. A sealing adapter (not shown) attached to the base 92, a nightlight 95 provided on the base 92, and a shade (not shown) detachably attached to the base 92 are provided.
In the lighting fixture 9, two round fluorescent lamps can be attached concentrically, and in FIG. 1, the LED lamp 1 is attached to the outer attachment area. Therefore, a set of the fixing holder 93 and the G10q terminal 94 for fixing the fixture 5 of the LED lamp 1 is hidden by the LED lamp 1.

3. 3. Outline of LED Lamp (1) A description will be given with reference to FIGS. 1 to 5.
The LED lamp 1 includes a plurality of LED elements as light emitting elements that are light sources.
The LED lamp 1 includes a light source module 10 and a bulb body 11 that houses the light source module 10. The valve body 11 here has an annular shape (for example, an annular shape).
The valve body 11 here is composed of a plurality of members. The bulb body 11 is composed of two members, a front bulb 12 located on the light emitting direction side of the light source module 10 and a back bulb 14 located on the back side.
The LED lamp 1 accommodates the support member 17 in the bulb body 11. The light source module 10 is arranged on the back side of the bulb body 11 with respect to the center in the front and back directions, and is supported by the support member 17 from the front side.
The LED lamp 1 has a through hole for the lamp side cable 317 for supplying power to the light source module 10 in the bulb body 11, and the bulb body 11 is provided with a cover 18 for covering the electrical connection portion.
Hereinafter, each part will be described in detail.

(2) Light Source Module A description will be given with reference to FIGS. 3 to 10, mainly FIG.
The light source module 10 includes a plurality of LED elements 101 and a mounting body 103 on which they are mounted. The LED element 101 is a so-called series-parallel connection in which a plurality of (for example, three) LED elements 101 are connected in parallel and these three parallel connection groups are connected in series.

The mounting body 103 has an annulus plate shape as a whole. The mounting body 103 is composed of a plurality of conductive pieces 105. There are two types of the plurality of conductive pieces 105: an inner conductive piece 107 located inside in the ring plate shape and an outer conductive piece 108 located outside in the ring plate shape. Here, the inner conductive piece 107 and the outer conductive piece 108 have an arc shape. The inner conductive piece 107 and the outer conductive piece 108 are made of a thin metal plate.
The outer conductive piece 108 has a length capable of mounting, for example, six LED elements 101 in the circumferential direction (which is also the longitudinal direction of the conductive piece 105). The inner conductive piece 107 has two types: a conductive piece having a length capable of mounting, for example, six LED elements 101 in the circumferential direction, and a conductive piece having a length capable of mounting, for example, three LED elements 101 in the circumferential direction. be. The longer conductive piece is referred to as the inner conductive piece 107A, and the shorter conductive piece is referred to as the inner conductive pieces 107B and 107C. When it is not necessary to distinguish the inner conductive pieces, the reference numeral "107" is used.
The inner conductive pieces 107 and the outer conductive pieces 108, and the inner conductive piece 107 and the outer conductive piece 108 are separated from each other.

The inner conductive piece 107A and the outer conductive piece 108 are arranged in a state of being displaced in the circumferential direction. Here, the inner conductive piece 107A and the outer conductive piece 108 are deviated by half the length in the circumferential direction. In other words, one inner conductive piece 107A is arranged so as to overlap with two outer conductive pieces 108 in half in the circumferential direction.
The outer peripheral edge of the inner conductive piece 107A has a stepped shape, and the inner peripheral edge of the outer conductive piece 108 has a stepped shape. In the step, the portion located on the outer side in the radial direction is referred to as the high step portion, and the portion located on the inner side in the radial direction is referred to as the low step portion.
The high-stage portion of the inner conductive piece 107A is arranged so as to face the high-stage portion of the outer conductive piece 108.
One of the stepped portions facing the inner conductive piece 107A and the outer conductive piece 108 on which the LED element 101 is mounted has overhanging portions 108a and 107a that project to the other side. Here, as shown in FIG. 10B, the inner conductive piece 107A has an overhanging portion 107a in the lower step portion, and the outer conductive piece 108 has an overhanging portion 108a in the higher step portion.

The inner conductive pieces 107C and 107B have the same shape as each piece when one inner conductive piece 107A is cut in half in the circumferential direction. The inner conductive pieces 107B and 107C are arranged as one set adjacent to each other in the circumferential direction, and here, there are three sets, and these three sets are arranged at intervals of 120 [degrees] in the circumferential direction.
As shown in FIG. 9, the inner conductive pieces 107B and 107C of one of the three sets are connected to the lamp side cable 317 and are separated from each other. The illustration of the connection portion with the lamp side cable 317 is omitted.
One of the two sets of inner conductive pieces 107B and 107C out of the three sets has a stretched portion extending to the mating side as shown in FIG. 10 (a). Here, the stretched portion 107b is provided at the end of the inner conductive piece 107C on the higher stage side on the inner conductive piece 107B side. As a result, one conductive path is formed in the pair of lamp-side cables 317.

An LED element 101 is connected to the inner conductive piece 107 and the outer conductive piece 108. That is, one electrode of the LED element 101 is connected to one of the inner conductive piece 107 and the outer conductive piece 108, and the other electrode of the LED element 101 is connected to the other of the inner conductive piece 107 and the outer conductive piece 108. The LED element 101 here is arranged so as to straddle the gap between the inner conductive piece 107 and the outer conductive piece 108. More specifically, the LED element 101 is arranged so that the LED element 101 has a rectangular shape when viewed from the front side and the longitudinal direction thereof is the radial direction of the annulus plate shape. The LED element 101 is electrically and mechanically connected to the inner conductive piece 107 and the outer conductive piece 108 by, for example, solder.

(3) Back valve A description will be given with reference to FIGS. 3 to 9.
The back valve 14 has a semicircular or semicircular cross-sectional shape (see FIG. 5). The back valve 14 is made of a translucent resin material.
The back bulb 14 has a module arrangement region 141 in which the light source module 10 is arranged. The module arrangement region 141 is formed by a flat portion located on the back side of the inner surface of the back valve 14. The flat portion has a size that allows the entire area of the back surface of the light source module 10 to come into contact with the flat portion. This makes it easier to release the heat during light emission of the light source module 10.

As shown in FIGS. 6 and 8, the back bulb 14 has a radial position regulating portion 142 that regulates the radial positional deviation of the light source module 10. As an example, the radial position regulating portion 142 includes a radial inner position regulating portion 143 formed at the inner peripheral end of the module arrangement region 141 and a radial outer position regulating portion 144 formed at the outer peripheral end of the module arrangement region 141. Has at least one of. Here, the radial position regulating unit 142 has a radial inner position regulating unit 143 and a radial outer position regulating unit 144. The radial inner position regulating portion 143 and the radial outer position regulating portion 144 have a convex shape protruding to the front side. The radial inner position regulating section 143 and the radial outer position regulating section 144 are present at a plurality of locations at intervals in the circumferential direction.
Since the mounting body 103 has a structure in which a plurality of conductive pieces 105 in a separated state are connected by an LED element 101, there is a dimensional difference in the internal and external directions, and there is a dimensional difference between the radial position regulating unit 142 and the light source module 10. There is a little gap.

As shown in FIGS. 6 and 8, the back bulb 14 has a circumferential position regulating portion 145 that regulates the circumferential positional deviation of the light source module 10. As an example, the circumferential position regulating portion 145 is formed in the module arrangement region 141 in a state of extending in the radial direction. The circumferential position regulating portion 145 has a convex shape protruding from the module arrangement area 141 to the front side. The circumferential position regulating portion 145 is dimensionally configured so as to be located between the conductive pieces 105 adjacent in the circumferential direction. A plurality of circumferential position regulating units 145 are provided at intervals in the circumferential direction. Here, there are three circumferential position regulating units 145.

As shown in FIGS. 6 and 8, the back valve 14 has a plurality of rib portions 146 extending in the front and back directions at intervals in the circumferential direction. As an example, the rib portion 146 has at least one of an inner rib portion 147 formed on the inner peripheral wall and an outer rib portion 148 formed on the outer peripheral wall. Here, the rib portion 146 has both an inner rib portion 147 and an outer rib portion 148.

As shown in FIGS. 6 and 8, the inner rib portion 147 is formed so as to be continuous with both ends in the circumferential direction of the radial inner position regulating portion 143. That is, when the back valve 14 is viewed from the front side, the inner rib portion 147 and the radial inner position regulating portion 143 project in a "U" shape from the inner peripheral wall toward the outer peripheral wall.
One inner rib portion 147 (indicated by "147a" in FIG. 6) constituting the "U" shape when viewed from the front side and another "U" shape adjacent to the "U" shape in the circumferential direction. The inner diameter of the portion 14d located between the inner rib portion 147 (indicated by “147b” in FIG. 6) which constitutes the shape and faces (closely adjacent to) the one inner rib portion 147a is “co”. It is smaller than the inner diameter of the portion 14e existing between the pair of inner rib portions 147 forming the character shape.
In other words, the thickness of the portion 14d located between the opposing inner rib portions 147a and 147b forming a "U" shape adjacent in the circumferential direction forms one "U" shape. It is thinner than the thickness of the portion 14e located between them.
As a result, as shown in FIG. 12, a step is formed at the abutting portion between the front valve 12 and the back valve 14, and the back end of the front valve 12 constituting this step creates a step in the support member internal position regulating portion 178 of the support member 17. The front edge is supported.

As shown in FIGS. 6 and 8, the outer rib portion 148 is formed so as to be continuous with both ends in the circumferential direction of the radial outer position regulating portion 144. That is, when the back valve 14 is viewed from the front side, the outer rib portion 148 and the radial outer position regulating portion 144 project in a "U" shape from the outer peripheral wall toward the inner peripheral wall.
One outer rib portion 148 (indicated by "148a" in FIG. 6) constituting the "U" shape when viewed from the front side and another "U" shape adjacent to the "U" shape in the circumferential direction. The inner diameter of the portion 14f located between the outer rib portion 148 (indicated by “148b” in FIG. 6) which constitutes the shape and faces (closely adjacent to) the one outer rib portion 148a is “co”. It is larger than the inner diameter of the portion 14g existing between the pair of outer rib portions 148 forming the character shape.
In other words, the thickness of the portion 14f located between the opposing outer rib portions 148a and 148b forming a "U" shape adjacent in the circumferential direction is a pair of outer rib portions 148 forming one "U" shape. It is thinner than the thickness of the portion 14 g located between them.
As a result, as shown in FIG. 12, a step is formed at the abutting portion between the front valve 12 and the back valve 14, and the back end of the front valve 12 constituting this step creates a step on the support member outer position restricting portion 179 of the support member 17. The front edge is supported.

The valve body 11 has a valve positioning portion for positioning the front valve 12 and the back valve 14. The back valve 14 has a valve back positioning portion 150 that constitutes a valve positioning portion. As an example, as shown in FIGS. 8 and 12, the valve back positioning portion 150 includes a valve back inner positioning portion 151 formed at the front end of the inner peripheral wall and a valve back outer positioning formed at the front end of the outer peripheral wall. It has at least one of the parts 152. Here, the valve back positioning portion 150 has both a valve back inner positioning portion 151 and a valve back outer positioning portion 152.
The positioning of the back valve 14 and the front valve 12 utilizes a fitting structure of a convex portion and a concave portion (groove). Here, the valve back inner positioning portion 151 and the valve back outer positioning portion 152 have a convex shape protruding to the front side, and the groove-shaped valve front inner positioning portion 121 and the valve front outer positioning portion 122 of the front valve 12, which will be described later, have a convex shape. fit. The valve back positioning portion 150 exists on the front end faces of the inner peripheral wall and the outer peripheral wall.

As shown in FIGS. 6 to 9, the valve body 11 has a valve coupling means for coupling the back valve 14 and the front valve 12. An example valve coupling means has both a first coupling means utilizing a fixture and a second coupling means utilizing an engaging structure. As the fixture here, a screw body 191 (see FIGS. 3, 4, etc.) is used.

The back valve 14 has a first back coupling portion 153 that constitutes the first coupling means. The first back coupling portion 153 is composed of a through hole. The reference numeral of the through hole is also 153. The through hole 153 is formed in the bottom plate portion 155 of the protruding portion 154 in which the corresponding portion of the inner peripheral wall projects inward.
The threaded portion of the screw body 191 is inserted through the through hole 153 from the back side, and the head portion of the screw body 191 is located on the back side of the bottom plate portion 155. The threaded portion of the threaded body 191 is screwed into the screw hole which is the first table coupling portion 126 of the table valve 12 (see FIG. 4).
A plurality of first back coupling portions 153 are provided at intervals in the circumferential direction. Here, there are five first back coupling portions 153.

The back valve 14 has at least one of a second back inner coupling portion 156 and a second back outer coupling portion 157 constituting the second coupling means. Here, the back valve 14 has both a second back inner coupling portion 156 and a second back outer coupling portion 157.
As shown in FIG. 14A, the second back-inner joint portion 156 is composed of an engaging portion having a convex portion 156a protruding from the front end of the inner peripheral wall in the thickness direction of the inner peripheral wall. The second back-inner joint portion 156 includes an extension plate portion 156b extending from the front end portion of the inner peripheral wall to the front side, a thin-walled portion 156c formed in the middle of the extension plate portion 156b in the circumferential direction, and a thin-walled portion 156c. It is provided with a convex portion 156a projecting inward from the inner surface of the above. The inner surface of the convex portion 156a is an inclined surface in which the amount of protrusion inward increases as the convex portion 156a moves from the front end to the back side. It is a flat surface orthogonal to the front and back directions of the convex portion 156a. The tip of the extension plate portion 156b fits into the grooves 121 on both sides of the convex portion 127a of the inner joint portion 127 in Table 2.
A plurality of second back inner joint portions 156 are provided at intervals in the circumferential direction. Here, there are four second back-inner joints 156.

As shown in FIG. 6, the second back-outer joint portion 157 is provided on the inner surface of the front end portion of the outer peripheral wall. The second back-outer joint portion 157 has the same configuration as the above-mentioned second back-inner joint portion 156. That is, the second back-outer joint portion 157 has a configuration in which the second back-inner joint portion 156 is inverted and provided on the outer peripheral wall so that the convex portion 156a of the second back-inner joint portion 156 faces outward. Have. In other words, the second back-outer joint portion 157 is composed of an engaging portion having a convex portion 157a protruding in the thickness direction of the outer peripheral wall. The second back-outer joint portion 157 projects inward from the inner surface of the extension plate portion 157b extending from the front end portion of the outer peripheral wall to the front side and the thin-walled portion formed in the middle of the extension plate portion 157b in the circumferential direction. It is provided with a convex portion 157a to be formed. The inner surface of the convex portion 157a is an inclined surface in which the amount of protrusion increases as it moves from the front side end to the back side. It is a flat surface orthogonal to the front and back directions of the convex portion 157a. The tip of the extension plate portion 157b fits into the grooves 122 on both sides of the convex portion 128a of the outer joint portion 128 of the second table.
A plurality of second back-outer joint portions 157 are provided at intervals in the circumferential direction. Here, there are four second back-outer joints 157.

The bulb body 11 has a through hole 158 for the lamp side cable 317 for supplying power to the light source module 10. As an example, the through hole 158 is provided in the module arrangement area 141 of the back valve 14. Here, two are provided at intervals in the circumferential direction.

The bulb body 11 has a cover mounting portion 159 for mounting a cover 18 that covers the through hole 158 for the lamp side cable 317. Here, since the back valve 14 has a through hole 158, the valve body 11 has a cover mounting portion 159 in the back valve 14.
The cover mounting portion 159 will be described mainly with reference to FIG.
As an example of the cover 18 attached to the cover attachment portion 159, as shown in FIGS. 3 and 4, the cover 18 has a thin box shape in which the front side opens and the height in the front and back directions is low. The cover mounting portion 159 forms a connection space for connecting the lamp side cable 317 and the light source module 10 with the cover 18.

The inner peripheral wall portion 162 in which the cover mounting portion 159 is present extends from the front side end to the back side, and is located inward in the radial direction with respect to the inner peripheral wall portion 161 in which the cover mounting portion 159 is not present. Further, the back valve 14 here has a recessed portion 14h recessed on the front side at the back side end. The recessed portion 14h exists continuously in the circumferential direction, and the surface of the bottom portion thereof is the module arrangement region 141.
The cover mounting portion 159 has a recessed portion 14h and an erection portion 160 erected from the inner peripheral wall portion 162. The upright portion 160 faces the side plate portions 182 on both sides of the cover 18 in the circumferential direction.
The cover 18 fits inside the outer peripheral surface 159a constituting the recessed portion 14h and the pair of standing portions 160. In this mated state, the outer surface of the side plate portion 182 located inside the cover 18 in the radial direction and the outer surface of the inner peripheral wall portion 162 are flush with each other, and the front end surface and the inner surface of the side plate portion 182 located inside the cover 18 are flush with each other. The peripheral wall portion 162 comes into contact (proximity) (see FIG. 2).
In the bottom portion 159b of the recessed portion 14h located between the pair of standing portions 160, two through holes 158 for the lamp side cable 317 are provided apart from each other.

A groove 163 for arranging the lamp side cable 317 is formed between the inner end of the recessed portion 14h and the inner peripheral wall portion 162. That is, the back valve 14 has an intermediate wall 164 extending from the inner end of the recessed portion 14h to the front side, and a bottom wall 165 extending from the front side end of the intermediate wall 164 to the inner peripheral wall portion 162. A groove 163 is formed by the bottom wall 165 and the inner peripheral wall portion 162.
The inner peripheral wall portion 162 and the intermediate wall 164 have chipped portions 162a and 164a for the lamp side cable 317. The inner peripheral wall portion 162 and the intermediate wall portion 164 alternately have convex portions 162b and 164b for fixing the lamp side cable 317 so as to project into the groove 163.

The cover 18 is attached to the cover attachment portion 159 by the cover attachment means. The cover mounting portion 159 has at least one of a first valve-side fixing portion using a fixture and a second valve-side fixing portion using an engaging structure. The cover 18 here is fixed to the back valve 14 by a fixture in a state of being engaged with the back valve 14.
A fixture is used for installation here. As an example, the fixture is a screw body 192 as shown in FIG. 4 and the like. The screw body 192 is screwed into the screw hole 167 of the boss portion 166 provided in the groove 163. The screw hole 167 of the back valve 14 constitutes the first valve side fixing portion. The boss portion 166 extends to the front and back.
A recess 168 is provided at a position straddling the outer peripheral surface 159a and the bottom portion 159b forming the recessed portion 14h sandwiched between the pair of standing portions 160. The convex portion 184 of the cover 18 engages with the concave portion 168. The recess 168 constitutes the second valve side fixing portion 168. The recess also uses the reference numeral [168].

(4) Support Member This will be described with reference to FIGS. 3 to 5, 7 and 9.
The support member 17 has an inner peripheral support portion 170 that supports the inner peripheral end portion of the light source module 10, and an outer peripheral support portion 171 that supports the outer peripheral end portion of the light source module 10. The support member 17 has a plurality of connecting portions 172 that connect the inner peripheral support portion 170 and the outer peripheral support portion 171 at intervals in the circumferential direction.

As shown in FIGS. 5 and 9, the inner peripheral support portion 170 has an inner peripheral facing portion 173 facing the surface of the light source module 10. The inner peripheral support portion 170 has an inner peripheral standing portion 174 that is erected on the front side from the outer peripheral edge of the inner peripheral facing portion 173. The inner peripheral facing portion 173 abuts on the radial inner position regulating portion 143 (see FIG. 5).
As shown in FIGS. 5 and 9, the outer peripheral support portion 171 has an outer peripheral facing portion 175 facing the surface of the light source module 10. The outer peripheral support portion 171 has an outer peripheral standing portion 176 that is erected on the front side from the outer peripheral edge of the outer peripheral facing portion 175. The outer peripheral facing portion 175 abuts on the radial outer position regulating portion 144 (see FIG. 5).
As shown in FIG. 13A, the inner peripheral erection portion 174 abuts on the inner rib portion 147 (147a, 147b) of the inner peripheral wall in the radial direction. The outer peripheral erection portion 176 abuts on the outer rib portion 148 (148a, 148b) as shown in FIG. 13 (b). As a result, the support member 17 is positioned in the radial direction. As shown in FIG. 5, the outer peripheral erection portion 176 is erected in an arc shape along the outer peripheral wall of the back valve 14.
In addition, in this specification, "erection" includes the case of standing at a right angle, the case of standing at an angle other than a right angle, the case of standing directly, and the case of standing in a curved shape.

As shown in FIGS. 7, 9 and 13, the connecting portion 172 has a plurality of sets of two connecting portions 177 extending in the radial direction as one set. There are 10 sets of connecting portions 177 in a plurality of sets at intervals in the circumferential direction. The two connecting portions 177 are provided at intervals in the circumferential direction, and the LED element 101 is located between the two connecting portions 177.

As shown in FIG. 9, the support member 17 has a support member position regulating portion that regulates movement in the circumferential direction. As an example, the support member position regulating portion includes a support member inner position regulating portion 178 provided on the inner peripheral support portion 170 and a support member outer position regulating portion 179 provided on the outer peripheral support portion 171.
The position regulating portion 178 in the support member is located inside the connecting portion 172 in the radial direction. The support member outer position regulating portion 179 is located on the outer side in the radial direction with respect to the connecting portion 172.

As shown in FIG. 13 (a), the position regulating portion 178 inside the support member extends from the inner peripheral support portion 170 to the front side along the inner peripheral wall. The position regulating portion 178 in the support member is located between the inner rib portions 147a and 147b of the inner rib portions 147 of the inner peripheral wall, which are adjacent to each other in the circumferential direction.
As shown in FIG. 13B, the support member outer position regulating portion 179 extends from the outer peripheral support portion 171 to the front side along the outer peripheral wall. The support member outer position restricting portion 179 is located between the outer rib portions 148a and 148b of the outer rib portion 148 (see FIG. 8) of the outer peripheral wall, which are close to each other in the circumferential direction and are adjacent to each other.

As shown in FIGS. 3 and 4, the inner peripheral support portion 170 has a recessed portion 170a that is recessed outward in the radial direction. The recessed portion 170a is provided corresponding to the overhang of the protruding portion 154 of the inner peripheral wall. The inner peripheral support portion 170 has a recessed portion 170b recessed on the front side at the back end. The recessed portion 170b is provided corresponding to the recessed portion 164a for the lamp side cable 317 formed in the cover mounting portion 159 for the cover 18.

(5) Table valve A description will be given with reference to FIGS. 3 to 5, mainly FIG.
The front valve 12 has a semicircular cross-sectional shape orthogonal to the circumferential direction, and here, it has a substantially semicircular ring shape. The front valve 12 is made of a translucent resin material.
The front valve 12 has a valve table positioning unit 120 that constitutes a valve positioning unit. As an example, as shown in FIGS. 4 and 12, the valve front positioning portion 120 includes a valve front positioning portion 121 formed at the back end of the inner peripheral wall and a valve outside positioning formed at the back end of the outer wall. It has at least one of the parts 122. Here, the valve table positioning unit 120 has both a valve table inside positioning unit 121 and a valve outside valve positioning unit 122.

The valve front positioning portion 121 and the valve outside positioning portion 122 have a groove (concave) shape that is recessed on the front side and extends in the circumferential direction. The valve front inner positioning portion 121 exists on the back end surface of the inner peripheral wall of the front valve 12, and the valve front outer positioning portion 122 exists on the back end surface of the outer peripheral wall of the front valve 12.
As shown in FIG. 12, the valve front inner positioning portion 121 fits into the convex valve back inner positioning portion 151, and the valve outer front positioning portion 122 fits into the convex valve back outer positioning portion 152.

The front valve 12 has a front rib portion 123 for reinforcing the front valve 12. As an example, the front rib portion 123 has at least one of an inner rib portion 124 formed on the inner peripheral wall and an outer rib portion 125 formed on the outer peripheral wall. The front rib portion 123 here has both an inner rib portion 124 and an outer rib portion 125. The front rib portion 123 projects inward in the radial direction of the front valve 12 and extends in the front and back directions.

As described above, the valve body 11 is provided from both the first coupling means using the screw body 191 and the second coupling means using the engaging structure in order to connect the back valve 14 and the front valve 12. It has a valve coupling means.
The table valve 12 has a first table coupling portion 126 constituting the first coupling means, a second table inner coupling portion 127 and a second table outer coupling portion 128 constituting the second coupling means.

The first table connecting portion 126 is composed of screw holes formed in the front boss portion 129 extending to the back side along the inner surface of the inner peripheral wall. The code of the screw hole is also 126. The screw portion of the screw body 191 is screwed into the screw hole 126. Table 1 There are a plurality of connecting portions 126 at intervals in the circumferential direction, and here there are five.

The table valve 12 has at least one of the table 2 inner coupling portion 127 and the table 2 outer coupling portion 128 constituting the second coupling means. Here, the front valve 12 has both a Table 2 inner coupling portion 127 and a Table 2 outer coupling portion 128.

As shown in FIG. 5, the second front inner coupling portion 127 is composed of an engaging portion having a convex portion 127a projecting to the back side of the convex portion 156a of the second back inner coupling portion 156 of the back valve 14. As shown in FIG. 14, the inner joint portion 127 of the second table has an extension plate portion 127b extending from the back side end portion of the inner peripheral wall to the back side and an extension plate portion 127b extending inward in the radial direction from the outer surface. It includes a protruding convex portion 127a.
When viewed from the inside in the radial direction, the convex portion 127a has a "U" shape with the front side open, and a concave portion 127c is formed inside the convex portion 127a. As shown in FIG. 5, the convex portion 156a of the second back inner joint portion 156 of the back valve 14 fits into the concave portion 127c. As a result, the second back inner joint portion 156 and the second front inner joint portion 127 are engaged with each other.

As shown in FIG. 4, the front outer joint portion 128 is provided on the inner surface of the back end portion of the outer peripheral wall. The outer joint portion 128 of Table 2 has the same configuration as the inner joint portion 127 of Table 2 described above. That is, the outer joint portion 128 of the second table has a configuration in which the inner joint portion 127 of the second table is inverted and provided on the outer peripheral wall so that the convex portion 127a of the inner joint portion 127 of the second table faces outward. Have.
In other words, as shown in FIG. 4, the outer coupling portion 128 of Table 2 is composed of an engaging portion having a convex portion 128a protruding in the thickness direction of the outer peripheral wall. The second front outer joint portion 128 is a protrusion extending outward in the radial direction formed between the extension plate portion 128b extending from the back end portion of the outer peripheral wall to the back side and the extension plate portion 128b in the circumferential direction. It includes a portion 128a. The back end of the convex portion 128a is an inclined surface in which the amount of protrusion to the outside increases as it moves to the front side.
A plurality of outer coupling portions 128 in Table 2 are provided at intervals in the circumferential direction. Here, there are four outer joints 128 in Table 2.

The extension plate portion 127b of the second front inner joint portion 127 and the extension plate portion 128b of the second front outer joint portion 128 are the extension plate portion 156b of the second back inner joint portion 156 and the second back outer joint portion 157. It comes into contact with the extension plate portion 157b of.

(6) Cover This will be described with reference to FIGS. 3, 4, and 11.
The cover 18 has a thin box shape with a low height in the front and back directions at which the front side opens. The cover 18 is attached to the cover attachment portion 159 of the back valve 14.
The cover 18 is erected on the front side from the peripheral surface of the rectangular flat plate portion 181 and the flat plate portion 181 having a size of fitting inside the outer peripheral surface 159a of the cover mounting portion 159 and the pair of standing portions 160. It has a side plate portion 182.

The cover 18 is attached to the cover attachment portion 159 by the cover attachment means. The cover 18 has at least one (here, both) of a first cover-side fixing portion 183 using a fixture and a second cover-side fixing portion 184 using an engaging structure.
The cover 18 has a protruding portion 185 projecting to the front side on the flat plate portion 181. The protrusion 185 is provided with a through hole. The threaded portion of the screw body 192 is inserted into this through hole from the back side. The through hole constitutes the first cover side fixing portion 183. In addition, 183 is also used for the code of the through hole. The screw portion of the screw body 192 is screwed into the screw hole 167 of the cover mounting portion 159 of the back valve 14.
The side plate portion 182a located on the outer peripheral side in the radial direction of the side plate portion 182 has a convex portion protruding outward. This convex portion engages with the concave portion which is the second valve side fixing portion 168. The convex portion constitutes the second cover side fixing portion 184. In addition, 184 is also used as the code of the convex portion.

The side plate portions 182 located at both ends in the circumferential direction of the side plate portion 182 have protruding portions 186 protruding to the front side. The protrusion 186 is a groove 163 of the cover mounting portion 159 and fits into the (circumferential) outer recessed portion of the boss portion 166.

4. The power supply unit will be described with reference to FIGS. 1 and 15 to 17.
The power supply unit 3 supplies lighting power to the LED element 101. The power supply unit 3 is provided separately from the LED lamp 1. As shown in FIG. 1, the power supply unit 3 is electrically connected to the LED lamp 1 by the lamp side cable 317. As shown in FIG. 1, the power supply unit 3 is electrically connected to the lighting fixture 9 side by the fixture side cable 318.
The connector 318a of the instrument-side cable 318 is detachably connected to the socket 97a of the cable 98. The cable 98 is connected to a connector 97 provided with a hook blade for hook sealing on the installation surface. The connector 97 provided with the hook blade here is a component constituting the lighting fixture 9.

As shown in FIGS. 16 and 17, the power supply unit 3 includes a housing 30 and a lighting circuit 31. The lighting circuit 31 is housed in the housing 30. The housing 30 is composed of two members, a front housing 32 located on the front side and a back housing 35 located on the back side. The front housing 32 and the back housing 35 are fixed by using a fixture. An example fixture is a screw body 395.
The power supply unit 3 includes a fixture 37 for detachably attaching the housing 30 to the luminaire 9. The fixture 37 is mounted on the side of the luminaire 9 to which the fluorescent lamp is mounted, that is, on the surface.
Each part will be described below.

(1) Lighting circuit A description will be given with reference to FIGS. 16, 17 and 19.
The lighting circuit 31 includes a circuit board 310 and electronic components 311, 312. As an example, the electronic component 311 is mounted on the front surface of the circuit board 310, and the electronic component 312 is mounted on the back surface of the circuit board 310. There are a plurality of electronic components 311, which are shown as blocks in FIGS. 16 and 17.
Here, since the lighting of the LED element 101 is controlled by the remote controller, the lighting circuit also includes a control circuit that controls the supply current and the like based on the information (signal) from the remote controller. That is, the electronic components 311, 312 are controlled to be lit based on the electronic components for supplying power for supplying the lighting power to the LED lamp 1 and the information (signal) regarding the lighting of the LED element 101 from, for example, a remote controller or the like. Includes control electronic components.
The lamp side cable 317 and the instrument side cable 318 are connected to the circuit board 310.

The circuit board 310 has wiring patterns on the front surface and the back surface for forming a circuit for lighting a plurality of electronic components 311, 312 (not shown). As an example, the circuit board 310 has a rectangular shape.
The circuit board 310 has a board fixing means 313 for being fixed by the housing 30. For fixing here, a screw body 395 for fixing (coupling) the front housing 32 and the back housing 35 is used. The substrate fixing means 313 is composed of a through hole through which the screw body 395 is inserted.

The power supply unit 3 has a cable fixing means for fixing the lamp side cable 317 and the instrument side cable 318 connected to the circuit board 310. As an example, the cable fixing means is composed of a convex portion 362 extending in the front-back direction. The convex portion 362 may be located on at least one of the front housing 32 and the back housing 35. Here, the convex portions 362 are the end portions in the longitudinal direction of the back housing 35 and are formed at both ends in the lateral direction, and there are a total of four convex portions 362.
The circuit board 310 has a plurality of through holes or chipped portions corresponding to the convex portions 362. Here, it is a chipped portion 314. The convex portion 362 of the back housing 35 engages with the chipped portion 314 of the circuit board 310.

Lighting control such as lighting / extinguishing of the LED lamp 1 and dimming is performed based on a signal from a remote controller (not shown). The electronic components constituting the lighting control circuit are mounted on the circuit board 310. The codes of the electronic components for lighting control are also "311" and "312".
A light receiving element 315 is provided on the surface of the circuit board 310. The light receiving element 315 receives the signal from the remote controller.
A light emitting element having a function other than the main light source is mounted on the surface of the circuit board 310. LED 316 as an example of a light emitting element is used and functions as a nightlight.

(2) The table housing will be described with reference to FIGS. 16 and 17.
As shown in FIG. 15, the housing 30 has a thin box shape (rectangular parallelepiped shape). The front housing 32 and the back housing 35 are configured by dividing the housing 30 into two in the thickness direction.
The front housing 32 is made of a translucent resin material which is a translucent material. Specifically, it is composed of a material such as polycarbonate (PC). The front housing 32 has a rectangular front plate portion 321 and a front plate portion 322 standing on the back side from the peripheral edge of the front plate portion 321. The front flat plate portion 321 has, for example, a front flat portion 323 and a front inclined portion 324 that is inclined so as to spread on the back side. The front plate portion 322 has a front short side plate portion 325 located on the short side side of the rectangular front plate portion 321 and a front long side plate portion 326 located on the long side side of the front plate portion 321.

The front flat plate portion 321 has recessed portions 321a and 321b. The recessed portion 321a is provided at a portion facing the light receiving element 315. The recessed portion 321b is provided at a portion facing the LED 316 for a nightlight. As a result, it is possible to reduce the thickness of the power supply unit 3, improve the detection sensitivity of the light receiving element 315, and increase the illuminance of the LED 316 for the nightlight.

The front housing 32 has a screw hole 327 for the screw body 395. As an example, the screw hole 327 is provided in the convex portion 328 formed from the front plate portion 321 or straddling the front plate portion 321 and the front side plate portion 322. The convex portion 328 here projects in a columnar shape from the corner portion of the front flat plate portion 321. The screw holes 327 of the convex portion 328 form a part of the housing fixing means.

The front plate portion 322 has a front fitting portion 331 that is positioned and fitted with the back housing 35. The front fitting portion 331 is provided at the back end of the front plate portion 322. As an example, the front fitting portion 331 is internally fitted into the back fitting portion 359 of the back housing 35. Specifically, the back side end portion of the front side plate portion 322 is a step, and the step is fitted with the step on the front side end portion of the back side plate portion 352. In this example, the step of the front fitting portion 331 protrudes to the back side on the inside, and the step of the back fitting portion 359 protrudes to the front side on the outside.

It has two chipped portions 332 at the back end of the front short side plate portion 325 of the front plate portion 322. The chipped portion 332 is for the lamp side cable 317 and the fixture side cable 318.
The front housing 32 has a stretched portion 333 that extends to the back side. As an example, the stretched portion 333 has a rectangular cross section, and the stretched tip portion abuts on the circuit board 310. The surface of the circuit board 310 is supported by the stretched portion 333.

(3) The back housing will be described with reference to FIGS. 16 and 17.
The back housing 35 is made of a translucent material, specifically, a resin material such as polycarbonate (PC). The back housing 35 has a rectangular back plate portion 351 and a back plate portion 352 standing on the front side from the peripheral edge of the back plate portion 351. The back flat plate portion 351 has, for example, a back flat portion 353 and a back curved portion 354 that curves outward on the front side. The back plate portion 352 has a back short side plate portion 355 located on the short side side of the rectangular back plate portion 351 and a back long side plate portion 356 located on the long side side of the back plate portion 351.

The back housing 35 has a through hole 357 for the screw body 395. As an example, the through hole 357 is provided from the back plate portion 351 or at the bottom portion of the recessed portion 358 formed so as to straddle the back plate portion 351 and the back plate portion 352. The recessed portion 358 here is recessed in a bottomed tubular shape from the corner portion of the back flat plate portion 351 to the front side. The through hole 357 of the recessed portion 358 constitutes a part of the housing fixing means.

The back side plate portion 352 has a back fitting portion 359 that is positioned and fitted to the front housing 32. The back fitting portion 359 is provided at the front end of the back plate portion 352. As an example, the back fitting portion 359 is configured by a step whose outer side protrudes to the front side as described above.

It has two chipped portions 360 at the front end of the back short side plate portion 355 of the back plate portion 352. The chipped portion 360 is for the lamp side cable 317 and the fixture side cable 318.
The back housing 35 has a back flat plate portion 351 (back curved portion 354) and a rib portion 361 extending to the front and back on the back long side plate portion 356. The front end of the rib portion 361 comes into contact with the circuit board 310. The back surface of the circuit board 310 is supported by the rib portion 361.

The back housing 35 has a convex portion 362 extending in the front-back direction. The convex portion 362 is stretched so as to fit with the chipped portion 314 of the circuit board 310. The convex portion 362 extends in a cylindrical shape. The convex portion 362 is connected to the back side plate portion 352 (back short side plate portion 355) by the rib portion 363. The rib portion 363 is configured so that the front end of the rib portion 363 abuts on the back surface of the circuit board 310.

The back housing 35 has a housing-side mounting means for mounting the fixture 37. As an example, the housing-side mounting means is exposed on the back side of the fixture 37 as shown in FIG. 15 (b), and as shown in FIG. 16, the housing-side support piece that supports the fixture 37 from the back side. It has 364 and a housing-side engaging portion 365 that engages with the fixture 37.

The back housing 35 has an opening 366 in the back flat plate portion 351 for exposing the fixture 37. As an example, the opening 366 has a shape close to a rectangular shape. The opening 366 is rectangular and has a long shape in the longitudinal direction of the back plate portion 351.

The back housing 35 has two engaging portions as the housing side engaging portion 365. The housing-side engaging portion 365 engages with the first housing-side engaging portion 367 that engages with the first mounting-side engaging portion 394 of the fixture 37 and the second mounting-side engaging portion of the fixture 37. It has two housing-side engaging portions 368.

The first housing-side engaging portion 367 is composed of a first engaging piece that engages with the first mounting-side engaging portion (convex portion) 394 of the fixture 37. A plurality of first engaging pieces are provided along the long side of the rectangular opening 366. Here, there are two first engaging pieces at intervals. The first engaging piece has an inverted "L" shape that extends from the peripheral portion of one long side of the opening 366 to the front side and then bends toward the opening. The first housing-side engaging portion 367 has a space between the peripheral portion of the opening 366 of the back plate portion 351 and the bent portion of the “L” shape, and the convex portion 394 of the fixture 37 is placed in this space. fit. Both ends of the first engaging piece in the longitudinal direction are closed by a connecting portion 367a (see FIG. 16) that connects the bent portion and the back plate portion.

The second housing-side engaging portion 368 is composed of a second engaging piece that engages with the corner portion of the mounting case 39 of the mounting tool 37. The second housing-side engaging portion 368 is provided on the other long side of the opening 366. The second housing-side engaging portion 368 has a stretched piece 368a extending from the edge facing the long side to the front side, and a protruding portion 368b protruding from the tip of the stretched piece 368a toward the opening 366 side. Grooves 368c for making the stretched piece 368 elastically deformable in a direction orthogonal to the stretching direction of the stretched piece 368a are back plate portions 351 and are provided on both sides of the stretched piece 368a. The surface of the protruding portion 368b on the opening 366 side is an inclined surface that projects toward the opening 366 side as it moves to the front side.

The back housing 35 has a mounting case positioning portion 369 for positioning the mounting case 39 of the mounting tool 37. As an example, the mounting case positioning portion 369 is composed of a protruding portion that protrudes so as to abut on the outer peripheral surface of the mounting case 39. The mounting case positioning portion 369 is provided at a portion separated from the opening 366. As a result, the back end surface of the mounting case 39 comes into contact with the back flat plate portion 351. The mounting case positioning portion 369 is formed around the rectangular opening 366 except for the long side portion on the side where the second housing side engaging portion 368 exists, and the mounting case positioning portion 369 is formed from the front side. Looking at, it has a "U" shape.

(4) Fixtures FIGS. 15 to 19 will be described with reference to FIGS. 16 and 17 in particular.
The fixture 37, which is an example, includes a magnet set 38 and a mounting case 39 that covers the magnet set 38.

(4-1) Magnet Set The magnet set 38 includes a thin box-shaped magnet 381 and a base member 382 to which the magnet 381 is fixed.
The magnet 381 is arranged on the lighting fixture 9 side, that is, on the back side with respect to the circuit board 310. The magnet 381 has a thin rectangular parallelepiped shape that is rectangular when viewed from the front side or the back side.
The base member 382 is fixed to the surface of the magnet 381 with an adhesive or the like. The base member 382 includes a rectangular base portion 383 that abuts on the back surface of the magnet 381, and a pair of erecting portions 384 that stand upright from the long side portion of the base portion 383 and abut on the side surface of the magnet 381. The lengthwise dimension of the base portion 383 is substantially the same as the lengthwise dimension of the magnet 381. The longitudinal dimension of the upright portion 384 is longer than the longitudinal dimension of the magnet 381.

The base member 382 has an extending portion 385 extending in the longitudinal direction as it is from the end on the short side side of the base portion 383. The extending portion 385 is located substantially in the center in the lateral direction. The extending portion 385 comes into contact with the housing side support piece 364 of the back housing 35.
The base member 382 has a convex portion 386 projecting from the short side end portion of the base portion 383 to the back side. The convex portions 386 are located on both sides of the extending portion 385 substantially in the center in the lateral direction. The inner surface of the extending portion 385 comes into contact with the magnet 381.
When a metal material (for example, an iron material) is used as the base member 382, a magnetic circuit is formed between the base member 382 and the magnet 381, and the magnetic force can be concentrated on the back surface of the power supply unit 3.

(4-2) Mounting case The mounting case 39 has a box shape with an opening on the back side. The mounting case 39 has a rectangular flat plate portion 391 and a side plate portion 392 provided on the peripheral edge of the flat plate portion 391.
As shown in FIG. 18, the depth of the mounting case 39 corresponds to the thickness of the base portion 383 of the base member 382. As a result, the opening-side end surface (back surface) of the mounting case 39 comes into contact with the peripheral portion of the opening 366 of the back housing 35.

A convex portion 394 is provided on one side plate portion 393 on the long side side of the mounting case 39. The convex portion 394 engages with the first housing side engaging portion 367 of the back housing 35. That is, the convex portion 394 constitutes the first mounting side engaging portion 394 of the mounting tool 37. The code of the convex portion also uses "394".

The second housing side engaging portion 368 of the back housing 35 engages with the portion (corner portion) straddling the other side plate portion 393 and the flat plate portion 391 on the long side side of the mounting case 39. That is, the corner portion constitutes the second mounting side engaging portion of the mounting tool 37.

5. Fixtures will be described with reference to FIGS. 20 and 21.
The fixture 5 has a fixture-side fixing portion 50 fixed to the lighting fixture 9 side and a lamp-side fixing portion 51 for fixing the LED lamp 1. Here, the fixture-side fixing portion 50 is fixed to the lighting fixture 9 via the adapter 7.
The fixture 5 integrally includes a fixture-side fixing portion 50 and a lamp-side fixing portion 51. That is, the fixture-side fixing portion 50 and the lamp-side fixing portion 51 are not composed of separate members.

(1) Instrument-side fixing portion The instrument-side fixing portion 50 has a cylindrical portion 52 having a cylindrical shape. The lighting fixture 9 here is a fixture in which a so-called round slim fluorescent lamp having a small bulb diameter can be mounted in duplicate. Therefore, the curvature of the inner peripheral surface of the "C" -shaped fixed holder 93 corresponds to that of a round slim fluorescent lamp.
The cylindrical portion 52 is configured to be mountable on the fixed holder 93. That is, the outer diameter of the cylindrical portion 52 is substantially the same as the outer diameter of the bulb of the round slim fluorescent lamp. The length of the cylindrical portion 52 in the cylindrical axis direction is longer than that of the fixed holder 93. As a result, the cylindrical portion 52 can be attached to the fixed holder 93.

The instrument-side fixing portion 50 has a collar portion 53 having a diameter larger than that of the cylindrical portion 52. The flange portion 53 is both ends of the cylindrical portion 52 in the cylindrical axis direction and is provided on the outer peripheral surface side. That is, the flange portion 53 is formed so as to project outward in the radial direction from the outer peripheral surface of the end portion of the cylindrical portion 52. The inner diameter of the cylindrical portion 52 is constant from one end to the other end in the cylindrical axis direction.
The collar portion 53 here is provided on a concentric circle with the cylindrical portion 52. As a result, even if the cylindrical portion 52 slides with respect to the fixed holder 93 in the tubular axis direction, it is possible to reduce the possibility that the instrument-side fixed portion 50 is detached from the fixed holder 93. The instrument-side fixing portion 50 has a collar portion 53 over the entire circumference of the cylindrical portion 52.

(2) Lamp-side fixing portion The lamp-side fixing portion 51 has a C-shaped portion 54 having a “C” -shaped cross-sectional shape. In other words, the C-shaped portion 54 is a cylindrical portion having a groove along the cylinder axis. The opening 55 of the C-shaped portion 54 is on the side opposite to the side where the fixture side fixing portion 50 is present. The curvature of the inner peripheral surface of the C-shaped portion 54 corresponds to the outer peripheral diameter of the bulb body 11 of the LED lamp 1.
The C-shaped portion 54 is configured to be elastically deformable in a direction in which the distance between the openings 55 can be increased or decreased, that is, in a diameter reduction direction or a diameter expansion direction. The circumferential distance of the C-shaped portion 54 in the opening 55 is smaller than the outer diameter of the bulb body 11 of the LED lamp 1. As a result, the LED lamp 1 can be inserted into the C-shaped portion 54 through the opening 55, and the LED lamp 1 can be less likely to come off from the lamp side fixing portion 51 after insertion.

The lamp-side fixing portion 51 has a bent portion 56 that bends outward in the radial direction at an end portion in the circumferential direction of the C-shaped portion 54, that is, an end portion facing the opening 55. As a result, the LED lamp 1 can be easily inserted into the C-shaped portion 54.
The lamp-side fixing portion 51 has a collar portion 57 having a diameter larger than that of the C-shaped portion 54. The flange portions 57 are both ends of the C-shaped portion 54 in the tubular axis direction and are provided on the outer peripheral surface side. That is, the flange portion 57 is formed so as to project outward in the radial direction from the outer peripheral surface of the end portion of the C-shaped portion 54. The collar portion 57 here is provided concentrically with the C-shaped portion 54.

(3) The connecting portion fixing tool 5 integrally has a connecting portion 58 that connects the fixture side fixing portion 50 and the lamp side fixing portion 51. The connecting portion 58 connects the flange portion 53 of the fixture-side fixing portion 50 and the flange portion 57 of the lamp-side fixing portion 51. The connecting portion 58 connects the fixture-side fixing portion 50 and the lamp-side fixing portion 51 in a state where the cylinder axes are parallel to each other.
Here, there are two connecting portions 58 separated from each other in the cylindrical axial direction of the cylindrical portion 52 and the C-shaped portion 54. As a result, the cylindrical portion 52 of the fixture-side fixing portion 50 can rotate in the fixing holder 93, and the mounting workability of the LED lamp 1 can be improved.

6. Adapters will be described with reference to FIGS. 20, 22 and 23.
The adapter 7 has a fixture-side mounting portion 70 to be attached to the G10q terminal 94 of the lighting fixture 9, and a fixture insertion portion 71 to be inserted into the cylindrical portion 52 of the fixture 5. As shown in FIG. 20, the luminaire 9 includes a holding member 96 for preventing the fluorescent lamp (LED lamp 1) from coming off at the G10q terminal. The pressing member 96 has, for example, a C shape.
The adapter 7 integrally includes an instrument-side mounting portion 70 and a fixture inserting portion 71. That is, the instrument-side mounting portion 70 and the fixture inserting portion 71 are not composed of separate members.

(1) Instrument-side mounting portion The instrument-side mounting portion 70 has a terminal mounting portion that is mounted on the G10q terminal 94 and a supported portion that is supported by the pressing member 96.
The instrument-side mounting portion 70 has a cubic base portion 72, a stretched portion 73 extending in a pin shape from the back surface of the base portion 72, and a bulging portion 74 bulging from the front surface of the base portion 72 in an arc shape. ..
The stretched portion 73 fits with the G10q terminal 94. There are a plurality of stretched portions 73, and here there are four. The four stretched portions 73 are located near the corners of the back surface of the square.
The bulging portion 74 bulges with a radius corresponding to the curvature of the inner peripheral surface of the C-shaped pressing member 96. The overall shape of the bulging portion 74 is semi-cylindrical. When the stretched portion 73 fits into the G10q terminal 94, the bulging portion 74 and the base portion 72 are supported by the pressing member 96.
The bulging portion 74 and the base portion 72 have a recessed portion 74a extending from the front side to the back side. As a result, the weight of the adapter 7 can be reduced. The recessed portion 74a has a square shape when viewed from the front side, and four recessed portions 74a are formed. When the bulging portion 74 is viewed from the front side, as shown in FIG. 23 (b), the bulging portion 74 has a “field” shape due to the four recessed portions 74a.
The terminal mounting portion is composed of a stretched portion 73. The supported portion is composed of a base portion 72 and a bulging portion 74.

(2) Fixture insertion portion The fixture insertion portion 71 has a rod-shaped portion 75 extending from the fixture side mounting portion 70. The rod-shaped portion 75 has a columnar shape as a whole. The outer peripheral diameter of the rod-shaped portion 75 corresponds to the inner diameter of the cylindrical portion 52 of the fixture 5.
The rod-shaped portion 75 extends along the central axis of the semi-cylindrical bulging portion 74. When viewed from the front side, the central axis of the rod-shaped portion 75 is inclined with respect to the central axis of the bulging portion 74 as shown in FIG. 23 (b). The inclination direction is a direction along the central axis of the bulb body 11 of the LED lamp 1.

The central axis of the rod-shaped portion 75 is inclined with respect to the central axis of the bulging portion 74 as shown in FIG. 23 (a) when viewed from a direction orthogonal to the front and back directions. Here, as it approaches the tip of the rod-shaped portion 75, it approaches the side where the stretched portion 73 exists in the front and back directions.
Due to this inclination, the adapter 7 is attached to the G10q terminal 94 of the luminaire 9, and when the fixture side fixing portion 50 of the fixture 5 is inserted into the fixture insertion portion 71 of the adapter 7, the adapter 7 is aligned with the fixing holder 93. Can be done.
The rod-shaped portions 75 have groove portions 75a spaced apart from each other in the stretching direction. The groove portion 75a is formed in a direction parallel to the stretching direction of the stretching portion 73. The groove portions 75a are formed on both sides of the rod-shaped portion 75 across the central axis when viewed from the front side. As a result, when the adapter 7 is viewed from the front side, the rod-shaped portion 75 can be elastically deformed in a direction orthogonal to the central axis of the bulging portion 74. Thereby, it can be applied to the LED lamp 1 having a different ring outer diameter dimension of the bulb body 11 of the annular LED lamp 1.
In other words, the rod-shaped portion 75 is composed of a rectangular plate-shaped portion 75b and a stretched piece portion 75c provided at intervals along the longitudinal direction of the rectangular plate-shaped portion 75b. The stretched piece portion 75c is stretched in a direction orthogonal to both sides of the rectangular plate-shaped portion 75b. The space between the adjacent stretched piece portions 75c is the groove portion 75a.
The cross-sectional shape of the rod-shaped portion 75 of the portion where the rectangular plate-shaped portion 75b and the pair of stretched piece portions 75c are present is configured to match the cross-sectional shape of the internal space of the cylindrical portion 52 of the fixture 5. There is. The cross-sectional shape here is circular.
The outer peripheral diameter of the stretched piece portion 75c is slightly smaller than the inner peripheral diameter of the cylindrical portion 52, and the stretched piece portion 75c is configured to be elastically deformable in the insertion direction into the cylindrical portion 52.
As a result, the fixture insertion portion 71 can be smoothly inserted into the cylindrical portion 52 of the fixture 5. The stretched piece portion 75c after insertion is only in contact with or close to the inner peripheral surface of the cylindrical portion 52, and while having a pull-out prevention function, the fixture 5 can be freely positioned with respect to the cylindrical portion 52.

The fixture insertion portion 71 has a pair of stretch plate portions 76 extending from the rod-shaped portion 75. The pair of stretch plate portions 76 are stretched substantially in parallel. The pair of stretched plate portions 76 can be elastically deformed in directions that are close to each other.
The fixture insertion portion 71 has a protruding portion 77 at the tip end portion of the stretch plate portion 76. The protruding portion 77 projects in a direction orthogonal to the stretching direction of the stretched plate portion 76 and protrudes to the side where the other stretched plate portion 76 does not exist. The amount of protrusion of the protruding portion 77 increases from the tip of the stretched plate portion 76 toward the rod-shaped portion 75 side. The end surface of the protruding portion 77 on the rod-shaped portion 75 side is a flat surface 77a orthogonal to the stretching direction.

The distance between the flat surface 77a of the protruding portion 77 and the base portion 72 is longer than that of the cylindrical portion 52 of the fixture 5. The protruding tip of the protruding portion 77 is located outside the rod-shaped portion, as shown in FIG. 23 (b).
When the pair of stretch plate portions 76 are inserted into the cylindrical portion 52 of the fixture 5, the pair of stretch plate portions 76 are elastically deformed so as to approach each other. When the pair of stretching plate portions 76 passes through the cylindrical portion 52 of the fixture 5, the pair of stretching plate portions 76 are restored, and the flat surface 77a of the protruding portion 77 engages (opposes) the end surface of the cylindrical portion 52. )do.

7. An example of mounting an LED lamp on a lighting fixture The case where the LED lamp 1 is mounted on a lighting fixture 9 for a round slim fluorescent lamp will be described.
(1) The C-shaped portion 54 of the fixture 5 is fixed to the bulb body 11 of the LED lamp 1 with respect to the luminaire 9 from which the round slim fluorescent lamp is removed. At this time, the C-shaped portion 54 can be elastically deformed so that the opening 55 is widened, and the fixture 5 can be easily fixed to the LED lamp 1.
(2) The cylindrical portion 52 of the fixture 5 with the LED lamp 1 is fixed to the fixing holder 93 of the lighting fixture 9. At this time, the outer diameter of the cylindrical portion 52 corresponds to the outer diameter of the conventional round slim fluorescent lamp to be fixed to the fixed holder 93, and the cylindrical portion 52 of the fixture 5 is easily fixed to the fixed holder 93. can.
(3) The cylindrical portion 52 of the fixture 5 with the LED lamp 1 is fixed to the G10q terminal 94 of the lighting fixture 9 via the adapter 7.
First, the stretched portion 73 of the adapter 7 is fitted to the G10q terminal 94. As a result, the bulging portion 74 is supported by the pressing member 96.
Next, the fixture insertion portion 71 of the adapter 7 is inserted into the through hole of the cylindrical portion 52 of the fixture 5, and the protruding portion 77 is engaged with the short portion on the opposite side of the cylindrical portion 52.
(4) Power is supplied to the LED lamp 1 by using the power supply unit 3. The power supply unit 3 is attached to the base 92 of the luminaire 9 by using a magnet 381 on the back surface.
The connector 318a of the appliance side cable 318 of the power supply unit 3 is connected to the socket 97a of the cable 98 extending from the fixture 97 on the lighting fixture 9 side. As a result, power is supplied to the power supply unit 3 from the lighting fixture 9 side.

Although the embodiment has been described above, the embodiment is not limited to this embodiment, and for example, the following modification may be used. Further, the embodiment, the modified example, and the modified example may be combined.
Further, even if there is an example not described in the embodiment or the modified example, or a design change within a range not deviating from the gist, it is included in the present invention.

<Modification example>
1. 1. Lighting fixture (1) Target fluorescent lamp The lighting fixture 9 of the embodiment is a fixture for lighting an annular fluorescent lamp (round fluorescent lamp), particularly a round slim fluorescent lamp having a small tube diameter. However, the lighting fixture may be a fixture for lighting a round fluorescent lamp having a diameter larger than that of the round slim fluorescent lamp. In this case, the LED lamp 1 is directly attached to the fixed holder 93 of the luminaire 9.
The luminaire 9 of the embodiment was for a round fluorescent lamp, but the luminaire may be for a straight tube fluorescent lamp, for example. In this case, the LED lamp may be configured so that fixtures corresponding to the bases of straight tube fluorescent lamps are integrally provided at both ends of the straight tubular bulb body, or the fixtures may be separately provided at both ends of the bulb body. LED lamps and fixtures may be configured so that they can be attached.
Even in the case of a straight tubular LED lamp, it is necessary to provide a power supply unit separately. As a result, the LED element can be arranged in a wide range of the straight tubular LED lamp, and the light can be emitted in a wide range. Further, the weight of the straight tubular LED lamp can be reduced.

(2) Power supply terminal The lighting fixture 9 of the embodiment is provided with a G10q terminal which is an example of a fixed power supply terminal. For example, a lamp socket with a cable is provided as a power supply terminal and the mounting target is a round slim phosphor. The LED lamp 1 can be attached to such a lighting fixture. The attachment of the LED lamp 1 to the lighting fixture 9A will be described with reference to FIG. 24.

The luminaire 9A includes a fixed holder 93A on the base 92A. The fixed holder 93A has a C-shaped portion 931A curved in a C-shape at the tip. Here, the fixed holder 93A has two C-shaped portions 931A.
The LED lamp 1 is fixed to the lamp-side fixing portion 51 of the fixture 5. The instrument-side fixing portion 50 of the fixture 5 is fixed to the C-shaped portion 931A of the fixing holder 93A.
The fixed holder 93A is provided with two C-shaped portions 931A, and two round slim phosphors are provided on the luminaire 9A. However, since the illuminance of one LED lamp 1 is substantially equal to that of two round slim phosphors, one LED lamp 1 is attached here.

(3) Fixed Holder The fixed holder 93 of the lighting fixture 9 of the embodiment has a C shape. However, the fixed holder may have other shapes. Other shapes include a "U" shape, a "V" shape, and a shape having an extended portion 932A at one end of a C shape as shown in FIG. 24 (a shape like a question mark).

(4) Type The luminaire 9 of the embodiment is a so-called ceiling light, but other types may be used. Other types include pendant lights, base lights and the like.

2. LED lamp (1) shape The LED lamp 1 of the embodiment has an annular shape as an alternative to the round fluorescent lamp. However, the LED lamp may have another shape, for example, a polygonal ring such as a square ring, or a straight tube.
In the case of a straight tubular LED lamp, this can be carried out by accommodating a rectangular light source module inside the straight tubular bulb. The light source module is composed of a mounting body composed of a plurality of conductive pieces and a plurality of LED elements mounted on the mounting body and connecting the plurality of conductive pieces.

(2) Light Source Module (2-1) Conductive Piece The conductive piece 105 of the embodiment is made of a thin metal plate. The metal plate may be conductive as long as it has conductivity, and is not particularly limited. However, considering the mounting of the LED element, a metal material such as copper that is well soldered is preferable.
In the embodiment, a metal plate is used as the conductive piece 105, but for example, the conductive piece may be composed of an insulating piece and a conductive layer provided on one main surface of the insulating piece.
Examples of the insulating piece include paper, a resin plate, and a composite material in which paper is impregnated with resin. When paper is used, for example, a paper impregnated with a phenol resin (composite material) is preferable in consideration of flame retardancy. Examples of the conductive layer include a metal foil such as copper foil, a plating layer such as copper plating, and a vapor deposition layer. Considering the mounting of the LED element, a conductive layer made of copper or the like with good soldering is preferable.

(2-2) Structure In the embodiment, the plurality of conductive pieces 105 are electrically connected via the LED element 101. However, the plurality of conductive pieces 105 may be auxiliaryly connected by an insulating material or the like.
The LED element 101 of the embodiment has one type of white emission color, but for example, two types of LED elements having different emission colors may be provided in a separate series so that the color can be adjusted.
Although a plurality of conductive pieces 105 are used in the embodiment, the light source module may be a light source module having one or a plurality of substrates having a wiring pattern on the main surface and mounting the LED element on the substrate.

3. 3. Power supply unit (1) structure The power supply unit 3 of the embodiment includes a light receiving element 315 for a remote controller, but for example, the light receiving element may be provided in the LED lamp. In this case, for example, the power supply unit can be made compact by providing a switching element in the LED lamp that only turns on and off according to the received signal.
By providing the power supply unit 3 separately from the LED lamp 1, the structure of the LED lamp 1 can be simplified and the weight can be reduced.
The power supply unit 3 of the embodiment includes electronic components 311, 312 on both sides of the circuit board 310. However, all electronic components may be provided on one side of the circuit board. Further, the power supply unit may separately include a circuit for lighting and a circuit for controlling by a signal from the remote controller.
The housing 30 of the embodiment is made of a material such as polycarbonate (PC). However, considering the safety of the power supply circuit, it is preferable to use a flame-retardant translucent resin (polycarbonate). If the housing is sufficiently separated from the electronic components and the circuit board, a normal translucent resin may be used.

(2) Mounting tool The mounting tool 37 of the embodiment has a built-in magnet 381. For example, the back housing is made of a metal material, and the back housing and the lighting fixture are attached and detached with a magnet outside the back housing. It may be configured to be freely attached.
Although the mounting tool 37 of the embodiment uses the magnet 381 as the mounting means, a mounting means other than the magnet may be used, or the magnet and the mounting means other than the magnet may be used in combination. Mounting means other than magnets include double-sided tape, velcro (registered trademark), metal wire (wire), and screw body.

4. Cable (1) Lamp-side cable The lamp-side cable 317 of the embodiment is directly connected to the inner conductive pieces 107B and 107C of the LED lamp 1 and to the circuit board 310 of the power supply unit 3, respectively.
However, a connector may be provided on the lamp side cable so that the cable can be detachably connected. For example, a connector may be provided at the end of the lamp-side cable on the LED lamp side to be detachable from the LED lamp, or a connector may be provided at the end of the lamp-side cable on the power supply unit side to be detachable from the power supply unit. It may be freely attached or detached from the LED lamp and the power supply unit by providing connectors at both ends of the lamp side cable. A socket is provided on the other side of the connector.

(2) Instrument-side cable The appliance-side cable 318 of the embodiment is directly connected to the circuit board 310 of the power supply unit 3. However, a connector may be provided on the device-side cable so that the cable can be detachably connected to the power supply unit.
A socket 97a connected via a cable 98 to a connector 97 provided with a hooking blade is connected to the connector 318a of the instrument-side cable 318 of the embodiment. However, the connector 318a may be connected to a socket that is connected to another connector via a cable or directly. Another example of a fixture is a luminaire adapter that is attached to a hook ceiling and has a detachable base. In the case of these fittings, the socket provided in the existing lighting equipment can be used. Further, as an example of another connector, there is an E12 base type that can be attached to a socket for a nightlight. E12 base type fittings are not provided in existing luminaires. Commercial power is supplied to these connectors, and the luminaire has a function of attaching an LED lamp and a function of supplying electric power.
Further, the connector provided at the end of the cable on the appliance side opposite to the power supply unit may be connected to the cable directly connected to the commercial power supply without using the lighting fixture. An outlet may be provided at the end of the appliance-side cable opposite to the power supply unit so that the outlet can be directly connected to a commercial power source. In this case, the luminaire has only the function of attaching the LED lamp.

5. Fixture (1) Overall The fixture 5 of the embodiment has the fixture side fixing portion 50 and the lamp side fixing portion 51 integrally, but for example, the fixture side fixing portion and the lamp side fixing portion are separated. It may consist of a body.
The fixture 5 of the embodiment has a structure in which the fixture insertion portion 71 of the adapter 7 can be inserted into the cylindrical portion 52. For example, a fixture with the fixture insertion portion inserted into the cylindrical portion is integrally formed. It may be configured as the same member. In this case, the fixture-side fixing portion can be fixed to the fixing holder and also to the power feeding terminal.

(2) Instrument-side fixing portion The instrument-side fixing portion 50 of the embodiment has a cylindrical shape. However, the fixture-side fixing portion may be fixed to the fixing holder of the lighting fixture, and the shape and structure are not particularly limited.
In the case of a structure in which the outer peripheral surface is supported by the fixing holder as the fixture-side fixing portion, for example, the cross section may be C-shaped. It can be said that a C-shaped cross section has a cylindrical shape having a groove along the cylindrical axis direction.
In the case of a structure in which the outer peripheral surface is supported by the fixing holder as the fixture-side fixing portion, for example, a polygonal cylinder such as a hexagon may be formed, or a polygonal column such as a cylinder or a hexagon may be formed. Considering the attachment of the adapter 7, it is preferable that the fixture-side fixing portion has a tubular portion.

The fixture-side fixing portion 50 of the embodiment is configured to be fixed by a fixing holder 93 of the lighting fixture 9. However, the instrument-side fixing portion may be fixed to the fixing holder by using another member. For example, it may have a support portion supported by the fixed holder, and may be provided with another member such as a belt that closes the C-shaped opening so that the support portion does not come off from the fixed holder.

The instrument-side fixing portion 50 of the embodiment has a structure in which the outer peripheral surface is supported by the fixing holder 93, but for example, there may be an instrument-side fixing portion having a structure of being hooked on the fixing holder 93. The structure (shape) to be hooked includes a ring-shaped ring portion and a binding band.

The instrument-side fixing portion 50 of the embodiment has collar portions 53 at both ends of the cylindrical portion 52 over the entire circumference or substantially the entire circumference. However, the collar portion need not be formed over the entire circumference as long as the fixing holder and the collar portion come into contact with each other when the fixture slides. In this case, the protruding portions protrude in the radial direction at intervals in the circumferential direction.

(3) Lamp-side fixing portion The lamp-side fixing portion 51 of the embodiment has a shape similar to the fixing holder 93 of the luminaire 9. That is, the lamp-side fixing portion 51 has a C-shaped portion 54. However, the lamp-side fixing portion only needs to be able to fix the LED lamp, and its shape and structure are not particularly limited.
For example, the fixed portion on the lamp side has a "C" shape as a whole, but may have a polygonal shape instead of a circular shape, or a shape that supports the LED lamp so as to receive it, for example, a cross-sectional shape. It may be "U" -shaped or "L" -shaped.
Further, the lamp-side fixing portion has a structure that extends linearly from one end of the "C" shape and is bound (fixed) to the "C" -shaped portion via the outer circumference of the bulb body of the LED lamp. May be good. That is, the lamp-side fixing portion may be formed in a shape like a binding band.

The lamp-side fixing portion 51 of the embodiment is configured to fix the LED lamp 1. However, the lamp-side fixing portion may use another member to fix the LED lamp. For example, it may have a support portion that supports the LED lamp, and may be provided with another member such as a belt that closes the C-shaped opening so that the LED lamp does not come off from the support portion.

(4) Others The fixture 5 of the embodiment is used to fix an LED lamp 1 of a normal round fluorescent lamp size to a lighting fixture 9 for a round slim fluorescent lamp.
However, an LED lamp 1 having the size of a normal round fluorescent lamp may be attached to a lighting fixture of a normal round fluorescent lamp. In this case, the LED lamp 1 may be fixed to the fixed holder of the lighting fixture, and the fixture 5 may be attached to the LED lamp 1. By attaching the fixture 5 to the LED lamp 1 so that the fixture-side fixing portion 50 abuts on the luminaire, the LED lamp 1 can be attached to the existing luminaire in a stable state.

6. Adapter (1) Overall The adapter 7 of the embodiment has the instrument side mounting portion 70 and the fixture inserting portion 71 integrally, but for example, the instrument side mounting portion and the fixture inserting portion are configured as separate bodies. May be good.

(2) Instrument-side mounting portion The instrument-side mounting portion 70 of the embodiment has four extending portions 73. However, the stretched portion may be, for example, two or three. If there are a plurality of stretched portions, it is possible to restrict the adapter from rotating with respect to the luminaire (power supply terminal).
The instrument-side mounting portion 70 has a cubic base portion 72 and an arc-shaped bulging portion 74. However, the device-side mounting portion may be mounted on the power feeding terminal and may have a structure such that it is brought into contact with the holding member in the mounted state, and its shape or the like is not particularly limited. For example, the shape of the portion corresponding to the base portion and the bulging portion may be cylindrical or C-shaped when viewed from the stretching direction of the rod-shaped portion. However, the applicability and design can be improved by matching the shape around the base (power receiving terminal) of the fluorescent lamp attached to the lighting equipment.
The instrument-side mounting portion 70 of the embodiment has four recessed portions 74a, but the recessed portions may or may not be four. However, from the viewpoint of weight reduction, it is preferable that there is a recessed portion. Further, for example, a groove portion may be provided instead of the recessed portion 74a.

(3) Fixture Insertion Part The fixture insertion part 71 of the embodiment has a columnar rod-shaped portion 75 as an overall shape. The fixture insertion portion has a shape and structure that allows the fixing portion insertion portion and the fixture side fixing portion to abut (press) when the fixture insertion portion is inserted into the inserted portion of the fixture side fixing portion of the fixture. Just do it. From this point of view, the shape of the rod-shaped portion may be, for example, a semi-cylindrical shape, a C-shape, or the like. Considering adjusting the position of the fixture with respect to the adapter, the rod-shaped portion preferably has a circular cross-sectional shape.
The central axis of the rod-shaped portion 75 of the embodiment is inclined with respect to the central axis of the bulging portion 74. However, if the rod-shaped portion can be elastically deformed, it does not have to be inclined.

The rod-shaped portion 75 of the embodiment has a groove portion 75a, but for example, a plurality of elastically deformable convex portions may be provided on the outer peripheral surface.
The rod-shaped portion 75 of the embodiment has a groove portion 75a in the front-back direction, but may have a groove portion in a direction orthogonal to the front-back direction. The groove portions 75a are provided on both sides of the central axis of the rod-shaped portion 75, but if the direction of elastic deformation is determined, the groove portions may be provided on only one side.

1 LED lamp 3 Power supply unit 9 Lighting equipment 101 LED element 317 Lamp side cable 318 Equipment side cable

Claims (5)

An LED lamp set that can be attached to a lighting fixture to which a fluorescent lamp can be attached.
An LED lamp equipped with multiple LED elements as a light source,
A power supply unit that is separate from the LED lamp and supplies lighting power to the LED element,
A lamp-side cable that electrically connects the LED lamp and the power supply unit,
A device-side cable for electrically connecting the power supply unit and the commercial power supply side is provided .
The LED lamp is
A plurality of arcuate conductive pieces that electrically connect the plurality of LED elements,
A bulb body that accommodates the plurality of LED elements and the plurality of conductive pieces and is made of a translucent material.
With
The LED elements are connected so as to straddle the gaps between the plurality of conductive pieces.
One electrode is connected to one of the conductive pieces, the other electrode is connected to one of the other conductive pieces,
The valve body has at least one of a radial inner position regulating portion formed at the radial inner peripheral end of the conductive piece and a radial outer position regulating portion formed at the radial outer peripheral end of the conductive piece. LED lamp set having. The LED according to claim 1, wherein the plurality of arc-shaped conductive pieces are composed of a plurality of inner conductive pieces arranged inside the radial direction and a plurality of outer conductive pieces arranged outside the radial direction. Lamp set. The LED lamp set according to claim 1 or 2, wherein the power supply unit has a mounting tool for detachably mounting the fluorescent lamp on the side of the lighting fixture to which the fluorescent lamp is mounted. The LED lamp set according to claim 3, wherein the fixture includes a magnet. The power supply unit has a circuit board on which electronic components for power supply are mounted.
The magnet is arranged on the luminaire side with respect to the circuit board.
The LED lamp set according to claim 4, wherein an LED for a nightlight is provided on a surface of the circuit board opposite to the lighting fixture.

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