JP6730670B2 - Lighting equipment - Google Patents

Description

Embodiments of the present invention relate to a lighting device using a light emitting module and a lens.

Conventionally, for example, there is an illumination device such as an emergency light in which a light source is turned on by a battery power source when the external power source fails.

In such an illuminating device, a light emitting module having an LED or the like as a light source has been used, and in many cases, a lens for controlling distribution of light from the light emitting module is combined.

Generally, glass is used as the material of the lens, but the glass may be broken by contact with metal, which may complicate the configuration for holding the lens.

If the positional relationship between the light emitting module and the lens is misaligned, appropriate optical characteristics may not be obtained.

JP, 2005-65076, A

The problem to be solved by the present invention is to provide an illuminating device capable of obtaining appropriate optical characteristics with a simple configuration.

The lighting device of the embodiment includes a light emitting module, a holder portion, a lens, and a lens holding portion. The light emitting module is disposed on the radiator. The holder portion is made of resin, and holds the light emitting module in a position to be arranged on the radiator. The lens is made of glass and has a positioning part that positions the lens on the holder part. The lens holding portion is made of resin, and holds the lens by sandwiching the lens with the holder portion. The lens has a lens portion and an edge portion projecting from the periphery of the lens portion and sandwiched between the holder portion and the lens pressing portion, and the positioning portion projects from the edge portion and fits around the holder portion.

According to the present invention, it is possible to expect to obtain appropriate optical characteristics with a simple configuration.

It is sectional drawing of the illuminating device which shows one Embodiment. It is sectional drawing of an illuminating device same as the above. It is an exploded perspective view of a light source part, a radiator, and a power supply part of the same lighting device. It is an exploded perspective view of a light source part same as the above. It is a bottom view of the same lighting device with a decorative frame removed. It is a bottom view which removed the decorative frame and battery part of an illuminating device same as the above. It is a perspective view of an illuminating device same as the above. FIG. 3 is a perspective view of a decorative frame of the illumination device in a temporarily suspended state. It is a perspective view of the state which attaches and detaches the battery part of a lighting device same as the above.

Hereinafter, one embodiment will be described with reference to FIGS. 1 to 9.

As shown in FIG. 7, the lighting device (lighting fixture) 10 is an emergency lighting device such as an emergency light that lights up in an emergency such as a power failure. The lighting device 10 is configured as an embedded fixture structure that is embedded in an embedded hole formed in a ceiling plate or the like.

As shown in FIGS. 1, 8 and 9, a lighting device 10 includes a fixture body 11, a body unit 12 arranged in the fixture body 11, and a battery unit 13 detachably arranged in the fixture body 11. A cover body (14) is arranged on the lower surface side of the instrument body (11) so as to be openable, closable and detachable, and a pair of instrument attachment springs (15) and a terminal block (16) attached to the instrument body (11), respectively.

Then, as shown in FIGS. 1, 2, and 5 to 9, the instrument main body 11 has a main body portion 20 and a top plate 21 attached to the upper surface of the main body portion 20.

The main body 20 is made of, for example, aluminum die-cast, and is integrally formed in a cylindrical shape having upper and lower openings. An opening portion 23 is formed on the lower surface side of the main body portion 20, and a flange portion 24 is projectingly provided on the lower side peripheral portion of the main body portion 20.

A body unit accommodating portion 25, in which the body unit 12 is arranged, is formed in the body portion 20 in a region extending from the central portion of the body portion 20 to the peripheral portion on one side, and the battery is provided on the peripheral portion on the other side in the body portion 20. A battery unit housing portion 26 in which the unit 13 is detachably arranged is formed.

A support spring attachment portion 27 for attaching the cover body 14 is provided on one side of the main body portion 20 opposite to the side where the battery unit 13 is arranged, and a cover body is provided on the other side wall portion of the main body portion 20. A locking hole 28 for mounting 14 is formed. The support spring mounting portion 27 has a mounting groove 29 that opens vertically, and is integrally provided so as to project from the inner wall of the main body portion 20.

The battery unit 13 is locked in the battery unit accommodating portion 26 of the main body portion 20 and on both sides in a direction orthogonal to the one side and the other side of the main body portion 20 at positions parallel and linearly opposed to each other. A pair of claw portions 30 serving as locked portions are provided so as to project. The claw portion 30 is formed such that the upper surface side is a substantially horizontal surface and the lower surface side is an inclined surface that inclines toward the tip of the upper surface side.

Instrument mounting spring attachment portions 31 to which a pair of instrument attachment springs 15 are attached are provided on both sides in a direction orthogonal to one side and the other side of the main body section 20.

The top plate 21 supports the main body unit 12, is attached to the upper surface side of the main body portion 20 by screwing, and is thermally connected. The top plate 21 is provided with a terminal block mounting portion 32 protruding from one side of the main body 20, that is, the side opposite to the side on which the battery unit 13 is arranged. The terminal block 16 is attached to the lower surface of the terminal block attachment portion 32.

Further, as shown in FIGS. 1, 3, 5, and 6, the main body unit 12 has a radiator 36, a light source section 37, and a power source section 38, which are integrally combined. .. The radiator 36 and the light source section 37 are arranged in the central portion of the instrument body 11, the light source section 37 is arranged on the opening 23 side, and the power source section 38 is arranged on one side of the instrument body 11.

The radiator 36 is made of, for example, aluminum die casting, and has a light source mounting portion 40 and a plurality of pillar portions 41 protruding from the upper surface of the light source mounting portion 40. A flat light source mounting surface 42 is formed on the lower surface of the light source mounting portion 40. The upper ends of the pillars 41 are screwed to the top plate 21, and the radiator 36 is fixed to the top plate 21 and is thermally connected thereto.

As shown in FIGS. 1, 3 and 4, the light source unit 37 is a light emitting module 44 disposed on the light source mounting surface 42 of the radiator 36, holds the light emitting module 44 in position, and is electrically connected to the power source unit 38. It has a holder 45 that is a socket that is electrically connected, a lens 46 that controls the light distribution of the light emitted from the light emitting module 44, and a lens pressing portion 47 that holds the lens 46 between the holder 45 and the lens.

The light emitting module 44 of the light source unit 37 has a substrate 49 and a light emitting element 50 mounted on the surface of the substrate 49. In the present embodiment, the light emitting module 44 is a COB (Chip On Board) module in which a plurality of LEDs as the light emitting elements 50 are mounted on the surface of the substrate 49 and the LEDs are integrally covered with the phosphor layer 51. It is used. The surface of the phosphor layer 51 is a light emitting portion (light emitting surface) 52 that emits light. The substrate 49 has a quadrangular shape, and the wiring pattern 53 is formed on the surface thereof. In the wiring pattern 53, a plurality of light emitting elements 50 (LEDs) are mounted in the center of the substrate 49 to form, for example, a mounting pattern region that is connected in series, and the light emitting device 50 (outside the mounting pattern region is located outside the substrate 49). The positive and negative electrode pad portions 54 electrically connected to the LED are formed respectively.

The holder 45 of the light source unit 37 includes a resin-made holder unit 56 having an insulating property, and a pair of terminals 57 incorporated in the holder unit 56. The holder part 56 is formed in an annular shape having an opening 58 formed in the center thereof so as to face the light emitting part 52 of the light emitting module 44 and through which light passes. On the back surface of the holder portion 56, a square fitting groove 59 for positioning and fitting the substrate 49 is formed. Inside the fitting groove 59, contact portions of a pair of terminals 57 electrically connected to the positive and negative electrode pad portions 54 of the light emitting module 44 are arranged. A pair of electric wire insertion holes 60 into which a pair of electric wires for electrically connecting to the power supply unit 38 are respectively inserted are formed on the side of the holder portion 56, and each electric wire is electrically connected to the inside of these electric wire insertion holes 60. The electric wire connecting portions of the pair of terminals 57 that are electrically connected are arranged. Then, the holder part 56 is fastened and fixed to the light source mounting surface 42 of the radiator 36 with a plurality of screws 61, the substrate 49 of the light emitting module 44 is sandwiched between the holder part 56 and the light source mounting surface 42, and the light source mounting surface is While being pressed against 42, the contact portions of the pair of terminals 57 are in contact with and electrically connected to the pair of electrode pad portions 54 of the substrate 49, respectively.

The lens 46 of the light source unit 37 is made of glass and is integrally formed. The lens 46 includes a lens portion 63 projecting to the front surface side, an annular edge portion 64 projecting from the rear surface side peripheral portion of the lens portion 63, and a fitting portion 65 protruding from the rear surface side peripheral portion of the edge portion 64. have. The lens portion 63 is provided with a concave entrance surface 66 on the back surface side and a convex exit surface 67 on the front surface side, and uses the light from the light emitting portion 52 of the light emitting module 44 as a predetermined light distribution in an illumination space. Emit to. A flat portion 68 for positioning is formed on each of both outer sides of the edge portion 64 on one side and on the other side. The fitting portion 65 is configured as a positioning portion 69 that fits on the outer periphery of the holder portion 56 (holder 45) and positions the holder portion 56 (holder 45). Grooves 70 for passing an electric wire connected to the holder 45 are formed on both sides of the fitting portion 65 orthogonal to the flat portion 68. The groove portions 70 are provided at symmetrical positions on both sides of the fitting portion 65, and when assembling the light source portion 37, either groove portion 70 can be aligned with the wire insertion hole 60 side of the holder 45 to improve the assemblability. ing.

The lens pressing part 47 of the light source part 37 is made of resin and has an insertion hole 71 through which the lens part 63 of the lens 46 is inserted. The lens pressing portion 47 holds the lens 46 by sandwiching the edge portion 64 of the lens 46 with the holder portion 56. The lens pressing portion 47 is provided with a lens guide portion 72 that is combined with the flat portion 68 of the edge portion 64 of the lens 46.

The power supply unit 38 has a power supply circuit 74 and a power supply case 75 that houses the power supply circuit 74.

The power supply circuit 74 has a board 76 and a plurality of electronic components 77 mounted on the board 76, and inputs an external power supply such as an AC power supply from the terminal block 16. The power supply circuit 74 is a charging circuit that charges the battery unit 13 (storage battery 102) with an external power supply, a power failure detection circuit that detects a power failure of the external power supply, and turns on the light emitting module 44 with the power supply of the battery unit 13 (storage battery 102) during a power failure. It has a lighting circuit, an inspection circuit for inspecting the state of the battery unit 13, the state of the light emitting module 44, and the like.

The power supply circuit 74 has an inspection switch 78, a monitor lamp 79, a receiving section 80, and a transmitting section 81 which are mounted on the lower end side of the board 76. The inspection switch 78 starts the inspection operation by the inspection circuit by an external operation. The monitor lamp 79 displays the inspection operation of the inspection circuit and the inspection result by this inspection circuit during charging. The receiving unit 80 receives a signal transmitted wirelessly such as infrared rays from a terminal such as a remote controller (not shown), and the received signal includes an inspection signal for instructing the start of the inspection mode and time information. ing. The transmission unit 81 transmits a signal to the terminal by radio such as infrared rays, and the transmitted signal includes a history including inspection results and the like. Two transmitters 81 are used to secure the transmission distance in the case of a high ceiling where the lighting device 10 is installed at a high height, but only one transmitter 81 may be used in cases other than for a high ceiling.

The power supply circuit 74 has a power supply connector 82 mounted on the substrate 76 and electrically connected to the battery unit 13. The power supply connector 82 is provided toward the lower side of the power supply section 38, and three power supply terminal sections 83 are arranged inside. One of the three power supply terminal portions 83 is for the negative electrode, and the other two are for the positive electrode. For example, one of the power source terminal portions 83 for the positive electrode is used depending on the type of the device depending on the difference in light output. .. For example, one type of positive power source terminal portion 83 is used for a high light output instrument type, and the other positive electrode power source terminal portion 83 is used for a low light output instrument type.

The power supply case 75 has an upper first case portion 84 and a lower second case portion 85, and the first case portion 84 and the second case portion 85 are combined to accommodate the power supply circuit 74. The first case portion 84 is combined with the radiator 36, locked by the claw portion 86, and screwed to the top plate 21. The second case portion 85 has the locking pieces 87 provided on both sides of the second case portion 85 locked by the locking projections 88 provided on both sides of the first case portion 84, respectively. It is attached to one case portion 84.

The lens pressing portion 47 is integrally formed with the second case portion 85 of the power supply case 75. By mounting the second case portion 85 on the first case portion 84, the lens 46 is held between the lens pressing portion 47 of the second case portion 85 and the holder 45. The lens pressing part 47 may be provided separately from the power supply case 75.

An inspection switch portion 89 for operating the inspection switch 78 is integrally formed on the lower surface of the second case portion 85 of the power supply case 75, and a monitor hole 90 facing the monitor lamp 79 and a receiving portion 80 are also opposed. A receiving hole 91, a transmitting hole 92 facing the transmitting unit 81, and a connector hole 93 facing the power connector 82 are formed. The inspection switch section 89 is separated from the second case section 85 around the inspection switch section 89 except a part of the connecting section, and receives the operating force from the outside to elastically deform to push the inspection switch 78. It is possible.

In addition, as shown in FIGS. 1, 2, 5, 8 and 9, the battery unit 13 is provided on the other side of the instrument body 11 around the central portion, that is, around the heat radiation portion 36 and the light source portion 37. , It is arranged to be removable. The battery unit 13 includes a battery part 97 and a pair of locking springs 98 that removably lock the battery part 97 to the instrument body 11.

The battery part 97 is formed in a substantially C-shape in a bottom view (or a plan view) so as to be arranged on the other side in the instrument body 11 around the central part, that is, around the heat dissipation part 36 and the light source part 37. There is. That is, the battery part 97 is provided on both sides of the intermediate part 100 arranged on the other side in the instrument body 11 and on both sides of the intermediate part 100 and on both sides orthogonal to one side and the other side in the instrument body 11. It has side portions 101 on both sides arranged on both sides (to which the instrument attachment springs 15 are attached), and is formed in a substantially C-shape in bottom view (or plan view).

The battery unit 97 includes a plurality of storage batteries (secondary batteries or batteries) 102 and a battery case 103 that houses these storage batteries 102.

The storage battery 102 is formed in a cylindrical shape, and is a rechargeable battery such as a nickel-cadmium battery, a nickel-hydrogen battery, or a lithium-ion battery. The plurality of storage batteries 102 are connected in series. The number of the storage batteries 102 varies depending on the type of device depending on, for example, the difference in light output, and may be, for example, three or seven.

The battery case 103 is made of insulating resin. The battery case 103 has a case body 104 whose lower surface side is open, and a case lid body 105 attached to the lower surface side of the case body 104. In the battery case 103, a plurality of storage batteries 102 are arranged side by side in the horizontal direction with the longitudinal direction of the storage batteries 102 oriented in the vertical direction.

The battery section 97 is arranged at a predetermined mounting position in the instrument body 11, and the lower end surface 97a of the battery section 97 is located at the back side of the instrument body 11, that is, above the light source section 37.

The battery section 97 has a battery connector 106 that is fitted into the power supply connector 82 and electrically connected thereto when the battery section 97 is arranged at a predetermined mounting position in the instrument body 11. The battery connector 106 is provided so as to project upward from a connector arrangement portion 107 that protrudes from the tip side surface of the one side portion 101 of the battery portion 97, and three battery terminal portions 108 are arranged inside. .. One of the three battery terminal portions 108 is for the negative electrode, and the remaining two are for the positive electrode. For example, either one of the battery terminal portions 108 for the positive electrode is used depending on the type of device depending on the difference in light output. .. For example, in a high light output device type using seven batteries, one battery terminal portion 108 for the positive electrode is used, and in a low light output device type using three batteries, the other positive battery terminal portion 108 is used. Used. The connector placement portion 107 also protrudes from the end surface 97a of the battery portion 97, and is substantially flush with the lower surface of the power supply case 75 in a state where the battery portion 97 is placed at a predetermined mounting position in the instrument body 11. ..

A pair of locking spring mounting portions 109 for mounting the pair of locking springs 98 are provided at positions on the outer surfaces of both side portions 101 of the battery portion 97 that are parallel to each other and face each other in a straight line.

The pair of locking springs 98 are attached to the pair of locking spring mounting portions 109 of the battery part 97, so that the pair of locking springs 98 are arranged outside the both side parts 101 of the battery part 97 in parallel and linearly opposed positions. There is.

The locking spring 98 is composed of a metal leaf spring. The locking spring 98 is provided at one end with a mounting portion 111 that is mounted to the locking spring mounting portion 109 of the battery unit 97, and in the middle is provided with a locking portion 112 that can be locked with the claw portion 30 of the instrument body 11. An operation portion 113 operable from the opening 23 of the instrument body 11 is provided at the other end.

The mounting portion 111 is press-fitted into the groove of the locking spring mounting portion 109 of the battery portion 97 from below, and the cut-and-raised piece portion 111a is hooked on the battery portion 97 and is fixed to be prevented from coming off.

The operation portion 113 is provided on the tip side of the bent portion 114 that is bent so as to face the end surface 97a from the position of the locking spring 98 that projects from the end surface 97a of the battery portion 97. The tip end side of the operation portion 113 is bent outward in the facing direction of the pair of operation portions 113. The operating portion 113 is tilted outward in the facing direction of the pair of operating portions 113 with respect to the direction perpendicular to the end surface 97a of the battery portion 97 in a state where the locking spring 98 is locked to the instrument body 11. There is.

The pair of locking springs 98 are in the same straight line in the direction of engaging and disengaging with the claw portions 30 of the instrument body 11 due to elastic deformation, and are engaged with the instrument body 11 when the operation portions 113 are operated in the opposite directions. The lock is configured to be released.

Further, the cover body 14 has a decorative frame 118, a support spring 119 for attaching the decorative frame 118 to the instrument body 11, and a decorative frame locking spring 120 as a locking portion.

The decorative frame 118 is formed in a disk shape having a diameter larger than that of the flange portion 24 of the device body 11. A circular exit opening 121 from which the lens 46 projects is formed in the center of the decorative frame 118, and an inspection opening 122 and a signal opening 123 are formed around the exit opening 121. The inspection switch section 89 and the monitor lamp 79 are opposed to the inspection opening 122. The reception unit 80 and the transmission unit 81 are opposed to the signal opening 123.

The support spring 119 is a so-called V spring, which is formed of a wire spring, has an intermediate portion provided in a coil shape, and has both end portions projecting from the coil portion so as to expand into a substantially V shape. The coil portion of the support spring 119 is attached to the back surface of the decorative frame 118 by the attachment metal fitting 124. Both ends of the support spring 119 are engaged with the mounting grooves 29 of the support spring mounting portion 27 of the instrument body 11, and the both ends of the support spring 119 are recessed so that they can be attached to and detached from the mounting groove 29 of the support spring mounting portion 27. .. The tip of the support spring 119 is bent into a substantially L shape so that when the decorative frame 118 is pulled down from the instrument body 11, it is caught by the support spring attachment portion 27.

The decorative frame locking spring 120 is composed of a leaf spring, is attached to the back surface of the decorative frame 118, and is removably locked in the locking hole 28 of the instrument body 11.

The instrument mounting spring 15 is composed of a leaf spring and is attached to the instrument mounting spring mounting portion 31 of the instrument body 11. The device mounting spring 15 is laterally deployed before being installed on the ceiling or the like.

In addition, the terminal block 16 is electrically connected to the power supply circuit 74 by an electric wire, and is connected to a power supply line that supplies external power when the lighting device 10 is installed.

Next, the operation of the lighting device 10 will be described.

To install the lighting device 10 on a ceiling or the like, a power line drawn from an embedded hole in the ceiling or the like was connected to the terminal block 16, and the fixture mounting spring 15 was elastically deformed along the side surface of the fixture body 11. In this state, the instrument body 11 is inserted into an embedding hole such as a ceiling plate. After the insertion, by releasing the holding of the instrument mounting spring 15, the instrument mounting spring 15 expands laterally and engages with the upper side of the ceiling plate, etc., and the instrument main body 11 is pulled up by this instrument mounting spring 15. And the flange portion 24 of the device body 11 comes into contact with the lower surface such as the ceiling, and the installation of the device body 11 is completed.

At this time, first, the device main body 11 may be installed with the decorative frame 118 removed, and after the device main body 11 is installed, the decorative frame 118 may be attached to the device main body 11. Alternatively, first, the instrument body 11 is installed with the makeup frame 118 and the battery unit 13 removed, and after the instrument body 11 is installed, the battery unit 13 is attached to the instrument body 11 and the makeup frame 118 is attached to the instrument body 11. It may be attached.

Then, during the normal time when the external power source is supplied to the lighting device 10, the charging circuit of the power source circuit 74 charges the storage battery 102 of the battery unit 97 by the external power source. At this normal time, the lighting current is not supplied to the light emitting module 44, and the light emitting module 44 is in the off state. When the power supply circuit 74 includes a constant lighting circuit, a predetermined lighting current may be supplied to the light emitting module 44 by the constant lighting circuit supplied with an external power source to light the light emitting module 44.

Further, in an emergency such as a power failure of the external power supplied to the lighting device 10, the power failure detection circuit of the power supply circuit 74 detects the power failure of the external power supply and the power is supplied from the storage battery 102 of the battery unit 97. By supplying a predetermined lighting current to the light emitting module 44 by the lighting circuit of 74, the light emitting module 44 (light emitting element 50) is turned on. The light from the light emitting module 44 that is turned on is converted into a predetermined light distribution by the lens 46 and is applied to the illumination space.

Further, in a normal state, when the inspection switch unit 89 is operated and the inspection switch 78 is turned on, the inspection mode of the inspection circuit of the power supply circuit 74 is started, the state of the life of the storage battery 102, the state of the failure of the light emitting module 44, etc. The inspection operation is performed and the inspection result is displayed in the display state of the monitor lamp 79.

Further, even when the receiving unit 80 receives an inspection signal from a terminal such as a remote controller, the inspection circuit of the power supply circuit 74 starts the inspection mode, the state of the life of the storage battery 102, the state of the failure of the light emitting module 44, and the like. The inspection operation is performed and the inspection result is transmitted from the transmission unit 81 to the terminal.

Next, replacement of the battery unit 13 will be described. As shown in FIG. 8, the decorative frame 118 is pulled downward to release the decorative frame locking spring 120 from the instrument body 11, and the decorative frame 118 is moved downward via the support spring 119. At the position where the tip of the support spring 119 is engaged with the support spring attachment portion 27 of the instrument body 11, the decorative frame 118 is suspended from the instrument body 11 via the support spring 119 and is in a temporary suspension state. In the temporarily suspended state of the decorative frame 118, the decorative frame 118 is located on the opposite side of the instrument body 11 from the side on which the battery unit 13 is arranged.

Two fingers are respectively put on the operating portions 113 of the pair of locking springs 98 of the battery unit 13, and the operating portions 113 of the pair of locking springs 98 are pinched by the two fingers. As a result, as shown by the chain double-dashed line in FIG. 2, the pair of locking springs 98 move close to each other, that is, elastically deformed so as to move away from the instrument body 11 side and approach the battery section 97 side. The stopper 112 is disengaged from the claw portion 30 of the instrument body 11.

At this time, the end surface 97a of the battery portion 97 is located at the back side, that is, the upper side of the instrument body 11 with respect to the light source portion 37, and the operation portion 113 of the pair of locking springs 98 is arranged below the end surface 97a of the battery portion 97. Therefore, a finger can be easily hooked on the operation portion 113 of the pair of locking springs 98 from the opening 23 of the instrument body 11 to operate.

Moreover, the pair of locking springs 98 are arranged outside the both side parts 101 of the battery part 97 at positions parallel to each other and linearly opposed to each other, and are elastically deformed to engage and disengage with the claw parts 30 of the instrument body 11. Since the locking with respect to the instrument main body 11 is released in a straight line and the operation portions 113 are operated in the directions opposite to each other, the operation portions 113 of the pair of locking springs 98 are operated with two fingers. As a result, the locking can be easily released.

Further, the operating portion 113 of the pair of locking springs 98 is a pair of operating portions 113 with respect to a direction perpendicular to the end surface 97a of the battery portion 97 in a state where the pair of locking springs 98 are locked to the instrument body 11. Since it is inclined toward the outer side in the facing direction, it is easy for a finger to be caught on the operation unit 113 and can be easily operated. When the operation portions 113 of the pair of locking springs 98 are pinched, the operation portions 113 are inclined toward the outer side in the facing direction of the pair of operation portions 113 with respect to the direction perpendicular to the end surface 97a of the battery portion 97, or It is substantially perpendicular to the end face 97a of 97.

When the locking portions 112 of the pair of locking springs 98 are disengaged from the claw portions 30 of the device body 11, the battery unit 13 descends from the device body 11 and comes out. At this time, since the fingers are hooked on the operation portions 113 of the pair of locking springs 98, the lowering of the battery unit 13 can be received by the fingers, that is, the hand, and the battery unit 13 can be prevented from falling. ..

As shown in FIG. 9, the battery unit 13 is moved downward from inside the instrument body 11 and taken out downward from the opening 23 of the instrument body 11. At this time, the decorative frame 118 that is temporarily suspended on the instrument body 11 is arranged on the opposite side of the instrument body 11 from the side on which the battery unit 13 is arranged. Can be easily removed without disturbing the battery unit 13.

Also, by inserting a new battery unit 13 to be replaced into the battery unit accommodating portion 26 of the instrument body 11 from below, the pair of locking springs 98 abut the claw portions 30 of the instrument body 11 and are elastically deformed. By moving the locking portion 112 of the locking spring 98 above the claw portion 30 of the device body 11, the locking portion 112 of the pair of locking springs 98 is locked to the claw portion 30 of the device body 11, The battery unit 13 is mounted in the instrument body 11. At this time, the battery connector 106 of the battery unit 13 is attached to and electrically connected to the power connector 82 of the power supply unit 38.

By moving the decorative frame 118 upward so as to cover the lower surface of the instrument main body 11, both ends of the support spring 119 are expanded while moving above the support spring attachment portion 27. The decorative frame 118 is pulled up to the instrument body 11 by the elasticity of expanding. The decorative frame locking spring 120 is locked in the locking hole 28 of the instrument body 11, and the replacement work of the power supply unit 13 is completed.

Further, according to the lighting device 10 of the present embodiment, since the positioning portion 69 is provided in the glass lens 46, the positioning portion 69 of the lens 46 is positioned in the holder portion 56 that positions and holds the light emitting module 44, and the lens pressing portion. The lens 46 can be held by being sandwiched between the lens 46 and the holder portion 56 by 47. Therefore, the light emitting module 44 and the lens 46 can be positioned via the holder portion 56, and appropriate optical characteristics can be obtained with a simple configuration, for example, by aligning the optical axes of the light emitting module 44 and the lens 46.

Moreover, since the glass lens 46 is sandwiched and held by the resin holder portion 56 and the resin lens pressing portion 47, the lens 46 can be securely held while being prevented from being damaged.

Further, in the lens 46, an edge portion 64 protruding from the periphery of the lens portion 63 is sandwiched between the holder portion 56 and the lens pressing portion 47, and a positioning portion 69 protruding from the edge portion 64 has a holder portion 56. Since it is fitted around the periphery of the lens, it is possible to prevent the lens 46 from being damaged by distributing the load by dividing the holding portion and the positioning portion.

Further, since the lens pressing portion 47 is integrally formed with the power supply case 75 of the power supply portion 38 and is also used, the configuration can be simplified and the assembling property can be improved.

Further, since the power supply case 75 is integrally formed with the power supply unit 38 and the inspection switch unit 89 for instructing the inspection operation, the inspection switch 78 can be easily operated with a simple configuration.

Furthermore, according to the lighting device 10 of the present embodiment, the pair of locking springs 98 are arranged outside the both side parts 101 of the battery part 97 at positions parallel to each other and linearly opposed to each other, and elastically deformed to cause the fixture body 11 to move. Since the direction of engaging and disengaging with the claw portion 30 of the device is on the same straight line, and the locking of the instrument body 11 is released when the operating parts 113 are operated in the directions opposite to each other, a pair of locking with two fingers is performed. By locking the operation portion 113 of the spring 98, the locking can be easily released, and therefore the battery unit 13 can be easily attached to and detached from the instrument body 11.

Further, the end surface 97a of the battery portion 97 is located at the back side, that is, the upper side of the instrument body 11 with respect to the light source portion 37, and the operation portions 113 of the pair of locking springs 98 are arranged so as to project from the end surface 97a of the battery portion 97. Therefore, it is possible to secure a length of the operation portion 113 which is easy for a finger to hang, and it is possible to easily hang the finger from the opening portion 23 of the instrument body 11 on the operation portion 113 of the pair of locking springs 98 for operation.

Further, the operating portion 113 of the pair of locking springs 98 has a pair of operating portions 113 with respect to a direction perpendicular to the end surface 97a of the battery portion 97 in a state where the pair of locking springs 98 are locked to the instrument body 11. Since it is inclined toward the outer side in the facing direction, it is easy for a finger to be caught on the operation unit 113 and can be easily operated.

Further, since the battery unit 13 is arranged on the side opposite to the mounting position of the support spring 119 of the instrument body 11, that is, the decorative frame 118 that is temporarily suspended by the support spring 119 on the instrument body 11 is the instrument body. 11 is arranged on the opposite side to the side on which the battery unit 13 is arranged, the decorative frame 118 supported by the support spring 119 does not interfere with the attachment and detachment of the battery unit 13, and the battery unit 13 Can be easily attached and detached.

Further, since the terminal block 16 is arranged outside the instrument main body 11 and on the opposite side to the side on which the battery unit 13 is arranged, the height of the lighting device 10 can be lowered and the battery unit 13 having a large mass can be used. The mass balance can be optimized.

Further, the power supply connector 82 of the power supply section 38 has three power supply terminal sections 83, and the battery connector 106 of the battery section 97 has three battery terminal sections 108, each of which has two predetermined power supply terminals according to the type of device. Since the power supply unit 38 and the battery unit 97 are electrically connected by using the unit 83 and the battery terminal unit 108, respectively, it is possible to prevent erroneous mounting of different types of battery units 13. For example, when one of the three power supply terminal portions 83 and the battery terminal portion 108 is for the negative electrode and the remaining two are for the positive electrode, for example, one of the positive electrode is for the positive electrode depending on the type of the device depending on the difference in light output. The power supply terminal portion 83 and the battery terminal portion 108 are used. For example, one type of positive power source terminal portion 83 and one battery terminal portion 108 are used for a high light output device type using seven batteries, and the other positive electrode is used for a low light output device type using three batteries. The power supply terminal portion 83 and the battery terminal portion 108 are used. Then, when a proper type of battery unit 13 is erroneously attached to the instrument body 11, the power source section 38 and the battery section 97 are electrically connected, and the battery section 97 is charged and discharged, but the instrument body 11 is When a different type of battery unit 13 is erroneously attached, the power supply unit 38 and the battery unit 97 are not electrically connected, and the battery unit 97 is neither charged nor discharged.

Note that the lighting device 10 is not limited to the embedded fixture structure, but can be applied to a direct-attached fixture structure directly attached to a ceiling surface or the like.

Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the scope of equivalents thereof.

10 lighting equipment
36 radiator
38 Power supply
44 light emitting module
46 lens
47 Lens retainer
56 Holder
63 Lens section
64 edges
69 Positioning unit
74 Power circuit
75 power case
89 Inspection switch section

Claims (3)

A light emitting module arranged on the radiator;
A resin holder for positioning and holding the light emitting module and arranging the light emitting module on the radiator;
A glass lens having a positioning portion for positioning the holder portion;
A lens holding portion made of resin for sandwiching and holding the lens between the holder portion;
Equipped with,
The lens has a lens portion and an edge portion projecting from the periphery of the lens portion and sandwiched between the holder portion and the lens pressing portion, and the positioning portion is provided protruding from the edge portion and the holder portion. lighting apparatus characterized in that fits around. A light emitting module arranged on the radiator;
A resin holder for positioning and holding the light emitting module and arranging the light emitting module on the radiator;
A glass lens having a positioning portion for positioning the holder portion;
A lens holding portion made of resin for sandwiching and holding the lens between the holder portion;
A power supply circuit for supplying power to the light emitting module, and a power supply section having a power supply case for housing the power supply circuit ;
Equipped with,
Wherein the power supply casing, wherein the lens holding portion illumination device that Symbol mounting to, characterized in that it is integrally formed. The lighting device according to claim 2 , wherein an inspection switch unit for instructing an inspection operation to the power supply unit is integrally formed in the power supply case.

Images