JP2013045543A - Lighting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide lighting devices, of which, the number of installation can be reduced.SOLUTION: In the lighting device 1 with light emitted from a light source 21 incident from an incident surface 23a of a condenser lens 23, and with the light condensed from an emission surface 23b of the condenser lens 23 emitted, a lens transition mechanism part 40 is provided for changing a distance between the incident surface 23a of the condenser lens 23 and an emission surface 21a of the light source 21 by moving the condenser lens 23.

Description

  The present invention relates to an illuminating device in which light emitted from a light source is incident from an incident surface of a condensing lens and light collected from the emergent surface of the condensing lens is emitted.

  Conventionally, as an illuminating device, for example, there is an illuminating device in which light emitted from a light source is incident from an incident surface of a condensing lens and light collected from the emergent surface of the condensing lens is emitted. In such an illuminating device, a predetermined illumination area can be obtained at an illumination target position by appropriately setting the distance between the light exit surface of the light source and the entrance surface of the condenser lens. For example, Patent Document 1 proposes a vehicle interior illumination lamp that can change the light distribution characteristics depending on the vehicle type.

  The vehicle interior illumination lamp described in Patent Document 1 obtains a predetermined illumination area according to the distance from the vehicle interior illumination lamp to the illumination target position, for example, the distance from the vehicle interior illumination lamp to the driver's hand position. Therefore, a spacer is provided between the circuit board on which the light source is placed and the condensing lens, so that the distance between the light exit surface of the light source and the entrance surface of the condensing lens can be adjusted. For this reason, even if the distance between the vehicle interior illumination lamp and the driver's hand position varies depending on the vehicle type, light in a predetermined illumination area is irradiated to the hand position according to the vehicle type.

JP 2006-147347 A

  However, in the vehicle interior illumination lamp described in Patent Document 1, it is necessary to install an illumination device having spacers with different thicknesses according to the distance between the vehicle interior illumination lamp and the illumination target position, and as a result In particular, there is a problem that the number of installed lighting devices increases.

  This invention is made | formed in view of the above, Comprising: It aims at providing the illuminating device which can reduce the number of installation.

  In order to solve the above-described problems and achieve the object, the illumination device according to claim 1 of the present invention is configured such that light emitted from a light source is incident from an incident surface of a condensing lens, and the exit surface of the condensing lens is obtained. In the illumination device that emits the light collected from the light source, the illumination device has a lens moving mechanism that moves the light collecting lens to change the distance between the light incident surface of the light collecting lens and the light emitting surface of the light source. It is characterized by becoming.

  Further, in the illumination device according to claim 2 of the present invention, in the above invention, the lens moving mechanism section is centered with respect to a lens gear that is a gear provided on a side portion of the condenser lens and the light source. The relative position of the shaft is not changed, and there is provided a drive gear for moving the condenser lens by meshing with the lens gear and rotating.

  In the illumination device according to claim 3 of the present invention, in the above invention, the lens moving mechanism section includes a lens drive motor for rotating the drive gear, and the illumination device is for the lens. It has a motor control part which controls the drive of a drive motor, It is characterized by the above-mentioned.

  In the illumination device according to claim 4 of the present invention, in the above invention, the illumination device includes a gantry unit to which the light source and the lens moving mechanism unit are attached, and the gantry unit is moved in the moving direction of the condenser lens. And a gantry moving mechanism unit that moves in a plane perpendicular to the vertical axis.

  Since the illuminating device concerning Claim 1 of this invention has a lens moving mechanism part which changes the distance of the entrance plane of the said condensing lens, and the output surface of the said light source by moving the said condensing lens. The lighting target position and the lighting area can be changed with one lighting device, and as a result, the number of installations can be reduced.

  In the illumination device according to claim 2 of the present invention, the relative position of the central axis with respect to the lens gear, which is a gear provided on the side of the condenser lens, and the light source is not changed. And a driving gear for moving the condensing lens by rotating in mesh with the lens gear, so that the incident surface of the condensing lens and the light source can be emitted with a simple configuration using the gear. The distance from the surface can be changed.

  The illumination device according to claim 3 of the present invention is such that the lens moving mechanism section includes a lens drive motor that rotates the drive gear, and the illumination device controls the drive of the lens drive motor. Therefore, the illumination target position and the illumination area can be automatically changed.

  According to a fourth aspect of the present invention, there is provided an illuminating device including a gantry unit to which the light source and the lens moving mechanism unit are attached, and a gantry that moves the gantry unit in a front-rear direction within a plane orthogonal to a moving direction of the condenser lens. And a moving mechanism, so that the illumination target position can be changed not only in the vertical direction but also in the front-rear direction.

FIG. 1 is a schematic diagram of a lighting apparatus according to Embodiment 1 of the present invention. FIG. 2 is an exploded perspective view of the illumination unit of the illumination device shown in FIG. FIG. 3 is a diagram for explaining that the light distribution characteristic changes as the distance between the exit surface of the LED and the entrance surface of the condenser lens changes. FIG. 4 is a flowchart showing a control procedure of the lens drive motor and the gantry drive motor according to the illumination mode performed by the motor control unit. FIG. 5 is a schematic diagram of a lighting device according to a modification of the first embodiment of the present invention. FIG. 6 is a schematic diagram of an illumination apparatus according to the second embodiment of the present invention.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of a lighting device according to the present invention will be described in detail with reference to the drawings.

(Embodiment 1)
FIG. 1 is a schematic diagram of a lighting device 1 according to a first embodiment of the present invention. FIG. 2 is an exploded perspective view of the lighting unit 10 of the lighting device 1 shown in FIG. FIG. 3 is a diagram for explaining that the light distribution characteristic changes as the distance between the incident surface 23a of the condenser lens 23 and the light source 21 changes.
For the sake of convenience, the directions of the arrows orthogonal to each other in the figure are the up / down, front / rear, left / right directions.

The illumination device 1 according to the first embodiment of the present invention is a so-called vehicle interior illumination device that is installed, for example, on the indoor ceiling of a vehicle, and is emitted from an emission surface 21a of an LED (light emitting diode) 21 as a light source. The incident light is incident from the incident surface 23 a of the condenser lens 23, and the condensed light is emitted from the emission surface 23 b of the condenser lens 23.
As illustrated in FIG. 1, the lighting device 1 includes a lighting unit 10, a motor control unit 70, and an operation input unit 80.

First, the illumination unit 10 will be described.
The illumination unit 10 includes an illumination function unit 20, a movement mechanism unit 30, and a bezel 60.
The illumination function unit 20 includes an LED 21 as a light source, a circuit board 22 on which the LED 21 is mounted, and a condenser lens 23 that condenses light emitted from the LED 21.

The circuit board 22 is realized by a so-called printed wiring board, and a conductor pattern such as a power circuit for supplying power to the LED 21 is formed, and a signal line or a power supply line is connected via a terminal (not shown) formed on the board. It is connected to the electric wire etc.
The LED 21 is provided with a light emission surface 21 a on the surface of a box-shaped package, and a power input terminal (not shown) is connected to a power circuit (not shown) of the circuit board 22. Such an LED 21 is lit when supplied with power via a power circuit.
The condensing lens 23 is a hemispherical lens made of a material such as polycarbonate, and when light is incident from the incident surface 23, the condensed light is emitted from the hemispherical emission surface 23b. ing.

Here, it will be described with reference to FIG. 3 that the light distribution characteristics change as the distance between the emission surface 21a of the LED 21 and the incident surface 23a of the condenser lens 23 changes. FIG. 3 is a diagram for explaining that the light distribution characteristics change as the distance between the exit surface 21a of the LED 21 and the entrance surface 23a of the condenser lens 23 changes.
In addition, in FIG. 3, the advancing direction of the light in case the position of the entrance plane 23a of the condensing lens 23 exists in each position of the position P1 and the position P2 using the symbol L1 and the symbol L2.

The light emitted from the exit surface 21a of the LED 21 enters the entrance surface 23a of the condenser lens 23 and is refracted based on Snell's theorem until it exits from the exit surface 23b of the condenser lens 23.
For this reason, the light emitted from the emission surface 21a of the LED 21 is more specifically moved downward when the condenser lens 23 is moved away from the LED 21, and the condenser lens 23 is moved downward. When the incident surface 23a is moved from the position P1 to the position P2, the illumination area at the illumination target position P is changed from the illumination area Ar1 to the illumination area Ar2. That is, when the distance between the entrance surface 23a of the condenser lens 23 and the exit surface 21a of the LED 21 is increased, the illumination area changes so as to become narrow at the predetermined illumination target position P.

Next, the moving mechanism unit 30 will be described.
As shown in FIG. 1 or FIG. 2, the moving mechanism unit 30 includes a gantry unit 31, a lens moving mechanism unit 40, and a gantry moving mechanism unit 50.
The gantry unit 31 is a table on which the circuit board 22 on which the LEDs 21 are mounted and the lens moving mechanism unit 40 are attached. That is, the gantry unit 31 is a table to which the LED 21 as a light source and the lens moving mechanism unit are attached.
The gantry 31 is made of a plate-like member formed in a substantially U shape in plan view, and a drive motor, which will be described later, is attached to one end 31a, and the other end with the arm 31c in between. A pedestal gear 51 which is a rack is provided at 31b.

The lens moving mechanism unit 40 changes the distance between the incident surface 23 a of the condensing lens 23 and the exit surface 21 a of the LED 21 by moving the condensing lens 23.
The lens moving mechanism 40 is rotated by meshing with the lens gear 41 without changing the relative position of the central axis with respect to the LED gear 21 and the lens gear 41 that is a gear provided on the side portion 23 c of the condenser lens 23. Thus, a driving gear 42 for moving the condenser lens 23 and a lens driving motor 43 for rotating the driving gear 42 are provided.

The lens gear 41 is a rack that performs linear motion.
The drive gear 42 is connected to the motor shaft of the lens drive motor 43, and is rotated by the lens drive motor 43, thereby moving the condenser lens 23 up and down via the lens gear 41.

When the condensing lens 23 is moved upward by the lens moving mechanism 40, the distance between the incident surface 23a of the condensing lens 23 and the exit surface 21a of the LED 21 is shortened as shown in FIG. The illumination area of the light emitted from the emission surface 23b of the condenser lens 23 is widened.
On the other hand, when the condensing lens 23 is moved downward, the distance between the incident surface 23a of the condensing lens 23 and the LED 21 increases, and the irradiation area of the light emitted from the exit surface 23b of the condensing lens 23 is narrow. Become.

The gantry moving mechanism unit 50 moves the gantry unit 31 in a plane orthogonal to the moving direction of the condenser lens 23. In the first embodiment, the gantry moving mechanism unit 50 moves the gantry unit 31 in the front-rear direction orthogonal to the up-down direction, which is the moving direction of the condenser lens 23.
The gantry moving mechanism unit 50 is a rack provided in the gantry unit 31, and includes a gantry gear 51, a transmission gear 52 that meshes with the gantry gear 51, and a gantry drive gear that meshes with the transmission gear 52 and rotates the transmission gear 51. 53 and a gantry moving drive motor 54 for rotating the gantry driving gear 53.
When the gantry driving motor 54 is driven by the gantry moving mechanism 50, the gantry driving gear 53 is rotated, and the gantry 31 is moved in the front-rear direction via the transmission gear 52. Yes.

  The gantry unit 31, the lens moving mechanism unit 40, and the gantry moving mechanism unit 50 described above are assembled to a frame unit 90 formed so as to be held at a predetermined fixed position or moving range. Yes. The gantry unit 31, the lens movement mechanism unit 40, and the gantry movement mechanism unit 50 are held and fixed in the bezel 60 via the frame unit 90.

  The bezel 60 holds the lighting function unit 20 and the moving mechanism unit 30 described above and is attached to the indoor ceiling of the vehicle. The bezel 60 is provided with a window portion 61 made of a light-transmitting plate-like member on the indoor surface 60a so that the light emitted from the condenser lens 23 is transmitted to the indoor side.

Next, the motor control unit 70 will be described.
The motor control unit 70 is realized by a CPU or the like. The motor control unit 70 is electrically connected to the lens drive motor 43, the gantry drive motor 54, and the operation input unit 80, and based on a signal output from the operation input unit 80, the lens drive motor 43 and the gantry It controls the drive of the general drive motor 54.

Next, the operation input unit 80 will be described.
The operation input unit 80 is realized by a switch mechanism or the like that can be pressed, and outputs illumination mode selection information to the motor control unit 70.
Illumination modes include, for example, a hand illumination mode that illuminates the driver's hand position, a hand spot illumination mode that illuminates the hand with an illumination area narrower than the hand illumination mode, or a foot illumination mode that illuminates the driver's foot.

More specifically, the hand illumination mode and the hand spot illumination mode are illumination modes for adjusting the size of the illumination area at the driver's hand, which is the illumination target position. In the hand spot illumination mode, the condenser lens 23 is moved downward as compared with the hand illumination mode. Thereby, light is irradiated to a driver | operator's hand by the illuminating device 1 in a narrow area | region compared with the illumination area | region of hand illumination mode.
In the foot lighting mode, the lighting target position is the foot of the driver. In this foot illumination mode, the gantry 31 is moved in the front-rear direction to a position where it is easy to irradiate the foot, and the condenser lens 23 is moved downward as compared with the hand illumination mode. Thereby, light is irradiated to a driver | operator's step by the illuminating device 1 in the area | region equal to the illumination area | region of hand illumination mode.

  In such an illuminating device 1, the driving of the lens drive motor 43 and the gantry drive motor 54 is automatically controlled according to the illumination mode selected by the input operation to the operation input unit 80, and the illumination purpose is dependent on the illumination mode. The position and the illumination area are automatically adjusted.

  Here, the control procedure of the lens drive motor 43 and the gantry drive motor 54 according to the illumination mode performed by the motor control unit 70 will be described with reference to FIG. FIG. 4 is a flowchart showing a control procedure of the lens driving motor 43 and the gantry driving motor 54 according to the illumination mode performed by the motor control unit 70.

For example, when electric power is supplied to the lighting device 1 using a driver's key operation or the like as a trigger, the motor control unit 70 determines whether or not lighting mode selection information is output from the operation input unit 80 (step S101). ). When the illumination mode selection information is output from the operation input unit 80 (step S101, Yes), the motor control unit 70 drives the lens drive motor 43 and the gantry drive motor 54 according to the selected illumination mode. Is generated (step S102).
Thereafter, the motor control unit 70 outputs the generated drive control signal to the lens drive motor 43 and the gantry drive motor 54 (step S103). Accordingly, the lens driving motor 43 and the gantry driving motor 54 are driven according to the selected illumination mode, the condenser lens 23 is moved up and down, and the gantry 31 is moved back and forth.
Thereafter, the motor control unit 70 shifts the processing to step S101 and repeats the above-described processing.
On the other hand, when the illumination mode selection information is not output from the operation input unit 80 in step S101 (No in step S101), the motor control unit 70 repeats the determination process in step S101.

  The illumination device 1 according to the embodiment of the present invention includes a lens moving mechanism 40 that changes the distance between the incident surface 23a of the condenser lens 23 and the emission surface 21a of the LED 21 by moving the condenser lens 23. Therefore, the illumination target position and the illumination area can be changed with one illumination device 1, and as a result, the number of installations can be reduced.

  In the illumination device 1 according to the embodiment of the present invention, the lens movement mechanism 40 has a lens gear 41 that is a gear provided on the side 23c of the condenser lens 23, and a relative position of the central axis with respect to the LED 21. And a drive gear 42 that moves the condenser lens 23 by meshing with the lens gear 41 and rotating, so that the incident surface 23a of the condenser lens 23 has a simple configuration using gears. The distance between the LED 21 and the emission surface 21a of the LED 21 can be changed.

  In the illumination device 1 according to the embodiment of the present invention, the lens moving mechanism unit 40 includes a lens drive motor 43 that rotates the drive gear 42, and the illumination device 1 controls the drive 43 of the lens drive motor. And the motor control unit 70 that performs the operation, the illumination target position and the illumination area can be automatically changed.

  Moreover, the illuminating device 1 according to the embodiment of the present invention includes a gantry unit 31 to which the LED 21 and the lens moving mechanism unit 40 are attached, and the gantry unit 31 is moved in the front-rear direction within a plane orthogonal to the moving direction of the condenser lens 23. Since the gantry moving mechanism 50 is further provided, the target illumination position can be changed not only in the vertical direction but also in the front-rear direction.

(Modification 1)
Next, a lighting device 2 according to a modification of the first embodiment of the present invention will be described with reference to FIG. FIG. 5 is a schematic diagram of a lighting device 2 according to a modification of the first embodiment of the present invention.
The lighting device 2 of this modification is different from the lighting device 1 of Embodiment 1 in that the motor control unit 70 is connected to a vehicle information output unit 81 that outputs information of each part of the vehicle.
Other configurations are the same as those of the embodiment, and the same components as those of the embodiment are denoted by the same reference numerals.

The motor control unit 70 controls the lens drive motor 43 and the gantry drive motor 54 so as to perform illumination according to the vehicle information output from the vehicle information output unit 81.
Examples of the vehicle information output from the vehicle information output unit 81 include seat belt wearing information indicating whether or not a seat belt is worn. When the information indicating that the seat belt is not worn is output from the vehicle information output unit 81, the motor control unit 70, for example, a lens driving motor so as to irradiate the spot illumination at the position of the seat belt connecting portion. 43 and the gantry drive motor 54 are controlled.

  The lighting device 2 of this modification can produce the same effect as the lighting device 1 of the first embodiment.

(Embodiment 2)
Next, the illuminating device 3 concerning Embodiment 2 of this invention is demonstrated using FIG. FIG. 6 is a schematic diagram of the illumination device 3 according to the second embodiment of the present invention.
The illumination device 3 according to the second embodiment of the present invention differs from the illumination device 1 according to the first embodiment in that the illumination target position and the illumination area are changed by manual operation according to the illumination mode. .
Other configurations are the same as those in the first embodiment, and the same components as those in the first embodiment are denoted by the same reference numerals.

The illumination device 3 includes a lens manual operation unit 210 connected to the drive gear 42 and a gantry manual operation unit 220 connected to the gantry drive gear 53.
The lens manual operation unit 210 includes a lens photographing operation unit 210a that is connected to the shaft center of the drive gear 42 and that manually rotates the drive gear 42. The lens photographing operation unit 210a is brought out of the bezel 60 and manually rotated, whereby the drive gear 42 is rotated and the condenser lens 23 is moved up and down.

  The gantry manual operation unit 220 includes a gantry shooting operation unit 210 a that is connected to the axis of the gantry drive gear 53 and is an operation unit that manually rotates the gantry drive gear 53. The gantry imaging operation unit 210a is brought out of the bezel 60 and is manually rotated, whereby the gantry drive gear 53 is rotated and the gantry unit 31 is moved back and forth.

  Similarly to the illumination device 1 according to the first embodiment, the illumination device 3 according to the second embodiment of the present invention moves the condenser lens 23 to move the incident surface 23a of the condenser lens 23 and the emission surface 21a of the LED 21. Since the lens moving mechanism unit 40 that changes the distance between the illumination device 1 and the illumination target position and illumination area can be changed with a single illumination device 1, the number of illumination devices installed can be reduced as a result. be able to.

  Moreover, the illumination device 3 according to the second embodiment of the present invention is a gear in which the lens moving mechanism unit 40 is provided on the side portion 23c of the condenser lens 23, as in the illumination device 1 according to the first embodiment. Since the relative position of the central axis with respect to the LED 21 is not changed and the drive gear 42 moves the condensing lens 23 by meshing with the lens gear 41 and rotating, the gear wheel 41 is provided. The distance between the entrance surface 23a of the condenser lens 23 and the exit surface 21a of the LED 21 can be changed with a simple configuration using the.

  Moreover, the illuminating device 3 according to the second embodiment of the present invention condenses the gantry unit 31 and the gantry unit 31 to which the LED 21 and the lens moving mechanism unit 40 are attached, similarly to the illuminating device 1 according to the first embodiment. Since it further includes a gantry moving mechanism 50 that moves in the front-rear direction within a plane orthogonal to the moving direction of the lens 23, the illumination target position can be changed not only in the vertical direction but also in the front-rear direction.

  Moreover, since the illuminating device 3 concerning Embodiment 2 of this invention does not provide drive devices, such as a motor, it can be set as a simple structure.

  In addition, although the illuminating devices 1, 2, and 3 concerning Embodiment 1, 2 of this invention were demonstrated as what is a vehicle interior illuminating device, it is not restricted to this. For example, it may be used for a desktop lighting device.

  Moreover, in the illuminating devices 1, 2, and 3 concerning embodiment of this invention, although the thing which can move the mount part 31 back and forth was illustrated, it is not restricted to this. The position of the gantry 31 may be fixed and only the condenser lens 23 may be moved. Alternatively, the gantry 31 may be moved in the left-right direction within a plane orthogonal to the moving direction of the condenser lens 23. Alternatively, the gantry 31 may be moved back and forth and left and right within a plane orthogonal to the moving direction of the condenser lens 23.

  Further, the configuration of the moving mechanism such as the type and number of gears used in the lighting devices 1, 2, and 3 according to the embodiment of the present invention is not limited to this. That is, any other mechanism may be used as long as it moves the condenser lens 23 and the gantry 31.

  Moreover, although the illuminating devices 1, 2, and 3 concerning Embodiment 1, 2 of this invention were provided in the ceiling and illustrated what the condensing lens 23 was moved to the up-down direction by the lens moving mechanism part 40, Not limited to this. That is, it is only necessary that the distance between the incident surface 23a of the condensing lens 23 and the exit surface 21a of the LED 21 can be changed by moving the condensing lens 23. For example, a lighting device may be provided on a door on the side of the vehicle, light may be emitted from the LED 21 in the lateral direction, and the condenser lens 23 may be moved in the left-right direction.

  Moreover, although the illuminating devices 1, 2, and 3 concerning Embodiment 1, 2 of this invention illustrated what used LED21 as a light source, it is not restricted to this. For example, an incandescent bulb may be used.

  As mentioned above, the invention made by the present inventor has been specifically described based on the embodiment of the invention described above, but the invention is not limited to the embodiment of the invention described above, and departs from the gist thereof. Various changes can be made without departing from the scope.

1, 2, 3 Lighting device 10 Lighting unit 20 Lighting function unit 21 LED
21a Emission surface 22 Circuit board 23 Condensing lens 23a Incident surface 23b Emission surface 23c Side part 30 Movement mechanism part 31 Mount part 31a, 31b End part 31c Arm part 40 Lens movement mechanism part 41 Lens gear 42 Drive gear 43 Lens drive motor DESCRIPTION OF SYMBOLS 50 Base moving mechanism part 51 Base gear 52 Transmission gear 53 Base drive gear 54 Base drive motor 60 Bezel 60a Indoor side surface 61 Window part 70 Motor control part 80 Operation input part 81 Vehicle information output part 90 Frame part 210 Lens manual Operation unit 210a Lens operation unit 220 Stand manual operation unit Ar1, Ar2 Illumination area

Claims (4)

In the illumination device in which the light emitted from the light source is incident from the incident surface of the condenser lens, and the light condensed from the exit surface of the condenser lens is emitted,
An illuminating device comprising: a lens moving mechanism that changes a distance between an incident surface of the condensing lens and an exit surface of the light source by moving the condensing lens. The lens moving mechanism is
A lens gear that is a gear provided on a side of the condenser lens;
A drive gear that moves the condenser lens by rotating in mesh with the lens gear without changing the relative position of the central axis with respect to the light source;
The lighting device according to claim 1, comprising: The lens moving mechanism is
A lens driving motor for rotating the driving gear;
The lighting device is
The lighting device according to claim 2, further comprising a motor control unit that controls driving of the lens driving motor. The lighting device is
A gantry unit to which the light source and the lens moving mechanism unit are attached;
A gantry moving mechanism for moving the gantry in a plane orthogonal to the moving direction of the condenser lens;
The illuminating device according to claim 1, 2, or 3, further comprising:

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