JP4439376B2 - Lighting device - Google Patents

Description

  The present invention relates to an illuminating device suitable for use in high-speed imaging, and more particularly to a cooling technique for the illuminating device.

2. Description of the Related Art Conventionally, there is known an illumination device that suppresses flicker (flicker) by turning on a lamp using an inverter power supply (see, for example, Patent Document 1). Since this type of lighting device reduces flicker, it is suitable for lighting during high-speed shooting, and is used, for example, as a lighting device in a vehicle collision test field.
JP-A-8-096763

However, during high-speed shooting, the amount of light required for shooting increases as the shutter speed increases (the number of frames per second increases). When the output is increased, the interior of the lighting device becomes high temperature, and there is a problem that the lamp and the lamp periphery are damaged by heat.
In addition, if the number of low-output lighting devices is increased, the total amount of light can be increased, but there is a problem that the cost increases as the number of lighting devices increases.

  The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide an illuminating device that can cool the illuminating device, and thus can increase the output of the lamp.

In order to achieve the above object, the present invention provides a control box that houses an electric circuit that controls lighting of the lamp on the back side of a lamp case that houses a lamp and a reflector , independent of the lamp case. And providing a space between the control box and the lamp case with a ventilation tube and covering the light emitting surface of the lamp case, the lamp case and the cover glass. The control box is provided with a fan, and the fan takes in cooling air into the control box, cools the inside of the control box with the cooling air, and passes the lamp body through the ventilation pipe. the lamp sends cooling air toward the inside the case, and the cooling air were split cooling the respective connection terminal portions of the arc tube and the lamp of the lamp, to collide with the cooling air to the cover glass, the Lamp case To provide a lighting device which is characterized in that a you scavenge arrangement through a gap between the cover glass.

The present invention, in the above invention, the said lamp body case, and the central direction control member to flow a portion of the cooling air sent through the air duct from the control box side towards the arc tube of the lamp, A lamp terminal control body that flows toward the connection terminal of the lamp is provided .

Further, the present invention is the above invention, wherein in the lamp case , a part of the cooling air sent from the control box side through the ventilation pipe is passed between the reflecting mirror and the inner surface of the lamp case. characterized by providing a further a vertical control member to flow in.

  ADVANTAGE OF THE INVENTION According to this invention, the illuminating device which can cool an illuminating device and can raise the output of a lamp is provided.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a front view of a lighting device 1 according to an embodiment of the present invention, FIG. 2 is a left side view, and FIG. 3 is a plan view. The illuminating device 1 is suitable, for example, for high-speed shooting at a vehicle collision test site or the like. As shown in FIGS. 1 to 3, the lighting device 2 and the lamp provided on the lighting device 2 are turned on. And a control box 3 for storing electronic and electric circuits such as an inverter circuit to be controlled and a starter (igniter).

  The lamp body 2 includes a lamp body case 4 as a housing and a front cover 5 that covers the front surface (light emitting surface) of the lamp body case 4. As shown in FIGS. 2 and 3, the control box 3 is supported on the back surface 4 </ b> A side of the lamp case 4 by providing a gap between the lamp case 4 and the support rod 10. Thus, by providing a gap between the lamp case 4 and the control box 3, heat conduction from the lamp case 4 to the control box 3 is prevented, and thermal damage to the electronic / electrical circuit in the control box 3 is prevented. Can be prevented.

  The back surface 4A of the lamp case 4 and the control box 3 are connected by two wiring pipes 11 in which members having excellent heat resistance and insulation, such as Teflon (registered trademark), are formed in a cylindrical shape. The electric wiring extending from the electric / electronic circuit 3 is introduced into the lamp case 4 through the wiring tube 11. Between the back surface 4 </ b> A of the lamp case 4 and the control box 3, a ventilation pipe 12 for sending cooling air from the control box 3 to the inside of the lamp case 4 is further provided. To do.

  As shown in FIG. 1, the lamp case 4 is formed in a shape in which four corners of a rectangle are cut off, and is formed in a substantially trapezoidal shape in a side view and a rectangular shape in a top view. It is open and formed in a shape that expands from the back to the front as a whole. As shown in FIG. 3, an exhaust port 13 for heat dissipation is formed on each of the upper surface and the bottom surface of the lamp case 4. A number of louvers 14 are attached to the exhaust port 13. As shown in FIGS. 1 and 2, a mounting arm 6 for mounting the lighting device 1 to a lighting device support such as a tripod or a lifter is provided on the bottom surface of the lamp case 4.

  The front cover 5 includes a cover base material 15 and a cover glass 16, and is detachably fixed to the front surface of the lamp case 4 by a hook 17 provided on the lamp case 4. The cover base 15 is formed of a plate-like member such as a steel plate, and an opening 15A is formed in the surface thereof. On the left and right sides of the opening 15A, a grip for easily attaching and detaching the front cover 5 is provided. A portion 18 is provided. Further, an appropriate number of glass support members 19 (six in the illustrated example) are provided around the opening 15A, and these glass support members 19 slightly cover the cover glass 16 with the cover base material 15. Support so that there is a gap. Therefore, the heat inside the lamp case 4 is released to the outside through the gap between the cover glass 16 and the cover base material 15 in addition to the exhaust port 13.

  4 is a front view showing the internal structure of the lamp body 2, FIG. 5 is a side sectional view, and FIG. 6 is a transverse sectional view. As shown in these drawings, the lamp case 4 is provided with two lamp fixing portions 30, one reflecting mirror 31, and two side reflecting mirrors 32 (see FIG. 1). Yes. The lamp fixing portion 30 is attached to each of the left inner side surface 4E and the right inner side surface 4F of the lamp case 4 so that the lamp shaft of the lamp 20 can be aligned using a spring 34. The lamp 20 has an elongated outer tube 21 and a light emitting tube 22 provided substantially in the middle of the outer tube 21, and left and right end sides 21 </ b> A of the outer tube 21 are detachably fixed to the lamp fixing part 30. The Further, lamp connection terminal portions 23 are provided on the left and right end sides 21 </ b> A of the lamp 20, and electric wiring drawn from the control box 3 to the lamp case 4 is connected to each lamp connection terminal portion 23. In order to secure a sufficient amount of light when performing high-speed shooting using the illumination device 1 as a light source, the lamp 20 may be an HID lamp (High Intensity Discharge Lamps) such as a metal halide lamp (also referred to as meta-harass). It is preferable to use an electric lamp.

  The reflecting mirror 31 and the side reflecting mirror 32 are made of, for example, an aluminum plate. As shown in FIG. 5, the reflecting mirror 31 is formed in a U shape in a sectional view, and surrounds the upper, lower and rear inner side surfaces 4 </ b> B and 4 </ b> C of the lamp case 4 so as to surround the upper, lower and rear sides of the lamp 20. Along the inner side surface 4D, a gap is provided between the inner side surfaces 4B, 4C and 4D. Further, between each of the upper inner side surface 4B and the lower inner side surface 4D and the reflecting mirror 31, a light shielding plate 35 for preventing light leakage from the discharge port 13 is provided. As shown in FIG. 1, the side reflecting mirror 32 is attached to the front cover 5 along the left inner side surface 4E and the right inner side surface 4F of the lamp case 4, respectively. The mirror 32 surrounds the lamp 20.

Next, the cooling structure of the lighting device 1 will be described.
In the present lighting device 1, the inside of the lamp case 4 is cooled by forced air cooling. Specifically, as shown in FIG. 6, the control box 3 and the lamp case 4 are connected by the ventilation pipe 12, and cooling air is sent from the control box 3 to the lamp case 4 through the ventilation pipe 12. A blower fan 40 is disposed in the control box 3. Further, as shown in FIG. 2, the left and right side surfaces 3A of the control box 3 are each formed with an air inlet 41 in which an air filter is provided, and the blower fan 40 is connected to the control box 3 and the ventilation pipe 12. The cooling air (outside air) is sucked into the control box 3 from the air inlet 41 as the blower fan 40 is operated, and is directed from the ventilation pipe 12 toward the inside of the lamp case 4. Cooling air is sent. A connection port 12 </ b> A between the ventilation tube 12 and the back surface 4 </ b> A of the lamp case 4 is formed at a position facing the arc tube 22, and cooling air is blown out from the connection port 12 </ b> A of the ventilation tube 12 toward the lamp 20. Moreover, since various electric / electronic circuits in the control box 3 are also cooled by the cooling air sucked from the air inlet 41 when the air is blown to the lamp case 4, thermal damage of these electric / electronic circuits is prevented. .

On the other hand, inside the lamp case 4, a lamp central direction control body (rectifier body) 42 that controls the flow direction of the cooling air sent from the control box 3 via the ventilation tube 12, and a vertical direction control body (rectifier body). 43 and a lamp connection terminal portion direction control body (rectifier body) 44 are provided.
As shown in FIG. 6, the lamp center direction control body 42 guides the cooling air blown from the ventilation pipe 12 into the lamp case 4 in the direction of the arc tube 22 of the lamp 20 and in the left-right direction of the lamp case 4. is there. That is, as shown in FIG. 4, the lamp center direction control body 42 has a substantially rectangular shape in a top view that is large enough to cover substantially the entire opening surface of the connection port 12 </ b> A of the ventilation tube 12. As shown in FIG. 2, the air pipe 12 is disposed so as to face the connection port 12A. As shown in FIG. 4, a ventilation hole 42A smaller than the opening area of the connection port 12A of the ventilation tube 12 is formed in the plane of the lamp center direction control body 42. The lamp center direction control body 42 has a ventilation hole. 42A and the connection port 12A of the ventilation pipe 12 are arranged so as to overlap each other when viewed from the front side. Further, a shielding plate 45 (not shown in FIG. 4) is disposed on the front side of the lamp central direction control body 42 so as to face the opening surface of the ventilation hole 42A.

  Therefore, as indicated by an arrow in FIG. 6, the cooling air blown into the lamp case 4 from the ventilating tube 12 is a gap between the back surface of the lamp center direction control body 42 and the back inner side surface 4C of the lamp case 4. The cooling air flows in the left-right direction of the lamp case 4 and the cooling air that flows through the ventilation hole 42A (see FIG. 4) of the lamp center direction control body 42 toward the arc tube 22 of the lamp 20. At this time, the cooling air flowing in the direction of the arc tube 22 flows toward the left and right sides of the lamp case 4 through the gap between the lamp center direction control body 42 and the shielding plate 45.

  On both the left and right sides of the lamp center direction control body 42, control plates 42B are provided for making a flow of cooling air that goes around the shielding plate 45 and travels toward the arc tube 22, respectively. The cooling air flowing in from the ventilation hole 42A of the control body 42 flows toward the arc tube 22, and the arc tube 22 is cooled by this cooling air. Further, on the surface of the shielding plate 45 on the front side, the wind direction having a triangular shape in cross-section for smoothly guiding the cooling air that wraps around from the back side to the front side of the shielding plate 45 toward the arc tube 22. The body 46 is provided. By providing the wind direction body 46, the flow rate of the cooling air toward the arc tube 22 can be increased, and the cooling effect can be enhanced.

  The vertical direction control body 43 divides the cooling air from the ventilation pipe 12 in the vertical direction of the lamp case 4. That is, as shown in FIG. 5, the vertical direction control body 43 is formed by bending a substantially rectangular plate material into a substantially “V” shape when viewed from the side, and the “V” shaped trough portion 43 </ b> B controls the center direction of the lamp. It is disposed between the lamp center direction control body 42 and the shielding plate 45 in a posture positioned in the ventilation hole 42 </ b> A of the body 42. Therefore, a part of the cooling air that has passed through the ventilation hole 42A of the lamp central direction control body 42 is diverted in the vertical direction of the lamp case 4 by the vertical direction control body 43, and between the reflecting mirror 32 and the light shielding plate 35. This causes the reflector 32 to cool. Further, the vertical control body 43 prevents the cooling air flowing into the lamp case 4 from the ventilation tube 12 from colliding with the shielding plate 45 and flowing back through the ventilation tube 12.

  Further, as shown in FIGS. 4 and 5, the lamp center direction control body 42 has a bent piece 42 </ b> C in which both upper and lower edges are bent toward the front, and is split up and down by the vertical direction control body 43. The cooling air is guided so as to smoothly flow toward the front surface of the lamp case 4 by the bent piece 42C.

  The lamp connection terminal portion direction control body 44 passes through a gap between the back surface of the lamp center direction control body 42 and the inner side surface 4C of the lamp case 4 in the cooling air blown from the ventilation path 12 into the lamp case 4. Thus, the cooling air flowing in the left-right direction of the lamp case 4 flows toward the lamp connection terminal portion 23. Specifically, as shown in FIG. 6, the lamp connection terminal portion direction control body 44 is a substantially rectangular plate material in front view provided on each of the left and right sides of the back inner side surface 4 </ b> C of the lamp case 4. The lamp connection terminal portion direction control body 44 is bent at one end in a semicircular arc shape in cross section to form a wind direction control portion 44A. By this wind direction control portion 44A, cooling air is directed toward the lamp connection terminal portion 23. Then, the lamp connection terminal portion 23 is cooled.

Under the above configuration, for example, a metal halide lamp of about 4 kW (previously about 2 kW) is used for the lamp 20, and a maximum air volume of about 2.5 (m ³ / min ² ) ² : 50 Hz is driven for the blower fan 40. About 2.9 (m ³ / min ² ) ² : When a 60 Hz drive and a fan with a fan opening of about 105 mm are used, a wind speed of about 0.3 m / s near the lamp connection terminal portion 23, and the arc tube 22 of the lamp 20 A cooling air flow with a wind speed of about 0.78 m / s was obtained in the vicinity.
Further, when the blower fan 40 is stopped in a state where the ambient temperature (environment temperature) is 35 ° C., the temperature increase value of the lamp connection terminal portion 23 is about 232.5 ° C. (temperature increase standard value: 215 ° C.), and light emission. While the temperature rise value on the surface of the tube 22 is about 1052.9 ° C. (temperature rise standard value: 935 ° C.), when the blower fan 40 is driven, the temperature rise value of the lamp connection terminal portion 23 is About 167.7 ° C., the temperature rise value of the surface of the arc tube 22 is suppressed to about 845.6 ° C., which can be kept within the specification of the temperature rise value. In the control box 3, when the blower fan 40 is stopped, the blower fan 40 is driven while the temperature rise value is about 48.8 ° C. (temperature rise standard value: 40 ° C.). In this case, the temperature rise value is suppressed to about 7.2 ° C., and the inside of the control box 3 is sufficiently cooled.

  As described above, according to the present embodiment, the blower fan 40 takes the cooling air into the control box 3, cools the inside of the control box 3 with the cooling air, and sends the cooling air to the lamp case 4. In this configuration, the arc tube 22 and the lamp connection terminal portion 23 of the lamp 20 are cooled by the cooling air, so that the lamp case 4 and the control box 3 can be cooled. Can be realized. Moreover, since it is set as the structure which cools not only the inside of the lamp body case 4 but the inside of the control box 3 with the one ventilation fan 40, the number of fans decreases and apparatus cost can be suppressed.

Further, according to the present embodiment, a vertical control body that causes a part of the cooling air sent from the control box 3 side to flow between the reflecting mirror 31 and the upper and lower inner surfaces 4B, 4D of the lamp case 4 Since 43 is provided in the lamp case 4, not only the lamp 20 but also the reflecting mirror 31 can be cooled, and thermal damage to the reflecting mirror 31 can be prevented.
In addition, according to the present embodiment, since the cover glass 16 is disposed with a gap with respect to the lamp case 4 (more precisely, the cover base material 15), the heat dissipation performance inside the lamp case 4 is improved. More enhanced.

  The above-described embodiment is merely an aspect of the present invention, and can be arbitrarily modified and applied within the scope of the present invention. For example, in the present embodiment, the lamp 20 is illustrated as having the lamp connection terminal portion 23 at both ends. However, the present invention is not limited thereto, and the lamp 20 having the lamp connection terminal portion 23 only at one end may be used. In this configuration, in order to fix the vicinity of the lamp connection terminal portion 23, the lamp fixing portion 30 is provided on any one of the left and right inner side surfaces 4 F and 4 E of the lamp case 4, and the lamp connection terminal portion 23 is provided. The lamp terminal direction control body 44 is arranged so that cooling air can be blown.

It is a front view of the illuminating device which concerns on embodiment of this invention. It is a left view of the illumination device. It is a top view of the illumination device. It is a front view which shows the internal structure of the illuminating device. It is a sectional side view which shows the internal structure of the illuminating device. It is a cross-sectional view which shows the internal structure of the illuminating device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Illuminating device 2 Lamp body 3 Control box 4 Lamp body case 5 Front cover 12 Ventilation tube 16 Cover glass 20 Lamp 22 Light emission tube 23 Lamp connection terminal part 31 Reflection mirror 40 Blower fan 42 Lamp center direction control body 43 Vertical direction control body 44 Lamp terminal direction control body

Claims (3)

On the back side of the lamp body case for housing a lamp and a reflecting mirror, a control box for accommodating the electrical circuit for controlling the lighting of the lamp, by independently supported by providing a space between the lamp body case, said control box A cover glass that covers the light emitting surface of the lamp case, and a gap is provided between the lamp case and the cover glass, the control box A fan is provided, and the fan takes in the cooling air into the control box, cools the inside of the control box with the cooling air, and sends the cooling air to the lamp in the lamp case through the ventilation tube. The cooling air is divided to cool each of the arc tube of the lamp and the connection terminal portion of the lamp, and the cooling air collides with the cover glass, so that a gap between the lamp case and the cover glass is obtained. Through Lighting apparatus being characterized in that a configuration you discharge. The said lamp body case, and the central direction control member to flow a portion of the cooling air sent through the air duct from the control box side towards the arc tube of the lamp, toward the connection terminal portion of the lamp The lighting device according to claim 1, further comprising a lamp terminal portion control body for flowing. The said lamp body case, a portion of the cooling air sent through the air duct from the control box side, the vertical direction control member further to flow between the inner surface of the lamp body case and the reflector the lighting device according to claim 2, characterized in that provided.

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