JP5258088B2 - Floor lamp - Google Patents

Description

  The present invention relates to a stand-type lighting fixture, and more particularly to a stand-type lighting fixture that can be used as indirect lighting effective when folded.

Various proposals have been made as a lighting stand in which a lamp is rotatably mounted on the tip of an arm standing from a base (base), that is, a stand-type lighting fixture (for example, Patent Document 1).
The stand type lighting fixture of the above-mentioned patent document 1 has one end of a lamp attached to the tip of an arm erected from a pedestal via a universal joint via the universal joint, and the universal joint is connected to the side of the pedestal and one end of the lamp. The lamp is connected to both ends of the arm, and the lamp is rotatable with respect to the arm until the other end faces the pedestal side. The arm is farther from the pedestal and the lamp than the both ends. It is formed in an arc shape.
And the light from the light source in this lamp can be taken out as indirect illumination at the time of folding, and various illumination can be performed.

JP-A-7-134907

  However, in the invention of Patent Document 1, since the discharge lamp is used as the light source, the light color is the same color, and a soft feeling color cannot be obtained even when used in the proximity state. On the other hand, if a plurality of light sources are prepared to switch the light color, there is a problem that the lamp becomes large and the design is deteriorated.

  The present invention has been made in view of the above circumstances, and can be used as indirect illumination of soft light with a low color temperature in the proximity state in which the free end of the lamp is close to the arm portion. It is an object of the present invention to provide a stand-type lighting fixture that can be used as high-intensity illumination for hand illumination in a normal state separated from a section.

Then, the stand type lighting fixture of the present invention includes a lamp, a light source accommodated in the lamp, an arm part that rotatably supports the lamp, and a base part that supports the arm part, A stand-type lighting fixture capable of switching between a proximity state in which a free end of the lamp is close to the arm part and a normal state in which the free end of the lamp is separated from the arm part rather than the proximity state, wherein the light source is It is characterized by comprising an electroluminescent element (LED) whose light color can be switched so that light is emitted with a light color below the color temperature in the normal state in the proximity state.
According to this configuration, the light source is composed of an LED whose light color is freely switchable, which can prevent an increase in size and improve the design, and in the proximity state, the light color below the normal color temperature. Therefore, the color temperature can be switched by switching the light source, and the color temperature can be lowered in the proximity state that is treated as indirect illumination, so that the feeling of use is enhanced.

  Any substance emits light of various wavelengths depending on the temperature. The color varies slightly depending on the substance and temperature. For example, when a metal such as an iron nail is heated with a gas flame, it emits light (actually, if it has a temperature, it emits a little infrared or far infrared light having a longer wavelength than orange). At first it is orange, and it gradually becomes white. Here, the color temperature refers to a temperature determined by the wavelength of the emitted light. Contrary to a general sense, the color temperature is higher for cold colors and lower for warm colors. Assuming an ideal black body, it is possible to derive a wavelength distribution of light emitted by the black body at a certain temperature. When the temperature is low, the color is dark orange. As the temperature increases, the color becomes yellowish white, and when the temperature is higher, the color becomes closer to bluish white. In this way, the color white can be represented by the temperature of a black body, and this temperature is called the color temperature. The absolute temperature K (Kelvin) is used as the unit.

Further, the present invention is the above stand-type lighting fixture, wherein the arm portion is attached to one end of the lamp, and is arranged so that the center of the lamp and the center of the arm coincide with each other in a close state. including.
According to this configuration, the light source can be stored compactly in the proximity state, and the light source can be arranged so as not to overlap the arm portion, so that highly efficient illumination can be obtained even in the proximity state. .

Moreover, the present invention includes the above stand-type lighting fixture, wherein the width of the arm portion is smaller than the width of the lamp.
With this configuration, indirect illumination can be obtained from both sides of the arm portion through the arm portion.

Further, the present invention includes the above stand-type lighting fixture, wherein the light source is an electroluminescent element arranged so as not to overlap the arm portion in the proximity state.
With this configuration, it is possible to irradiate light without being blocked even in the proximity state, so that high efficiency can be achieved.

Further, the present invention is the above stand-type lighting fixture, wherein the light source is composed of electroluminescent elements arranged in a matrix so as to form a plurality of columns and a plurality of rows. In addition, an electroluminescent element having a higher color temperature than other regions is included.
According to this configuration, in the proximity state in which indirect illumination is realized, it is possible to realize soft illumination simply by turning off an electroluminescent element having a high color temperature or by turning it on at a low current and lowering the emission color. Therefore, high efficiency can be achieved.

Further, the present invention includes the above stand-type lighting fixture, wherein the light source is arranged on both sides avoiding a center line extending along the longitudinal direction through the center of the light source mounting surface of the lamp.
With this configuration, high-efficiency illumination is possible without blocking light even in the proximity state.

Moreover, this invention includes the said stand-type lighting fixture WHEREIN: The said arm part contains what comprises a diffusion surface.
With this configuration, light is emitted through the diffusion surface in the proximity state, and softer light can be obtained.

Further, the present invention includes the above stand-type lighting fixture, wherein the arm portion includes an extending portion that extends to cover the lamp when in the proximity state.
With this configuration, a more excellent diffusion surface can be obtained, and light diffusion can be efficiently realized.

In addition, the present invention includes the above stand-type lighting fixture including a change-over switch that is pressed when the arm portion and the free end of the lamp are brought into proximity to switch to the emission color control mode. .
With this configuration, when changing from the normal state to the close state, the light color can be switched by pressing the switch.

As described above, according to the present invention, the light source is composed of an electroluminescent element whose light color can be switched, and emits light with a light color below the color temperature in the normal state in the proximity state. The color temperature can be switched by the light source, and the color temperature can be lowered in the proximity state that is treated as indirect illumination, so that the feeling of use is enhanced.
In addition, according to the stand type lighting fixture of the present invention, the light source is arranged so that the light emitting area does not overlap the arm portion when in the proximity state, so that the light source can be efficiently output even in the proximity state. it can.

Next, embodiments of the present invention will be described in detail with reference to the drawings.
1 is a diagram illustrating a normal state of a stand-type lighting fixture according to Embodiment 1 of the present invention, FIG. 2 is a diagram illustrating a proximity state, FIG. 3 is a diagram of FIG. 2 viewed from the direction of arrow A, FIG. FIG. 3 is a schematic diagram showing a light source. The stand-type lighting fixture of the present embodiment is configured such that the light color can be arbitrarily switched with a switch attached to the main body.
The stand type lighting fixture of the present invention includes a lamp 1, a light source 2 accommodated in the lamp 1, an arm part 3 that rotatably supports the lamp 1, and a base part 4 that supports the arm part 3. And a stand-type illumination that can be switched between a proximity state in which the free end of the lamp 1 is close to the arm portion 3 and a normal state in which the free end of the lamp 1 is separated from the arm portion 3 rather than the proximity state. The instrument is characterized in that the light source 2 is composed of an LED whose light color is switchable so that the light source 2 emits light of a color temperature equal to or lower than the color temperature of the normal state in the proximity state. Here, the base part 4 is composed of a base 5 and a main body 6, and the main body 6 is fixed to one end of the base 5, and cannot move such as rotating in the vertical direction and the horizontal direction with respect to the base 5. It is like that.

  That is, as shown in FIG. 1, in the stand-type lighting fixture of the present invention, for example, a main body 6 that can be erected with respect to an installation surface such as an upper surface of a desk and a main body 6 connected via a lower connection portion 7. And the lamp portion 1 connected to the arm 3 via the upper connecting portion 8.

  The base 5 is formed by combining, for example, a disc-shaped upper lid 51 and a bottom plate 52, and has an attachment portion 53 for attaching the main body 6 to one end of the upper lid 51. The mounting portion 53 is provided with a fitting recess for fitting and positioning a fitting protrusion (not shown) provided at the lower end portion of the main body 6 and fixing it by a fastening means such as a screw. Yes.

  Therefore, the position and orientation of the main body 6 are determined by placing the base 5 on the installation surface.

  As shown in FIG. 1, the main body 6 has a rectangular box-shaped main body rear portion 61 having an open front surface and a main body front portion 62 that covers the opening of the main body rear portion 61. Yes. The main body front portion 62 is smoothly curved as a whole, and for example, it is desirable that the main body front portion 62 be curved in an arc shape centered on the vertical axis. A block case (not shown) having a lighting control circuit containing an electric device such as an inverter is accommodated in the internal space of the rear part 61 of the main body, and this block case is connected to the inside of the block case. An optical switch is attached. The dimming knob 9 as an operation unit for operating the dimming switch protrudes from the knob hole of the main body front portion 62 to the outside of the main body 6, and the light color and brightness can be adjusted by turning the dimming knob 9. It is like that. A service outlet 10 is attached to the lower part of the block case. On the rear surface of the main body rear portion 61, a power supply power line drawn from a direction (here, the rear surface) different from the direction (that is, the front surface) different from the direction in which the dimming knob 9 as the operation unit in the main body 6 is provided The power supply line is led out from a recess provided on the back surface of the rear portion 61 of the main body.

  Further, as shown in the enlarged schematic diagram of FIG. 4, the light source 2 includes a first light emitting unit 21 in which a first LED 21 a and a second LED 21 b that can be independently controlled for lighting, and a third LED 22 a and a fourth LED. The LED 22b and the second light emitting unit 22 are arranged, and the lighting control circuit for performing the lighting control is provided in the internal space of the rear part 61 of the main body as described above, and by operating the lighting knob 8, The light emission color can be selected. The second LED 21b and the third LED 22b are blue light emitting diodes, and the first LED 21a and the fourth LED 22a are red light emitting diodes.

  Here, the area | region of the width | variety L0 shown with a broken line is equivalent to the thickness of the arm part 3, and this area | region is shielded by the arm in a proximity | contact state. The light emitting region L1 is configured by combining the first light emitting unit and the second light emitting unit configured by arranging LEDs in four rows. Here, the second LED and the third LED, which are LEDs that emit blue light, are in this shielding region. However, in the proximity state, as shown in FIG. 5, the first LED that is not lit and emits red light. Only the 4th LED and the 4th LED are lit, the emitted color is low, and indirect light of a warmer color can be obtained. FIG. 6 shows a normal state, the second LED 21b and the third LED 22b are blue light emitting diodes, and the first LED 21a and the fourth LED 22a are all red light emitting diodes lit. Realized. Here, the lighted LEDs are indicated by hatching. In addition, since the second LED and the third LED in the shielding region L0 shielded by the arm unit 3 are not lit, not only is the amount of light lost, but also the temperature rise can be prevented.

  Here, in the proximity state, it is arranged so that the center of the lamp and the center of the arm portion coincide with each other, and in the proximity state, it can be stored compactly, and it emits red light that lights up in the proximity state. Since the 1st LED and 4th LED which are LED which performs can be arrange | positioned so that it may not overlap with an arm part, highly efficient illumination can be obtained even if it is a proximity | contact state. Moreover, since the arm portion is configured to have a smaller width than the lamp, indirect illumination can be obtained from both sides of the arm portion through the arm portion.

  As described above, in the present embodiment, the light source is composed of LEDs whose light colors can be switched freely, which can prevent an increase in size and improve design, and in the proximity state, the normal state. Since it can emit light with a light color below the color temperature, the color temperature can be switched by switching the light source, and the color temperature can be lowered in the proximity state that is treated as indirect illumination, enhancing the feeling of use. It has the feature that it can.

(Embodiment 2)
Next, a second embodiment of the present invention will be described. In the above embodiment, as shown in FIGS. 4 to 6, a part of the LED constituting the light source is configured to overlap the arm portion 2, but in this embodiment, as shown in FIG. Are arranged so that the LEDs (21a, 21b, 22a, 22b) do not overlap the arm portion 3 in the proximity state.
With this configuration, it is possible to irradiate light without being blocked even in the proximity state, so that high efficiency can be achieved.

(Embodiment 3)
Next, a third embodiment of the present invention will be described. In the embodiment, as shown in FIGS. 8 and 9, in the stand-type lighting fixture, the light source is a matrix of LEDs (21a, 21b, 22a, 22b,...) On the entire surface so as to form a plurality of columns and a plurality of rows. Arranged so that the arm part is wider than the light source, and the arm part is made of translucent resin with lead wires (not shown) inserted therein to form a diffusion surface. It is characterized by.
With this configuration, light is emitted through the diffusion surface in the proximity state, and softer light can be obtained.

In the present embodiment, the arm portion may be provided with an extending portion that extends so as to cover the lamp when in the proximity state, so that the arm portion can be opened and closed.
With this configuration, a more excellent diffusion surface can be obtained, and light diffusion can be efficiently realized.

(Embodiment 4)
Next, a fourth embodiment of the present invention will be described. In the above embodiment, the light color and the amount of light can be controlled by the dimming knob 9. However, in the present embodiment, as shown in FIGS. The second embodiment is different from the first embodiment in that it includes a changeover switch 19 that is pressed when the lamp is in the proximity state and is switched to the emission color control mode. Since others are the same as those of the first embodiment, description thereof is omitted here.
With this configuration, when changing from the normal state to the proximity state, the changeover switch 19 is pressed, and the light colors can be switched.

The perspective view which shows the stand type lighting fixture of Embodiment 1 of this invention The perspective view which shows the stand type lighting fixture of Embodiment 1 of this invention Viewed from direction A in FIG. The figure which shows the light source in the stand type lighting fixture of Embodiment 1 of this invention The figure which shows the light source in the stand type lighting fixture of Embodiment 1 of this invention The figure which shows the light source in the stand type lighting fixture of Embodiment 1 of this invention The figure which shows the light source in the stand type lighting fixture of Embodiment 2 of this invention The figure which shows the stand type lighting fixture of Embodiment 3 of this invention The figure which shows the light source in the stand type lighting fixture of Embodiment 3 of this invention The figure which shows the stand type lighting fixture of Embodiment 4 of this invention The figure which shows the principal part of the stand type lighting fixture of Embodiment 4 of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Lamp 2 Light source 3 Arm part 4 Base part 5 Base 6 Main body 7 Lower side connection part 8 Upper side connection part 9 Light control knob 21a, 21b, 22a, 22b LED

Claims (8)

A lamp, a light source accommodated in the lamp, an arm part that rotatably supports the lamp, and a base part that supports the arm part,
A proximity state in which the free end of the lamp is close to the arm part;
A stand-type lighting fixture that is switchable between a normal state separated from the arm part rather than the proximity state,
The light source is composed of an electroluminescent element capable of switching the light color so as to emit light with a light color below the color temperature of the normal state in the proximity state ,
A stand-type lighting device in which the width of the arm portion is smaller than the width of the lamp . It is a stand type lighting fixture of Claim 1, Comprising:
The arm portion is attached to one end of the lamp, and when in the proximity state, the lamp is a stand-type lighting device arranged so that the center of the lamp and the center of the arm coincide with each other. The stand-type lighting device according to claim 1 or 2 ,
When the light source is in the proximity state, the light source is a stand-type lighting fixture arranged so that the light emitting area does not overlap the arm portion. It is a stand type lighting fixture of Claim 3 , Comprising:
The light source is composed of electroluminescent elements arranged in a matrix so as to form a plurality of columns and a plurality of rows, and an electroluminescent device having a color temperature higher than that of other regions in the region overlapping the arm part in the proximity state. A stand-type luminaire with elements. It is a stand type lighting fixture of Claim 3 , Comprising:
The said light source is a stand-type lighting fixture comprised with the several electroluminescent element arranged on both sides, avoiding the centerline extended along a longitudinal direction through the center of the light source attachment surface of the said lamp. It is a stand type lighting fixture as described in any one of Claims 1 thru | or 5 ,
The arm portion is a stand-type lighting fixture that constitutes a diffusion surface. It is a stand type lighting fixture of Claim 6 , Comprising:
The arm portion is a stand-type lighting device including an extending portion that extends to cover the lamp when in the proximity state. It is a stand type lighting fixture of Claim 6 , Comprising:
A stand-type lighting device comprising a change-over switch that is pressed when the arm portion and the free end of the lamp are in proximity to each other and switched to a light emission color control mode.

Images