JP6537771B2 - Low attraction lighting device - Google Patents

Description

  The present invention relates to a low attraction lighting device capable of suppressing insect attraction.

  BACKGROUND Conventionally, lighting devices have been proposed for the purpose of suppressing attraction of insects and active activity of insects. For example, in Patent Document 1 below, a lighting apparatus (low attraction) in which a plurality of second light emitting elements having a light emission peak in a wavelength region of 500 nm or more are dispersed among a plurality of first light emitting elements that emit white light. Illumination system) is disclosed.

JP, 2009-224148, A

  However, in the lighting device described in Patent Document 1, a plurality of second light emitting elements must be prepared for a plurality of first light emitting elements, and the plurality of second light emitting elements are not It is necessary to uniformly distribute the light emitting elements to the above light emitting elements, resulting in an increase in power consumption and running costs in the lighting apparatus, an increase in manufacturing costs, and a complication of manufacturing.

  The present invention has been made to address the above-mentioned problems, and an object thereof is to provide a low-attractive lighting device capable of reducing power consumption, running cost and manufacturing cost as well as reducing manufacturing burden.

  In order to achieve the above object, the feature of the present invention is a low activity light irradiation means for emitting low activity light having a light emission peak in a wavelength range of 500 nm to 620 nm, and light or visual recognition of a color different from the low activity light. The low activity light irradiation means has at least a half or more of the periphery of the utilization light irradiation area, and the low activation light irradiation means has a utilization light irradiation means for irradiating utilization light which can not be used. It is in being arrange | positioned around the utilization light irradiation means. In this case, the low attraction lighting device can be constituted by a low activity light irradiation means and a utilization light irradiation means can be constituted by a lighting fixture constituted by a light emitting body such as a fluorescent lamp or LED (Light Emitting Diode). The illumination means and the utilization light illumination means may be configured by combining different lighting devices. Moreover, according to the experiment of the inventor, the emission peak of low activity light preferably has a wavelength range of 570 nm or more and 590 nm or less (yellow light), more preferably 590 nm or more and 620 nm or less (orange light) It is preferable to set in the wavelength region. In addition to the light whose emission peak is a wavelength different from the emission peak of the low activity light, the utilization light includes the wavelength that constitutes the emission peak of the low activity light and includes other wavelengths, and thus the utilization light is a low activity light. Is a light that includes visible light and invisible light (eg, ultraviolet light and infrared light) that appear to be different colors. And this utilization light is the light which the user of the low attraction type lighting device needs, for example, it is the light which makes the hand of the user bright, is the light which makes it easy to work, and the cultivation of the plant Light suitable for

  According to the feature of the present invention configured as described above, the low-attractive lighting device emits light of use light of a color or colorless that is different from the light emission peak of the low activity light, in the low activity light irradiation area where the insects are light adapted. Since it is configured to surround at least half or more of the area, the phototropism and activity of insects can be suppressed on the outside surrounded by low activity light. In this case, the low attraction illumination device does not necessarily have to prepare a plurality of low activity light irradiation means for emitting low activity light and a plurality of utilization light irradiation means for emitting utilization light, and the utilization light irradiation means is low activity It is not necessary to disperse the light irradiation means. As a result, the low-attractive lighting device can reduce power consumption, running costs, and manufacturing costs, as well as reducing the manufacturing burden. In addition, insects are so-called insecticidal insect pests (eg, insect pests that prey on these insects that are directly attracted by light, as well as insects that are directly attracted by light (for example, insects, moths, flies, bugs, insects, beetles, etc.) Including spiders and mantis). Further, the arrangement of the low activity light irradiating means includes arranging the low activity light irradiating means only on a part of the periphery of the utilization light irradiating means in addition to arranging on the entire periphery of the utilization light irradiating means.

  Further, another feature of the present invention is that, in the low attraction lighting device, the low activity light radiation means surround the utilization light radiation means so that the low activity light radiation area surrounds the entire circumference of the utilization light radiation area. It is to be placed in

  According to another feature of the present invention configured as described above, the low-attractive lighting device is configured such that the irradiation area of low activity light surrounds the entire circumference of the irradiation area of the utilization light. It is possible to prevent insect attraction and activity activation from all directions around the lighting device. The arrangement of the low activity light irradiation means does not mean that the arrangement of the low activity light irradiation means is not only complete around the entire circumference of the utilization light irradiation means, but the low activation light irradiation area surrounds the entire circumference of the utilization light irradiation area. If it arrange | positions, it will accept that there exists a clearance gap in which the low activity light irradiation means is not arrange | positioned in a part of periphery of utilization light irradiation means.

  In addition, another feature of the present invention is that the low-attractive illumination device further includes utilization light control means for controlling irradiation of the utilization light in the utilization light illumination means and irradiation stop.

  According to another feature of the present invention configured as described above, the low-attractive illumination device includes the utilization light control means for controlling the irradiation of the utilization light and the irradiation stop in the utilization light illumination means. Selective irradiation can be performed, and insect attraction and activation can be suppressed more effectively.

  Further, another feature of the present invention is that, in the low-attractive illumination device, the use light control means is an approach detection sensor for detecting an approach of an object into an irradiation area of use light in the use light illumination means. is there.

  According to another feature of the present invention configured as described above, the low-attractive lighting device is configured such that the use light control means is an entry detection sensor that detects the entry of an object into the irradiation area of the use light. The presence of a person or an object can be detected, and irradiation can be performed only when the use light is required, and insect attraction and activation can be suppressed more effectively.

  In addition, another feature of the present invention is that the low-attractive illumination device further includes a diffuse reflector for diffusely reflecting at least low-activity light.

  According to another feature of the present invention configured as described above, the low-attractive lighting device includes a diffuse reflector that diffusely reflects at least low-activity light, thereby reducing the directivity of the low-activity light. Area can be irradiated with low activation light. In this case, the diffuse reflector transmits a part of the irradiated light and diffuses the other part in addition to a configuration (for example, a metal plate) for diffusely reflecting all of the low activity light irradiated. A configuration (milky white resin plate) to be Also, the diffuse reflector may be configured to diffuse and reflect the use light in addition to the low activation light.

  Further, another feature of the present invention is that the low attraction lighting device further comprises a base body supporting the low activity light irradiation means and the use light operation means, and the base body is from the low activity light irradiation means. Low activity light irradiating means for irradiating the low activity light to be irradiated in any direction within an angle range from the direction toward the mounting surface on which the low attraction lighting device is attached to the direction parallel to the mounting surface To use light emitted from the utilization light irradiation means in any direction within an angular range from the direction opposite to the mounting surface to the direction parallel to the mounting surface It is to support the light irradiation means.

  According to another feature of the present invention configured as described above, the low-attractive lighting device has any of an angle range from the direction toward the mounting surface to the mounting surface from the low activity light irradiating means to the direction parallel to the mounting surface. The low activity light can be irradiated with the scattered light because it is supported by the base body so as to irradiate the low activity light in the vertical direction. In addition, the low-attractive illumination device emits the utilization light in any direction within an angle range from the direction in which the utilization light irradiator faces to the mounting surface to the direction parallel to the mounting surface. Since it is supported by the base body, it is possible to irradiate the utilization light directly or in a state in which the scattering of the light is suppressed, to a place where the utilization light is required. As a result, the low-attractive lighting device uses the light of the light quantity necessary for the spot of the required light area while effectively suppressing the attraction and activation of the insects against the surroundings of the low-attractive lighting. Can be irradiated.

  Another feature of the present invention is that, in the low-attractive illumination device, the utilization light irradiator emits white light.

  According to the other feature of the present invention configured as described above, the low-attractive lighting device emits white light with the use light irradiating means, so the white light with high versatility is used for the necessary area of the use light. Irradiation can be performed while suppressing attraction and activation of insects.

It is a front sectional view showing typically the outline of the appearance composition of the low inductive lighting device concerning one embodiment of the present invention. It is a bottom view which shows typically the outline of the external appearance structure of the base body of the low attraction-type illuminating device shown in FIG. FIG. 2 is a block diagram of a control system for controlling the operation of the low attraction lighting device shown in FIG. It is front sectional drawing which shows typically the image of the irradiation state of the low activity light and utilization light in the low attraction-type illuminating device shown in FIG. It is a bottom view which shows typically the outline of the external appearance structure of the base body of the low attraction-type illuminating device which concerns on the modification of this invention. It is a bottom view which shows typically the outline of the external appearance structure of the base body of the low attraction-type illuminating device which concerns on the other modification of this invention. (A) and (B) schematically show the outline of the external appearance of the base body of the low attraction lighting device according to another modification of the present invention, and (A) is a low elevation view of the base body And (B) is a front view which shows typically the image of the irradiation condition of low activity light and utilization light in a low attraction-type illuminating device. It is front sectional drawing which shows typically the image of the irradiation state of the low activity light and utilization light in the low attraction-type illuminating device which concerns on the other modification of this invention. The utilization light irradiation instrument in the low attraction-type illuminating device which concerns on the other modification of this invention, and the low activity view which shows the arrangement state to the attachment surface of a low activity light irradiation instrument typically. It is a bottom view which shows typically the outline of the external appearance structure of the base body of the low attraction-type illuminating device which concerns on the other modification of this invention.

  Hereinafter, an embodiment of a low inductive lighting device according to the present invention will be described with reference to the drawings. FIG. 1 is a front sectional view schematically showing the outline of the configuration of a low attraction illumination device 100 according to the present invention. Moreover, FIG. 2 is a bottom view which shows typically the outline of an external appearance structure of the base body 101 of the low attraction-type illuminating device 100 shown in FIG. FIG. 3 is a block diagram of a control system for controlling the operation of the low attraction lighting device 100 shown in FIG. Note that the drawings referred to in this specification may be schematically represented by exaggerating and representing some components in order to facilitate understanding of the present invention. And ratios may be different. The low attraction lighting device 100 is a lighting fixture installed in a shared space such as a stairway or a walkway open to the outside in an apartment house such as an apartment or apartment.

(Configuration of the low attraction lighting device 100)
The low attraction illumination device 100 includes a base body 101. The base body 101 is a metal part that supports the low activation light irradiation light source 110 and the utilization light irradiation light source 130 described later, and is formed by pressing a metal plate. More specifically, in the base body 101, a through hole is formed in the central portion of the main body portion 102 formed in a disk shape, and the control housing 120 is provided, and the outer edge portion of the main body portion 102 goes downward A light source support wall portion 103 which is bent and dropped is formed and configured.

  The main body portion 102 is a portion for supporting the light source support wall portion 103 and a cover 160 described later, and is formed in a flat plate shape extending parallel to the mounting surface 10 such as a ceiling or a wall to which the low attraction lighting device 100 is attached. It is done. The main body portion 102 is made of a metallic color so as to diffuse and reflect the low activation light L1 emitted from the low activation light irradiation light source 110.

  The light source support wall portion 103 is a portion for holding the low activation light irradiation light source 110 and the cover 160, and the irradiation direction of the low activation light L1 irradiated from the low activation light irradiation light source 110 is mainly to the mounting surface 10 It is annularly formed by a plate-like body of an angle which becomes parallel. In the present embodiment, the light source support wall portion 103 is formed to extend in a direction orthogonal to the main body portion 102 (in other words, the mounting surface 10).

  In the light source support wall portion 103, a cover holding portion 104 is formed such that a part of the tip end portion protrudes outward in the radial direction of the base body 101. The cover holding portion 104 is a plate-like portion that detachably holds the cover 160 and holds it. Then, on the inner peripheral surface of the light source support wall portion 103, a low activity light irradiation light source 110 is provided.

  The low activation light irradiation light source 110 is an optical element capable of irradiating the low activation light L1 having an emission peak in a wavelength range of 500 nm or more and 620 nm. In this case, the low activity light L1 is light in which the insect stops its activity and enters a resting state. More specifically, the low activity light L1 in which the insect is in a resting state is a so-called bright light in which nocturnal insects mainly move or suck, prey, mate, oviposite or other activities in a bright environment such as daytime. It is light in an adaptive state, and is light in a wavelength range of approximately 500 nm or more (green) and 620 nm (orange) or less. The low activation light L1 is indicated by a broken line in each figure.

  Three low activation light irradiation light sources 110 are provided along the inner circumferential surface of the light source support wall 103 at equal intervals. That is, each of the three low activation light irradiation light sources 110 is a central part of the annular light source support wall 103 (also a central part of the base body 101), in other words, low activation light L1 toward the control unit housing 120. Are attached to the inner circumferential surface of the light source support wall 103. Further, the operation of each of the three low activation light irradiation light sources 110 is controlled by a control unit 140 described later. In the present embodiment, the low activation light irradiation light source 110 is configured by an LED light emitting element (Light Emitting Diode) having a light emission peak at a wavelength of 590 nm.

  The control unit housing 120 is a component that supports the utilization light irradiation light source 130 described later and accommodates the control unit 140, and is formed in a hollow cylindrical shape that closes both ends of a resin-made cylindrical body. The control light source 130 is attached to the end face of the control unit housing 120 on the cover 160 side, and the control unit 140 is accommodated inside the cylindrical body.

  The utilization light irradiation light source 130 is an optical element capable of irradiating utilization light L2 having a color different from the light emission peak of the low activation light L1, ie, a light emission peak of a wavelength different from the light emission peak of the low activation light L1. . In this case, the utilization light L2 is light of a wavelength required by the user of the low-attractive lighting device 100 as illumination, and is, for example, white light. In the present embodiment, the utilization light irradiation light source 130 is configured by an LED light emitting element (Light Emitting Diode) that emits white light.

  In this case, white light is light that is realized by a continuous spectrum over the entire range of visible light, and is light that appears white to the human eye due to the mixing of the three primary colors of light and the mixing of two complementary colors. is there. In the present embodiment, the utilization light irradiation light source 130 is covered with a light transmitting cover made of a resin in which a yellow fluorescent material is coated on the outside of an LED light emitting element that emits blue light (light in a wavelength range of about 420 to 470 nm). Is configured.

  The utilization light irradiation light source 130 is attached to the control unit housing 120 in a direction in which the user of the low attractive illumination device 100 irradiates the utilization light L2 toward the area requiring the utilization light L2. In the present embodiment, the utilization light irradiation light source 130 irradiates the utilization light L2 on the passage on the side (the lower side in the figure) facing the mounting surface 10. Further, the operation of the utilization light irradiation light source 130 is controlled by the control unit 140. In addition, utilization light L2 is shown with a broken line in each figure. The boundary between the low activation light L1 and the utilization light L2 is indicated by a broken line for the sake of convenience, but the actual boundary between the two changes gradually and is unclear.

  The control unit 140 is configured by a microcomputer, and is an apparatus for controlling the operation of the low activation light irradiation light source 110 and the utilization light irradiation light source 130, and is housed in the control unit housing 120. More specifically, control unit 140 uses a detection signal from illumination detection sensor 141 and entry detection sensor 142 according to a control program (not shown) stored in advance in a storage device (for example, a ROM) in a microcomputer to reduce activity. The operations of the light irradiation light source 110 and the utilization light irradiation light source 130 are respectively controlled.

  In the present embodiment, the control unit 140 turns on the low activation light irradiation light source 110 only when the brightness (illuminance) around the low attractive illumination device 100 becomes equal to or less than a predetermined brightness. In addition, when the brightness (illuminance) around the low attractive illumination device 100 of the utilization light irradiation light source 130 is equal to or lower than a predetermined brightness, the control unit 140 sets an object in a predetermined area with respect to the low attractive illumination device 100. Lights up only when the vehicle enters.

  The illuminance detection sensor 141 is a detector that detects the illuminance around the low inductive illumination device 100 and outputs an electrical signal corresponding to the illuminance as the illuminance detection signal to the control unit 140, and for example, a photo that senses light It is configured to include a diode and a current amplification circuit that amplifies an electrical signal. The illuminance detection sensor 141 is supported on a support arm 150 supported by the base body 101.

  The support arm 150 is a metal component for supporting the illuminance detection sensor 141 and the entrance detection sensor 142 respectively, and after extending radially outward from the outer surface (upper surface in the drawing) of the base body 101, the tip end portion Is formed in the shape of a long plate bent toward the illumination side (the lower side in the figure) of the low attractive illumination device 100. Then, the illuminance detection sensor 141 is on the opposite side of the front end portion of the support arm 150 from the cover 160, that is, on the opposite side of the irradiation direction of the low activation light L1 and the utilization light L2 irradiated from the low attraction illumination device 100. It is attached facing.

  The entry detection sensor 142 is an object when an object such as a person or an object enters an area illuminated by the low inductive illumination device 100, more specifically, an area irradiated with the utilization light L2 by the utilization light irradiation light source 130. The detector 140 outputs an electrical signal corresponding to the change in approach to the control unit 140 as an approach detection signal. In the present embodiment, the entry detection sensor 142 is a so-called human sensor that senses heat (infrared radiation) emitted by an object and outputs it as an entry detection signal. The entry detection sensor 142 is attached to the tip of the support arm 150 such that the area irradiated with the utilization light L2 by the utilization light irradiation light source 130 is the entrance detection area.

  The control unit 140 also supplies power for driving the low activation light irradiation light source 110, the utilization light irradiation light source 130, the illuminance detection sensor 141, and the entrance detection sensor 142 to an external power supply (for example, a 100V outlet). A power supply unit 143 composed of an electric circuit for receiving from the unit 11 and an input device 144 for inputting an instruction to the control unit 140 are provided.

  In this case, the power supply unit 143 is connected to the power supply unit 11 from the end surface (the end surface on the upper side in the drawing) where the connection terminal (not shown) for electrically detachably connecting is opposed to the mounting surface 10 side of the control unit housing 120. It is provided in an exposed state. The input device 144 can adjust and set each detection sensitivity of the illuminance detection sensor 141 and the entrance detection sensor 142 within a predetermined sensitivity range.

  The cover 160 is a component that detachably covers the inside of the base body 101 while transmitting the low activation light L1 and the utilization light L2 emitted from the low activation light irradiation source 110 and the utilization light irradiation light source 130, respectively, The transparent resin material is formed of a curved surface having a water droplet cross section. That is, the cover 160 reduces the directivity of the low activity light L1 and the usage light L2 respectively emitted from the low activity light illumination light source 110 and the usage light illumination light source 130, in other words, the low activity light L1 and the usage light L2 It is configured to diffuse reflect one part and transmit the other part.

  In this case, the cover 160 can be made of, for example, a so-called textured surface in which a plurality of asperities are formed on the surface through which the low activation light L1 and the utilization light L2 respectively pass. The cover 160 can also be configured, for example, by applying a light scattering agent (for example, a pigment containing magnesium carbonate, titanium oxide, or the like) to the surface through which the low activity light L1 and the utilization light L2 respectively transmit.

(Operation of low attraction lighting device 100)
Next, the operation of the low inductive lighting device 100 configured as described above will be described. First, an installer installing the low attraction lighting device 100 attaches the low attraction lighting device 100 to the mounting surface 10. In this case, the low-attractive lighting device 100 is attached to the mounting surface 10 such as a wall or ceiling of a stairway or passage that is open to the outside in a building, for example. In the present embodiment, the installer installs the low-attractive lighting device 100 on the ceiling surface in the vicinity of the front door of each door of the shared passage in the apartment complex such as an apartment or an apartment. Specifically, the installer connects the power supply unit 143 of the low inductive lighting device 100 to the power feeding unit 11 provided on the mounting surface 10.

  Thus, the low inductive lighting device 100 is attached to the mounting surface 10, and the control unit 140 receives power from the power supply unit 11 and starts operation. Specifically, the control unit 140 executes the control program stored in advance in the storage device to input each detection signal from the illuminance detection sensor 141 and the entrance detection sensor 142, and also to receive each of the input detection signals. In response to this, operation control of the low activation light irradiation light source 110 and the utilization light irradiation light source 130 is started.

  Next, the installer sets the operation specifications of the low activation light irradiation light source 110 and the utilization light irradiation light source 130 to the control unit 140. Specifically, the installer sets the illumination around the low attractive illumination device 100 to light the low activity light irradiation light source 110 and the condition to turn on the utilization light irradiation light source 130 (the object in the detection area of the approach detection sensor 142 The time when the object exists or the lighting time after the same object does not exist is set in the control unit 140 via the input device 144. Thus, the control unit 140 controls the operation of the low activity light irradiation light source 110 and the usage light irradiation light source 130 according to the set operation specifications of the low activity light irradiation light source 110 and the usage light irradiation light source 130.

  Specifically, the control unit 140 controls the low activity light irradiation light source 110 and the utilization light irradiation light source 130 when the illuminance around the low attractive illumination device 100 is a set value or more, for example, in the daytime from dawn to sunset. Control not to turn on the light. On the other hand, the control unit 140 constantly turns on the low activation light irradiation light source 110 at night while the illuminance around the low inductive lighting device 100 is less than the set value, for example, during the night from sunset to dawn. The utilization light irradiation light source 130 is turned on only for a predetermined time only when an object enters the area.

  That is, the low attraction lighting device 100 always ensures the necessary minimum illuminance at the installation location of the low attraction lighting device 100 by constantly turning on the low activation light irradiation light source 110 at night. In this case, the low activation light L1 emitted from the low activation light irradiation light source 110 is emitted toward the outside through the cover 160 while being diffusely reflected on the inner wall surfaces of the base body 101 and the cover 160. As a result, the cover 160 emits surface light by the low activation light L1. As a result, since the low attraction light device 100 causes the low activity light L1 emitted from the cover 160 to stop the activity of the insect and put it in a resting state (bright adaptation), the low attraction light device 100 is It can prevent insect attraction and activity.

  Then, when an object such as a person enters a region immediately below the low attractive illumination device 100, that is, an irradiation area of the utilization light irradiation light source 130 for a certain period of time, the control unit 140 turns on the utilization light irradiation light source 130. In this case, in the low attraction illumination device 100, the utilization light irradiation light source 130 disposed directly opposed to the cover 160 emits the utilization light L2 in a state where the surface emission is performed by lighting the low activity light irradiation light source 110. Do. For this reason, as shown in FIG. 4, the utilization light L 2 is irradiated from the central portion of the cover 160 where the low activation light L 1 is surface-emitted, as shown in FIG. The low activation light L1 is emitted to surround the periphery of the irradiation area of the utilization light L2 with respect to the area of.

  Thus, the low attraction illumination device 100 irradiates a person located immediately below the low attraction illumination device 100 with light (utilizing light L2) that is brighter than the low activation light L1 and is easy to see, etc. Covering the surroundings with low activity light L1 can suppress attraction and active activity of insects such as pests (for example, unpleasant pests, agricultural pests or hygienic pests, and insect pests that prey on these insects). Then, when an object such as a person is not present in the irradiation area of the utilization light irradiation light source 130, the low attractive illumination device 100 causes the control unit 140 to turn off the utilization light irradiation light source 130. As a result, the low attraction illumination device 100 returns to the state in which only the low activation light illumination light source 110 is turned on before the utilization light irradiation device 130 is turned on. In the low-attractive lighting device 100, when the illuminance around the low-attractive lighting device 100 is equal to or higher than the set value, that is, the morning light is turned off, the control unit 140 turns off the low activation light irradiation light source 110.

  As can be understood from the above operation description, according to the above embodiment, the low attractive illumination device 100 has a wavelength different from the light emission peak of the low activity light L1 in the irradiation area of the low activity light L1 for which the insects are brightly adapted. Since it is comprised so that the perimeter of the irradiation area | region of utilization light L2 which has the following light emission peaks may be enclosed, the phototropism and activity of an insect are suppressed in the outer side enclosed by the low activity light L1. In this case, the low attraction illumination device 100 does not necessarily have to prepare a plurality of low activity light irradiation light sources 110 for emitting the low activity light L1 and a plurality of utilization light irradiation light sources 130 for emitting the utilization light L2. It is not necessary to disperse the irradiation light sources 130 with respect to the low activation light irradiation light source 110. As a result, the low attraction lighting device 100 can reduce the power consumption, the running cost, the manufacturing cost, and the manufacturing burden.

  Furthermore, the implementation of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the object of the present invention. In the description of each modification, the same parts as those in the above-described embodiment are denoted by the same reference numerals, and redundant descriptions will be omitted.

  For example, in the said embodiment, the low activity light irradiation light source 110 was comprised by the LED light emitting element from which the wavelength of 590 nm becomes an emission peak. However, the low activation light irradiation light source 110 is not limited to the above embodiment as long as it is an optical device capable of irradiating the low activation light L1 having an emission peak in a wavelength range of 500 nm or more and 620 nm. Therefore, the low activity light irradiation light source 110 emits various types of optical devices, for example, low activity light L1 having a light emission peak in a wavelength range of about 500 nm or more (green) and 620 nm (orange) or less. In addition to the LED light emitting element, it can be constituted by a fluorescent lamp, a mercury lamp, a halogen lamp or a light bulb. In this case, according to the experiment of the inventor, the emission peak of the low activity light L1 is preferably set in a wavelength range of 570 nm to 590 nm, more preferably in a wavelength range of 590 nm to 620 nm.

  Further, in the above embodiment, the three low activation light irradiation light sources 110 are configured to irradiate the low activation light L1 toward the central portion of the base body 101, respectively. As a result, the low attractive illumination device 100 can diffuse and reflect light inside the base body 101 and can emit uniform light. However, the low attraction illumination device 100 has any of an angle range from the direction toward the mounting surface 10 to the direction parallel to the mounting surface 10 from the low activation light L1 emitted from the low activity light irradiation light source 110. Supporting the low activity light irradiation light source 110 so as to irradiate in the direction of the lower light, in other words, if the low activity light irradiation light source 110 does not directly irradiate the cover 160 with the low activity light L1 Irradiation unevenness can be suppressed. The low attraction illumination device 100 does not exclude the configuration so as to direct the low activation light source 110 toward the cover 160 (downward in the drawing) to emit the low activation light L1. According to this, the low attraction lighting device 100 can suppress the decrease in the light amount of the low activation light L1.

  In addition, as for the number of low activation light irradiation light sources 110, the irradiation area of low activation light L1 only needs to surround at least half of the circumference of the irradiation area of utilization light L2, so two or less or four or more may be used. It may be For example, as illustrated in FIG. 5, the low attraction illumination device 100 includes, as a main portion, a low activation light radiation source 110 configured of one (or plural) annular fluorescent lamps so as to surround the utilization light illumination light source 130. It can be fixedly arranged at 102. Also, for example, as shown in FIG. 6, the low attraction illumination device 100 is configured by arranging a plurality of low activation light irradiation light sources 110 on the main body portion 102 in the base body 101 around the utilization light illumination light source 130. You can also.

  Moreover, in the said embodiment, the low activity light irradiation light source 110 was arrange | positioned around the utilization light irradiation light source 130 so that the irradiation area | region of the low activity light L1 may surround the perimeter of the irradiation area | region of utilization light L2. However, the low activation light irradiation light source 110 is disposed at least at a part of the circumference of the utilization light irradiation light source 130 so that the irradiation area of the low activity light L1 can surround at least half or more of the circumference of the utilization light L2 irradiation area. It should be done. Therefore, for example, when the installation location of the low inductive lighting device 100 is a corridor or a stairway where light illumination such as a wall does not need to be present in a part of the periphery, light illumination is unnecessary. The low activation light irradiation light source 110 for irradiating the low activation light L1 to the part can be omitted. For example, as shown in FIGS. 7A and 7B, the low activity light irradiation light source 110 is low in activity light only in a half area on the main body portion 102 of the base body 101 around the utilization light illumination light source 130. The irradiation light source 110 can be arranged and configured.

  Moreover, in the said embodiment, the utilization light illumination light source 130 was comprised with the LED light emitting element which irradiates white light. However, the utilization light illumination light source 130 emits the utilization light L2 having a wavelength different from that of the low activation light L1 or a light which can not be visually recognized and which the user of the low attraction lighting device 100 desires. The present invention is not limited to the above embodiment as long as it can be used. Therefore, the utilization light illumination light source 130 can be configured by a light source that emits visible light other than white.

  In this case, the utilization light illumination light source 130 can be configured of, for example, a red LED light emitting element that emits red light (a wavelength of 640 to 690 nm) and a blue LED light emitting element that emits blue light (a wavelength of 420 to 470 nm). In this case, it is known that red light is light which stimulates the growth and photosynthesis of plant leaves, and blue light is light which stimulates the growth of plant stems and further shapes the shape. Therefore, the low attraction lighting device 100 efficiently cultivates plants while suppressing attraction and activity of plants by configuring the utilization light illumination light source 130 to emit blue and red utilization light L 2. can do. In this case, the utilization light illumination light source 130 may increase the ratio of red light to the ratio of blue light in order to achieve effective growth of plants. In addition, the low attractive illumination device 100 may be configured to turn on or turn on the utilization light illumination light source 130 only for the minimum time required for growing a plant at night.

  Moreover, the utilization light irradiation light source 130 can be comprised with a fluorescent lamp, a mercury lamp, a halogen lamp, a light bulb etc. other than a LED light emitting element. In this case, by configuring the utilization light irradiation light source 130 with a highly directional light source, for example, a spotlight, it is possible to concentrate the utilization light L2 and to prevent the diffusion of the utilization light L2. Also, by surrounding the periphery of the utilization light irradiation light source 130 with a cylindrical body, it is possible to suppress the diffusion of the utilization light L2 to the low activation light L1 side. In addition, the number of the utilization light irradiation light sources 130 may be two or less, or four or more, as long as the illuminance necessary for the utilization light L2 can be secured.

  Further, in the above embodiment, the utilization light irradiation light source 130 is provided at the position of the central portion of the base body 101 in the direction of emitting the utilization light L2 in the direction (vertically downward) perpendicular to the mounting surface 10 . However, the utilization light irradiation light source 130 may be provided at a position and in a direction in which the utilization light L2 to be irradiated is surrounded by the low activity light L1, and is not necessarily limited to the above embodiment. Therefore, for example, within the angle range from the direction in which the utilization light L2 emitted from the utilization light irradiation light source 130 is opposed to the mounting surface 10 to the direction parallel to the mounting surface 10, the low attractive illumination device 100 The utilization light irradiation light source 130 can be configured to be held so as to emit light in any direction. In addition, the low attractive illumination device 100 may be provided with the utilization light irradiation light source 130 at a position other than the central portion of the base body 101 according to the required position of the utilization light L2, for example, as shown in FIG. As described above, the utilization light irradiation light source 130 may be provided in a direction in which the utilization light L2 can be emitted toward the position where the utilization light L2 is required.

  Moreover, in the said embodiment, the low attraction-type illuminating device 100 comprised the low activity light irradiation light source 110 and the utilization light illumination light source 130 respectively with the LED light emitting element. However, the low attraction illumination device 100 may be configured to have the low activation light illumination source 110 and the utilization light illumination light source 130 respectively with separate illumination fixtures. For example, as shown in FIG. 9, the low attraction illumination device 100 has a utilization light irradiation light source 130 comprising a light bulb for irradiating utilization light L2 of white light, and has 500 nm or more and 620 nm A low activity light irradiation instrument 180 provided with a low activity light irradiation light source 110 consisting of a fluorescent lamp that emits low activity light L1 having a light emission peak in a wavelength region can be arranged and configured. According to this, the low attraction illumination device 100 can emit the low activity light L1 and the usage light L2 in a wider range as compared with the case where the low activity light illumination light source 110 and the usage light illumination light source 130 constitute. . The low activity light irradiation light source 110 and / or the low activity light irradiation device 180 correspond to the low activity light irradiation means according to the present invention, and the use light irradiation light source 130 and / or the use light irradiation device 170 according to the present invention It corresponds to the utilization light irradiation means which concerns. In addition, in FIG. 9, a part of attachment surface 10, such as a ceiling and a wall, is shown with the dashed-two dotted line.

  Further, in the above embodiment, the low attractive illumination device 100 irradiates the utilization light L2 when an object such as a person enters the irradiation region of the utilization light L2 of the utilization light irradiation light source 130 using the entrance detection sensor 142. Configured to However, the low attraction illumination device 100 can be configured with the entrance detection sensor 142 omitted. In this case, the low attraction illumination device 100 may be configured to be provided with a manual switch for turning on or off the utilization light irradiation light source 130 by the manual operation of the user of the low attraction illumination device 100, or low activity. Each operation of the light irradiation light source 130 may be interlocked with each operation of the light irradiation light source 110 such as lighting or light extinction.

  In addition, the low attractive illumination device 100 may control the operation of the utilization light irradiation light source 130 using detection means for detecting the presence of a person or thing by a method other than infrared rays as the entrance detection sensor 142 or other control devices. it can. For example, the low attraction illumination device 100 detects the approach of an object such as a person to the irradiation area of the utilization light L2 of the utilization light irradiation light source 130 by the entrance detection sensor 142 using microwaves or ultrasonic waves and uses the utilization light L2 Can be configured to illuminate. In addition, the low attractive illumination device 100 can also be configured to control each operation of lighting or extinguishing the utilization light irradiation light source 130 at a predetermined time using a timer. That is, the manual switch, the entry detection sensor 142 and the timer correspond to the utilization light control means according to the present invention.

  Further, in the above embodiment, the low attraction illumination device 100 is configured to control the operation of the low activity light irradiation light source 110 using the illuminance detection sensor 141. However, the low attraction illumination device 100 can be configured to control the operation of the low activation light irradiation light source 110 using a device other than the illuminance detection sensor 141. For example, the low attractive illumination device 100 can control each operation of lighting or extinguishing the low activation light irradiation light source 110 at a predetermined time using a timer. Further, the low inductive illumination device 100 can be configured with the illuminance detection sensor 141 omitted. In this case, the low attraction lighting device 100 may be configured to be provided with a manual switch for turning on or off the low activation light irradiation light source 110 by the manual operation of the user of the low attraction lighting device 100. Each operation of the low activation light irradiation light source 110 may be interlocked with each operation of the light irradiation light source 130 of lighting or light extinction.

  Moreover, in the said embodiment, the base body 101 was formed circularly by bottom view. However, the shape of the base body 101 is not necessarily limited to the above embodiment, and can be formed, for example, in a square in a bottom view as shown in FIG. In this case, the low activation light source 110 can be disposed at the four corners of the rectangular base body 101. In addition, as shown in FIG. 1, by providing a sheet-like (for example, metal foil or metal plate) reflecting plate 105 on the main body portion 102 of the base body 101, mainly low activity irradiated from the low attractive illumination device 100 The light amount of the light L1 can be increased. That is, the reflector 105 corresponds to the diffuse reflector according to the present invention. In FIG. 1, the reflecting plate 105 is indicated by a two-dot chain line.

  Moreover, in the said embodiment, the low attraction-type illuminating device 100 was provided with the semi-transparent cover 160, and was comprised. That is, the cover 160 corresponds to the diffuse reflector according to the present invention. However, the low attraction illumination device 100 can be configured to include the transparent cover 160, and can be configured to omit the cover 160. In addition, the cover 160 may be configured to be transparent only at the portion facing the utilization light irradiation light source 130, and may be configured to be translucent at the portion other than the transparent portion. According to this, the low attraction illumination device 100 can suppress the decrease in the light amount of the use light L2 while irradiating the low activation light L1 with the surface light emission through the cover 160. Further, the cover 160 can also be configured using a glass material in addition to the resin material.

  Further, in the above-described embodiment, the low-attractive lighting device 100 is installed in a shared space such as a stairway or a walkway open to the outside in an apartment house such as an apartment or a condominium. However, the low attraction lighting apparatus 100 is used as a lighting apparatus other than an apartment house, for example, a covered parking lot, a covered bicycle parking lot, a station yard, a cafeteria, a hospital, a school, various stores, a farm or a plant cultivation house. It can be used.

L1 ... low activity light, L2 ... use light,
10 Mounting surface 11 Power feeding portion
100 ... low attraction lighting system,
DESCRIPTION OF SYMBOLS 101 ... Base body, 102 ... Body part, 103 ... Light source support wall part, 104 ... Cover holding part, 105 ... Reflective plate,
110 ... low activity light source,
120 ... control unit housing,
130 ... use light irradiation light source,
140: control unit, 141: illuminance detection sensor, 142: entry detection sensor, 143: power supply unit, 144: input device,
150 ... supporting arm,
160 ... cover,
170 ... Use light irradiation equipment,
180 ... Low activity light irradiation equipment.

Claims (6)

Low activity light irradiation means for irradiating low activity light having a light emission peak in a wavelength range of 500 nm or more and 620 nm or less;
Utilization light irradiating means for irradiating utilization light consisting of light of a color different from the low activation light or light which can not be visually recognized;
The irradiation area of the utilization light is located in the irradiation area of the low activity light,
The low attraction illumination device, wherein the low activation light irradiation area surrounds the entire circumference of the utilization light irradiation area. In the low attraction lighting device according to claim 1, further,
A low-attractive illumination device comprising: utilization light control means for controlling the irradiation of the utilization light and the irradiation stop in the utilization light irradiation means. In the low attraction lighting device according to claim 2,
The utilization light control means is
It is an approach detection sensor which detects the approach of the object in the irradiation area of the said utilization light in the said utilization light irradiation means, The low attraction-type illuminating device characterized by the above-mentioned. The low attraction lighting device according to any one of claims 1 to 3, further comprising:
A low attraction illumination device comprising a diffuse reflector for diffusely reflecting at least the low activity light. The low attraction lighting device according to any one of claims 1 to 4, further comprising:
A base body supporting the low activity light irradiation means and the utilization light irradiation means;
The base body is
The low activity light emitted from the low activity light irradiating means is in any direction within a range from the direction from the direction toward the mounting surface to which the low attractive lighting device is attached to the direction parallel to the same mounting surface The low activity light irradiation means is supported to emit light, and the angle from the direction opposite to the mounting surface to the direction parallel to the mounting surface while supporting the low activity light irradiation means A low attraction illumination device characterized in that the utilization light irradiator is supported to emit light in any direction within a range. The low attraction lighting device according to any one of claims 1 to 5,
The utilization light irradiating means is
A low attractive illumination device characterized by emitting white light.

Images