JP2687720B2 - Lighting equipment - Google Patents

Description

FIELD OF THE INVENTION The present invention measures ambient conditions and, depending on the results,
The present invention relates to a lighting device that changes a lighting state of a lamp.

Conventional Technology Humans always live with Akari. In recent years, it has been desired to change the illumination of the living space according to the individual's preference and life pattern in order to produce the individuality of each person through the illumination rather than the uniform illumination. For example, a light source having a warm and tasty low color temperature is desired in the cold winter, and a light source having a high color temperature which seems cool in the hot summer is desired. In addition, a light source with a high color temperature that creates an active mood is desired at a party venue, and a light source with a low color temperature that creates a mood of a family is desired in a living room where a family relaxes.

Conventionally, in order to produce the atmosphere of the living space by lighting in this way, it was necessary to replace the light source or switch it with a large-scale device as needed.

[Problems to be Solved by the Invention] In the conventional technique, it is possible to change the illumination manually if necessary, but it is complicated to change the illumination each time. Light source manufacturers have made a series of light sources with various color temperatures, but they have not been used effectively.

The present invention provides a lighting device capable of producing an optimal living space by automatically changing the lighting state of the lamp according to the state of the living space and the taste and life pattern of each person. It is a thing.

Means for Solving the Problems In the present invention, a lamp, a measuring device that measures the surrounding state and provides information, and stores the correspondence relationship between the surrounding state and the lighting state of the lamp, and the information and the correspondence relationship. Equipped with a color temperature learning and estimation device that learns and estimates the color temperature from the, and a lighting control device that controls the lighting state of the lamp by a control signal corresponding to the estimated color temperature, and emits light in accordance with a control signal based on the surrounding conditions. The lighting state of the lamp is changed so that

It is equipped with temperature sensor, humidity sensor, brightness sensor, sound sensor, color sensor, infrared sensor, wind speed sensor, etc. as a device for measuring the surroundings, that is, the state of living space, and the climate, weather, time zone, It detects the living environment such as the size of the room, the surrounding color tone, the number of people, and the activity status of people.

As a device for storing and calculating the measurement result, it is equipped with a logical operation element such as a neuroprocessor or a microprocessor, and sets or learns a specific environmental condition.
In addition, the optimal lighting conditions for the surrounding environment are inferred from past learning data.

As a device for controlling the lamp, an electronic circuit capable of changing the waveform, frequency, duty, etc. of the voltage (or current) input to the lamp is provided to control the brightness and color of the lamp. It also controls the time series changes and spatial changes in brightness and color.

As a lamp that emits light, one or a plurality of light bulbs, a light source for illumination such as a fluorescent lamp and a HID lamp, and a lamp that emits various kinds of light correspond to effectively illuminate a living space.

Effect According to the above-mentioned means, the lighting state of the lamp can be automatically adjusted according to the change in the state of the living space,
It is possible to create a living space according to personal tastes and lifestyle patterns.

Embodiments Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a block diagram of the illumination device of the embodiment. The neuro control device 2 determines the lighting condition in accordance with the signal from the device 1 for measuring the surrounding condition, and the blinking dimmer 3 drives the lamp 4 in accordance with the lighting condition. Further, the setting input device 5 gives a signal to the neuro control device 2 to set the lighting condition.

FIG. 2 shows a concrete configuration of one embodiment. As a device 1 for measuring the ambient state, each sensor of a temperature sensor 11, a humidity sensor 12, an infrared sensor 13, a wind speed sensor 14, a color temperature setting switch 51, a neuro control device 2,
Flashing light control device 3, blue fluorescent lamp 41, green fluorescent lamp 4
The illumination device is composed of two red fluorescent lamps 43, and four colors of temperature, humidity, infrared rays, and wind speed are associated with a color temperature by a neuro control device.

FIG. 3 shows the configuration of the neuro control device. The neuro control device comprises a sensible temperature measuring means 21 and a color temperature discrimination means 22
And blinking dimming state setting means 23 and pattern learning / inference means 24.

In terms of lighting engineering, humans want to change the color temperature of lighting according to the temperature they experience. FIG. 4 shows an example of the relationship between the sensible temperature and the color temperature that is preferably felt at that temperature. Curve 6 is an example of a person who prefers light with a relatively high color temperature,
On the contrary, the curve 7 is an example of a person who likes light of a low color temperature, and the curve 8 is an example of a person who likes light of a constant color temperature which is not so much influenced by the sensible temperature. Generally, when the sensible temperature is high, there is a tendency to prefer lighting with a high color temperature that gives a cool feeling, and when the sensible temperature is low, there is a tendency to prefer lighting with a low color temperature that gives a warm feeling. However, this is due to individual preference and the individual difference is very large, and it is not possible to uniquely determine the correspondence relationship between the sensible temperature and the color temperature.

The sensible temperature is an amount that depends on the ambient temperature, humidity, heat radiation, and wind speed. Generally, when the temperature and humidity are high, the heat radiation is large, and the wind speed is low, it feels high as a sensible temperature. However, this also has a large individual difference, and it is not possible to uniquely determine the correspondence relationship between the ambient condition and the sensible temperature.

In this embodiment, the correspondence including the ambiguity determined by the subjectivity of the individual is determined by using the learning / reasoning function of the neuro control device. The sensory temperature estimation and the color temperature estimation were performed together, and the correspondence between the temperature, humidity, heat radiation, wind speed that affects the sensory temperature and the color temperature was processed by the neuro controller.

In the sensible temperature measuring means 21, the signals from the temperature sensor 11, the humidity sensor 12, the infrared sensor 13, and the wind speed sensor 14 are A / D converted and digitally processed.

The color temperature discriminating means 22 discriminates the color temperature from the above-mentioned measurement result and the correspondence pattern stored in advance.

Blinking dimming state setting means 23 based on the color temperature discrimination result
Then, the lighting / extinguishing of each of the three color lamps and the dimming level are determined. At this time, a color temperature range of 3000K to 7000K can be realized by adjusting the illuminance ratio of each color lamp to that shown in FIG.

In the pattern learning / inference means 24, the color temperature setting switch
The correspondence between the color temperature of the lamp selected by 51 and the measurement result (environmental condition) of each sensor at that time is stored. A new correspondence relationship can be learned and registered by the color temperature setting switch 51. The neuro controller infers the color temperature for the environmental condition that has not yet been learned.

A circuit capable of changing the duty of the voltage applied to the lamp is used for the blinking light control device 3. As a result, the fluorescent lamp can be steplessly adjusted from 0% to 100%.

As the lamp, three types of fluorescent lamps that emit blue, green, and red light, respectively, were used. In the blue fluorescent lamp 41,
(Sr, Ca, Ba, Eu) ₁₀ (PO ₄ ) ₆ Cl ₂ phosphor, green fluorescent lamp 42
Is a (La, Ce, Tb) PO ₄ phosphor, and the red fluorescent lamp 43 is
A (Y, Eu) ₂ O ₃ phosphor was used. FIG. 6 shows a relative spectral distribution chart of each phosphor.

Needless to say, the same effect as above can be obtained when blue, green, or red light bulbs are used as the lamps.

With the above configuration, we have realized a lighting fixture that can constantly measure the environmental conditions (temperature, humidity, heat radiation, wind speed) of the living space and automatically produce the optimal color temperature lighting in that condition. Due to human subjectivity, lighting control with large individual differences could be automated by using neuro control technology.

EFFECTS OF THE INVENTION According to the present invention, it is possible to measure the state of the living space of a person, control the lighting state of the lamp based on the result, and provide lighting suitable for the surrounding situation, personal preference, and life pattern. .

[Brief description of the drawings]

FIG. 1 is a block diagram of an apparatus according to one embodiment, FIG. 2 is a specific configuration diagram of the apparatus according to one embodiment, FIG. 3 is a configuration diagram of a neuro processing section, and FIG. FIG. 5 is a diagram of optimum illuminance ratio characteristics when three types of fluorescent lamps are mixed, and FIG. 6 is a relative spectral distribution diagram of the three types of fluorescent lamps. 1 ... Ambient condition measuring device, 2 ... Neuro control device, 3
…… Blinking light control device, 4 …… lamp, 5 …… setting input device, 11 …… temperature sensor, 12 …… humidity sensor, 13 ……
Infrared sensor, 14 ... Wind speed sensor, 21 ... Sensitive temperature measuring means, 22 ... Color temperature discrimination means, 23 ... Flashing dimming state setting means, 24 ... Pattern learning / inference means, 41 ... Blue fluorescent lamp , 42 …… green fluorescent lamp, 43 …… red fluorescent lamp, 44 …… blue fluorescent material, 45 …… green fluorescent material, 46 …… red fluorescent material, 51 …… color temperature setting switch.

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁶ Identification number Internal reference number FI Technical display location H05B 37/02 H05B 37/02 G (72) Inventor Yoshio Ogata Yoshinobu Ogata 1006 Kadoma, Kadoma-shi, Osaka Matsushita Electric Appliance Industry Co., Ltd. (72) Inventor Kenyuki Morishita 1006 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (72) Inventor, Yoichi Tamura 1006 Kadoma, Kadoma City, Osaka Matsushita Electric Industrial Co., Ltd. (56) Reference JP-A-2-265195 (JP, A) JP-A-63-75438 (JP, A) JP-A-2-201607 (JP, A) JP-A-62-188198 (JP, A) JP-A-4-14796 (JP, A) JP-A 64-82265 (JP, A) JP-A 2-309398 (JP, A) JP-A 3-17997 (JP, A) JP-A 2-158095 (JP, A)

Claims (7)

(57) [Claims] 1. A lamp, a measuring device for measuring the ambient condition and providing information, and a correspondence relation between the ambient condition and the lighting state of the lamp are stored, and the color temperature is calculated from the correspondence relation. An illumination device comprising: a color temperature learning estimation device that learns and estimates the color temperature; and a lighting control device that controls a lighting state of the lamp by a control signal corresponding to the color temperature. 2. The lighting device according to claim 1, wherein the measuring device is a device for measuring a perceptual amount that can be sensed by the human five senses, and the lighting state of the lamp is controlled according to the perceptual amount. . 3. A perceptual amount measured by a measuring device is stored,
The lighting device according to claim 1 or 2, further comprising hardware for performing a logical operation, which is capable of determining a control condition for a lighting state of a lamp. 4. The lighting control device according to claim 1, wherein one or more of the magnitude, the waveform, the frequency, and the duty of the voltage applied to the lamp are changed. Lighting equipment. 5. The lighting device according to claim 1, further comprising one or a plurality of lamps, the lighting states of which are changed simultaneously or individually. 6. The lighting device according to claim 1, wherein the hue, brightness, and saturation of the light emitted from the lamp are changed. 7. The intensity of light emitted from the lamp is spatially
2. A wavelength-dependent and time-dependent change.
7. The lighting device according to claim 6.