CN105101531A - Illuminating device and control method for same - Google Patents

Abstract

The invention provides an illuminating device capable of high efficiently reporting various information related to the illuminating device. The illuminating device (110) comprises a control part (115) and an illuminating part (120) controlling a lamp according to the control part (115), and further comprises a storage part (130) storing device information (131) indicating static or dynamic attribute information of the illuminating device (110) and a receiving part (114) receiving regulated indications, wherein after the control part (115) receives the regulated indications via the receiving part (114), the illuminating part (120) is controlled and color temperature of light emitted by the illuminating part (120) becomes color temperature stored in the device information (131) of the storage part (130).

Description

The control method of lighting device and lighting device

Technical field

The present invention relates to a kind of lighting device, this lighting device possesses the illuminating part that the control carried out according to control part carrys out lighting.

Background technology

In the past, in the ligthing paraphernalia being configured in ceiling etc., be decide the life-span of goods on the basis such as aging considering light source, thus disclose and the life-span is expired the technology notified.

Such as, technology disclosed in patent documentation 1 is, being arranged on panel part setup times management department and the informing portion of wall, when the accumulation lighting time of the ligthing paraphernalia measured by time management portion reaches official hour, informed the life-span of ligthing paraphernalia by informing portion.

(prior art document)

(patent documentation)

Patent documentation 1 Japanese Unexamined Patent Publication 2008-251441 publication

According to above-mentioned technology in the past, be configured in the panel part of wall, carry out the management of lighting time and the informing of life-span of ligthing paraphernalia.For this reason, such as in the illuminator operating the multiple ligthing paraphernalias be arranged in a room with a panel part is formed, the management of each ligthing paraphernalia becomes complicated, and also there will be and be difficult to distinguish the situation that the content of informing is corresponding with which ligthing paraphernalia.

Further, the light source of the lighting device had as ligthing paraphernalia in recent years, have employed the semiconductor light-emitting elements such as the LED (LightEmittingDiode: light-emitting diode) longer than the life-span of fluorescent lamp in the past.Therefore, employ longer during, then have the demand according to wanting the various information obtained about lighting device different service time, and need according to this demand, above-mentioned various information are supplied to user rightly.

Summary of the invention

The present invention considers above-mentioned problem in the past, and object is to provide a kind of can report the lighting device of various information about lighting device and the control method of this lighting device efficiently.

Lighting device involved by an embodiment of the invention possess control part and according to the control of described control part to carry out the illuminating part of lighting, this lighting device possesses: storage part, stores the device information that the dynamic or static attribute information of described lighting device is shown; And receiving portion, accept the instruction of regulation, described control part is when described receiving portion receives the instruction of described regulation, described illuminating part is controlled, the colour temperature of the light sent to make described illuminating part becomes, utilize be stored in described storage part described device information and by the colour temperature determined.

The control method of the lighting device involved by an embodiment of the invention is for possessing the lighting device of illuminating part, this control method comprises: storing step, and the device information of the dynamic or static attribute information that described lighting device is shown is stored into storage part; Accept step, accept the instruction of regulation; And rate-determining steps, when described accept step receive the instruction of described regulation, control described illuminating part, the colour temperature of the light sent to make described illuminating part becomes, utilize be stored in described storage part described device information and by the colour temperature determined.

By the control method of the lighting device involved by a form of the present invention and the lighting device involved by a form of the present invention, the various information about lighting device can be reported efficiently.

Accompanying drawing explanation

Figure 1A is the oblique view of the outward appearance of the ligthing paraphernalia illustrated involved by execution mode.

Figure 1B is the exploded perspective view of the ligthing paraphernalia involved by execution mode.

Fig. 2 is the block diagram of the formation summary of the lighting device illustrated involved by execution mode.

Fig. 3 is the flow chart of the basic workflow of the lighting device illustrated involved by execution mode.

Fig. 4 is the block diagram of the formation example of the illuminating part of the lighting device illustrated involved by execution mode.

The data that Fig. 5 shows the color temperature information involved by execution mode form example.

Fig. 6 is the block diagram of the formation summary of the lighting device involved by variation 1 that execution mode is shown.

Fig. 7 is the flow chart of the workflow of the lighting device involved by variation 1 that execution mode is shown.

Fig. 8 is the block diagram of the formation summary of the lighting device involved by variation 2 that execution mode is shown.

Fig. 9 is the flow chart of the workflow of the lighting device involved by variation 2 that execution mode is shown.

Figure 10 is the block diagram of the formation summary of the lighting device involved by variation 3 that execution mode is shown.

Figure 11 is the flow chart of the workflow of the lighting device involved by variation 3 that execution mode is shown.

Figure 12 is the block diagram of the formation summary of the lighting device involved by variation 4 that execution mode is shown.

Figure 13 is the flow chart of the workflow of the lighting device involved by variation 4 that execution mode is shown.

Figure 14 is the flow chart of the basic workflow of lighting device when the change that occurs along with time series in the colour temperature of illuminating part being shown and reporting information.

symbol description

110,110a lighting device

114 receiving portions

115 control parts

120 illuminating parts

130 storage parts

131 device informations

140 measurement unit

Embodiment

Referring to accompanying drawing, the lighting device involved by execution mode is described.Further, the execution mode that below will illustrate is and a concrete example of the present invention is shown.Therefore, the allocation position of the numerical value shown in following execution mode, shape, material, inscape, inscape and connected mode etc. are an example, and purport is not limitation of the present invention.Therefore, for the inscape that the independent claims of upper concept of the present invention are not recorded that illustrates in the inscape of following execution mode, illustrate as arbitrary inscape.

Further, each figure is ideograph, is not rigorous diagram.Further, identical symbol is given for formation identical in fact in each figure, and the situation of the explanation having omission or simplification to repeat.

Below the ligthing paraphernalia of the lighting device possessed involved by execution mode is described.

[entirety of ligthing paraphernalia is formed]

First, the formation of Figure 1A and Figure 1B to the ligthing paraphernalia involved by execution mode is utilized to be described.

Figure 1A is the oblique view of the outward appearance of the ligthing paraphernalia 100 illustrated involved by execution mode.

Figure 1B is the exploded perspective view of the ligthing paraphernalia 100 involved by execution mode.

As shown in Figure 1A and 1B, the ligthing paraphernalia 100 involved by execution mode possesses lighting device 110 and appliance body 200.

Appliance body 200 is the parts on the basis becoming ligthing paraphernalia 100, such as, be fixed on ceiling by bolt and nut etc.Appliance body 200 has the recess 210 burying lighting device 110 underground, the accessory (not shown) such as had by lighting device 110 is engaged with the hole of the inner surface being formed on recess 210, thus lighting device 110 is installed in appliance body 200 in the mode that can load and unload.

Further, as long as lighting device 110 is installed in appliance body 200 in the mode that can load and unload, then various method can be adopted as the method for installing.Such as, by secure components such as screws, lighting device 110 can be installed to appliance body 200.

Further, the end of the extended electric wire of appliance body 200 is being provided with connector 270, the end of the extended electric wire of lighting device 110 is being provided with connector 170.By these connectors 270 are linked with connector 170, thus the electric power that lighting device 110 is required when luminescence, be fed into lighting device 110 by appliance body 200.

And, although Figure 1A and Figure 1B does not illustrate, such as when lighting device 110 lighting, turn off the light and the operation such as light modulation by the guidance panel being arranged on wall to carry out, the control line for the transmission of the signal between guidance panel and lighting device 110 is connected to lighting device 110.

Lighting device 110 has the illuminating part 120 of releasing illumination light and the cap assembly 180 covering illuminating part 120.

Illuminating part 120 has the various light sources of glow color (colour temperature) different from each other, is the light emitting module that can carry out brightness adjustment control (control of brightness) and toning control (control of glow color).In the present embodiment, LED element is adopted to be used as the light source of illuminating part 120.About the lighting device 110 such as control example detailed of illuminating part 120, Fig. 2 to Fig. 5 will be utilized illustrate later.

Cap assembly 180 is the parts of the light transmission that illuminating part 120 is sent.Further, in the present embodiment, cap assembly 180 has the function spread the light sent from illuminating part 120.Such as, can adopt the resin containing the photodiffusion material such as silica or calcium carbonate (particulate) or by the inner surface that Chinese white is attached to the cap assembly 180 that transparent glass or resin are formed or outer surface, thus milky optical diffusion film is formed on cap assembly 180.

Further, cap assembly 180 also can have the function spread light, and cap assembly 180 also can be transparent, transparent degree can be can from the external visual of cap assembly 180 to inside.

Further, the shape of lighting device 110 and forming not limit by the shape shown in Figure 1A and Figure 1B and forming, such as, the plane of lighting device 110 depending on outward appearance also can be circle or square etc.Further, such as inferior by the situation of the resin seal with light transmission in the entirety of illuminating part 120, also can not cover the cap assembly 180 of illuminating part 120.

Then, Fig. 2 and Fig. 3 is utilized to be described the basic formation of the lighting device 110 involved by present embodiment and work.

[the basic formation of lighting device and work]

Fig. 2 is the block diagram of the formation summary of the lighting device 110 illustrated involved by execution mode.

Fig. 3 is the flow chart of the basic workflow of the lighting device 110 illustrated involved by execution mode.

As shown in Figure 2, lighting device 110 possesses control part 115 and carrys out the illuminating part 120 of lighting according to the control of control part 115.Lighting device 110 also possesses storage part 130 and accepts the receiving portion 114 of the instruction specified, storage part 113 stores the device information 131 that the dynamic or static attribute information of lighting device 110 is shown.

The lighting of control part 115 pairs of illuminating parts 120, turn off the light, the work such as light modulation (adjustment of brightness) and toning (adjustment of glow color (colour temperature)) controls.Specifically, control part 115 controls according to the instruction accepted by receiving portion 114 (signal) work to illuminating part 120.

Control part 115 is such as realized by the microcontroller (MicroController) controlled the current value etc. being supplied to illuminating part 120 according to input signal or special circuit.

Receiving portion 114 such as accepts the instruction of the regulation of sending from the outside of lighting device 110.Specifically, indicate corresponding various signals to send from the device of outside in a wired or wireless manner with various, and received by receiving portion 114.Receiving portion 114 is such as at least can the receiver of Received signal strength.

Send to the device of receiving portion 114 to list as by various signal, the mains switch that the power supply of illumination apparatus 110 carries out connecting and disconnect (lighting and turn off the light), sent remote controller (RemoteControl) and the portable terminal such as portable phone or panel computer terminal of signal by infrared ray.

Further, possess the guidance panel of mains switch and the switch etc. for light modulation or toning, being such as installed in the guidance panel on the wall in the room being provided with ligthing paraphernalia 100, is also the example of the device various signal being sent to receiving portion 114.

Further, below when being called " remote controller etc. ", then can be understood as above-mentioned remote controller, mains switch, guidance panel and portable terminal etc. by any one in the device of user operation.

Storage part 130 is non-volatile storage devices of storage device information 131.As storage part 130, such as, adopt the semiconductor memory such as flash memory or EEPROM (ElectricallyErasableProgrammableRead-OnlyMemory: Electrically Erasable Read Only Memory).

Device information 131 is the information of the dynamic or static attribute information that lighting device 110 is shown, in the present embodiment, the information of the length of the accumulation lighting time of the accumulated value of the lighting time as illuminating part 120 is shown, is stored in storage part 130 as device information 131.

And, the dynamic attribute information of lighting device 110 refers to, such as with the attribute information that the arbitrary timing between the operating period of lighting device 110 or regular timing can be changed, illustrate that the information of the length of accumulation lighting time is an example of the dynamic attribute information of lighting device 110.And, example as the dynamic attribute information of lighting device 110 has, the information of length between the operating period that lighting device 110 is shown (elapsed time such as from the initial lighting of illuminating part 120 or through New Year number etc.), when lighting device 110 be taxi article (goods by leasing) from hire out elapsed time or number of days etc.

And, the attribute information of the static state of lighting device 110 refers to, such as the attribute information not occurring to change from initial value in principle, attribute information as the static state of lighting device 110 can be illustrated and be illustrated, build date, manufacturer, manufacturing works, model, life-span, lot number and size etc.The attribute information of these static state due to without the need to rewriting or forbidding the information of rewriting, therefore, such as, is stored in the not rewritable region in the storage area that storage part 130 has.

And, such as the valid period of lighting device 110 (such as, during the taxi of lighting device 110) having can with the side of the arbitrary dynamic attribute information that regularly change, and have in such as during taxi once, there is not the side of the static state in the viewpoint of change in initial value in principle.That is, the attribute information being stored in storage part 130 as device information 131 also has the situation having dynamic side and static side concurrently.

The lighting device 110 of present embodiment has measurement unit 140, is measured the accumulation lighting time of illuminating part 120 by measurement unit 140.Further, measurement unit 140 is such as realized by the microcontroller being assembled into the power supply unit (not shown) that lighting device 110 has.

Measurement unit 140 is such as by the lighting accumulated time auto levelizer information 131 the moment from the initial lighting of illuminating part 120.That is, the device information 131 stored in storage part 130 is updated at any time along with the increase of accumulation lighting time.

Specifically, the device information 131 being stored in storage part 130, such as just after the illuminating part 120 of lighting is turned off the light according to the control of control part 115, is rewritten into and illustrates until the value of length of this accumulation lighting time of turning off the light.

Further, the timing of the rewriting (renewal) of device information 131 not limit by after the turning off the light of illuminating part 120, such as also can during the lighting of illuminating part 120 in carry out regular renewal.Further, this renewal can be performed by measurement unit 140, also can be performed by control part 115.

Further, the length of the accumulation lighting time shown in device information 131 is such as by hour, minute or the value in units of second, also can be that the interval of measurement unit 140 according to regulation is to increase the dimensionless value (count value) of the value of regulation.

At this, illustrate that the information of the length of accumulation lighting time is an example of device information 131, also have the information of other kinds to be stored in the situation of storage part 130 as device information 131.That is, lighting device 110 also can not possess measurement unit 140.Therefore, the rectangle irised out with dotted line is in fig. 2 to represent measurement unit 140.Further, for the formation of lighting device 110a and the work that do not possess measurement unit 140, as variation 3 and 4, Figure 10 to Figure 13 will be utilized illustrate later.

In the lighting device 110 with this formation, such as, perform the basic process (work) shown in Fig. 3.

That is, illustrate that the device information 131 of the dynamic or static attribute information of lighting device 110 is stored in storage part 130 (S10).In the present embodiment, as previously discussed, the information of the length of the accumulation lighting time of the illuminating part 120 measured by measurement unit 140 is shown, is stored in storage part 130 as device information 131.

Then, receiving portion 114 receives the instruction (S20) of regulation.When receiving the instruction of regulation by receiving portion 114, carrying out the toning corresponding with device information 131 by control part 115 and controlling (S30).

That is, receiving portion 114 is received the instruction of regulation as a triggering, thus the toning corresponding with device information 131 is performed to illuminating part 120 control.

Specifically, control as this toning, carry out following control to illuminating part 120, that is, the colour temperature of the light making illuminating part 120 send becomes, and utilizes the device information 131 and the colour temperature determined that are stored in storage part 130.

Namely, the instruction of this regulation accepted by receiving portion 114, the mode of operation of lighting device 110 from the normal mode pattern of the illumination work such as light modulation and toning (perform lighting according to the instruction of user, turn off the light) transfer for information reports pattern (utilizing the colour temperature of illuminating part 120 to report by device information 131 by the pattern of information determined).

Further, when the mode of operation of lighting device 110 transfers to information notification pattern, by user, remote controller etc. is operated (such as, pressing for lighting or the knob of turning off the light), thus from information notification mode shifts to normal mode.

Then, Fig. 4 and Fig. 5 is utilized to be described the object lesson that the toning of the illuminating part 120 performed in the lighting device 110 involved by present embodiment controls.

[object lesson of the toning control of illuminating part]

Fig. 4 is the block diagram of the formation of the illuminating part 120 of the lighting device 110 illustrated involved by execution mode.

As shown in Figure 4, the illuminating part 120 of lighting device 110 has two kinds of different light sources of glow color (colour temperature) each other, namely has the first light source portion 121 and secondary light source portion 122.

First light source portion 121 comprises more than one LED element, the light source of to be such as colour temperature the be light of releasing 3,500K.Secondary light source portion 122 comprises more than one LED element, the light source of to be such as colour temperature the be light of releasing 6,500K.

That is, in the present embodiment, the first light source portion 121 is release the light source being commonly referred to as the light of the color of warm white, and secondary light source portion 122 releases the light source being commonly referred to as the light of the color of color of sunshine.At illuminating part 120, changed by the balance of the light output to colour temperature two kinds of light sources different from each other, thus change the colour temperature of the light of releasing from illuminating part 120.That is, at the illuminating part 120 of present embodiment, colour temperature can be changed between 3,500K to 6,500K.

Specifically, control part 115 is when receiving portion 114 (with reference to Fig. 2) receives the instruction of regulation, transfer to information notification pattern, according to device information 131, such as, the current value being supplied to the first light source portion 121 and secondary light source portion 122 is respectively adjusted.Accordingly, the colour mixture of the light sent by the first light source portion 121 and secondary light source portion 122 can be changed and the glow color (colour temperature) of the illuminating part 120 formed.

In the present embodiment, control part 115 pairs of illuminating parts 120 control, and to make in information notification pattern, become the colour temperature corresponding with the length of the accumulation lighting time shown in device information 131 from the colour temperature of the light of illuminating part 120 releasing.

The data that Fig. 5 shows the color temperature information 116 involved by execution mode form example.

Color temperature information 116 shown in Fig. 5 is examples for the information of the corresponding relation that accumulation lighting time and colour temperature are shown.

Control part 115 such as utilizes the color temperature information 116 be stored in storage medium or storage part 130 that control part 115 has, and the toning carrying out illuminating part 120 controls.

Specifically, control part 115, when notified receiving portion 114 has received the instruction of regulation, by reading the device information 131 of storage part 130, thus obtains the value that the length of accumulation lighting time is shown.Control part 115 utilizes color temperature information 116 to determine the colour temperature corresponding with the value obtained further.

Such as, when the length of the accumulation lighting time shown in device information 131 is " 25,000h (time) ", control part 115 determines the colour temperature " 3,600K (Kelvin) " corresponding with " 25,000h ".

In this case, control part 115 pairs of illuminating parts 120 control, and become 3,600K to make the colour temperature of light that the light from the first light source portion 121 and secondary light source portion 122 obtains upon mixing, that release from illuminating part 120.

Specifically, control part 115 by making the light output in the secondary light source portion 122 of the optical output ratio color of sunshine (6,500K) of the first light source portion 121 of warm white (3,500K) large, thus can make the colour temperature of illuminating part 120 become 3,600K.

Further, when before this control will be carried out, when the colour temperature of illuminating part 120 is 3,600K, this state is maintained.

Further, control part 115 such as have illuminating part 120 is shown colour temperature, with the control information (show or function etc.) of corresponding relation of current value that should be supplied to the first light source portion 121 and secondary light source portion 122.

Namely, control part 115 utilizes this control information, according to the colour temperature (target colour temperature) that illuminating part 120 will reproduce, decide the current value that will be supplied to the first light source portion 121 and secondary light source portion 122, and make the first light source portion 121 and secondary light source portion 122 luminescence with the current value determined.Accordingly, the colour temperature of illuminating part 120 can be made to become target colour temperature.

Further, above-mentioned control information can not only be used in information notification pattern, but also can use when the toning of normal mode controls.In other words, the control information used when can change to the colour temperature of user's instruction by making in normal mode the colour temperature of illuminating part 120, is applied in the toning control of information notification pattern.

Above is operated in lighting device 110, is performed in information notification pattern according to the content of device information 131.That is, as shown in the color temperature information 116 of Fig. 5, in the mode that accumulation lighting time longer colour temperature is lower, the colour temperature of illuminating part 120 is adjusted to multiple stage (being 3 stages in the present embodiment).Briefly, the length of accumulation lighting time is showed (notification) by the colour temperature of illuminating part 120.

At this, such as carry out by user the operation that specifies for remote controller or guidance panel for transferring to the instruction of regulation of information notification pattern, and being sent to receiving portion 114 from remote controller or guidance panel, described remote controller or guidance panel are used for the instruction that illumination apparatus 110 sends lighting and to turn off the light etc.

As the operational example of afore mentioned rules if any following example: press the knob for transferring to information notification pattern being arranged on remote controller or guidance panel, or the knob being used for lighting is pressed the number of times etc. of regulation within specified time limit.

And, the operational example of this regulation is as can be that following mode realizes, that is: when receiving portion 114 can accept the signal sent by radio communication from portable terminal, the knob (striking picture) be displayed on the picture of portable terminal is pressed.That is, by being used for the instruction of the regulation transferring to information notification pattern, lighting device 110 (receiving portion 114) can be sent to by radio communication from portable terminal.

Like this, the instruction of regulation is accepted by receiving portion 114, thus when information notification pattern transferred to by lighting device 110, can be as described above, by user, (such as, pressing for lighting or the knob of turning off the light) is operated to remote controller etc. and transfer to normal mode.Like this, such as illuminating part 120 can will transfer to brightness before information notification pattern and color is come luminous.That is, lighting device 110 can play function as common illumination.

As previously discussed, the lighting device 110 involved by present embodiment possesses: control part 115; Illuminating part 120, carries out lighting according to the control of control part 115; Storage part 130, storage device information 131; And receiving portion 114, accept the instruction of regulation.Device information 131 is the information of the dynamic or static attribute information that lighting device 110 is shown.

Control part 115, when receiving portion 114 receives the instruction of regulation, controls illuminating part 120, and the colour temperature of the light sent to make illuminating part 120 becomes, utilize be stored in storage part 130 device information 131 and by the colour temperature determined.

Formed by this, such as, by user, remote controller etc. is operated, the colour temperature of illuminating part 120 can be changed to and utilize device information 131 and by the colour temperature determined.That is, the colour temperature of illuminating part 120 can be utilized, report and utilize device information 131 and by the information (the dynamic or static attribute information of lighting device 110 or the various information utilizing this attribute information to obtain) determined.

Accordingly, such as relevant with lighting device 110 various information can so that the mode that identifies of user, and cause lighting device 110 is reported.

Specifically, at lighting device 110, because the information relevant with lighting device 110 is reported by colour temperature, therefore, such as, with reported the situation of information by brightness compared with, the impact of the environment around such as fine day or cloudy day is not vulnerable to.That is, when showing certain information with colour temperature, user to the instantaneity of the identification (assurance) of this information and certainty higher.

Further, the situation that multiple ligthing paraphernalia 100 (such as with reference to Figure 1A) is set in a room is such as imagined.In this case, even if when each of multiple lighting device 110 to be transferred to information notification pattern simultaneously, each lighting device 110 also can report the information relevant with lighting device 110 with colour temperature.Therefore, and only to change with the seasonal effect in time series of brightness or brightness, to come simultaneously or the situation of each of reporting the multiple lighting devices be present in a room is successively compared, user more easily can identify the information of each lighting device 110.

Further, lighting device 110 itself can as the device reported the information relevant with lighting device 110 to play function.Therefore, such as, with show the situation of the information relevant with multiple lighting device 110 with a guidance panel compared with, user more easily can confirm what kind of state which lighting device 110 is in.

As previously discussed, by the lighting device 110 involved by present embodiment, the various information relevant with lighting device 110 can be reported efficiently.

Further, the lighting device 110 involved by present embodiment also has measurement unit 140, measures the length of the accumulation lighting time of illuminating part 120, and storage part 130 stores the device information 131 that the length of the accumulation lighting time measured by measurement unit 140 is shown.Control part 115, when receiving portion 114 receives the instruction of regulation, controls illuminating part 120, and the colour temperature of the light sent to make illuminating part 120 becomes, utilize the accumulation lighting time shown in device information 131 length and by the colour temperature determined.

Consist of this, lighting device 110 can report the information relevant with the accumulation lighting time by the colour temperature of illuminating part 120.

Specifically, in the present embodiment, control part 115 pairs of illuminating parts 120 control, and the colour temperature of the light sent to make illuminating part 120 becomes, the colour temperature corresponding with the length of the accumulation lighting time shown in device information 131.

Form according to this, such as user easily can identify that the length of the accumulation lighting time of illuminating part 120 is equivalent in multiple division (with reference to Fig. 5) which.Like this, such as, for easily identifying that lighting device 110 is long or short etc. as the residual life (as throwing light on remaining period that can use) of goods.

Further, the toning of the lighting device 110 involved by execution mode in information notification pattern controls, also can by utilize illustrated by Fig. 2 to Fig. 5 form or beyond contents processing form or contents processing performs.Therefore, below by the various variation of the formation of illumination apparatus 110 or contents processing, be described centered by part different from the embodiment described above.In addition, between following multiple variation, also there is the situation omitting repeat specification.

And, in the present embodiment, be illustrated to have control information (table or function etc.) at control part 115, described control information refers to, illustrate the colour temperature of illuminating part 120, with the information of corresponding relation of current value that will be supplied to the first light source portion 121 and secondary light source portion 122.This control information also can be stored in device information 131.

(variation 1)

Fig. 6 is the block diagram of the formation summary of the lighting device 110 involved by variation 1 that execution mode is shown.

Fig. 7 is the flow chart of the workflow of the lighting device 110 involved by variation 1 that execution mode is shown.

The feature that the lighting device 110 involved by variation 1 shown in Fig. 6 has is, by the threshold application of the accumulation lighting time about illuminating part 120 in the toning control of information notification pattern.Specifically, in the lighting device 110 involved by variation 1, carry out the toning corresponding with the comparative result of accumulation lighting time and threshold value and control.

Such as, by user, remote controller etc. is operated, thus be sent to lighting device 110 for the instruction of the regulation transferring to information notification pattern together with the information (threshold information) comprising threshold value, or the information different from the instruction of this regulation is sent to lighting device 110 as threshold value or using the information (threshold information) that the instruction of this regulation itself comprises as threshold value.

The threshold information being sent to lighting device 110 is received by receiving portion 114.That is, receiving portion 114 accepts the input of this threshold value.Control part 115 compares this threshold value accepted by receiving portion 114 and the length of accumulation lighting time.

Specifically, control part 115 pairs of illuminating parts 120 control, and the colour temperature of the light sent to make illuminating part 120 becomes, the colour temperature corresponding with the length of the accumulation lighting time shown in device information 131 and the comparative result of this threshold value.

Accordingly, the such as accumulation lighting time, compare with threshold value after relative length, reported by the colour temperature of illuminating part 120.

Specifically, in this variation, as shown in Figure 7, when the length of accumulation lighting time is larger than threshold value ("Yes" of S31), illuminating part 120 is controlled, becomes the first colour temperature (S32) to make the colour temperature of illuminating part 120.

That is, control part 115 is when the length of the accumulation lighting time shown in device information 131 has exceeded threshold value, controls illuminating part 120, and the colour temperature of the light sent to make illuminating part 120 becomes prespecified colour temperature.

Accordingly, the accumulation lighting time of illuminating part 120 whether long (such as long than 30,000h) can such as easily be confirmed.Briefly, easily can confirm whether lighting device 110 wears.

Further, when the length of accumulation lighting time is below threshold value ("No" of S31), illuminating part 120 is controlled, become the second colour temperature (S33) to make the colour temperature of illuminating part 120.

Such as imagine following situation: as threshold value, " 30,000h " are input to receiving portion 114, the length of accumulation lighting time is now " 32,000h ".In this case, because the length of accumulation lighting time is larger than threshold value, be therefore such as controlled to by illuminating part 120, the colour temperature of illuminating part 120 becomes " 3,500K ".That is, illuminating part 120 is controlled, to make to be only that the first light source portion 121 (with reference to Fig. 4) is luminous, and do not make secondary light source portion 122 (with reference to Fig. 4) luminous.

Further, such as, imagine following situation: as threshold value, " 30,000h " are input to receiving portion 114, the length of accumulation lighting time is now " 20,000h ".In this case, the length due to the accumulation lighting time is below threshold value, therefore, controls illuminating part 120, such as, make the colour temperature of illuminating part 120 become " 6,500K ".That is, by controlling illuminating part 120, thus making the first light source portion 121 not luminous, only making secondary light source portion 122 luminous.

That is, in the above-described embodiment, compared with the absolute growth of accumulation lighting time reporting illuminating part 120 with colour temperature, in this variation be with colour temperature to report the accumulation lighting time of illuminating part 120, with threshold value relatively after relative length.

Accordingly, such as, in the comparing of the time (threshold value) of specifying arbitrarily with user, the accumulation lighting time can reporting illuminating part 120 is long or short.

Therefore, such as, when having multiple lighting device 110, easily can determine and meeting according to the intention of user by the lighting device 110 of the benchmark determined (such as, 10, below 000h or longer than 30,000h etc.).

Such as, the situation of imagination is, from multiple lighting device 110, selects the lighting device 110 of longer between the rental period (such as 5 years).In this case, smaller threshold value (life-span of such as illuminating part 120 is 10,000h in 40,000h situation) is distributed to each lighting device 110.Accordingly, the more than one lighting device 110 being suitable for this taxi can easily be determined.

Further, threshold value need not be imported into lighting device 110 via receiving portion 114.Also can be such as that also store the threshold information that threshold value is shown in storage part 130, control part 115 compares the threshold value shown in this threshold information and the length of accumulation lighting time.

Such as, when lighting device 110 is from factory's outbound, will illustrate that the threshold information of more than one threshold value is stored into storage part 130 in advance, any one acceptance in this more than one threshold value of receiving portion 114 is specified.Accordingly, comparing of the accumulation lighting time shown in the threshold value selected by user with device information 131, then performed by control part 115.

Form according to this, such as user will not be input to lighting device 110 by remote controller etc. by the numerical value such as " 30,000h ", therefore, it is possible to specify the threshold value that compare with the accumulation lighting time than the simpler step of the input of numerical value.

Further, in the figure 7, with two stages whether the accumulation lighting time of illuminating part 120 is larger than threshold value, the colour temperature of illuminating part 120 is controlled.But, also can carry out with threshold value is the control of the colour temperature more than three phases of benchmark.

Such as, when the length of accumulation lighting time is larger than threshold value ("Yes" of S31), also according to the difference of accumulation lighting time and threshold value, the control of the colour temperature in more than two stages can be carried out.Accordingly, the accumulation lighting time than threshold value large and both differences are larger time, the colour temperature of illuminating part 120 such as can be made to reduce.Like this, user can be made easily to identify length degree in comparing of accumulation lighting time and threshold value.

And, such as when the length of accumulation lighting time is larger than threshold value ("Yes" of S31), control part 115 makes illuminating part 120 turn off the light can become the colour temperature (the first colour temperature in this variation) predetermined in colour temperature illuminating part 120 being controlled to the light that illuminating part 120 can be made to send after.

Accordingly, such as, when the accumulation lighting time has exceeded threshold value, user can be prompted to clearly.

(variation 2)

Fig. 8 is the block diagram of the formation summary of the lighting device 110 involved by variation 2 that execution mode is shown.

Fig. 9 is the flow chart of the workflow of the lighting device 110 involved by variation 2 that execution mode is shown.

The feature that the lighting device 110 involved by variation 2 shown in Fig. 8 has is, will illustrate that the temporal information of official hour length is applied to the toning control of information notification pattern.Specifically, in the lighting device 110 involved by variation 2, carry out the toning corresponding with the result of following comparison to control, described comparison refers to, utilizes the length of accumulation lighting time and the length of life expectancy of lighting device 110 obtained and comparing between the time span shown in temporal information.

Such as, by user, remote controller etc. is operated, thus be sent to lighting device 110 for the instruction of the regulation transferring to information notification pattern together with the temporal information that time span is shown, or the information different from the instruction of this regulation is sent to lighting device 110 as temporal information or using the instruction of this regulation itself as temporal information.

The temporal information being sent to lighting device 110 is received by receiving portion 114.That is, receiving portion 114 accepts the input of this temporal information.

After this, control part 115 pairs of illuminating parts 120 control, and the colour temperature of the light sent to make illuminating part 120 becomes, the colour temperature corresponding with the comparative result of the time span shown in the length of the life expectancy of lighting device 110 and temporal information.

Accordingly, the relative length in the comparing of the life expectancy being reported lighting device 110 by the colour temperature of illuminating part 120 and appointed time span.

Specifically, in this variation, life-span (such as 40,000h) of lighting device 110 as device information 131 a part and be stored in storage part 130.Control part 115 by deducting the accumulation lighting time from the life-span shown in the device information 131 be stored in device information 131, thus can calculate life expectancy.

And, in this variation as shown in Figure 9, time span shown in the temporal information that control part 115 accepts the life expectancy calculated and receiving portion 114 compares, when life expectancy is larger than the time span of specifying ("Yes" of S34), illuminating part 120 is controlled, becomes the first colour temperature (S35) to make the colour temperature of illuminating part 120.

That is, control part 115 is when the life expectancy of the lighting device 110 utilizing device information 131 to calculate has exceeded the time span that user specifies, and control illuminating part 120, the colour temperature of the light sent to make illuminating part 120 becomes prespecified colour temperature.

Accordingly, such as easily can confirm that whether the life expectancy of lighting device 110 is longer than the time span of specifying.That is, the remaining period that lighting device 110 can use can easily be confirmed.

Further, when life expectancy is below appointed time span ("No" of S34), illuminating part 120 is controlled, become the second colour temperature (S36) to make the colour temperature of illuminating part 120.

Such as, when lighting device 110 is for hiring out article, situation about it is contemplated that is, the temporal information of the time span (such as 9,000h) corresponding with the scheduled period of hiring out (such as 3 years) is shown, is imported into lighting device 110.Further, the length imagining the life-span of lighting device 110 is the situation of " 40,000h ".

Under this imagination, when the length of accumulation lighting time is at this moment " 30,000h ", life expectancy is " 10,000h ".In this case, the time span (9,000h) that the length due to life expectancy is specified than user is large, therefore, such as, is controlled to by illuminating part 120, the colour temperature of illuminating part 120 can be made to become " 3,500K ".That is, control illuminating part 120, to make to be only that the first light source portion 121 (with reference to Fig. 4) is luminous, and secondary light source portion 122 (with reference to Fig. 4) is not luminous.

Further, when the length of accumulation lighting time is " 35,000h ", life expectancy is " 5,000h ".In this case, the length due to life expectancy be user's time span (9,000h) of specifying below, such as illuminating part 120 is controlled to, the colour temperature of illuminating part 120 can be made to become " 6,500K ".That is, illuminating part 120 is controlled, to make the first light source portion 121 not luminous, and only make secondary light source portion 122 luminous.

Namely, in the above-described embodiment, carry out reporting with colour temperature for the absolute growth of the accumulation lighting time of illuminating part 120, and in this variation, be the life expectancy of the lighting device 110 obtained for the accumulation lighting time from illuminating part 120, carry out reporting with colour temperature with the relative length in the comparing of appointed time span.

Accordingly, such as, in the comparing of the time span of specifying arbitrarily with user, the life expectancy can reporting lighting device 110 is long or short.

Therefore, such as, there iing multiple lighting device 110 to deposit in case, easily can determine the lighting device 110 meeting life expectancy this condition longer than official hour length.

As previously discussed, when selecting such as to be suitable for lighting device 110 during the taxi of 3 years from multiple lighting device 110, such as, will illustrate that the temporal information of " 9,000h " distributes to each lighting device 110.Accordingly, the more than one lighting device 110 being suitable for this taxi can easily be determined.

Further, temporal information need not be input to lighting device 110 by receiving portion 114.Also can be such as, storage part 130 information further memory time, control part 115 pairs of illuminating parts 120 control, the colour temperature of the light sent to make illuminating part 120 becomes, the colour temperature corresponding with the comparative result of the time span shown in the life expectancy obtained from the accumulation lighting time and this temporal information.

Such as, when lighting device 110 is from factory's outbound, will illustrate that the temporal information of more than one time span is stored into storage part 130 in advance, any one acceptance in this more than one time span of receiving portion 114 is specified.Accordingly, the time span selected by user, with the comparing of the life expectancy obtained from the accumulation lighting time shown in device information 131, can be performed by control part 115.

Form according to this, such as user need not to use a teleswitch etc. and numerical value such as " 9,000h " is input to lighting device 110, therefore, it is possible to the input than numerical value more simply step specify the threshold value that compare with the accumulation lighting time.

Further, in fig .9, in two stages that the time span of whether specifying than user with the life expectancy of lighting device 110 is large, the colour temperature of illuminating part 120 is controlled.Also can be but control using appointed time span as the colour temperature more than three phases of benchmark.

Such as, when the length of the life expectancy of lighting device 110 is larger than appointed time span ("Yes" of S34), can control colour temperatures more than two stages according to the difference of life expectancy and this time span.Accordingly, the life expectancy of lighting device 110 is longer than appointed time span, such as, the colour temperature of illuminating part 120 more can be made to reduce.Like this, user can be easily made to identify length degree in comparing of the life expectancy of lighting device 110 and appointed time span.

Further, for the height relation of the first colour temperature and the second colour temperature, also can be contrary with the explanation of above-mentioned variation 2, that is, the first colour temperature can be made higher than the second colour temperature.Can be such as that the longer colour temperature of illuminating part 120 that more makes of the life expectancy of lighting device 110 increases in this case, the shorter colour temperature of illuminating part 120 that more makes of life expectancy reduces.

(variation 3)

Figure 10 is the block diagram of the formation summary of the lighting device 110a involved by variation 3 that execution mode is shown.

Figure 11 is the flow chart of the workflow of the lighting device 110a involved by variation 3 that execution mode is shown.

The lighting device 110a involved by variation 3 shown in Figure 10 and the lighting device involved by execution mode 110 difference do not possess measurement unit 140.Further, the feature that the lighting device 110a involved by variation 3 has is, stores the device information 131 that the valid period of lighting device 110a is shown at storage part 130.

Specifically, in the lighting device 110a involved by variation 3, control part 115, when receiving portion 114 receives the instruction of regulation, controls illuminating part 120, utilizes the valid period shown in device information 131 and by the colour temperature determined to become.

Further, the formation substantially of lighting device 110a is identical with the lighting device 110 involved by execution mode, replaces lighting device 110, but can be installed to appliance body 200 in ligthing paraphernalia 100 (Figure 1A and Figure 1B reference).This is same with the lighting device 110a involved by variation 4 described later.

At this, the valid period of lighting device 110a does not refer to whether lighting device 110a can play function as illumination, and during referring to that such as lighting device 110a is allowed to use.That is the example of valid period can be, during being hired out by lighting device 110a to taxi during certain user.

Valid period is by time started and deadline or only by the information represented deadline.Two dates are comprised, such as " on April 1st, 2014, on March 31st, 2015 " when the valid period represented with time started and deadline.Further, a date is comprised when the valid period is only represented by deadline, such as " on March 31st, 2015 ".

Further, illustrate that the information of valid period is such as operated remote controller etc. by user (holder of lighting device 110a or manager etc.), thus be stored in storage part 130 via receiving portion 114 and control part 115.That is, illustrate that the device information 131 of valid period is stored in storage part 130.

Like this, after illustrating that the device information 131 of valid period is stored in storage part 130, following process is carried out.

That is, control part 115 is when receiving portion 114 receives the instruction of regulation, controls illuminating part 120, and the colour temperature of the light sent to make illuminating part 120 becomes, and utilizes the valid period shown in device information 131 and by the colour temperature determined.

Accordingly, the length etc. of the valid period of lighting device 110a is reported by the colour temperature of illuminating part 120.Such as, about the length of the valid period of lighting device 110a, belong to corresponding with the colour temperature in N number of (N is the integer of more than 2, all identical below) stage and which scope in the N number of scope be divided, then reported by the colour temperature of illuminating part 120.

In this case, such as can be longer with the valid period, then the mode that colour temperature is higher or lower, is controlled to multiple stage by the colour temperature of illuminating part 120.Accordingly, user can be made easily to identify the length of valid period.

Further, in this variation, lighting device 110a is date received information also.Specifically, by user, remote controller etc. is operated, thus be sent to lighting device 110 for the instruction of the regulation transferring to information notification pattern together with date and time information, or the information different from the instruction of this regulation is sent to lighting device 110 as date and time information or using the instruction of this regulation itself as date and time information.

Date and time information is the information in moment after the time started that the valid period is shown, day, the moon or year.Such as, being sent out as date and time information in (such as, on October 1st, 2014) day of the delivery time of date and time information.Further, when date and time information represents " moment ", date and time information forms (such as, during 1 day 0 October in 2014 0 point and 0 second) by moment and date.

Further, when date and time information represents " moon ", date and time information is by forming year, the moon (such as, in October, 2014).Further, when date and time information represents " year ", date and time information is only by forming in year (such as, 2014).

The control part 115 of lighting device 110a is according to the comparative result in the deadline of valid period, the moment represented with date and time information, day, the moon or year (hereinafter referred to as " reference instant "), and the toning carrying out illuminating part 120 controls.

Specifically, as shown in figure 11, control part 115 is when the reference instant shown in date and time information has exceeded the deadline of valid period ("Yes" of S37), illuminating part 120 is controlled, become the first colour temperature (such as 3,500K) (S38) to make the colour temperature of illuminating part 120.

Namely, the deadline of the valid period of control part 115 shown in device information 131, in time for before the moment shown in date and time information, day, the moon or year when, control illuminating part 120, the colour temperature of the light sent to make illuminating part 120 becomes prespecified colour temperature.

Accordingly, such as, when illumination apparatus 110a has carried out the instruction for the regulation to information notification mode shifts, easily can confirm whether the valid period of lighting device 110a exceedes.

And, control part 115 is before the reference instant shown in date and time information is the deadline of valid period ("No" of S37), illuminating part 120 is controlled, become the second colour temperature (such as 6,500K) (S39) to make the colour temperature of illuminating part 120.

That is, with the comparing of reference instant, the valid period will not pass through this state, reported by the colour temperature of illuminating part 120.

Further, date and time information there is no need to input from outside.Such as, when lighting device 110a has the clocking capability to counting in moment, day, the moon or year, namely, when lighting device 110a have can the hardware of date of formation information or software, utilize the date and time information that lighting device 110a generates, come to compare with the valid period.

Further, such as, can will be used for the instruction making illuminating part 120 lighting, process as the instruction for the regulation to information notification mode shifts.Namely can be, user by operating remote controller etc., when making the lighting of illuminating part 120 to lighting device 110a instruction, together with this instruction, illustrate that the date and time information on the date in this moment is also sent to lighting device 110a, accordingly, such as, perform the process shown in Figure 11.

And also can be, as above, when lighting device 110a can date of formation information, the acceptance instruction of the lighting of receiving portion 114 pairs of illuminating parts 120 carried out is as triggering, control part 115 obtains the date and time information generated at lighting device 110a, and performs the process shown in Figure 11.

In this case, such as an example of valid period, when user wants to make to have exceeded lighting device 110a (ligthing paraphernalia 100) lighting during hiring out, then automatically transfer to information notification pattern, during taxi, the thing of process is reported to user by the colour temperature of illuminating part 120.

And, such as making the instruction etc. of illuminating part 120 lighting, clearly illustrate to the instruction beyond the instruction of information notification mode shifts for these, being carried out the notification this point of information by the colour temperature of illuminating part 120 according to these instructions, above-mentioned execution mode and other variation also can be applicable to.

And also can be, such as when the valid period have passed through ("Yes" of S37), illuminating part 120 is being controlled to by control part 115, the colour temperature of the light that illuminating part 120 is sent makes illuminating part 120 turn off the light after becoming prespecified colour temperature (the first colour temperature in this variation).

Accordingly, such as, about lighting device 110a (ligthing paraphernalia 100), as an example of valid period, clearly the thing during exceeding taxi can be prompted to user.

Further, in fig. 11, whether exceeded these two stages with the valid period of lighting device 110a compared with reference instant, the colour temperature of illuminating part 120 has been controlled.But, also according to the comparative result with reference instant, with the node of more than three, colour temperature can be controlled.

Such as, when the valid period of lighting device 110a does not exceed ("No" of S37), namely, the deadline of valid period is after reference instant, according to the difference of this deadline and reference instant, the control of the colour temperature in more than two stages can be carried out.

That is, can be length according to the remaining period in the valid period, carry out the control of the colour temperature in more than two stages.Accordingly, such as, during user can being made easily to identify the taxi of lighting device 110 also remaining how many.

(variation 4)

Figure 12 is the block diagram of the formation summary of the lighting device 110a involved by variation 4 that execution mode is shown.

Figure 13 is the flow chart of the workflow of the lighting device 110a involved by variation 4 that execution mode is shown.

The lighting device 110a involved by variation 4 shown in Figure 12 is different from the lighting device 110 involved by execution mode, does not possess measurement unit 140.Further, the feature that the lighting device 110a involved by variation 4 has is, stores the device information 131 in manufacture period that lighting device 110a is shown at storage part 130.

Specifically, in the lighting device 110a involved by variation 4, control part 115, when receiving portion 114 receives the instruction of regulation, controls illuminating part 120, utilizes the manufacture period shown in device information 131 and the colour temperature determined to become.

At this, the manufacture of lighting device 110a refers to period, and the information in lighting device 110a manufactured day, the moon or year is shown.That is, be the information in year in the date at least comprising the build date that lighting device 110a is shown.

Further, illustrate that the device information 131 in manufacture period is such as written into storage part 130 in the manufacture process of lighting device 110a.That is, the information that manufacture period is shown in principle, is from the one of attribute information of static state of lighting device 110a being stored in storage part 130 during factory's outbound at lighting device 110a.

Like this, illustrating that the device information 131 in manufacture period is stored in the lighting device 110a of storage part 130, following process is performed.

That is, control part 115 is when receiving portion 114 receives the instruction of regulation, is controlled to by illuminating part 120, and the colour temperature of the light that illuminating part 120 is sent becomes and utilizes the manufacture period shown in device information 131 and by the colour temperature determined.

Accordingly, the period etc. that lighting device 110 is manufactured is reported by the colour temperature of illuminating part 120.Such as, the manufacture about lighting device 110 to belong to which scope in the N number of scope be divided accordingly with the colour temperature in N number of stage period, can be reported by the colour temperature of illuminating part 120.

In this case, such as can be larger with the numerical value manufacturing year, the mode that colour temperature is higher or lower, controls the colour temperature of illuminating part 120 with multiple stage.Accordingly, user can be made easily to identify the manufacture period roughly of lighting device 110.

Further, in this variation, date received information gone back by lighting device 110.Specifically, by user, remote controller etc. is operated, thus be sent to lighting device 110 for the instruction of the regulation transferring to information notification pattern together with date and time information, or the information different from the instruction of this regulation is sent to lighting device 110 as date and time information or using the instruction of this regulation itself as date and time information.

Date and time information is same with the date and time information involved by above-mentioned variation 3, is the information that moment, day, the moon or year are shown.Such as, the day (such as, on October 1st, 2014) etc. of the delivery time of date and time information is sent out as date and time information.

The control part 115 of lighting device 110a, according to the comparative result of the reference instant (moment, day, the moon or year) shown in manufacture period and date and time information, carries out the toning control of illuminating part 120.

Specifically, as shown in figure 13, control part 115 by the manufacture period shown by calculating apparatus information 131, difference with the reference instant shown by date and time information, thus when calculating the manufacture from lighting device 110a through during (S40).That is, as calculating result, thus when obtaining the manufacture from lighting device 110a is shown through during time, number of days or year number etc.

Illuminating part 120 can also be controlled to by control part 115, makes the colour temperature (S41) that the colour temperature of illuminating part 120 becomes corresponding with during the process calculated.

Such as, about from during the manufacture of lighting device 110 through during length belong to which scope in the N number of scope divided accordingly with the colour temperature in N number of stage, can be reported by the colour temperature of illuminating part 120.

Accordingly, user such as can be made easily to identify the newness degree of lighting device 110.

And, such as, about lighting device 110a from manufacture time process year number life-span be prescribed (such as, from manufacture time have passed through 10 years), what degree is the life expectancy that user can be made easily to identify lighting device 110a be in.

Such as, be when hiring out article at lighting device 110a, during being assumed to the taxi of 3 years by contracting.In this case, from during the manufacture of lighting device 110a through year number, when the colour temperature by illuminating part 120 reports into " less than 5 years ", can know that the life expectancy of lighting device 110a at least also has 5 years, therefore, signing be judged as hiring out lighting device 110a according to this.

In addition, do not need from outside input this point identical with above-mentioned variation 3 for date and time information.That is, lighting device 110a also can utilize the date and time information that lighting device 110a generates, when calculating the manufacture from lighting device 110a through during.

Further, as long as the colour temperature corresponding with through number of celebrating the New Year or the Spring Festival at least is divided into two stages.Such as, when the life-span of lighting device 110a is defined as 10 years from during manufacture, control part 115 also can according to from when manufacturing through New Year number be discontented more than 10 years or 10 years, illuminating part 120 is controlled, with the colour temperature making the colour temperature of illuminating part 120 become different from each other.

Accordingly, can make user easily identify lighting device 110a whether welcome using from when manufacturing through New Year number as life-span of benchmark.

(other execution mode)

In above-mentioned execution mode and each variation, be to report various information by the colour temperature of illuminating part 120 at lighting device 110 (110a).Also can be but that lighting device 110 (110a) makes the colour temperature of illuminating part 120 change with time series, reports various information accordingly.

Figure 14 is the flow chart of the basic workflow of the lighting device illustrated when reporting information by the change of colour temperature in time series of illuminating part 120.

Also can be such as, lighting device 110 involved by execution mode device information 131 to the storage (S10) of storage part 130 and received regulation by receiving portion 114 instruction (S20) after, illuminating part 120 is controlled, the colour temperature of the light sent to make illuminating part 120 become utilize device information 131 and by the colour temperature of changing in time series of determining (S30 (S301, S302, S303 ... )).

Such as, imagine and add " ~ 10,000h " in the color temperature information 116 shown in Fig. 5, to be used as the situation of accumulation lighting time.In this case, in color temperature information 116, make the first colour temperature (such as 3,500K) and the second colour temperature (such as 6,500K) and " ~ 10,000h " corresponding.

Accordingly, when the accumulation lighting time of illuminating part 120 is 10, below 000h, this situation can be reported in the mode of the change of the colour temperature of illuminating part 120.

At this, illuminating part 120 by segmenting (increase division numbers) the scope of the colour temperature that can reproduce, thus can increase the kind (being the division numbers of accumulation lighting time in Figure 5) of the information that illuminating part 120 can show with colour temperature.

But when the division numbers of the scope making colour temperature increases, close colour temperature is then difficult to make user's visual identification.Therefore, as the technique of expression of information, by adding the change of colour temperature in time series, thus can expand and carry out by colour temperature the scope that shows.That is, the kind being easy to the information that user identifies can be increased.

Further, also can report for information by the change of colour temperature in time series for illuminating part 120, the lighting device 110 (110a) involved by above-mentioned variation 1 to 4 is also identical.

Further, illuminating part 120 has two kinds of different light sources of glow color (colour temperature) each other, namely has the first light source portion 121 and secondary light source portion 122 (with reference to Fig. 4).But, illuminating part 120 also can have the different light source of more than three kinds of glow color (colour temperature) each other.That is, as long as the toning can carrying out illuminating part 120 controls, the quantity of glow color each other (colour temperature) Different Light that illuminating part 120 has is by limit above.

Further, the more than one luminous element that the first light source portion 121 and secondary light source portion 122 have respectively not limit by LED element.First light source portion 121 and secondary light source portion 122 such as also can have the solid-state light emitting element such as the semiconductor light-emitting elements such as semiconductor laser, organic EL (ElectroLuminescence) or inorganic EL.

Further, the information should reported with colour temperature about illuminating part 120, corresponding relation with this colour temperature, such as, may not be the information of the form of this table of color temperature information 116 shown in Fig. 5.Also can be such as that the information reported, as parameter, by the function for exporting the colour temperature corresponding with this information, realizes the corresponding relation of information and the colour temperature reported.

Further, with the information that the information of the colour temperature of illuminating part 120 notification also can be beyond the information shown in above-mentioned execution mode and variation.Such as, also the manufactured factory of lighting device 110 (110a) or lot number etc. can be reported by the colour temperature of illuminating part 120.

In addition, the various distortion that those skilled in the art can expect be executed in execution mode that above-mentioned execution mode and variation obtain and without departing from the spirit and scope of the invention the execution mode that the inscape in above-mentioned execution mode and variation and function are carried out combination in any and realized be also contained in the present invention.

Claims (15)

1. a lighting device, possess control part and according to the control of described control part to carry out the illuminating part of lighting,

This lighting device possesses:

Storage part, stores the device information that the dynamic or static attribute information of described lighting device is shown; And

Receiving portion, accepts the instruction of regulation,

Described control part, when described receiving portion receives the instruction of described regulation, controls described illuminating part, and the colour temperature of the light sent to make described illuminating part becomes, utilize be stored in described storage part described device information and by the colour temperature determined.

2. lighting device as claimed in claim 1,

This lighting device possesses measurement unit further, and the length of this measurement unit to the accumulation lighting time of described illuminating part measures,

Described storage part, stores the described device information that the length of the described accumulation lighting time measured by described measurement unit is shown,

Described control part is when described receiving portion receives the instruction of described regulation, described illuminating part is controlled, the colour temperature of the light sent to make described illuminating part becomes, utilize the described accumulation lighting time shown in described device information length and by the colour temperature determined.

3. lighting device as claimed in claim 2,

Described control part controls described illuminating part, and the colour temperature of the light sent to make described illuminating part becomes, the colour temperature corresponding with the length of the described accumulation lighting time shown in described device information.

4. lighting device as claimed in claim 2,

Described control part controls described illuminating part, and the colour temperature of the light sent to make described illuminating part becomes, the colour temperature corresponding with the length of the described accumulation lighting time shown in described device information and the comparative result of threshold value.

5. lighting device as claimed in claim 4,

Described receiving portion accepts the input of described threshold value,

The described threshold value that described control part accepts described receiving portion, to compare with the length of described accumulation lighting time.

6. lighting device as claimed in claim 4,

Described storage part stores the threshold information that described threshold value is shown further,

Described control part is by the described threshold value shown in described threshold information, compare with the length of described accumulation lighting time.

7. the lighting device as described in any one of claim 4 to 6,

Described control part is when the length of the described accumulation lighting time shown in described device information has exceeded described threshold value, and control described illuminating part, the colour temperature of the light sent to make described illuminating part becomes prespecified colour temperature.

8. lighting device as claimed in claim 2,

Described receiving portion accepts the input that the temporal information of official hour length is shown,

Described control part controls described illuminating part, the colour temperature of the light sent to make described illuminating part becomes, the colour temperature that the comparative result of the time span shown in the length of the life expectancy of the described lighting device obtained with the length by the described accumulation lighting time and described temporal information is corresponding.

9. lighting device as claimed in claim 1,

Described storage part storage illustrates the described device information of the valid period of described lighting device,

Described control part, when described receiving portion receives the instruction of described regulation, controls described illuminating part, and the colour temperature of the light sent to make described illuminating part becomes, and utilizes the described valid period shown in described device information and by the colour temperature determined.

10. lighting device as claimed in claim 9,

The input of described receiving portion date of acceptance information, described date and time information illustrates moment after the time started of described valid period, day, the moon or year,

The deadline of the described valid period of described control part shown in described device information, when before being the moment shown in described date and time information, day, the moon or year in time, control described illuminating part, the colour temperature of the light sent to make described illuminating part becomes prespecified colour temperature.

11. lighting devices as claimed in claim 7,

Described illuminating part is being controlled to by described control part, and the colour temperature of the light that described illuminating part can be made to send makes described illuminating part turn off the light after becoming described prespecified colour temperature.

12. lighting devices as claimed in claim 10,

Described illuminating part is being controlled to by described control part, and the colour temperature of the light that described illuminating part can be made to send makes described illuminating part turn off the light after becoming described prespecified colour temperature.

13. lighting devices as claimed in claim 1,

Described storage part storage illustrates the described device information in manufacture period of described lighting device,

Described control part, when described receiving portion receives the instruction of described regulation, controls described illuminating part, and the colour temperature of the light sent to make described illuminating part becomes, and utilizes the described manufacture period shown in described device information and by the colour temperature determined.

14. as claim 1 to 6,8 to 10,12, lighting device as described in any one of 13,

Described control part, when described receiving portion receives the instruction of described regulation, controls described illuminating part, and the colour temperature of the light sent to make described illuminating part becomes, and utilizes described device information and by the colour temperature changed in time series determined.

The control method of 15. 1 kinds of lighting devices, this control method for possessing the lighting device of illuminating part,

This control method comprises:

Storing step, is stored into storage part by the device information of the dynamic or static attribute information that described lighting device is shown;

Accept step, accept the instruction of regulation; And

Rate-determining steps, when described accept step receive the instruction of described regulation, control described illuminating part, the colour temperature of the light sent to make described illuminating part becomes, utilize be stored in described storage part described device information and by the colour temperature determined.