CN204362346U - Illumination control apparatus and the light fixture with sleeping pattern - Google Patents

Abstract

Provide a kind of illumination control apparatus and the light fixture with sleeping pattern.Illumination control apparatus comprises: testing circuit, governor circuit, drive circuit and switching circuit, wherein, the mode of operation of illumination control apparatus comprises normal mode and sleeping pattern, and in described sleeping pattern, drive circuit drives the LED in warm light source luminous, keep LED brightness during first time period constant, and the brightness of LED is reduced until LED turns off during section the remaining time in sleeping mode duration after first time period gradually.Achieve the effect that light fixture is dimmed gradually, and hommization more.

Description

Illumination control apparatus and the light fixture with sleeping pattern

Technical field

The utility model embodiment relates to a kind of illumination control apparatus and has the light fixture of sleeping pattern.

Background technology

At present, at home and abroad in market, consumer is to LED (Light Emitting Diode, light-emitting diode) the favor degree of product is more and more higher, especially the LED product can carrying out light modulation toning obtains the consistent approval of vast consumption, and this product generally can meet the demand of consumer to the luminous environment of different-colour.Along with the progress of society and the arrival of Technology Times, everyone job specification is also different, the key factor of the sleep quality having become to affect people with the pressure of living that often works.

In order to help people better to enter sleep state, the general light fixture product with hypnosis pattern can control the change of colour temperature, and with function regularly.After user is by the apparatus design timing of such as remote controller, the main MCU of light fixture (Micro Control Unit, micro-control unit) time opening, after definition status completes, light fixture can turn off suddenly under equal light luminance, and this light fixture light dark phenomenon of dashing forward is easy to cause user to wake up with a start, so that have impact on sleep and do not play the effect of sleeping.

Therefore, expect a kind ofly there is sleeping pattern and more humane light fixture product.

Utility model content

The utility model embodiment provides a kind of illumination control apparatus, has the light fixture of sleeping pattern and control its method, can realize the effect that light fixture is dimmed gradually, and hommization more.

According to an aspect of the utility model embodiment, a kind of illumination control apparatus is provided, comprises: testing circuit, for detecting the input signal from outside; Governor circuit, for determining whether the mode of operation of converted illumination control device according to input signal, and controls drive circuit and switching circuit works under the mode of operation of correspondence; Drive circuit, under the control of governor circuit, drives light-emitting diode (LED) lamp at least one in cold light source and warm light source luminous and regulates the luminosity of LED; And switching circuit, for under the control of governor circuit, switch cold light source and warm light source, wherein, the mode of operation of illumination control apparatus comprises normal mode and sleeping pattern, and in described sleeping pattern, drive circuit drives the LED in warm light source luminous, keep LED brightness during first time period constant, and the brightness of LED is reduced until LED turns off during section the remaining time in sleeping mode duration after first time period gradually.

In one example in which, in described sleeping pattern, the colour temperature of the LED in warm light source is between 2500K-3000K.

In one example in which, testing circuit detects the low and high level conversion of input signal.

In one example in which, when the high level-low level-high level conversion of input signal is in conversion command section input time, the mode of operation of governor circuit determination converted illumination control device, conversion command section input time is the time period for inputting conversion command.

In one example in which, governor circuit comprises electrical storage device, for after input signal is in low level in conversion command section input time for governor circuit is powered, conversion command section input time is the time period for inputting conversion command.

In one example in which, first time period is 10-15 minute, and conversion command section input time is 1-5 second, and sleeping mode duration is 30 minutes.

In one example in which, input signal is inputted by single switch on wall, remote controller or intelligent terminal by user.

In one example in which, described illumination control apparatus also comprises: voltage-multiplying circuit, is connected to drive circuit, for the operating voltage of stabilized driving circuit.

In one example in which, described illumination control apparatus also comprises: power-supplying circuit, is connected to drive circuit, for cutting off the power supply of drive circuit at the end of sleeping mode duration.

In one example in which, described illumination control apparatus uses non-isolated power supply.

According to another aspect of the utility model embodiment, a kind of light fixture with sleeping pattern is provided, comprises: light source, comprise warm light source and cold light source; Illumination control apparatus, for controlling and driving light source luminescence, comprises: testing circuit, for detecting the input signal from outside; Governor circuit, for determining whether the mode of operation of converted illumination control device according to input signal, and controls drive circuit and switching circuit works under the mode of operation of correspondence; Drive circuit, under the control of governor circuit, drives light-emitting diode (LED) lamp at least one in cold light source and warm light source luminous and regulates the luminosity of LED; And switching circuit, for under the control of governor circuit, switch cold light source and warm light source, wherein, the mode of operation of illumination control apparatus comprises normal mode and sleeping pattern, and in described sleeping pattern, drive circuit drives the LED in warm light source luminous, keep LED brightness during first time period constant, and the brightness of LED is reduced until LED turns off during section the remaining time in sleeping mode duration after first time period gradually.

In one example in which, testing circuit detects the low and high level conversion of input signal, and when the high level-low level-high level conversion of input signal is in conversion command section input time, the mode of operation of governor circuit determination converted illumination control device, conversion command section input time is the time period for inputting conversion command.

In one example in which, governor circuit comprises electrical storage device, for when input signal is in low level in conversion command section input time for governor circuit is powered, conversion command section input time is the time period for inputting conversion command.

In one example in which, first time period is 10-15 minute, and conversion command section input time is 1-5 second, and sleeping mode duration is 30 minutes.

In one example in which, described illumination control apparatus also comprise following at least one: voltage-multiplying circuit, is connected to drive circuit, for the operating voltage of stabilized driving circuit; Power-supplying circuit, is connected to drive circuit, for cutting off the power supply of drive circuit at the end of sleeping mode duration; And the lens covered on light source.

In one example in which, described illumination control apparatus uses non-isolated power supply.

In one example in which, input signal is inputted by single switch on wall, remote controller or intelligent terminal by user.

Therefore, according to the utility model embodiment, after entering sleeping pattern, the brightness of light fixture can decline gradually after maintenance first time period, and brightness is reduced to 0 at the end of sleeping mode duration, and namely light fixture is completely switched off.Therefore, achieve the effect that light fixture is dimmed gradually, and the problem causing human body sensitivity to be waken up with a start due to light sudden change can not be caused.

Accompanying drawing explanation

By the following detailed description by accompanying drawing, more easily will understand the utility model, wherein identical label specifies the unit of same structure, and wherein:

Fig. 1 is the schematic block diagram of the illumination control apparatus illustrated according to the utility model embodiment;

Fig. 2 illustrates the schematic diagram of the brightness of LED during sleeping pattern according to the utility model embodiment;

(a) and (b) in Fig. 3 illustrates the signal schematic representation for determining whether transformation working pattern according to the utility model embodiment;

(a) and (b) in Fig. 4 shows the signal schematic representation for determining whether transformation working pattern according to another embodiment of the utility model;

Fig. 5 is the schematic block diagram of the illumination control apparatus illustrated according to another embodiment of the utility model;

Fig. 6 and Fig. 7 illustrates according to the illumination control apparatus of the utility model embodiment schematic physical circuit figure when practical application respectively;

Fig. 8 illustrates the schematic block diagram with the light fixture of mode conversion function according to the utility model embodiment;

(a) and (b) in Fig. 9 respectively illustrates the layout schematic diagram of LED in the lensed light fixture of tool; And

Figure 10 illustrates the indicative flowchart of the method for the light fixture for controlling to have mode conversion function according to the utility model embodiment.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Fig. 1 is the schematic block diagram of the illumination control apparatus 100 illustrated according to the utility model embodiment.

As shown in fig. 1, testing circuit 101, governor circuit 102, drive circuit 103 and switching circuit 104 is comprised according to the illumination control apparatus 100 of the utility model embodiment.

Testing circuit 101 is for detecting the input signal from outside.Governor circuit 102 for determining whether the mode of operation of converted illumination control device 100 according to input signal, and controls drive circuit 103 and switching circuit 104 works under the mode of operation of correspondence.Drive circuit 103, under the control of governor circuit 102, drives light-emitting diode (LED) lamp at least one in cold light source and warm light source luminous and regulates the luminosity of LED.Switching circuit 104, under the control of governor circuit 102, switches cold light source and warm light source.

According in the illumination control apparatus 100 of the utility model embodiment, the mode of operation of illumination control apparatus 100 comprises normal mode and sleeping pattern, and in sleeping pattern, drive circuit 103 drives the LED in warm light source luminous, keep LED brightness during first time period constant, and the brightness of LED is reduced until LED turns off during section the remaining time in sleeping mode duration after first time period gradually.Here, first time period is one period of scheduled time after self-service sleep mode starts, and is included in sleeping mode duration.

In one example in which, drive circuit 103 utilizes pulse-width signal to regulate the brightness of LED.

Therefore, according to the utility model embodiment, after entering sleeping pattern, the brightness of light fixture can decline gradually after maintenance first time period, and brightness is reduced to 0 at the end of sleeping mode duration, and namely light fixture is completely switched off.Therefore, achieve the effect that light fixture is dimmed gradually, and the problem causing human body sensitivity to be waken up with a start due to light sudden change can not be caused.

Meanwhile, according to the utility model embodiment, during the first time period in sleeping pattern, the brightness of light fixture remains unchanged, and which eliminates people because know that the brightness of light fixture can dimmed and psychological hint that is that cause it.This psychological hint may make people unconsciously expect in use or how dimmed undue attention light fixture is, so that cannot loosen, and result causes the effect not having hypnosis.On the contrary, the illumination control apparatus 100 according to the utility model embodiment can eliminate this psychological hint, makes people fully to loosen and to enter sleep state fast, therefore, and hommization more.

According to the utility model embodiment, in the normal mode, drive circuit 103 can drive the LED in cold light source luminous separately, also can drive the LED mixed luminescence in cold light source and warm light source, and LED in warm light source can be driven with high brightness luminescent.Under sleeping pattern, usual drive circuit 103 drives the LED in warm light source luminous with low-light level.

Usually, people feel to loosen most in the surround lighting of fine day dusk, and the now brightness of surround lighting is not high, and colour temperature is generally 4000K (Kelvin) below, and now surround lighting is partially red warm light.According to inventor's statistics, the light of 2500K ~ 3000K colour temperature contributes to human body to be loosened, and gives a kind of comfortable sensation of people, therefore, the light in this reference color temperature can be carried out low-light level output, to make space environment seem more warm, thus play function for assisting sleep.In one example in which, in sleeping pattern, adopt warm light source luminous, and the colour temperature of LED in warm light source is between 2500K-3000K.

In one example in which, first time period is 10-15 minute, and sleeping mode duration is 30 minutes.Although not shown in FIG, timer (or multiple) can also be comprised according to the illumination control apparatus 100 of the utility model embodiment, to carry out timing to first time period and sleeping mode duration.In addition, governor circuit 102 itself also can have timing function, and without the need to independent timer.

Fig. 2 illustrates the schematic diagram of the brightness of LED during sleeping pattern according to the utility model embodiment.

As shown in Figure 2, in sleeping pattern, the brightness of the LED in warm light source remained unchanged in first 15 minutes, and declined gradually in latter 15 minutes and just drop to 0 when arrival 30 minutes, thus turned off LED.But this is only an example, but the utility model embodiment is not limited thereto.Those skilled in the art can understand, can arrange, and can adopt other time span during manufacture illumination control apparatus 100 to the length of sleeping mode duration and first time period.

In one example in which, user can have a distant control function by remote controller or other intelligent terminal, such as mobile phone, computer etc. input the input signal controlled light fixture.

In another example, different from the equipment adopting remote controller to control light fixture etc., also can be inputted by single switch on wall by user according to the input signal that the testing circuit 101 in the illumination control apparatus 100 of the utility model embodiment detects.

Testing circuit 101 can detect the low and high level conversion of input signal.When the high level-low level-high level conversion of input signal is in conversion command section input time, governor circuit 102 can determine the mode of operation of converted illumination control device, and conversion command section input time is the time period for inputting conversion command.

That is, when during the conversion command input time section of input signal from high level is converted to low level, if it changes high level into from low level again, then governor circuit 102 can determine the mode of operation of converted illumination control device, such as be transformed into sleeping pattern from normal mode of operation, or from sleeping Mode change to normal mode.

In one example in which, conversion command section input time is 1-5 second.

In addition, governor circuit 102 can also comprise counter (not shown), for counting working mode change.

In one example in which, when user's first passage opening switch gives me a little bright light tool, the value n of counter can be reset to 0.Here, switch can be single switch on wall, also can be the single push-button switch on remote controller or intelligent terminal.At this moment, the mode of operation of illumination control apparatus 100 is normal mode, drive circuit 103 can drive the LED in cold light source with such as 100% high brightness luminescent, also can drive the LED mixed luminescence in cold light source and warm light source, or can also drive the LED in warm light source with such as 100% high brightness luminescent.Concrete light emitting species can be decided by Default Value, or is arranged voluntarily by user and decide.After this, when user wishes in bed, can shutdown switch, and within 1-5 second opening switch again, this is again opened and makes the value of counter increase progressively 1, i.e. n=1.In addition, testing circuit 101 detects this high level-low level-high level conversion, and governor circuit 102 judges that the conversion of this high level-low level-high level completes within 1-5 second, thus determine the working mode change of illumination control apparatus 100 to be sleeping pattern, and drive circuit 103 drives the LED in warm light source luminous with low-light level.After this, if user's no longer console switch, then illumination control apparatus 100 auto-breaking at the end of sleeping mode duration.

Switching circuit 104 can comprise the first switch and second switch, is respectively used to control switching on and off of the LED in cold light source and the LED in warm light source.But the utility model is not limited thereto, switching circuit 104 also can comprise single switch to switch cold light source and warm light source.

Here, because the single push-button switch on single switch, i.e. single switch on wall or remote controller or intelligent terminal can be utilized to input order for patten transformation, so simplify circuit structure, user operation and memory is convenient to.

Although in the following description with single switch on wall for example is described, those skilled in the art can understand, the function that obviously also can realize below with remote controller or intelligent terminal.Except needs increase except transceiving device, be similar for the explanation of remote controller and intelligent terminal with the explanation for single switch on wall, therefore repeat no more here.

(a) and (b) in Fig. 3 illustrates the signal schematic representation for determining whether transformation working pattern according to the utility model embodiment.

As shown in (a) in Fig. 3, if user prepares sleep, when its moment t1 first opening switch time, input signal is high level from low transition, the value n of this hour counter is for being reset to 0, illumination control apparatus 100 enters normal mode, and the LED in cold light source is with 100% Intensity LEDs.User is at t2 moment shutdown switch.If user is at t3 moment opening switch again, and time interval between t2 and t3 is within 1-5 second, then illumination control apparatus 100 is converted to sleeping pattern from normal mode, the value n=1 of this hour counter.If after this user's no longer console switch, then illumination control apparatus 100 at the end of sleeping mode duration, i.e. moment t3 auto-breaking, now LED is also extinguished completely.Or, if user at the end of sleeping mode duration is not, i.e. moment t4 ' shutdown switch and after this no longer console switch again, although then now LED also do not extinguish completely, illumination control apparatus 100 also power-off be forced shutdown LED.

On the other hand, can also carry out repeatedly between normal mode and sleeping pattern according to the illumination control apparatus 100 of the utility model embodiment, even unlimited multiple conversions.As shown in (b) in Fig. 3.When user is at moment t4 ' shutdown switch, afterwards moment t5 again opening switch time, the time interval between t4 ' and t5 is 1-5 second, then the value n of counter increases progressively 1, i.e. n=2.Now, governor circuit 102 judges n=2>1, thus the value n of counter can be reset to 0 again, so illumination control apparatus 100 enters normal mode again at moment t5.After this, if user is at moment t6 shutdown switch and at moment t7 opening switch again, and the time interval between t6 and t7, then illumination control apparatus 100 was converted to sleeping pattern at moment t7 from normal mode, the value n=1 of this hour counter within 1-5 second.Then, if user is at moment t8 shutdown switch, afterwards at moment t9 opening switch again, the time interval between t8 and t9 is 1-5 second, then the value n of counter increases progressively 1, i.e. n=2, so governor circuit 102 judges n=2>1 and the value n of counter is reset to 0 again, illumination control apparatus 100 enters normal mode again at moment t9.Circulate according to this.

In addition, the time interval in Fig. 3 between each moment is only schematic, and does not represent real time interval ratio.Such as, the time interval between t1 and t2 can be very long, and this can correspond to the user when light fixture is lit the long period and wish the situation entering sleeping pattern.Alternatively, the time interval between t1 and t2 can be very short, is also such as about 1-5 second, and this can correspond to light fixture and originally be in the situation that off-position and user wish to enter sleeping pattern.

Illustrated in Fig. 3 that illumination control apparatus 100 comprises the situation of two kinds of mode of operations, but the utility model is not limited thereto, illumination control apparatus 100 can also comprise other more mode of operations.Such as, illumination control apparatus 100 can also comprise half-light pattern, in half-light pattern, LED in cold light source can with the Intensity LEDs of 30%-50%, or the LED in warm light source can with the Intensity LEDs of 30%-50%, or LED in cold light source and warm light source is luminous with the luminance mix of 30%-50%.

(a) and (b) in Fig. 4 shows the signal schematic representation for determining whether transformation working pattern according to another embodiment of the utility model, and wherein the mode of operation of illumination control apparatus 100 comprises normal mode, half-light pattern and sleeping pattern.

Similar in signal schematic representation shown in Fig. 4 and Fig. 3, so repeat no more here.But, it should be noted that because the mode of operation of the illumination control apparatus 100 in Fig. 4 has three kinds, so as the value n=3 of counter, governor circuit 102 judges n=3>2, thus illumination control apparatus 100 returns to normal mode, and n is reset to 0.

It will be appreciated by those skilled in the art that, when in Fig. 3 and Fig. 4, each order of operation and the value n of counter equal each numerical value, corresponding operating state is only schematic, and in practice can according to circumstances sets itself.

When illumination control apparatus 100 comprises more than situation during three kinds of mode of operations similar to the above, repeat no more here.

In addition, in one example in which, governor circuit 102 can also comprise electrical storage device (not shown), for powering for governor circuit 102 in conversion command section input time after input signal is in low level.Like this, can ensure that, during conversion command section input time of 1-5 second, the timer sum counter in governor circuit 102 is all work and can not be reset, to guarantee that the value of counter can correctly be increased progressively.

Therefore, according to the utility model embodiment, repeatedly can repeat the switching of mode of operation, and sleeping pattern can be cancelled by single switch.

In addition, the switching of sleeping pattern and normal mode of operation can be controlled only by single switch on wall because of not using a teleswitch according to the illumination control apparatus 100 of the utility model embodiment, greatly reduce cost.In addition, because without the need to carrying out wireless transmission in such example, so do not need wireless receiving and dispatching parts according to the illumination control apparatus 100 of the utility model embodiment, circuit is simple, and this not only provides cost savings further, and reduces overall volume.

In fact, although remote controller can carry out wireless operated, along with the equipment used a teleswitch in life gets more and more, often need to distinguish will use which remote controller on earth when people are simultaneously in the face of multiple remote controller, this has brought worry.In addition, when the remote controller needing to use just even is not placed on other rooms on hand, finding remote controller also can allow people feel trouble.Moreover, in some rural areas or for old user, remote controller very not accustomed to using.Therefore, when not being equipped with remote controller according to the illumination control apparatus 100 of the utility model embodiment, more convenience can having been brought, and vast range of application can have been had.

In illumination control apparatus 100, drive circuit 103 is connected to load, i.e. LED, to drive it luminous.But due to the quantity of LED of output series connection and their respective operating voltages different, the normal power supply of drive circuit 103 may be affected.That is, the normal working voltage of drive circuit 103 depends on the characteristic of connected output loading, it raises along with output voltage and raises, reduce and reduce, the operating voltage of drive circuit 103 will be made like this may to exceed the higher limit of the supply power voltage of the chip comprised in it or the minimum value lower than supply power voltage, thus cause whole circuit working abnormal, and then LED is caused to occur the phenomenon of flicker.

Fig. 5 is the schematic block diagram of the illumination control apparatus 500 illustrated according to another embodiment of the utility model.

In Figure 5, illumination control apparatus 500 comprises testing circuit 501, governor circuit 502, drive circuit 503 and switching circuit 504, and in addition, illumination control apparatus 500 also comprises voltage-multiplying circuit 505.Testing circuit 501, governor circuit 502, drive circuit 503 and switching circuit 504 have identical function and structure with the testing circuit 101 shown in Fig. 1, governor circuit 102, drive circuit 103 and switching circuit 104, therefore repeat no more here.

Voltage-multiplying circuit 505 is connected to drive circuit 503, for the operating voltage of stabilized driving circuit 503.Therefore, voltage-multiplying circuit 505 avoids the phenomenon of operating voltage with the characteristic variations of load of drive circuit 503, makes the operating voltage of drive circuit 503 be in stationary value, to avoid causing other anomalies.In one example in which, the series voltage upper limit of output cool colour temperature LED is greatly about DC 200V, and the series voltage lower limit of output warm colour temperature LED is greatly about DC 5V.

In one example in which, resistance-capacitance coupling and voltage-stabiliser tube and diode multiplication of voltage can be utilized to realize voltage-multiplying circuit 505, but the utility model embodiment is not limited thereto.

Thus, the illumination control apparatus 500 according to the utility model embodiment has higher constant current accuracy, and current ripples is little, and therefore can use non-isolated power supply, thus reduce further cost, reduces volume, improves cost performance.In addition, because non-isolated power supply is without the need to transformer, finished product light fixture is made not have shade.

In addition, as shown in Figure 5, the illumination control apparatus 500 according to the utility model embodiment can also comprise power-supplying circuit 506, is connected to drive circuit 503, for cutting off the power supply of drive circuit 503 at the end of sleeping mode duration.

Thus, by power-supplying circuit 506, disconnection and the connection of drive circuit 503 chips can be controlled, to realize the power supply cutting off chip after sleeping mode duration terminates completely, to reduce the soft copy loss of power in the unloaded state wherein, realize energy-conservation.

Although illumination control apparatus 500 shown in Figure 5 comprises both voltage-multiplying circuit 505 and power-supplying circuit 506, in actual applications, at least one in voltage-multiplying circuit 505 and power-supplying circuit 506 can be comprised.Such as, when being applied to the high-power applications being greater than 25 watts, voltage-multiplying circuit 505 and power-supplying circuit 506 can be removed.In addition, be less than in the low-power applications of 25 watts, can weigh energy-conservation with become originally to determine whether to increase power-supplying circuit 506.

Fig. 6 and Fig. 7 illustrates that wherein, Fig. 6 illustrates high-power for power factor application, and Fig. 7 illustrates low-power applications according to the illumination control apparatus of the utility model embodiment schematic physical circuit figure when practical application respectively.

Physical circuit figure in Fig. 6 and Fig. 7 is only schematic, it will be appreciated by those skilled in the art that, the utility model embodiment is not limited thereto.Further, depend on actual design requirement, any suitable change and modification can be carried out.

Fig. 8 illustrates the schematic block diagram of the light fixture 800 with mode conversion function according to the utility model embodiment.

As shown in Figure 8, this light fixture 800 comprises illumination control apparatus 801 and light source 802.

Light source 802 can comprise warm light source and cold light source.

Illumination control apparatus 801 for controlling and driving light source 802 luminescence, and can be with reference to the illumination control apparatus described in Fig. 1 or Fig. 5.

Specifically, can comprise: testing circuit (not shown), for detecting the input signal from outside; Governor circuit (not shown), for determining whether the mode of operation of converted illumination control device according to input signal, wherein, the mode of operation of illumination control apparatus comprises normal mode and sleeping pattern, and controls drive circuit and switching circuit works under the mode of operation of correspondence; Drive circuit (not shown), under the control of governor circuit, drives light-emitting diode (LED) lamp at least one in cold light source and warm light source luminous and regulates the luminosity of LED; And switching circuit (not shown), under the control of governor circuit, switch cold light source and warm light source.

In described sleeping pattern, drive circuit drives the LED in warm light source luminous, keep LED brightness during first time period constant, and the brightness of LED is reduced until LED turns off during section the remaining time in sleeping mode duration after first time period gradually.

Therefore, according to the utility model embodiment, after entering sleeping pattern, the brightness of light fixture can decline gradually after maintenance first time period, and brightness is reduced to 0 at the end of sleeping mode duration, and namely light fixture is completely switched off.Therefore, achieve the effect that light fixture is dimmed gradually, and the problem causing human body sensitivity to be waken up with a start due to light sudden change can not be caused.

Meanwhile, according to the utility model embodiment, during the first time period in sleeping pattern, the brightness of light fixture remains unchanged, and which eliminates people because know that the brightness of light fixture can dimmed and psychological hint that is that cause it.This psychological hint may make people unconsciously expect in use or how dimmed undue attention light fixture is, so that cannot loosen, and result causes the effect not having hypnosis.On the contrary, the illumination control apparatus 100 according to the utility model embodiment can eliminate this psychological hint, makes people fully to loosen and to enter sleep state fast, therefore, and hommization more.

As mentioned above, in sleeping pattern, the colour temperature of the LED in warm light source is between 2500K-3000K.

In addition, input signal is inputted by single switch on wall or remote controller or intelligent terminal by user, and testing circuit detects the low and high level conversion of input signal.Wherein, when the high level-low level-high level conversion of input signal is in conversion command section input time, the mode of operation of governor circuit determination converted illumination control device 801, conversion command section input time is the time period for inputting conversion command.

Governor circuit can comprise electrical storage device, for after input signal is in low level in conversion command section input time for governor circuit is powered.

In one example in which, first time period is 10-15 minute, and conversion command section input time is 1-5 second, and sleeping mode duration is 30 minutes.

As mentioned above, illumination control apparatus 801 can also comprise: voltage-multiplying circuit (not shown), is connected to drive circuit, for the operating voltage of stabilized driving circuit.In addition, illumination control apparatus 801 can also comprise: power-supplying circuit (not shown), is connected to drive circuit, for cutting off the power supply of drive circuit at the end of sleeping mode duration.Obviously, illumination control apparatus 801 can according to circumstances determine whether to comprise voltage-multiplying circuit and power-supplying circuit.

Here, illumination control apparatus 801 uses non-isolated power supply, thus has higher constant current accuracy according to the light fixture 800 of the utility model embodiment, and current ripples is little, reduce further cost, reduces volume, improves cost performance.In addition, because non-isolated power supply is without the need to transformer, finished product light fixture 800 is made not have shade.

In one example in which, light fixture 800 also comprises the lens covered on light source.Therefore, a small amount of LED can be used reach higher brightness.Such as, the power of the LED in warm light source can be 3-4 watt.

(a) and (b) in Fig. 9 respectively illustrates the layout schematic diagram of LED in the lensed light fixture of tool, and the position wherein pointed by arrow is the position of the LED of arranging in warm light source.By utilizing lens, the light-emitting area of light fixture is even, eliminates non-uniform light and affects the negative psychological that consumer causes.In such an arrangement, can ensure that light-emitting area is even, thus LED light source template die group can be made general, reduce handling of goods and materials, production technology, logistics and the cost after sale of company.According to the actual requirements and market orientation, the ratio of two kinds of colour temperatures is adjustable, and the quantity of module and modes of emplacement also can change to some extent, to realize the requirement definition of different luminous flux and light-emitting mode.

Certainly, it is only schematic that the LED in Fig. 9 is arranged, those skilled in the art can carry out other any layouts suitably as required.

Figure 10 illustrates the indicative flowchart of the method 1000 of the light fixture for controlling to have mode conversion function according to the utility model embodiment.

As shown in Figure 10, in 1001 of method 1000, detect the input signal from outside.In 1002, determine whether transformation working pattern according to input signal, wherein mode of operation comprises normal mode and sleeping pattern.In 1003, when determining to enter sleeping pattern, drive the LED in warm light source luminous, and keep LED brightness during first time period constant, and the brightness of LED is reduced until LED turns off during section the remaining time in sleeping mode duration after first time period gradually.

In one example in which, in sleeping pattern, the colour temperature of the LED in warm light source is between 2500K-3000K.

As previously mentioned, input signal is inputted by single switch on wall or remote controller or intelligent terminal by user.

The input signal detected in 1001 from outside can comprise: the low and high level conversion detecting input signal.

In 1003, determine whether that transformation working pattern can comprise: when the high level-low level-high level conversion of input signal is in conversion command section input time, determine transformation working pattern.Conversion command section input time is the time period for inputting conversion command.

In one example in which, first time period is 10-15 minute, and conversion command section input time is 1-5 second, and sleeping mode duration is 30 minutes.

Therefore, according to the utility model embodiment, after entering sleeping pattern, the brightness of light fixture can decline gradually after maintenance first time period, and brightness is reduced to 0 at the end of sleeping mode duration, and namely light fixture is completely switched off.Therefore, achieve the effect that light fixture is dimmed gradually, and the problem causing human body sensitivity to be waken up with a start due to light sudden change can not be caused.

Meanwhile, according to the utility model embodiment, during the first time period in sleeping pattern, the brightness of light fixture remains unchanged, and which eliminates people because know that the brightness of light fixture can dimmed and psychological hint that is that cause it.This psychological hint may make people unconsciously expect in use or how dimmed undue attention light fixture is, so that cannot loosen, and result causes the effect not having hypnosis.On the contrary, the method according to the utility model embodiment can eliminate this psychological hint, makes people fully to loosen and to enter sleep state fast, therefore, and hommization more.

As previously mentioned, when mode of operation comprises more, circulation conversion can be carried out between multiple mode of operation.

Should be noted that, for clarity and conciseness, in Fig. 1, Fig. 5, Fig. 6 to Fig. 8, illustrate only the part relevant to the utility model embodiment, but it will be appreciated by those skilled in the art that, the equipment shown in Fig. 1, Fig. 5, Fig. 6 to Fig. 8 or device can comprise the unit of other necessity.

Those skilled in the art can be well understood to, and for convenience and simplicity of description, the specific works process of the system of foregoing description, device and unit, with reference to the corresponding process in preceding method embodiment, can not repeat them here.

In several embodiments that the application provides, should be understood that disclosed system, apparatus and method can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical, machinery or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, both can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the utility model can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.

The above; be only embodiment of the present utility model; but protection range of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; change can be expected easily or replace, all should be encompassed within protection range of the present utility model.Therefore, protection range of the present utility model should described be as the criterion with the protection range of claim.

Claims (17)

1. an illumination control apparatus, comprising:

Testing circuit, for detecting the input signal from outside;

Governor circuit, for determining whether the mode of operation of converted illumination control device according to input signal, and controls drive circuit and switching circuit works under the mode of operation of correspondence;

Drive circuit, under the control of governor circuit, drives light-emitting diode (LED) lamp at least one in cold light source and warm light source luminous and regulates the luminosity of LED; And

Switching circuit, under the control of governor circuit, switches cold light source and warm light source,

Wherein, the mode of operation of illumination control apparatus comprises normal mode and sleeping pattern, and in described sleeping pattern, drive circuit drives the LED in warm light source luminous, keep LED brightness during first time period constant, and the brightness of LED is reduced until LED turns off during section the remaining time in sleeping mode duration after first time period gradually.

2. illumination control apparatus according to claim 1, wherein, in described sleeping pattern, the colour temperature of the LED in warm light source is between 2500K-3000K.

3. illumination control apparatus according to claim 2, wherein, testing circuit detects the low and high level conversion of input signal.

4. illumination control apparatus according to claim 3, wherein, when the high level-low level-high level conversion of input signal is in conversion command section input time, the mode of operation of governor circuit determination converted illumination control device, conversion command section input time is the time period for inputting conversion command.

5. the illumination control apparatus according to any one in claim 3 or 4, wherein, governor circuit comprises electrical storage device, for after input signal is in low level in conversion command section input time for governor circuit is powered, conversion command section input time is the time period for inputting conversion command.

6. according to the illumination control apparatus described in claim 4 or 5, wherein, first time period is 10-15 minute, and conversion command section input time is 1-5 second, and sleeping mode duration is 30 minutes.

7. the illumination control apparatus according to any one in claim 1 to 6, wherein, input signal is inputted by single switch on wall, remote controller or intelligent terminal by user.

8. the illumination control apparatus according to any one in claim 1 to 7, also comprises:

Voltage-multiplying circuit, is connected to drive circuit, for the operating voltage of stabilized driving circuit.

9. the illumination control apparatus according to any one in claim 1 to 8, also comprises:

Power-supplying circuit, is connected to drive circuit, for cutting off the power supply of drive circuit at the end of sleeping mode duration.

10. the illumination control apparatus according to any one in claim 1 to 9, wherein, described illumination control apparatus uses non-isolated power supply.

11. 1 kinds of light fixtures with sleeping pattern, comprising:

Light source, comprises warm light source and cold light source;

Illumination control apparatus, for controlling and driving light source luminescence, comprises:

Testing circuit, for detecting the input signal from outside;

Governor circuit, for determining whether the mode of operation of converted illumination control device according to input signal, and controls drive circuit and switching circuit works under the mode of operation of correspondence;

Drive circuit, under the control of governor circuit, drives light-emitting diode (LED) lamp at least one in cold light source and warm light source luminous and regulates the luminosity of LED; And

Switching circuit, under the control of governor circuit, switches cold light source and warm light source,

Wherein, the mode of operation of illumination control apparatus comprises normal mode and sleeping pattern, and in described sleeping pattern, drive circuit drives the LED in warm light source luminous, keep LED brightness during first time period constant, and the brightness of LED is reduced until LED turns off during section the remaining time in sleeping mode duration after first time period gradually.

12. light fixtures according to claim 11, wherein, testing circuit detects the low and high level conversion of input signal, and when the high level-low level-high level conversion of input signal is in conversion command section input time, the mode of operation of governor circuit determination converted illumination control device, conversion command section input time is the time period for inputting conversion command.

13. light fixtures according to claim 11 or 12, wherein, governor circuit comprises electrical storage device, for when input signal is in low level in conversion command section input time for governor circuit is powered, conversion command section input time is the time period for inputting conversion command.

14. light fixtures according to any one in claim 12 or 13, wherein, first time period is 10-15 minute, and conversion command section input time is 1-5 second, and sleeping mode duration is 30 minutes.

15. according to claim 11 to the light fixture described in any one in 14, wherein, described illumination control apparatus also comprise following at least one:

Voltage-multiplying circuit, is connected to drive circuit, for the operating voltage of stabilized driving circuit;

Power-supplying circuit, is connected to drive circuit, for cutting off the power supply of drive circuit at the end of sleeping mode duration; And

Cover the lens on light source.

16. according to claim 11 to the light fixture described in any one in 15, and wherein, described illumination control apparatus uses non-isolated power supply.

17. according to claim 11 to the light fixture described in any one in 16, and wherein, input signal is inputted by single switch on wall, remote controller or intelligent terminal by user.