CN103375700A - Lighting device and application method thereof - Google Patents

Abstract

The invention relates to a lighting device and an application method thereof. The lighting device comprises a lighting body, a control device and a light detector. The application method includes steps of a, providing the lighting body which comprises a light source, the control device and the light detector and electrically connecting the light source and the light detector to the control device, b, starting the control device to generate a power-on dimming signal and form a power-on period correspondingly and enabling the light source to emit light during the power-on period, c, starting the control device to generate a cut-off dimming signal and form a cut-off period correspondingly and turning off the light source during the cut-off period, and d, detecting environmental light intensity during the power-off period through the light detector and controlling to turn down or turn off the light source when detecting that the environmental light intensity is different from a preset value. The cut-off period is shorter than the time of visual persistence of the human being.

Description

Lighting device and application process thereof

Technical field

The present invention especially relates to a kind of lighting device and application process thereof of detecting ambient light intensity about a kind of lighting technical field.

Background technology

In the prior art, illuminating lamp is used in the environment of workshop, workbench, aisle, office, family, road, garden, public place etc. various indoor/outdoor in a large number widely, and is human many conveniences in life that bring.Wherein, lighting device commonly used (for example comprises bulb, fluorescent tube, various light fixture at least, ceiling lighting or garden lamp) or various portable lamp is (for example, but the portable lamp of humidification or spraying), and employed light source wherein, can be crow silk bulb, fluorescent lamp, also can be the LED lamp with environmental protection and electricity-saving function.

For the lighting device that wish is further pursued more power saving, whether the common practice in an inductive lightning zone, utilizes passive type human body infrared (PIR) sensing element of an induction human motion to have the user to occur with induction at present.If there is the user to occur, then order lighting device to carry out the action of illumination.Thus, can realize to a certain degree energy-conservation purpose.

Only, when using merely passive type human body infrared (PIR) sensing element to carry out the induction action, as long as user one comes across in the inductive lightning zone, will make lighting device carry out illumination.Yet, if the ambient light illumination of the existing enough brightness in field of illumination this moment is additionally restarted lighting device and is still the waste that causes the energy.Similar, after the user opens general lamp source switch a period of time, if because ambient light changes to think that in order to do the user brightness of ambient light is enough, thus, the again powered-down of then must standing up again.If the positional distance user of lamp source switch has a segment distance, again or user's health inconvenience, opening frequently or close and namely can causing the user is large puzzlement.

In view of this, provide a kind of lighting device, to judge whether making lighting device carry out illumination, with in energy-conservation the time, more can reach the purpose that makes the illumination balance by detecting ambient light intensity, this is to be the industry problem demanding prompt solution.

Summary of the invention

One of technical problem that the present invention solves is for the prior art above shortcomings, to provide a kind of lighting device and application process thereof of combining induction lighting.

The technical solution adopted for the present invention to solve the technical problems provides a kind of lighting device, comprising: an illumination body, a lamp source that comprises a control circuit and be electrically connected at this control circuit; One light modulation time schedule controller is coupled to this control circuit, and this light modulation time schedule controller is in order to produce a conducting dim signal and a cut-off dim signal; Wherein, one conduction period of corresponding generation when this conducting dim signal is sent to this control circuit, and it is shinny to make this lamp come from this conduction period; When this cut-off dim signal is sent to this control circuit between corresponding one off period of generation, and this lamp was come between this off period extinguish; And a smooth arrangement for detecting, be coupled to this control circuit, in order to detect an ambient light intensity; Wherein, be shorter than the time that human visual persists between this off period, and this light arrangement for detecting is when detecting to such an extent that be different from a preset value to this ambient light intensity between this off period the time, this light modulation time schedule controller is controlled this lamp source.

Preferably, this lighting device more comprises a sensing element, and in order to respond to a movement of objects, this sensing element is arranged in this illumination body, and is electrically connected at this control circuit.

Preferably, this lighting device is at least any one in an induction type LED bulb, an induction type LED fluorescent tube, an Induction lamp or the induction type portable lamp; Wherein, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification.

Preferably, this induction type LED bulb comprises a bulb body, and as the usefulness of this illumination body, and this bulb body comprises a male seat joint, a bulb shell, a LED lamp source group and a bulb lampshade more at least; Wherein, this male seat joint is arranged at an end of this bulb shell, and this LED lamp source group and this bulb lampshade all are arranged at the other end that corresponds to this end in this bulb shell, and this bulb lampshade is established this LED lamp source group.

Preferably, this bulb shell is a radiator structure, this radiator structure inside offers an installation through hole that is communicated with this end and this other end, for at least portion of element in accommodating this control circuit, and the lateral wall of this radiator structure is provided with a radiating fin, this male seat joint is arranged at this end of this radiator structure, and this LED lamp source group and this lampshade all are arranged at this other end of this radiator structure.

Preferably, this bulb lampshade is at least any one in a diamond type cover body, a column type cover body or the ball-type cover body.

Preferably, this induction type LED fluorescent tube comprises a lamp tube body, and as the usefulness of this illumination body, and this lamp tube body comprises one or two lamp holder, the round tube shell body of a non-sealing, a LED lamp source group and a fluorescent tube lampshade more at least; Wherein, this two lamp holder is arranged at the both ends of the round tube shell body of this non-sealing, and this LED lamp source group and this fluorescent tube lampshade all are incorporated into the opening part of the round tube shell body of this non-sealing, and this fluorescent tube lampshade is established this LED lamp source group.

Preferably, the round tube shell body of this non-sealing is the round radiator structure of a non-sealing, the lateral wall of the round radiator structure of this non-sealing is provided with a radiating fin, this two lamp holder is arranged at the both ends of the round radiator structure of this non-sealing, and this LED lamp source group and this fluorescent tube lampshade all are incorporated into the opening part of the round radiator structure of this non-sealing.

Preferably, this fluorescent tube lampshade is at least a PVC fluorescent tube lampshade, and itself and this round tube shell body of non-sealing is combined into the round lamp tube body of a sealing.

Preferably, but this Induction lamp be at least this induction type ceiling lighting, this induction type Garden luminaire, this sprayable induction type portable lamp or should the induction type portable lamp of humidification in any one the time, this lamp source group can be a LED lamp source group that comprises a plurality of LED crystal grain, or this lamp source group can be a crow lamp source group or a fluorescent lamp source group.

Preferably; this LED lamp source group can be a LED lamp source group that comprises a plurality of LED crystal grain; and the colour temperature of each crystal grain in those LED crystal grain or brightness or chroma can be all identical person, or wherein the colour temperature of part crystal grain or brightness or chroma belong to not identical person mutually with another part crystal grain at least.

Preferably, this sensing element is a passive type human body infrared (PIR) sensing element, or is a microwave (Microwave) sensing element.

Preferably, this lighting device more comprises an electromagnetic wave wireless communication module, be arranged in this illumination body, and this electromagnetic wave wireless communication module is electrically connected at this control circuit, wherein this electromagnetic wave wireless communication module is one to belong to the electromagnetic wave wireless communication module of black light wavelength coverage, and this electromagnetic wave wireless communication module can be a 313.325MHz wireless communication module at least, one 433MHz wireless communication module, one 418MHz wireless communication module, one 2.4GHz wireless communication module, one 5.8GHz wireless communication module, one 10GHz wireless communication module, one bluetooth wireless communication module, one Wi-Fi wireless communication module, one near-field communication (NFC) wireless communication module, one Z-Wave wireless communication module or be in the ZigBee wireless communication module any one; Or, more comprise an electromagnetic wave wireless communication module, be arranged in this illumination body, and this electromagnetic wave wireless communication module is electrically connected at this control circuit, wherein this electromagnetic wave wireless communication module is one to belong to the electromagnetic wave wireless communication module of visible light spectrum section.

Preferably, this lighting device comprises that at least music player and/or safety monitoring device are arranged in this illumination body; Wherein, this music player or this safety monitoring device can be electrically connected at this control circuit.

Preferably, this lighting device is one when being applied to outdoor lighting device, and this lighting device comprises a solar cell more at least; Wherein, this solar cell can be electrically connected at this control circuit.

Preferably, this light arrangement for detecting is a photo resistance.

The present invention also provides a kind of lighting device, at least comprise one first lighting device, comprise the first lamp source, a first communication module, a light modulation time schedule controller, a smooth arrangement for detecting and a first control circuit that is electrically connected at this first lamp source, this first communication module, this light modulation time schedule controller and this light arrangement for detecting; And one second lighting device, a second control circuit that comprises one second lamp source, a second communication module and be electrically connected at this second lamp source, this second communication module; Wherein, this light modulation time schedule controller is coupled to this first control circuit, and this light modulation time schedule controller is in order to produce a conducting dim signal and a cut-off dim signal, one conduction period of corresponding generation when this conducting dim signal is sent to this control circuit, and it is shinny to make this lamp come from this conduction period; When this cut-off dim signal is sent to this control circuit between corresponding one off period of generation, and this lamp was come between this off period extinguish; Wherein, be shorter than the time that human visual persists between this off period, and this light arrangement for detecting is controlled this lamp source in order to do this light modulation time schedule controller when detecting to such an extent that be different from a preset value to this ambient light intensity between this off period the time.

Preferably, this first lighting device more comprises one first sensing element, and in order to responding to a movement of objects, and this sensing element is electrically connected at this first control circuit; Wherein, the environment induction result in response to this first sensing element sets up a communication channel between this first communication module and the second communication module, in order to do the light and shade function in this first lamp source of control and/or this second lamp source.

Preferably, this first lighting device is one to have the lighting device of master control function, this second lighting device is one to have the lighting device of function controlled, so that this first lighting device can be in response to this environment induction result the light and shade function in this first lamp source of ACTIVE CONTROL, and make this second lighting device passive in response to from a control instruction of this first lighting device and control the light and shade function in this second lamp source.

Preferably, this second lighting device more comprises one second sensing element, in order in response to this environment induction result, and make and set up this communication channel between this first communication module and the second communication module, in order to do the light and shade function of this first lamp source group of control and/or this second lamp source group.

Preferably, this first lighting device and this second lighting device are all with the lighting device of master control function and controlled function, so that can automatically perform and control in response to an illumination control program light and shade function of this first lamp source group and/or this second lamp source group between those lighting devices.

Preferably, any one in this first sensing element and the second sensing element is a passive type human body infrared (PIR) sensing element, or is a microwave (Microwave) sensing element.

Preferably, any one in this first lighting device and this second lighting device is at least any one in an induction type LED bulb, an induction type LED fluorescent tube, an Induction lamp or the induction type portable lamp; Wherein, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification.

Preferably, in this first communication module and this second communication module any one, be all the electromagnetic wave wireless communication module that belongs to the black light wavelength coverage, and arbitrary electromagnetic wave wireless communication module can be a 313.325MHz wireless communication module at least, one 433MHz wireless communication module, one 418MHz wireless communication module, one 2.4GHz wireless communication module, one 5.8GHz wireless communication module, one 10GHz wireless communication module, one bluetooth wireless communication module, one Wi-Fi wireless communication module, one near-field communication (NFC) wireless communication module, one Z-Wave wireless communication module or be in the ZigBee wireless communication module any one; Or wherein any one in this first communication module and this second communication module is all the electromagnetic wave wireless communication module that belongs to the visible light spectrum section; Or, one of them person in this first communication module and this second communication module wherein, be one to belong to the electromagnetic wave wireless communication module of black light wavelength coverage, and wherein another one in this first communication module and this second communication module is one to belong to the electromagnetic wave wireless communication module of visible light spectrum section.

Preferably, at least one in this first lighting device and this second lighting device can comprise that more in music player, safety monitoring device and/or the solar cell at least one is arranged at wherein.

Preferably, this light arrangement for detecting is a photo resistance.

The present invention also provides a kind of control method that is applied to induction type illumination group, comprises the following steps: that at least (a) provides illumination body, a light modulation time schedule controller and a smooth arrangement for detecting, and this illumination body comprises a control circuit and a lamp source; Wherein, this lamp source, this light modulation time schedule controller and this light arrangement for detecting are electrically connected at this control circuit; (b) start this light modulation time schedule controller and produce a conducting dim signal, one conduction period of corresponding generation when this conducting dim signal is sent to this control circuit, and it is shinny to make this lamp come from this conduction period; (c) start this light modulation time schedule controller and produce a cut-off dim signal, when this cut-off dim signal is sent to this control circuit between corresponding one off period of generation, and make this lamp come from this conduction period to extinguish, wherein, be shorter than the time that human visual persists between this off period; And (d) make this light arrangement for detecting between this off period, detect an ambient light intensity, and when detecting to such an extent that be different from a preset value to this ambient light intensity, this lamp source of the corresponding control of this light modulation time schedule controller.

Preferably, described method more comprises in step (d): (d1) when this light arrangement for detecting is detected to such an extent that be lower than this preset value to this ambient light intensity, corresponding transmission one first luminance signal of this light modulation time schedule controller is to this control circuit, to lighten or to keep this lamp source; Or (d2) when this light arrangement for detecting was detected to such an extent that be not less than this preset value to this ambient light intensity, corresponding transmission one second luminance signal of this light modulation time schedule controller was to this control circuit, to dim this lamp source; Or (d3) when this light arrangement for detecting was detected to such an extent that be not less than this preset value to this ambient light intensity, the corresponding transmission one of this light modulation time schedule controller was closed dim signal to this control circuit, to close this lamp source.

Preferably, this control circuit is electrically connected at a sensing element, and this sensing element is in order to responding to a movement of objects, and is arranged in this illumination body.

Preferably, this light arrangement for detecting is a photo resistance.

The present invention also provides a kind of lighting device, comprises an illumination body, a lamp source that comprises a control device and be electrically connected at this control device; Wherein, this control device is in order to produce between a conduction period and an off period; One smooth arrangement for detecting is coupled to this control device, in order to detect an ambient light intensity; And a sensing element, in order to respond to a movement of objects, this sensing element is electrically connected at this control device; Wherein, be shorter than the time that human visual persists between this off period, and this light arrangement for detecting is suitable when detecting to such an extent that be different from a preset value to this ambient light intensity with between this off period the time, this control device is controlled this lamp source; And this sensing element can be responded to this movement of objects in this conduction period and deadline, and this control device triggers this lamp source.

Preferably, this control device comprises a control circuit and a light modulation time schedule controller, and wherein, corresponding generation is during this conduction period when this light modulation time schedule controller produces a conducting dim signal and is sent to this control circuit, and it is shinny to make this lamp come from this conduction period; When this light modulation time schedule controller generation one cut-off dim signal is sent to this control circuit, between this off period of corresponding generation, this lamp was come between this off period extinguish.

Preferably, this lighting device is at least any one in an induction type LED bulb, an induction type LED fluorescent tube, an Induction lamp or the induction type portable lamp; Wherein, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification.

The present invention also provides a kind of control method that is applied to induction type illumination group, comprises the following steps: that at least (a) provides illumination body, a smooth arrangement for detecting and a sensing element, and this illumination body comprises a control device and a lamp source; Wherein, this lamp source, this light arrangement for detecting and this sensing element are electrically connected at this control device; (b) start this control device and produce a conducting dim signal, and one conduction period of corresponding generation, it is shinny to make this lamp come from this conduction period; (c) start this control device and produce a cut-off dim signal, and between one off period of corresponding generation, and this lamp was come between this off period extinguish, wherein, be shorter than the time that human visual persists between this off period; And (d) make this light arrangement for detecting between this off period, detect an ambient light intensity, and when detecting to such an extent that be different from a preset value to this ambient light intensity, this lamp source of the corresponding control of this control device.

Preferably, described method is in more comprising the steps: (e) when this sense element senses must be to a movement of objects after the step (a), and this control device triggers this lamp source.

Preferably, this control device comprises a control circuit and a light modulation time schedule controller, and in step (d), more comprise: (d1) when this light arrangement for detecting is detected to such an extent that be lower than this preset value to this ambient light intensity, corresponding transmission one first luminance signal of this light modulation time schedule controller is to this control circuit, to lighten or to keep this lamp source; Or (d2) when this light arrangement for detecting was detected to such an extent that be not less than this preset value to this ambient light intensity, corresponding transmission one second luminance signal of this light modulation time schedule controller was to this control circuit, to dim this lamp source; (d3) when this light arrangement for detecting was detected to such an extent that be not less than this preset value to this ambient light intensity, the corresponding transmission one of this light modulation time schedule controller was closed dim signal to this control circuit, to close this lamp source.

Preferably, this lighting device is at least any one in an induction type LED bulb, an induction type LED fluorescent tube, an Induction lamp or the induction type portable lamp; Wherein, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification.

The present invention is by arranging the shinny of light modulation time schedule controller control illumination body and extinguish, and between the off period (when the illumination body extinguishes) utilize the light arrangement for detecting to arround ambient light intensity detect, whether have enough brightness to judge environment; If environment has enough brightness, then dim or close the illumination body; If environment does not have enough brightness, then lighten or keep the script brightness of illumination body.Since between the off period less than human visual persist during, old friend's eye can not be experienced the light on and off of lighting device fully.In addition, by detecting ambient light to judge whether to make lighting device carry out illumination, and more can reach the purpose of the luminance balance of energy-conservation and field of illumination, and the user need not open and close the lamp source switch more frequently, the lamp source switch can be kept the state of long-term unlatching.

Description of drawings

Fig. 1: for lighting device of the present invention is one to have the perspective view of the microwave induced formula LED bulb of microwave induced element and electromagnetic wave wireless communication module.

Fig. 2: for LED lamp source group in the microwave induced formula LED bulb shown in Figure 1 in conjunction with the perspective view of bulb shell.

Fig. 3: be the perspective view of bulb shell in the microwave induced formula LED bulb shown in Figure 1.

Fig. 4: it is another visual angle perspective view of bulb shell in the microwave induced formula LED bulb shown in Figure 1.

Fig. 5: it is the perspective view of control circuit in the microwave induced formula LED bulb shown in Figure 1.

Fig. 6: it is the perspective view of the partial circuit of microwave induced element in the microwave induced formula LED bulb shown in Figure 1.

Fig. 7: it is one to have the perspective view of the PIR induction type LED bulb of PIR sensing element and electromagnetic wave wireless communication module for lighting device of the present invention.

Fig. 8: it is one to have the perspective view of the microwave induced formula LED fluorescent tube of microwave induced element and electromagnetic wave wireless communication module for lighting device of the present invention.

Fig. 9: it is one to have the perspective view of the PIR induction type LED fluorescent tube of PIR sensing element and electromagnetic wave wireless communication module for lighting device of the present invention.

Figure 10: it is one to have the perspective view of the microwave induced formula lamp affixed to the ceiling of microwave induced element and electromagnetic wave wireless communication module for lighting device of the present invention.

Figure 11: it is one to have the perspective view of the microwave induced formula portable lamp of microwave induced element and electromagnetic wave wireless communication module for lighting device of the present invention.

Figure 12: it is one to have the perspective view of the microwave induced formula garden lamp of microwave induced element and electromagnetic wave wireless communication module for lighting device of the present invention.

Figure 13: it implements conceptual schematic view for the one first better group control that forms induction type illumination group with induction type lighting device of the present invention.

Figure 14: it implements conceptual schematic view for the one second better group control that forms induction type illumination group with lighting device of the present invention.

Figure 15: it is for being incorporated into Figure 13 and better group control mode shown in Figure 14 one the 3rd better group control enforcement conceptual schematic view of one.

Figure 16: it is the throw light on process concept schematic diagram of group's implementation step of the present invention.

Figure 17: it is for the cycle comparison diagram () of the LED lamp source group of lighting device of the present invention and light arrangement for detecting.

Figure 18: it is for the cycle comparison diagram (two) of the LED lamp source group of lighting device of the present invention and light arrangement for detecting.

Figure 19: it is for the cycle comparison diagram (three) of the LED lamp source group of lighting device of the present invention and light arrangement for detecting.

Figure 20: it is throw light on another process concept schematic diagram of group's implementation step of the present invention.

The specific embodiment

See also Fig. 1 to Fig. 6; Wherein, Fig. 1 is that lighting device of the present invention is one to have the perspective view of the microwave induced formula LED bulb of microwave induced element and electromagnetic wave wireless communication module, Fig. 2 be in the microwave induced formula LED bulb shown in Figure 1 LED lamp source group in conjunction with the perspective view of bulb shell, Fig. 3 is the perspective view of bulb shell in the microwave induced formula LED bulb shown in Figure 1, Fig. 4 is another visual angle perspective view of bulb shell in the microwave induced formula LED bulb shown in Figure 1, Fig. 5 is the perspective view of control circuit in the microwave induced formula LED bulb shown in Figure 1, Fig. 6 is the perspective view of the partial circuit of microwave induced element in the microwave induced formula LED bulb shown in Figure 1.

Wherein, this lighting device 1 is bulb body 11, a light modulation time schedule controller 15 and the smooth arrangement for detecting 16 that a microwave induced formula LED bulb comprises the usefulness of a conduct illumination body, wherein, the lamp source that this bulb body 11 comprises at least a control circuit 111 and is electrically connected at this control circuit 111, and the lamp source selectively is set to a LED lamp source group 112, and this light modulation time schedule controller 15 and this light arrangement for detecting 16 also are coupled to this control circuit 111.In this must the expositor be, in the enforcement aspect of lighting device of the present invention, except the elements such as control circuit 111 and light modulation time schedule controller 15 can being arranged respectively, the producer also can make a control device (not shown) with element combination systems such as control circuit 111 and light modulation time schedule controllers 15.Certainly, this control device includes the function of control circuit 111 and light modulation time schedule controller 15, changes setting to make things convenient for the producer to look the actual assembled situation, so be not restricted in this.Moreover this light arrangement for detecting 16 is preferably a photo resistance, but also only is one to exemplify, and it is not done a restriction.Moreover this light modulation time schedule controller 15 is in order to produce a conducting dim signal and a cut-off dim signal; One conduction period of corresponding generation when this conducting dim signal is sent to this control circuit 111, make this LED lamp source group 112 shinny in this conduction period; When being sent to this control circuit 111, this cut-off dim signal between corresponding one off period of generation, this LED lamp source group 112 is extinguished between this off period.Moreover this light arrangement for detecting 16 can do that moment is detected an ambient light intensity fast between this off period the time.When if this ambient light intensity is different from a preset value, this this LED lamp source group 112 of light modulation time schedule controller 15 controls is carried out the action that lightens, dims, keeps or close.

Must the expositor be that the duration that general human eye can produce the persistence of vision is 1/24th second, is shorter than 1/24th second so should be set as between the off period in this.This LED lamp source group 112 was extinguished between this off period that is shorter than human visual and persists duration, can avoid being discovered by human eye, and make user's vision fully noninductive in of short duration the extinguishing of LED lamp source group 112.Wherein, be preferably between 1/24th second to one millisecond between this off period, look closely user's use situation and can change the setting of time length.Arrange by this, between this off period in, LED lamp source group 112 is owing to because of temporary transient extinguishing, slow down the constant advantage that produces of thermal source and can have simultaneously, further to avoid LED lamp source group 112 contingent overheating conditions.In addition, certainly also can make in the lamp source group 112 each lamp source with one be shorter than time interval that human visual persists rotate luminous, to coordinate the shinny time in each lamp source, and when retarding heat produces, still can reach identical illuminating effect, setting like that is not done a restriction in this.

Moreover the better implementation method of relevant lighting device is please consulted better group control implementation step shown in Figure 16 in advance, and please merge and consult Fig. 1 to Fig. 6 and Figure 16.Execution in step S1 at first: illumination body, a light modulation time schedule controller 15 and a smooth arrangement for detecting 16 is provided, this illumination body comprises a control circuit 111 and a lamp source (as aforementioned, this lamp source selectively is LED lamp source group 112 in present embodiment); Wherein, this LED lamp source group 112, this light modulation time schedule controller 15 and this light arrangement for detecting 16 are electrically connected at this control circuit 111; Step S2: start this light modulation time schedule controller 15 and produce a conducting dim signal, one conduction period of corresponding generation when this conducting dim signal is sent to this control circuit 111, and make this LED lamp source group 112 shinny in this conduction period; Thereafter, execution in step S3: start this light modulation time schedule controller 15 and produce a cut-off dim signal, when this cut-off dim signal is sent to this control circuit 111 between corresponding one off period of generation the time, this LED lamp source group 112 was extinguished in this conduction period, wherein, be shorter than the time that human visual persists between this off period; And step S4: make this light arrangement for detecting 16 between this off period, detect an ambient light intensity, when detecting to such an extent that be different from a preset value to this ambient light intensity, this LED lamp source group 112 of these light modulation time schedule controller 15 corresponding controls.Please further merge and consult Figure 17 to Figure 19, it is the LED lamp source group 112 of lighting device 1 of the present invention and the cycle comparison diagram of light arrangement for detecting.More comprise among the step S4: step S41: when this light arrangement for detecting 16 is detected to such an extent that be lower than this preset value to this ambient light intensity, these light modulation time schedule controller 15 corresponding transmission one first luminance signals are to this control circuit 111, to lighten or to keep this LED lamp source group 112; And can consult shown in Figure 17, this LED lamp source group 112 initial accurate positions of electricity be L, after this deadline T1, this LED lamp source group 112 returns back to the accurate L of former electricity, namely returns back to the original brightness of this LED lamp source group 112; Or step S42: when this light arrangement for detecting 16 was detected to such an extent that be not less than this preset value to this ambient light intensity, these light modulation time schedule controller 15 corresponding transmission one second luminance signals were to this control circuit 111, to dim this LED lamp source group 112; And can consult shown in Figure 18, this LED lamp source group 112 initial accurate positions of electricity be L, after this deadline T1, this LED lamp source group 112 does not return back to the accurate position of electricity L, but drops to a little the accurate position of electricity L1, with these LED lamp source group 112 brightness a little less than transferring; Or step S43: when this light arrangement for detecting 16 was detected to such an extent that be not less than this preset value to this ambient light intensity, these light modulation time schedule controller 15 corresponding transmissions one were closed dim signal to this control circuit 111, to close this LED lamp source group 112; And can consult shown in Figure 19ly, and this LED lamp source group 112 initial accurate positions of electricity be L, after this deadline T1, this LED lamp source group 112 does not return back to the accurate position of electricity L, but is down to electricity accurate 0, to close this LED lamp source group 112.Moreover, can be learnt by Figure 17 to Figure 19, because the maximum duration T that persists of human eye vision is much larger than time that this LED lamp source group 112 is extinguished (namely should between the off period T1), therefore this LED lamp source group 112 was extinguished and can't be discovered by human eye within the extremely short time, also just can not cause any discomfort to human eye.Moreover light arrangement for detecting 16 is fitted and can be done a detecting in the T1 between this off period, and certainly, light arrangement for detecting 16 is to finish the action of detecting less than the detecting time T 2 of T1 between this off period.This shows, but lighting device of the present invention 1 testing environment light intensity, and the shading value of corresponding adjustment LED lamp source group 112, be in the use occasion of a good light to keep the user.Arrange by this, the user then needn't be again with the variation of ambient light intensity, and do continually the action of switch lamp.

Moreover, seeing also Figure 20, it is throw light on another process concept schematic diagram of group's implementation step of the present invention.Its step concept is similar in appearance to aforesaid process concept, and its dissimilarity is, except utilizing this control device to replace the function of control circuit 111 and light modulation time schedule controller 15, has more added the setting of sensing element.At first execution in step S ' 1: an illumination body, smooth arrangement for detecting 16 and a sensing element are provided, and this illumination body comprises a control device and a lamp source; Wherein, this lamp source, this light arrangement for detecting 16 and this sensing element are electrically connected at this control device.Then, execution in step S ' 2: start this control device and produce a conducting dim signal, and one conduction period of corresponding generation, it is shinny to make this lamp come from this conduction period.Subsequently, execution in step S ' 3: start this control device and produce a cut-off dim signal, and between one off period of corresponding generation, and this lamp was come between this off period extinguish, wherein, be shorter than the time that human visual persists between this off period.At last, execution in step S ' 4: make this light arrangement for detecting between this off period, detect an ambient light intensity, and when detecting to such an extent that be different from a preset value to this ambient light intensity, this lamp source of the corresponding control of this control device.Must the person of paying special attention to be that in more comprising step S ' 5 behind the step S ' 1: when this sense element senses must be to a movement of objects, this control device triggered this lamp source in this.Arrange by this, as long as the reconnaissance range of this sensing element of lighting device of the present invention has pedestrian's process, lighting device can be triggered and illuminated area.Thus, lighting device of the present invention is arranged in pairs or groups upper such as aforementioned these light arrangement for detecting 16 utilizations again, more can reach energy-conservation purpose.

Furthermore, lighting device 1 of the present invention more comprises a microwave induced element 12 and an electromagnetic wave wireless communication module 13, this microwave induced element 12 is in order to responding to a movement of objects, and is arranged in this bulb body 11, and is electrically connected at this control circuit 111.In addition, this electromagnetic wave wireless communication module 13 places this illumination body 11, and this electromagnetic wave wireless communication module 13 is electrically connected at this control circuit 111.Thus, this microwave induced formula LED bulb 1 can see through this electromagnetic wave wireless communication module 13 and carry out and other lighting device (lighting device that comprises induction type and non-induction type) between group's illumination control, or the radio communication of carrying out other additional function is controlled.

In this must the expositor be, wireless communication module used in the present invention, be the electromagnetic wave wireless communication module that belongs to the black light wavelength coverage for, and this electromagnetic wave wireless communication module can be a 313.325MHz wireless communication module at least, one 433MHz wireless communication module, one 418MHz wireless communication module, one 2.4GHz wireless communication module, one 5.8GHz wireless communication module, one 10GHz wireless communication module, one bluetooth wireless communication module, one Wi-Fi wireless communication module, one near-field communication (NFC) wireless communication module, one Z-Wave wireless communication module or be in the ZigBee wireless communication module any one; Or wireless communication module used in the present invention is the electromagnetic wave wireless communication module that belongs to the visible light spectrum section for.Hereat, visible light spectrum section or the black light wavelength coverage all can be applicable in the wireless communication module of this invention no matter.

Moreover the employed sensing element of lighting device of the present invention is a passive type human body infrared (PIR) sensing element, or is a microwave (Microwave) sensing element; And not as limit, for example, also can use the induction installation of special light wave to respond to have nobody to walk about or illumination induction control that object is moved.

In addition; when lighting device of the present invention is bulb or fluorescent tube; its lamp source group is one to comprise the LED lamp source group of a plurality of LED crystal grain; and the colour temperature of each crystal grain in those LED crystal grain or brightness or chroma can be all identical person, or wherein the colour temperature of part crystal grain or brightness or chroma belong to not identical person mutually with another part crystal grain at least.And with bulb or the fluorescent tube employed sensing element of arranging in pairs or groups, directly the illumination body with bulb or fluorescent tube is incorporated into (please join aftermentioned), but not separately (or separation) arrange.

Moreover, when lighting device of the present invention is in an Induction lamp or the induction type portable lamp any one, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification; And not as limit,

Wherein, this Induction lamp or the employed lamp of this induction type portable lamp source group can be a LED lamp source group that comprises a plurality of LED crystal grain, or this lamp source group can be a crow lamp source group or a fluorescent lamp source group.Certainly; wherein this LED lamp source group can be a LED lamp source group that comprises a plurality of LED crystal grain; and the colour temperature of each crystal grain in those LED crystal grain or brightness or chroma can be all identical person, or wherein the colour temperature of part crystal grain or brightness or chroma belong to not identical person mutually with another part crystal grain at least.

And, with this Induction lamp or this induction type portable lamp employed sensing element of arranging in pairs or groups, a passive type human body infrared (PIR) sensing element for example, or be a microwave (Microwave) sensing element, directly the bulb in being arranged at this Induction lamp or this induction type portable lamp or the illumination body of fluorescent tube are incorporated into, though or employed sensing element with arrange wherein in order to being responsible for the providing bulb of light source or fluorescent tube separate (or separation) setting, but still be incorporated into the illumination body of this Induction lamp or this induction type portable lamp.

Again, lighting device of the present invention comprises that more at least music player and/or safety monitoring device are arranged in the illumination body of lighting device; Wherein, this music player and/or this safety monitoring device can be electrically connected at a control circuit 111.

For example, be incorporated into this music player in the lighting device of the present invention, be one to belong to built-in playing device with automatic music playing function, or it can be further combined with above-mentioned electromagnetic wave wireless communication module, and from the operated portable electronic device of user (for example accept, iPhone or iPad) or the audio signal that produces of other broadcast equipment, and synchronous music playing.Wherein, if when the chroma of part crystal grain and another part crystal grain belong to mutually not identical person in the group of LED lamp source, also can see through the rhythm of music and control and produce different illuminating ray variations.

Lifting this safety monitoring device explains again, for example, lighting device of the present invention also can in conjunction with a photograph monitoring device and above-mentioned electromagnetic wave wireless communication module, with the judged result in response to the supervision image, and then send control instruction and come large-scale floodlight is carried out in the specific region.

Moreover, lighting device of the present invention comprises that more at least one electrical storage device is electrically connected at this illumination body, wherein, when a mains supply is in a power supply state, this illumination body selectively controls this mains supply and this lamp source is given in any one power supply wherein of this at least one electrical storage device, if at least one electrical storage device is the solar energy power accumulating device, then can be the first-selection of power supply.By this, more can press close to the social trend that present promotion is energy-conservation and afforest.When this mains supply was in an off-position, this at least one electrical storage device can be powered and be given this lamp source, with can be as the urgent need of emergency service when having a power failure.

Again for example, lighting device of the present invention also can cooperate above-mentioned electromagnetic wave wireless communication module so that all subregion in the lighting space bright/shadow joint effect, more balance with accurately.

Certainly, be one when being applied to outdoor lighting device in lighting device of the present invention, this lighting device comprises a solar cell more at least, with as a stand-by power supply; Wherein, this solar cell can be electrically connected at above-mentioned control circuit 111.

Below hereby lift various types of lighting device combining induction lighting devices, and please cooperate above-mentioned explanation, in order to do getting a more deep understanding.

Moreover this bulb body 11 comprises a male seat joint 113, a bulb shell 114 and a bulb lampshade 115 more at least; Wherein, this male seat joint 113 is arranged at an end 1141 of this bulb shell 114, this LED lamp source group 112 all is arranged at the other end 1142 that corresponds to this end 1141 in this bulb shell 114 with this bulb lampshade 115, and these bulb lampshade 115 covers are established this LED lamp source group 112.

Wherein, this bulb shell 114 is a radiator structure, these radiator structure 114 inside offer an installation through hole 1140 that is communicated with this end 1141 and this other end 1142, for at least portion of element in accommodating this control circuit 111, and the lateral wall of this radiator structure 114 is provided with a radiating fin 1143.One than the fine piece of writing method, and this radiator structure 114 can be the radiator structure of an aluminium alloy or other metal alloy, also can be to have the formed radiator structure of other material (for example, concrete dynamic modulus pottery) of heat-sinking capability.And the design arrangement of through hole 1140 and/or radiating fin 1143 see through to be installed, but the thermal source that this LED lamp source group 112 of fast spread is produced.

As for this bulb lampshade 115, it can be in a diamond type cover body, a column type cover body or the ball-type cover body any one at least; And not as limit.

Certainly, the implementation concept of relevant this microwave induced element 12 also sees also Fig. 6; That is, in those shown wherein, for one having receipts/the send out microwave receiving circuit 121 of antenna 1210 in this microwave induced element 12.And, as be familiar with microwave technology person and can know, microwave can penetrate smoothly this bulb lampshade 115 and carry out the induction of moving body should be nearly without doubt.

Certainly, this microwave induced formula LED bulb 1 more can comprise an additional electronic installation 14, and it can be music player and/or safety monitoring device.

See also Fig. 7, it is one to have the perspective view of the PIR induction type LED bulb of PIR sensing element and electromagnetic wave wireless communication module for lighting device of the present invention.In wherein, this PIR induction type LED bulb 2 comprises a bulb body 21, a PIR sensing element 22, an electromagnetic wave wireless communication module 23, a light modulation time schedule controller 25 and a smooth arrangement for detecting 26; And this bulb body 21 comprises a male seat joint 213, a bulb shell 214 and a bulb lampshade 215 at least.A control circuit (scheming not shown) that more comprises as for 21 of this bulb bodies, be similar to control circuit 111 shown in Figure 1, but it is electrically connected on a PIR sensing element 22 because having to change, and therefore the thin section control circuit design in the induction part will slightly be different from control circuit shown in Figure 1 111; Only, this can know for those skilled in the art of the present technique, namely repeats no more at this.

A LED lamp source group (scheming not shown) that more comprises as for 21 of this bulb bodies, this male seat joint 213 and this bulb shell 214, and this electromagnetic wave wireless communication module 23, this light modulation time schedule controller 25 and this light arrangement for detecting 26, because having element or the structure of identical function shown in all similar Fig. 1, namely repeat no more at this.

In addition, this bulb lampshade 215 is that with the discrepancy of Fig. 1 bulb lampshade 115 this PIR sensing element 22 is to be subject to covering of this bulb lampshade 215 when carrying out induction, and therefore, this PIR sensing element 22 will be designed to protrude from this bulb lampshade 215.

Certainly, this PIR answers formula LED bulb 2 more can comprise an additional electronic installation 24, its can be music player/or safety monitoring device and.

See also Fig. 8, it is one to have the perspective view of the microwave induced formula LED fluorescent tube of microwave induced element and electromagnetic wave wireless communication module for lighting device of the present invention.In wherein, this microwave induced formula LED fluorescent tube 3 comprises lamp tube body 31, a microwave induced element 32, an electromagnetic wave wireless communication module 33, a light modulation time schedule controller 35 and a smooth arrangement for detecting 36 as the usefulness of illumination body; And this lamp tube body 31 comprises two lamp holders 313, a fluorescent tube housing 314 and a fluorescent tube lampshade 315 at least.Control circuit (scheming not shown) as for 31 of this lamp tube body more comprise because being similar to control circuit 111 shown in Figure 1, namely repeats no more at this.

A long strip type LED lamp source group (scheming not shown) that more comprises as for 31 of this lamp tube body and this two lamp holder 313, and this electromagnetic wave wireless communication module 33, this light modulation time schedule controller 35 and this light arrangement for detecting 36, because having element or the structure of identical function shown in all similar Fig. 1, namely repeat no more at this.

Again, this fluorescent tube housing 314 in present embodiment, it is the round tube shell body of a non-sealing (or being the round radiator structure of a non-sealing), the lateral wall of the round radiator structure 314 of this non-sealing is provided with a radiating fin 3143, this two lamp holder 313 is arranged at the both ends of the round radiator structure 314 of this non-sealing, this long strip type LED lamp source group and this fluorescent tube lampshade 315 all are incorporated into the opening part of the round radiator structure 314 of this non-sealing, and are combined into the round lamp tube body of a sealing with the round radiator structure 314 of this non-sealing; Wherein, this fluorescent tube lampshade 315 can be a PVC fluorescent tube lampshade, and not as limit.

The preferably belongs to non-sealed light tube shell, and can be not limited to is round or near round or oval or other special circular-arc non-sealed light tube shell; In addition, it is nonocclusive 1/2 or 3/4 round fluorescent tube housing also, and not as limit.

Certainly, this microwave induced formula LED fluorescent tube 3 more comprises an additional electronic installation 34, and it can be music player/or safety monitoring device.

See also Fig. 9, it is one to have the perspective view of the PIR induction type LED fluorescent tube of PIR sensing element and electromagnetic wave wireless communication module for lighting device of the present invention.In wherein, this PIR induction type LED fluorescent tube 4 comprises lamp tube body 41, a PIR sensing element 42, an electromagnetic wave wireless communication module 43, a light modulation time schedule controller 35 and a smooth arrangement for detecting 36 as the usefulness of illumination body; And this lamp tube body 41 comprises two lamp holders 413, a fluorescent tube housing 414 and a fluorescent tube lampshade 415 at least.

As for this PIR sensing element 42 and the control circuit (scheming not shown) that 41 of this lamp tube body more comprise, because being similar to Fig. 7 described this PIR sensing element 22 and control circuit, namely repeat no more at this.

In addition, the long strip type LED lamp source group (scheming not shown) that 41 of this lamp tube body more comprise, this two lamp holder 413, this fluorescent tube housing 414 and this fluorescent tube lampshade 415, and this electromagnetic wave wireless communication module 43, this light modulation time schedule controller 45 and this light arrangement for detecting 46, because having element or the structure of identical function shown in all similar Fig. 8, also repeat no more at this.

Certainly, this PIR induction type LED fluorescent tube 4 more comprises an additional electronic installation 44, and it can be music player/or safety monitoring device.

See also Figure 10, it is one to have the perspective view of the microwave induced formula lamp affixed to the ceiling of microwave induced element and electromagnetic wave wireless communication module for lighting device of the present invention.In wherein, this microwave induced formula lamp affixed to the ceiling 5 comprises lamp affixed to the ceiling body 51, a microwave induced element 52, an electromagnetic wave wireless communication module 53, a light modulation time schedule controller 55 and a smooth arrangement for detecting 56 as the usefulness of illumination body.Wherein, lamp affixed to the ceiling body 51 comprises a control circuit (scheming not shown) and an annular LED lamp source group 512 at least, and this microwave induced element 52 is assembled in the lamp affixed to the ceiling body 51.

Certainly, this microwave induced formula lamp affixed to the ceiling 5 more comprises an additional electronic installation 54, and it can be music player and/or safety monitoring device.

See also Figure 11, it is one to have the perspective view of the microwave induced formula portable lamp of microwave induced element and electromagnetic wave wireless communication module for lighting device of the present invention.In wherein, this microwave induced formula portable lamp 6 (for example, can be the microwave induced formula portable lamp of a spraying or humidification) comprises portable lamp body 61, a microwave induced element 62, an electromagnetic wave wireless communication module 63, a light modulation time schedule controller 65 and a smooth arrangement for detecting 66 of the usefulness of a conduct illumination body.Wherein, portable lamp body 61 comprises a work lampshade 615, a Rotatable hanging hook 616, a control circuit (scheming not shown) and a LED lamp source group (scheming not shown) at least, and this microwave induced element 62 is assembled in the portable lamp body 61.

Certainly, this microwave induced formula portable lamp 6 more comprises an additional electronic installation 64, and it can be music player and/or safety monitoring device.

See also Figure 12, it is one to have the perspective view of the microwave induced formula garden lamp of microwave induced element and electromagnetic wave wireless communication module for lighting device of the present invention.In wherein, this microwave induced formula garden lamp 7 comprises garden lamp body 71, a microwave induced element 72, an electromagnetic wave wireless communication module 73, a light modulation time schedule controller 75 and a smooth arrangement for detecting 76 as the usefulness of illumination body.Wherein, garden lamp body 71 comprises a control circuit (scheming not shown) and a LED lamp source group (scheming not shown) at least, and this microwave induced element 72 is assembled in the garden lamp body 71.

Certainly, this microwave induced formula garden lamp 7 more comprises an additional electronic installation 74, and it can be music player, safety monitoring device and/or solar cell.

The above-mentioned various lighting devices with the present invention below will be described, be implemented on the concrete practice of illumination group control.

See also Figure 13, it implements conceptual schematic view for the one first better group control that forms induction type illumination group with lighting device of the present invention; In wherein, 8 interiorly have 5 lighting devices 81～85 in the space, lighting device 81 is a lighting device with light modulation time schedule controller, light arrangement for detecting, sensing element and electromagnetic wave wireless communication module, and this lighting device 81 is one to have the lighting device of master control function.

As for those lighting devices 82～85, then be a non-master control lighting device with electromagnetic wave wireless communication module (namely, be general lighting device), and the arbitrary lighting device in those lighting devices 82～85 only is one to have the lighting device of function controlled, it only can control and can't initiatively send control instruction (for example, illumination control instruction) to other lighting device by the passive receive wireless lighting.

Thus, this lighting device 81 can be in response to an environment induction result itself the light and shade function of lamp source group of ACTIVE CONTROL, and send synchronously an illumination control instruction C1 with the electromagnetic wave communication, so that those lighting device 82～85 passive light and shade functions of controlling each lamp source group in those lighting devices 82～85 in response to this illumination control instruction C1.

One of benefit of the above-mentioned practice can be provided in only need install in the same space lighting device of a higher cost, and remaining illuminating means then changes the better solution of adopting lower-cost general element and still can finish the illumination balance control in whole space; Be with, these are made Faxian and can significantly reduce configuration and the required initial stage of lighting device build cost.

Certainly, above-mentioned illumination control instruction C1 only is an example, also can comprise the control instruction of carrying out above-mentioned other additional function.

See also Figure 14, it implements conceptual schematic view for the one second better group control that forms induction type illumination group with induction type lighting device of the present invention; In wherein, 9 interiorly have 5 lighting devices 91～95 in the space, those induction type lighting devices 91～95 are all an induction type lighting device with light modulation time schedule controller, light arrangement for detecting, sensing element and electromagnetic wave wireless communication module, and those lighting devices 91～95 are all an induction type lighting device with master control function/function controlled.

Thus, those lighting devices 91～95 can change surround lighting light and shade in its subregion of sensing individually, and send or return an illumination control instruction C2 to other lighting device with the electromagnetic wave communication, therefore, those lighting devices 91～95 namely need mutually to coordinate out the balance scheme that throws light on more accurately according to illumination control program and those time.

Certainly, above-mentioned illumination control instruction C2 only is an example, also can comprise the control instruction of carrying out above-mentioned other additional function.

Another is than the fine piece of writing method, about the group control between different spaces or the zone; Profess it, it also can be resolved through install the magnetic wave wireless communication module additional in the induction type lighting device.For example, see also Figure 15, it is for being incorporated into Figure 13 and better group control mode shown in Figure 14 one the 3rd better group control enforcement conceptual schematic view of one.In wherein, this induction type lighting device 81 can see through an illumination control instruction C3 and another illumination control program, links up and coordinates to carry out function and obtain with those lighting devices 91～95.

In sum, the present invention is by the shinny of light modulation time schedule controller control illumination body being set and extinguishing, and between the off period when extinguishing (illumination body) utilize the light arrangement for detecting to arround ambient light intensity detect, whether have enough brightness to judge environment; If environment has enough brightness, then dim or close the illumination body; If environment does not have enough brightness, then lighten or keep the script brightness of illumination body.Since between the off period less than human visual persist during, old friend's eye can not be experienced the light on and off of lighting device fully.In addition, by detecting ambient light to judge whether to make lighting device carry out illumination, and more can reach the purpose of the luminance balance of energy-conservation and field of illumination, and the user need not open and close the lamp source switch more frequently, the lamp source switch can be kept the state of long-term unlatching.

The above is preferred embodiment of the present invention only, is not to limit claim scope of the present invention, and therefore all other do not break away from the equivalence change of finishing under the disclosed spirit or modify, and all should be contained in the scope of the present invention.

Claims (38)

1. a lighting device is characterized in that, comprising:

The illumination body, a lamp source that comprises a control circuit and be electrically connected at this control circuit;

The light modulation time schedule controller is coupled to this control circuit, and this light modulation time schedule controller is in order to produce a conducting dim signal and a cut-off dim signal; Wherein, one conduction period of corresponding generation when this conducting dim signal is sent to this control circuit, and it is shinny to make this lamp come from this conduction period; When this cut-off dim signal is sent to this control circuit between corresponding one off period of generation, and this lamp was come between this off period extinguish; And

The light arrangement for detecting is coupled to this control circuit, in order to detect an ambient light intensity;

Wherein, be shorter than the time that human visual persists between this off period, and this light arrangement for detecting is when detecting to such an extent that be different from a preset value to this ambient light intensity between this off period the time, this light modulation time schedule controller is controlled this lamp source.

2. lighting device as claimed in claim 1 is characterized in that, more comprises a sensing element, and in order to respond to a movement of objects, this sensing element is arranged in this illumination body, and is electrically connected at this control circuit.

3. lighting device as claimed in claim 2 is characterized in that, this lighting device is at least any one in an induction type LED bulb, an induction type LED fluorescent tube, an Induction lamp or the induction type portable lamp; Wherein, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification.

4. lighting device as claimed in claim 3 is characterized in that, this induction type LED bulb comprises a bulb body, and as the usefulness of this illumination body, and this bulb body comprises a male seat joint, a bulb shell, a LED lamp source group and a bulb lampshade more at least; Wherein, this male seat joint is arranged at an end of this bulb shell, and this LED lamp source group and this bulb lampshade all are arranged at the other end that corresponds to this end in this bulb shell, and this bulb lampshade is established this LED lamp source group.

5. LED lighting device as claimed in claim 4, it is characterized in that, this bulb shell is a radiator structure, this radiator structure inside offers an installation through hole that is communicated with this end and this other end, for at least portion of element in accommodating this control circuit, and the lateral wall of this radiator structure is provided with a radiating fin, and this male seat joint is arranged at this end of this radiator structure, and this LED lamp source group and this lampshade all are arranged at this other end of this radiator structure.

6. lighting device as claimed in claim 4 is characterized in that, this bulb lampshade is at least any one in a diamond type cover body, a column type cover body or the ball-type cover body.

7. lighting device as claimed in claim 3, it is characterized in that, this induction type LED fluorescent tube comprises a lamp tube body, and as the usefulness of this illumination body, and this lamp tube body comprises one or two lamp holder, the round tube shell body of a non-sealing, a LED lamp source group and a fluorescent tube lampshade more at least; Wherein, this two lamp holder is arranged at the both ends of the round tube shell body of this non-sealing, and this LED lamp source group and this fluorescent tube lampshade all are incorporated into the opening part of the round tube shell body of this non-sealing, and this fluorescent tube lampshade is established this LED lamp source group.

8. LED lighting device as claimed in claim 7, it is characterized in that, the round tube shell body of this non-sealing is the round radiator structure of a non-sealing, the lateral wall of the round radiator structure of this non-sealing is provided with a radiating fin, this two lamp holder is arranged at the both ends of the round radiator structure of this non-sealing, and this LED lamp source group and this fluorescent tube lampshade all are incorporated into the opening part of the round radiator structure of this non-sealing.

9. lighting device as claimed in claim 7 is characterized in that, this fluorescent tube lampshade is at least a PVC fluorescent tube lampshade, and itself and this round tube shell body of non-sealing is combined into the round lamp tube body of a sealing.

10. lighting device as claimed in claim 3, it is characterized in that, but this Induction lamp be at least this induction type ceiling lighting, this induction type Garden luminaire, this sprayable induction type portable lamp or should the induction type portable lamp of humidification in any one the time, this lamp source is one to comprise the LED lamp source group of a plurality of LED crystal grain, or this lamp source is a crow lamp source group or a fluorescent lamp source group.

11. such as each the described lighting device in the claim 4,7 and 10; it is characterized in that; this LED lamp source group is one to comprise the LED lamp source group of a plurality of LED crystal grain; and the colour temperature of each crystal grain in those LED crystal grain or brightness or chroma can be all identical person, or wherein the colour temperature of part crystal grain or brightness or chroma belong to not identical person mutually with another part crystal grain at least.

12. lighting device as claimed in claim 2 is characterized in that, this sensing element is a passive type human body infrared induction element, or is a microwave induced element.

13. lighting device as claimed in claim 1, it is characterized in that, more comprise an electromagnetic wave wireless communication module, be arranged in this illumination body, and this electromagnetic wave wireless communication module is electrically connected at this control circuit, wherein this electromagnetic wave wireless communication module is one to belong to the electromagnetic wave wireless communication module of black light wavelength coverage, and this electromagnetic wave wireless communication module can be a 313.325MHz wireless communication module at least, one 433MHz wireless communication module, one 418MHz wireless communication module, one 2.4GHz wireless communication module, one 5.8GHz wireless communication module, one 10GHz wireless communication module, one bluetooth wireless communication module, one Wi-Fi wireless communication module, one near-field communication (NFC) wireless communication module, one Z-Wave wireless communication module or be in the ZigBee wireless communication module any one; Or, more comprise an electromagnetic wave wireless communication module, be arranged in this illumination body, and this electromagnetic wave wireless communication module is electrically connected at this control circuit, wherein this electromagnetic wave wireless communication module is one to belong to the electromagnetic wave wireless communication module of visible light spectrum section.

14. lighting device as claimed in claim 1 is characterized in that, this lighting device comprises that more at least music player and/or safety monitoring device are in this illumination body; Wherein, this music player or this safety monitoring device can be electrically connected at this control circuit.

15. lighting device as claimed in claim 1 is characterized in that, this lighting device is one when being applied to outdoor lighting device, and this lighting device comprises a solar cell more at least; Wherein, this solar cell is electrically connected at this control circuit.

16. lighting device as claimed in claim 1 is characterized in that, this light arrangement for detecting is a photo resistance.

17. lighting device as claimed in claim 1, it is characterized in that, comprise that more at least one electrical storage device is electrically connected at this illumination body, wherein, when a mains supply is in a power supply state, this illumination body selectively controls this mains supply and this lamp source is given in any one power supply wherein of this at least one electrical storage device, and when this mains supply was in an off-position, this lamp source was given in this at least one electrical storage device power supply.

18. a lighting device is characterized in that, comprising:

The first lighting device comprises the first lamp source, a first communication module, a light modulation time schedule controller, a smooth arrangement for detecting and a first control circuit that is electrically connected at this first lamp source, this first communication module, this light modulation time schedule controller and this light arrangement for detecting; And

The second lighting device, a second control circuit that comprises one second lamp source, a second communication module and be electrically connected at this second lamp source, this second communication module;

Wherein, this light modulation time schedule controller is coupled to this first control circuit, and this light modulation time schedule controller is in order to produce a conducting dim signal and a cut-off dim signal, one conduction period of corresponding generation when this conducting dim signal is sent to this control circuit, and it is shinny to make this lamp come from this conduction period; When this cut-off dim signal is sent to this control circuit between corresponding one off period of generation, and this lamp was come between this off period extinguish;

Wherein, be shorter than the time that human visual persists between this off period, and this light arrangement for detecting is when detecting to such an extent that be different from a preset value to this ambient light intensity between this off period the time, this light modulation time schedule controller is controlled this lamp source.

19. lighting device as claimed in claim 18 is characterized in that, this first lighting device more comprises one first sensing element, and in order to responding to a movement of objects, and this sensing element is electrically connected at this first control circuit; Wherein, the environment induction result in response to this first sensing element sets up a communication channel between this first communication module and the second communication module, in order to do the light and shade function in this first lamp source of control and/or this second lamp source.

20. lighting device as claimed in claim 19, it is characterized in that, this first lighting device is one to have the lighting device of master control function, this second lighting device is one to have the lighting device of function controlled, so that this first lighting device can be in response to this environment induction result the light and shade function in this first lamp source of ACTIVE CONTROL, and make this second lighting device passive in response to from a control instruction of this first lighting device and control the light and shade function in this second lamp source.

21. such as each the described lighting device in claim 19 and 20, it is characterized in that, this second lighting device more comprises one second sensing element, in order in response to this environment induction result, and make and set up this communication channel between this first communication module and the second communication module, in order to do the light and shade function of this first lamp source group of control and/or this second lamp source group.

22. lighting device as claimed in claim 21, it is characterized in that, this first lighting device and this second lighting device are all with the lighting device of master control function and controlled function, so that can automatically perform and control in response to an illumination control program light and shade function of this first lamp source group and/or this second lamp source group between those lighting devices.

23. lighting device as claimed in claim 21 is characterized in that, any one in this first sensing element and the second sensing element is passive type human body infrared induction element, or is microwave induced element.

24. lighting device as claimed in claim 21, it is characterized in that, in this first lighting device and this second lighting device any one is at least any one in an induction type LED bulb, an induction type LED fluorescent tube, an Induction lamp or the induction type portable lamp; Wherein, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification.

25. lighting device as claimed in claim 19, it is characterized in that, in this first communication module and this second communication module any one, be all the electromagnetic wave wireless communication module that belongs to the black light wavelength coverage, and arbitrary electromagnetic wave wireless communication module can be a 313.325MHz wireless communication module at least, one 433MHz wireless communication module, one 418MHz wireless communication module, one 2.4GHz wireless communication module, one 5.8GHz wireless communication module, one 10GHz wireless communication module, one bluetooth wireless communication module, one Wi-Fi wireless communication module, one near-field communication wireless communication module, one Z-Wave wireless communication module or be in the ZigBee wireless communication module any one; Or wherein any one in this first communication module and this second communication module is all the electromagnetic wave wireless communication module that belongs to the visible light spectrum section; Or, one of them person in this first communication module and this second communication module wherein, be one to belong to the electromagnetic wave wireless communication module of black light wavelength coverage, and wherein another one in this first communication module and this second communication module is for belonging to the electromagnetic wave wireless communication module of visible light spectrum section.

26. lighting device as claimed in claim 19 is characterized in that, at least one in this first lighting device and this second lighting device comprises that more in music player, safety monitoring device and/or the solar cell at least one is arranged at wherein.

27. lighting device as claimed in claim 18 is characterized in that, this light arrangement for detecting is a photo resistance.

28. a control method that is applied to lighting device is characterized in that, comprises the following steps: at least

(a) provide illumination body, a light modulation time schedule controller and a smooth arrangement for detecting, this illumination body comprises a control circuit and a lamp source; Wherein, this lamp source, this light modulation time schedule controller and this light arrangement for detecting are electrically connected at this control circuit;

(b) start this light modulation time schedule controller and produce a conducting dim signal, one conduction period of corresponding generation when this conducting dim signal is sent to this control circuit, and it is shinny to make this lamp come from this conduction period;

(c) start this light modulation time schedule controller and produce a cut-off dim signal, when this cut-off dim signal is sent to this control circuit between corresponding one off period of generation, and this lamp was come between this off period extinguish, wherein, be shorter than the time that human visual persists between this off period; And

(d) make this light arrangement for detecting between this off period, detect an ambient light intensity, when detecting to such an extent that be different from a preset value to this ambient light intensity, this lamp source of the corresponding control of this light modulation time schedule controller.

29. the control method that is applied to lighting device as claimed in claim 28 is characterized in that, more comprises in step (d):

(d1) when this light arrangement for detecting was detected to such an extent that be lower than this preset value to this ambient light intensity, corresponding transmission one first luminance signal of this light modulation time schedule controller was to this control circuit, to lighten or to keep this lamp source; Or

(d2) when this light arrangement for detecting was detected to such an extent that be not less than this preset value to this ambient light intensity, corresponding transmission one second luminance signal of this light modulation time schedule controller was to this control circuit, to dim this lamp source; Or

(d3) when this light arrangement for detecting was detected to such an extent that be not less than this preset value to this ambient light intensity, the corresponding transmission one of this light modulation time schedule controller was closed dim signal to this control circuit, to close this lamp source.

30. the control method that is applied to lighting device as claimed in claim 28 is characterized in that this control circuit is electrically connected at a sensing element, this sensing element is in order to responding to a movement of objects, and is arranged in this illumination body.

31. the control method that is applied to lighting device as claimed in claim 28 is characterized in that, this light arrangement for detecting is a photo resistance.

32. a lighting device is characterized in that, comprising:

The illumination body, a lamp source that comprises a control device and be electrically connected at this control device; Wherein, this control device is in order to produce between a conduction period and an off period;

The light arrangement for detecting is coupled to this control device, in order to detect an ambient light intensity; And

Sensing element, in order to respond to a movement of objects, this sensing element is electrically connected at this control device;

Wherein, be shorter than the time that human visual persists between this off period, and this light arrangement for detecting is suitable when detecting to such an extent that be different from a preset value to this ambient light intensity with between this off period the time, this control device is controlled this lamp source; And this sensing element can be responded to such an extent that cause this movement of objects in this conduction period and deadline, so that this control device triggers this lamp source.

33. lighting device as claimed in claim 32, it is characterized in that, this control device comprises a control circuit and a light modulation time schedule controller, wherein, corresponding generation is during this conduction period when this light modulation time schedule controller produces a conducting dim signal and is sent to this control circuit, and it is shinny to make this lamp come from this conduction period; When this light modulation time schedule controller generation one cut-off dim signal is sent to this control circuit, between this off period of corresponding generation, this lamp was come between this off period extinguish.

34. lighting device as claimed in claim 32 is characterized in that, this lighting device is at least any one in an induction type LED bulb, an induction type LED fluorescent tube, an Induction lamp or the induction type portable lamp; Wherein, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification.

35. a control method that is applied to lighting device is characterized in that, comprises the following steps: at least

(a) provide illumination body, a smooth arrangement for detecting and a sensing element, this illumination body comprises a control device and a lamp source; Wherein, this lamp source, this light arrangement for detecting and this sensing element are electrically connected at this control device;

(b) start this control device and produce a conducting dim signal, and one conduction period of corresponding generation, it is shinny to make this lamp come from this conduction period;

(c) start this control device and produce a cut-off dim signal, and between one off period of corresponding generation, and this lamp was come between this off period extinguish, wherein, be shorter than the time that human visual persists between this off period; And

(d) make this light arrangement for detecting between this off period, detect an ambient light intensity, when detecting to such an extent that be different from a preset value to this ambient light intensity, this lamp source of the corresponding control of this control device.

36. the control method that is applied to lighting device as claimed in claim 35 is characterized in that, more comprises the steps: after step (a)

(e) when this sense element senses must be to a movement of objects, this control device triggered this lamp source.

37. the control method that is applied to lighting device as claimed in claim 35 is characterized in that, this control device comprises a control circuit and a light modulation time schedule controller, and more comprises in step (d):

(d1) when this light arrangement for detecting was detected to such an extent that be lower than this preset value to this ambient light intensity, corresponding transmission one first luminance signal of this light modulation time schedule controller was to this control circuit, to lighten or to keep this lamp source; Or

(d2) when this light arrangement for detecting was detected to such an extent that be not less than this preset value to this ambient light intensity, corresponding transmission one second luminance signal of this light modulation time schedule controller was to this control circuit, to dim this lamp source; Or

(d3) when this light arrangement for detecting was detected to such an extent that be not less than this preset value to this ambient light intensity, the corresponding transmission one of this light modulation time schedule controller was closed dim signal to this control circuit, to close this lamp source.

38. the control method that is applied to lighting device as claimed in claim 37 is characterized in that, this lighting device is at least any one in an induction type LED bulb, an induction type LED fluorescent tube, an Induction lamp or the induction type portable lamp; Wherein, this Induction lamp is at least an induction type ceiling lighting or an induction type Garden luminaire, but and this induction type portable lamp is at least a sprayable induction type portable lamp or the induction type portable lamp of a humidification.

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