CN104768274A - Illumination equipment - Google Patents

Abstract

The invention provides illumination equipment which comprises at least one induction or/and control device, multiple control and drive circuits and multiple LED light sources, signals detected or provided by the induction or/and control device are provided for the control and drive circuits independent from each other, and the LED light sources independent from each other are controlled by the control and drive circuits respectively. Thus, the aim of intelligent illumination is achieved.

Description

Lighting apparatus

Technical field

The present invention is about a kind of technical field of lighting apparatus, and especially relating to a kind of take light-emitting diode as the field of the lighting apparatus of light source.

Background technology

In the last few years, light-emitting diode was widely used in lighting apparatus, and had the trend increased year by year.Secondly, lighting apparatus is also often suggested discussion in energy subject under discussion, especially about Energy Saving Control one of means solving energy resource consumption especially of lighting apparatus.

U.S. Patent number 5,598, the Energy Saving Control of a kind of quartz halogen lamp of 066 exposure, utilizes the signal of optical inductor and motion sensor, the brightness performance that the non-fully controlling single quartz halogen lamp by the full half-wave of alternating current is gone out, and reaches energy-conservation object.U.S. Patent number 5,747,937 Energy Saving Controls also disclosing a kind of quartz halogen lamp, with the signal of optical inductor and motion sensor, and add the brightness performance that the non-fully that manual mode controls single quartz halogen lamp is gone out.Above-mentioned patent all controls the brightness of illumination performance in single lamp source by alternating current, this type of control mode is unsuitable for light-emitting diode, and utilizes the single driving of configuration and control circuit, the optimized illumination Based Intelligent Control of real difficult meaning.

Summary of the invention

One of the technical problem to be solved in the present invention is, for prior art above shortcomings, provides a kind of lighting apparatus, and the LED source of configuration performance independent of one another, can reach the elasticity of intelligent lighting controls.

One of the technical problem to be solved in the present invention is, for prior art above shortcomings, a kind of lighting apparatus is provided, configures separate and the control that do not controlled each other and drive circuit to each LED source, elasticity and the diversity of intelligent lighting controls can be reached.

One of the technical problem to be solved in the present invention is, for prior art above shortcomings, a kind of lighting apparatus is provided, configures the detection signal of multiple induction installation as the signal controlled and drive circuit output control illumination shows, finer illumination performance control can be reached.

One of the technical problem to be solved in the present invention is, for prior art above shortcomings, a kind of lighting apparatus is provided, configure the detection signal of multiple induction or other control device, can separately or comprehensively be used as controlling and drive circuit exports the signal controlling illumination performance by other detection signal.

The technical solution adopted for the present invention to solve the technical problems is to provide a kind of lighting apparatus, and it comprises: power supply; First induction installation, it is in order to detect one first induced environment light quantity of environment residing for this lighting apparatus; First control and drive circuit, it is electrically connected this power supply and this first induction installation, and because of should the first induction installation detecting and produce one first control signal; First LED source, is electrically connected on this and first controls and drive circuit, and this first LED source is controlled by the first control signal and entirely bright and entirely go out to switch between two states and show; Second induction installation, it is in order to the relative movement of detecting relative to this lighting apparatus; Second controls and drive circuit, and it is electrically connected this power supply and this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; Wherein, this first control and drive circuit and this second control and drive circuit separate and do not controlled each other; And second LED source, be electrically connected on this and second control and drive circuit, this second LED source is controlled by this second control signal and entirely bright and entirely switch between dark two states and show.

Preferably, this first control and drive circuit and this second to control and any one in drive circuit at least comprises a power drives and dimming unit and a micro-processing and control element (PCE) (MCU).

Preferably, this first control and drive circuit and this second to control and any one in drive circuit at least also comprises detecting unit of turning off the light.

Preferably, this lighting apparatus also comprises the 3rd induction installation, it is electrically connected this and second controls and drive circuit and detect one second induced environment light quantity of environment residing for the 3rd induction installation, this second control and drive circuit because of should the 3rd induction installation detecting and produce one the 3rd control signal, wherein, this second induced environment light quantity comprise this first induced environment light quantity and this first LED source show both one of at least; This second LED source is controlled by the 3rd control signal and further entirely bright and entirely switch between dark two states and show.

The present invention also provides a kind of lighting apparatus, and it comprises: the first induction installation, and it detects one first induced environment light quantity of environment residing for this lighting apparatus; First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal; First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show; Second induction installation, its detecting is relative to a relative movement of this lighting apparatus; Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; 3rd induction installation, it is electrically connected this and second controls and drive circuit and detect one second induced environment light quantity of environment residing for the 3rd induction installation, this second control and drive circuit because of should the 3rd induction installation detecting and produce one the 3rd control signal, wherein, this second induced environment light quantity comprise this first induced environment light quantity and this first LED source show both one of at least; And second LED source, it is controlled by this second control signal and the 3rd both control signals one of at least and entirely bright and entirely switch between dark two states and show.

The present invention also provides a kind of lighting apparatus, and it comprises: the first induction installation, and it detects an induced environment light quantity of environment residing for this lighting apparatus; First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal; First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show; Second induction installation, its detecting is relative to a relative movement of this lighting apparatus; Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; And second LED source, it is at least controlled by this second control signal and entirely bright and entirely switch between dark two states and show, wherein, when this second LED source of the complete dark state of performance is in time receiving this second control signal and be in an induction mobile status, this second LED source also because the complete bright status and appearance of the first LED source and this first control signal being in an induction opening one of at least, just switches to complete bright status and appearance.

The present invention also provides a kind of lighting apparatus, and it comprises: the first induction installation, and it detects an induced environment light quantity of environment residing for this lighting apparatus; First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal; First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show; Second induction installation, its detecting is relative to a relative movement of this lighting apparatus; Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; Non-photoinduction control device, it is electrically connected this second control and drive circuit, and provides a non-photoinduction control signal, to make this second control and drive circuit because non-photoinduction control signal producing one the 3rd control signal; And second LED source, it is controlled by this second control signal and the 3rd both control signals one of at least and entirely bright and entirely switch between dark two states and show.

Preferably, this non-photoinduction control device is also electrically connected this first control and drive circuit, and this non-photoinduction control signal is provided, with make this first control and drive circuit because of should non-photoinduction control signal and produce one the 4th control signal, and and then this first LED source making to be controlled by this first control signal because of should the 4th control signal, entirely bright and entirely switch between dark two states and show.

Preferably, this non-photoinduction control device is lighting hours control device or decibel device (decibelmeter), and this non-photoinduction control signal is time control signal or decibel control signal; Wherein, this lighting hours control device is timer (timer).

Preferably, this non-photoinduction control device is electronic switch, mechanical switch, electromechanical integration switch or condenser type or resistance-type or semiconductor-type contact panel or touch switch, and this non-photoinduction control signal is hand switch signal.

Preferably, this non-photoinduction control signal for by an amplitude modulation (AM) signal, a frequency modulation (FM) signal or an action wireless communication signals the temporal information that captures out.

The present invention also provides a kind of lighting apparatus, and it comprises: lighting hours control device, provides a time control signal; First controls and drive circuit, and it is electrically connected this lighting hours control device, and because of should time control signal and produce one first control signal; First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show; First induction installation, its detecting is relative to a relative movement of this lighting apparatus; Second controls and drive circuit, and it is electrically connected this first induction installation, and at least because this relative movement should be detected and produce one second control signal by the first induction installation; And second LED source, it is controlled by this second control signal and entirely bright and entirely switch between dark two states and show.

Preferably, this lighting apparatus also comprises non-photoinduction control device, this non-photoinduction control device is electrically connected this second control and drive circuit, and non-photoinduction control signal is provided, with make this second control and drive circuit because of should non-photoinduction control signal and produce one the 3rd control signal, and and then this second LED source making to be controlled by this second control signal because of should the 3rd control signal, entirely bright and entirely switch between dark two states and show.

Preferably, this lighting apparatus also comprises the second induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus, and be electrically connected this first control and drive circuit, with make this first control and drive circuit because of should the second induction installation detecting and produce one the 4th control signal, and and then this first LED source making to be controlled by this first control signal because of should the 4th control signal, entirely bright and entirely switch between dark two states and show.

Preferably, this lighting apparatus also comprises the second induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus, and be electrically connected this second control and drive circuit, with make this second control and drive circuit because of should the second induction installation detecting and produce one the 3rd control signal, and and then this second LED source making to be controlled by this second control signal because of should the 3rd control signal, entirely bright and entirely switch between dark two states and show.

Preferably, this lighting hours control device is timer (timer), and this time control signal produced by this timer.

Preferably, this time control signal produced by a timer, or for by an amplitude modulation (AM) signal, a frequency modulation (FM) signal or an action wireless communication signals the temporal information that captures out.

The present invention also provides a kind of lighting apparatus, and it comprises: lighting hours control device, provides a time control signal; First controls and drive circuit, and it is electrically connected this lighting hours control device, and because of should time control signal and produce one first control signal; First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show; First induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus; Second induction installation, its detecting is relative to a relative movement of this lighting apparatus; Second controls and drive circuit, and it is electrically connected on this first induction installation and this second induction installation, and at least because this induced environment light quantity should be detected and this second induction installation is detected this relative movement and produced one second control signal by the first induction installation; And second LED source, it is controlled by this second control signal and entirely bright and entirely switch between dark two states and show.

Preferably, this lighting hours control device is timer (timer), and this time control signal is produced by this timer.

Preferably, this time control signal produced by timer, or for by an amplitude modulation (AM) signal, a frequency modulation (FM) signal or an action wireless communication signals the temporal information that captures out.

The present invention also provides a kind of lighting apparatus, and it comprises: power supply; First induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus; First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal; First LED source, it is electrically connected this power supply, wherein, determines whether this power supply powers make it shinny to this first LED source by this first control signal; Second induction installation, its detecting is relative to a relative movement of this lighting apparatus; Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; And second LED source, it is electrically connected this power supply, wherein, one of at least coordinate this second control signal to decide this power supply by this first LED source and this first control signal whether to power and make it shinny to this second LED source, when this first LED source does not have shinny, this power supply is not powered and is made it shinny to this second LED source.

The present invention also provides a kind of lighting apparatus, and it comprises: power supply; First induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus; First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal; First LED source, it is electrically connected this power supply, wherein, determines whether this power supply powers make it shinny to this first LED source by this first control signal; Second induction installation, its detecting is relative to a relative movement of this lighting apparatus; Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; Second LED source, whether it is electrically connected this power supply, wherein, one of at least coordinate this second control signal to decide this power supply power and make it shinny to this second LED source by this first LED source and this first control signal; And manual overvide, it provides a manual control signal, wherein, this manual control signal covers this first control signal and this second control signal with conducting or interrupt this Power supply to this first LED source and this second LED source.

The present invention also provides a kind of lighting apparatus, and it comprises: power supply; First induction installation, it is in order to detect one first induced environment light quantity of environment residing for this lighting apparatus; First control and drive circuit, it is electrically connected this power supply and this first induction installation, and because of should the first induction installation detecting and produce one first control signal; First LED source, is electrically connected on this and first controls and drive circuit, and this first LED source is controlled by the first control signal and entirely bright and entirely go out to switch between two states and show; Second induction installation, it is in order to the relative movement of detecting relative to this lighting apparatus; Second controls and drive circuit, and it is electrically connected this power supply and this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; And second LED source, be electrically connected on this and second control and drive circuit, this second LED source is controlled by this second control signal and entirely bright and entirely switch between dark two states and show; Wherein, this first LED source and the separate performance of this second LED source and do not affected each other.

Preferably, this first control and drive circuit and this second control and drive circuit separate and do not controlled each other.

Lighting apparatus of the present invention, comprise at least one induction or/and control device, multiple control and drive circuit and multiple LED source, induction or/and control device detecting or the signal that provides can be supplied to those can control independent of each other and drive circuit, LED source independent of each other by respective control and drive circuit in response to induction or/and control device controls, reach the object of intelligent lighting controls and performance.And the detection signal of the configurable multiple induction installation of lighting apparatus of the present invention, as the signal controlled and drive circuit output control illumination shows, can reach finer illumination performance control.In addition, the detection signal of the configurable multiple induction of lighting apparatus of the present invention or other control device, is used as controlling with separately or comprehensive other detection signal and drive circuit exports the signal controlling illumination performance.

Accompanying drawing explanation

Fig. 1 is the function block schematic diagram of the lighting apparatus of the first embodiment of the present invention.

Fig. 2 is the function block schematic diagram of the lighting apparatus of the second embodiment of the present invention.

Fig. 3 is the function block schematic diagram of the lighting apparatus of the third embodiment of the present invention.

Fig. 4 is the function block schematic diagram of the lighting apparatus of the fourth embodiment of the present invention.

Fig. 5 is the function block schematic diagram of the lighting apparatus of the fifth embodiment of the present invention.

Fig. 6 is the function block schematic diagram of the lighting apparatus of the sixth embodiment of the present invention.

Fig. 7 is the schematic appearance of an emergency lighting equipment of the present invention.

Embodiment

Lighting apparatus of the present invention, general at least comprise lamp body structure, circuit needed for lighting apparatus effect and power supply supply, application can be the lighting apparatus of various indoor or outdoor, citing but do not limit, comprises outdoor lights, ceiling light, work light, wall lamp, decorative lamp, cabinet lamp, car light etc.Wherein, in aforementioned compartment or outdoor lighting apparatus, it can by interchange, direct current or both be as power supply, to use to lighting apparatus to power.

Light source of the present invention is the luminous element based on solid state light emitter, such as light-emitting diode.The first LED source distinguished below the present invention and the second LED source, mainly contain respective control and drive circuit, the respective induction installation coordinated, but the invention is not restricted to fit system so, at least part of signal can also be had by the control shared and drive circuit or induction installation.No matter be the first LED source or the second LED source, the plural light source group that its light-emitting diode that can show (comprising colour temperature, brightness etc.) by identical or different quantity, identical or different illumination forms.That is present invention focuses on used light source, is formed by least two individual luminaires institute common combinations identical or not under the jurisdiction of each other, and each luminous element independently can carry out different illumination performances.

Secondly, lighting apparatus of the present invention mainly possesses inducing function, and utilizes inducing function to act on, and therefore, inductor and its interlock circuit are also included in lighting apparatus.Inductor of the present invention, it can be active or passive type inductor, citing but not limit, comprise visible ray inductor, invisible light inductor, motion sensor, distance-sensor (proximity sensor) or long distance-sensor (longdistance proximity sensor), environment light sensor (ambient light sensor, ALS) etc.

Non-photoinduction control device of the present invention, its mainly provide to detect with light or photoinduction action without directly related stimulation or change, or provide one to preset, fixing or variable physical values to be to export as control, illustrate but do not limit ground, such as timer (timer), decibel device (decibelmeter), electronic switch, mechanical switch, electromechanical integration switch, or condenser type or resistance-type or semiconductor-type contact panel or touch switch etc.Certainly, above-mentioned non-photoinduction control device can be the independent electronic circuit element be installed in lighting apparatus, or be by lighting apparatus beyond the non-photoinduction signal that provides of other device, citing but do not limit, comprise can for by amplitude modulation (AM) signal, frequency modulation (FM) signal or to take action in radio communication (3G, 4G or 5G) signal the temporal information that captures out etc.

Such as, moreover physical signalling of the present invention is the signal that can be detected, visible ray or invisible light signal, ripple signal, frequency signal, the signal of telecommunication, magnetic signal, pressure signal etc.

Again, control of the present invention and drive circuit, power drives and dimming unit and micro-processing and control element (PCE) (MCU) etc. can be comprised, it can for circuit entity being separated or being integrated on same or different circuit boards, or be single or multiple chip on entity on same circuit board, but the invention is not restricted to aforesaid way, also can according to needs, outer or be arranged at circuit at a distance in conjunction with lighting apparatus.Wherein, the embodiment of power drives and dimming unit or micro-processing and control element (PCE) in control of the present invention and drive circuit, the various different practice can be had in response to whether using transformer in described control and drive circuit, citing but do not limit, its power supply process can adopt the modes such as isolated power supply or non-isolated power supply to implement; And control the light modulation action of light-emitting diode, then can apply elementary or input stage light modulation, secondary or output stage light modulation, or the various different execution mode of linear constant current light modulation etc.; Again, micro-processing and control element (PCE) can have elementary or input stage high pressure power taking, or the Implementation Modes that secondary or output stage low pressure power taking etc. is different.

In addition, control of the present invention and drive circuit more can comprise and have one of the measuring ability that realizes turning off the light and to turn off the light detecting unit, in order to the characteristic persisted with human visual, temporarily turn off the lamp source of lighting apparatus, and carry out the detection of ambient light under human eye can not be allowed to perceive the prerequisite of aforementioned action of turning off the light; Wherein, the mode of measuring ability of turning off the light described in realization, can also have elementary or input stage to turn off the light detection, or secondary or output stage is turned off the light and to be detected etc. different implementation methods, and not as limit.

Fig. 1 is the function block schematic diagram of the lighting apparatus of the first embodiment of the present invention.With reference to Fig. 1, lighting apparatus 1 comprises power supply 10, first induction installation 12, second induction installation 14, first and to control and drive circuit 16, second controls and drive circuit 18, first LED source 11 and the second LED source 13.Power supply 10 is connected with general electric main or extends, coordinate the transforming circuit or process that are applicable to, direct current can be provided for the use of subsequent conditioning circuit, and power supply 10 can comprise transforming circuit, or transforming circuit is included in the first control and drive circuit 16 or second controls and in drive circuit 18.In the first embodiment, provide output 101,103 to the use of follow-up circuit by power supply 10.

Secondly, one first induced environment light quantity of environment residing for lighting apparatus 1 detected by first induction installation 12, it at least comprises an inductor 122 and its circuit for detecting 124, wherein, after inductor 122 receives or sense the extraneous stimulation as the first induced environment light quantity or change 121, the physical signalling of the stimulation of corresponding first induced environment light quantity or change 121 is sent in circuit for detecting 124 and processes to export one first detection signal 123.In the first embodiment, inductor 122 comprises an environment light sensor, and when lighting apparatus 1 is an indoor device, inductor 122 induction arranges the surround lighting around the position of lighting apparatus 1, such as parlor, bedroom or courtyard etc.; If lighting apparatus 1 is an outdoor installation, then may be the other or park of garden, road etc. around the position that lighting apparatus 1 is set.

Again, the relative movement relative to lighting apparatus 1 detected by the second induction installation 14, and it at least comprises an inductor 142 and its circuit for detecting 144.Similar first induction installation 12, after inductor 142 receives or senses the change 141 of a relative movement, change 141 is sent in circuit for detecting 144 and processes to export one second detection signal 143.In the first embodiment, inductor 142 comprises a motion sensor (motionsensor), when lighting apparatus 1 remains static, if there is a mobile object, such as one people walked about, when entering the induction range of inductor 142, then inductor 142 can inducing moving objects relative to the relative movement of static lighting apparatus 1, and then the change 141 of this relative movement is sent in circuit for detecting 144 and processes.The mode that another kind of relative movement produces is that when object is inactive state, and when lighting apparatus 1 is moved, then inductor 142 can also respond to the relative movement of this kind, the change 141 of this type of movement is sent in circuit for detecting 144 and processes.

Be noted that, the electric power needed for start of the first induction installation 12 or the second induction installation 14 can be provided by power supply 10, or first induction installation 12 or the second induction installation 14 be equipped with separately independent of the electrical storage device of power supply 10, DC plant or solar energy equipment (figure does not paint), but to the present invention is not limited thereto.

On the one hand, the output 101,103 of the first control and drive circuit 16 electric connection of power supply 10, and electrical connection the first induction installation 12, receive the first detection signal 123 from the first induction installation 12, and then produce one first control signal 163 in response to the detecting of the first induction installation 12.In the first embodiment, first controls and drive circuit 16 at least comprises a power drives and dimming unit 162 and a micro-processing and control element (PCE) 164, from the first detection signal 123 of the first induction installation 12 at least by after the process of power drives and dimming unit 162 and micro-processing and control element (PCE) 164, produce and can control the first LED source 11 luminescence whether the first control signal 163.To detect the inductor 122 of surround lighting, after power drives and dimming unit 162 process the first detection signal 123, micro-processing and control element (PCE) 164 compares the brightness value representated by detection signal by a default brightness value (Lux) that maybe can set.When the brightness value representated by detection signal is less than the brightness value preset or set, the first control and drive circuit 16 produce and require the first LED source 11 to keep or switch first control signal 163 of helping bright status and appearance; Otherwise then the first control signal 163 requires that the first LED source 11 keeps or switch helping the status and appearance that goes out, but the present invention is not limited thereto, and is described in detail later.

On the other hand, the output 101,103 of the second control and drive circuit 18 electric connection of power supply 10, and electrical connection the second induction installation 14, receive the second detection signal 143 from the second induction installation 14, and then detect above-mentioned relative movement in response to the second induction installation 14 and produce one second control signal 183.Similar first controls and drive circuit 16, and second controls and drive circuit 18 at least comprises the micro-processing and control element (PCE) 184 of another power drives and dimming unit 182 and another.To respond to the inductor 142 of movement, micro-processing and control element (PCE) 184 can preset the movement value that maybe can set as a threshold value by one, and then exports and require the second LED source 13 bright or status and appearance that entirely goes out entirely, but the present invention is not limited thereto.Be noted that, in a first embodiment, first controls and drive circuit 16 and second controls and drive circuit 18 is separate and do not controlled each other, therefore determine the first controlled LED source 11 and the status and appearance of the second LED source 13 independently with the first detection signal 123 received and the second detection signal 143 separately, but the present invention is also not limited thereto.

Moreover, first LED source 11 and the second LED source 13 can comprise one or more light-emitting diode respectively, wherein, the multiple light-emitting diodes included by the first LED source 11 can have the illumination performances such as identical or different colour temperature, brightness; In like manner, the second LED source 13 is also in this way.Be noted that, for arbitrary light-emitting diode, it only has all lights on and all lights off two state, when the first LED source 11 or the second LED source 13 only comprise single light-emitting diode, then so-called first LED source 11 or the second LED source 13 are entirely bright and entirely go out to switch between two states and show, and refer to all lights on and all lights off two status and appearance of this affiliated single light-emitting diode.When the first LED source 11 or the second LED source 13 comprise multiple light-emitting diode, then so-called first LED source 11 or the second LED source 13 are entirely bright and entirely go out to switch between two states and show, refer to all lights on and all lights off two status and appearance of affiliated arbitrary single light-emitting diode, light-emitting diode number that is bright or performance of entirely going out then can set further or adjust entirely.

Fig. 2 is the function block schematic diagram of the lighting apparatus of the second embodiment of the present invention.Compared to the lighting apparatus 1 of the first embodiment, except all devices in lighting apparatus 1, lighting apparatus 2 more comprises one the 3rd induction installation 24, one second induced environment light quantity of environment residing for the 3rd induction installation 24 detected by 3rd induction installation 24, this second induced environment light quantity can comprise the first induced environment light quantity and the first LED source 11 show both one of at least.3rd induction installation 24 is also electrically connected second and controls and drive circuit 18, the inductor 242 of the 3rd induction installation 24 receives or senses as after the stimulation of the second induced environment light quantity or change 241, is sent in circuit for detecting 244 by the physical signalling of the stimulation of corresponding second induced environment light quantity or change 241 and processes to export one the 3rd detection signal 243 to the second control and drive circuit 18.

Further illustrate, second induced environment light quantity can be identical with the first induced environment light quantity, namely residing for the 3rd induction installation 24, environment is identical with the first induction installation 12, but can select, environment residing for 3rd induction installation 24 can also be one by the space separated, or be arranged near the first LED source 11, make environment residing for the 3rd induction installation 24 and whole lighting apparatus 2 different.Be with, owing to adding the 3rd detection signal 243 that the 3rd induction installation 24 provides, therefore second controls and the detecting of integration second induction installation 14 and the 3rd induction installation 24 is exported second and the 3rd control signal 283 by drive circuit 18, make the second LED source 13 second and the 3rd control signal 283 control under entirely bright and entirely switch between dark two states and show.Arrangement so, the illumination of the second LED source 13 is showed can in response to more environmental change, and can achieve lighting apparatus 2 is an Intelligent illumination device.

Fig. 3 is the function block schematic diagram of the lighting apparatus of the third embodiment of the present invention.Compared to the lighting apparatus 2 of the second embodiment, the lighting apparatus 3 of the 3rd embodiment replaces the 3rd induction installation 24 in lighting apparatus 2 with non-photoinduction control device 34, its electrical connection second controls and drive circuit 18, and non-photoinduction control device 34 can accept extraneous signal 341 or non-photoinduction control device 34 built-in preset the value or value scope that maybe can set, and a non-photoinduction control signal 343 of output corresponding signal 341 or interior built-in value or value scope gives the second control and drive circuit 18.Be with, second controls and the detecting of the detecting of integration second induction installation 14 and non-photoinduction control device 34 or setting are exported second and the 3rd control signal 383 by drive circuit 18, make the second LED source 13 second and the 3rd control signal 383 control under entirely bright and entirely switch between dark two states and show.Certainly, first controls and drive circuit 16 still can the output 101,103 of electric connection of power supply 10, and electrical connection the first induction installation 12, receive the first detection signal 123 from the first induction installation 12, and then produce one first control signal 163 in response to the detecting of the first induction installation 12.

In the 3rd embodiment, non-photoinduction control device 34 can be a timer, it can set hours of daylight value range and/or night hours value range, the non-photoinduction control signal 343 then exporting the second control and drive circuit 18 to can be control signal between a period of time, the illumination of the second LED source 13 performance is made to be subject to the control of time factor and to show further, but the invention is not restricted to above-mentioned, the signal 341 in the external world also can be voltage/current signals corresponding to the first LED source 11 illumination performance etc.

In addition, lighting apparatus 3 is if any when adding manual manipulation pattern, and signal 341 also can be belong to the manual control signal from manual operation switch; Wherein, manual control signal can cover the first control signal 163 and second and the 3rd control signal 383 with constant conduction or interrupt power supply 10 immediately and power at least one in the first LED source 11 and this second LED source 13.Certainly, the embodiment of manual manipulation pattern, can be applied depending on actual illumination by those of ordinary skill in the art, namely repeat no more at this.

Fig. 4 is the function block schematic diagram of the lighting apparatus of the fourth embodiment of the present invention.Compared to the non-photoinduction control signal 443 that the non-photoinduction control device 44 of the lighting apparatus 4 of lighting apparatus the 3, four embodiment of the 3rd embodiment provides, its electrical connection first controls and drive circuit 16 and second controls and drive circuit 18.Be with, first controls and drive circuit 16 integrates the detecting of the first induction installation 12 and the detecting of non-photoinduction control device 44 or setting, export again first and the 4th control signal 463 to the first LED source 11, make the first LED source 11 first and the 4th control signal 463 control under entirely bright and entirely switch between dark two states and show.Second control and drive circuit 18 by the detecting of the detecting of integration second induction installation 14 and non-photoinduction control device 44 or setting, export second and the 3rd control signal 483 again, make the second LED source 13 second and the 3rd control signal 483 control under entirely bright and entirely switch between dark two states and show.

Fig. 5 is the function block schematic diagram of the lighting apparatus of the fifth embodiment of the present invention.Compared to the lighting apparatus 4 of the 4th embodiment, the non-photoinduction control signal 543 that the non-photoinduction control device 54 of the lighting apparatus 5 of the 5th embodiment provides, its electrical connection first controls and drive circuit 16 and second controls and drive circuit 18, and, omit the first induction installation 12 and changing in the lighting apparatus 4 of the 4th embodiment and replace with non-photoinduction control device 54.

Be with, the output 101,103 of the first control and drive circuit 16 electric connection of power supply 10, and be electrically connected on non-photoinduction control device 54, to receive from the detecting of non-photoinduction control device 54 or setting, and then in response to non-photoinduction control device 54 output signal (namely, non-photoinduction control signal 543) and produce one the 3rd control signal 563 to the first LED source 11, make the first LED source 11 under the control of the 3rd control signal 563 entirely bright and entirely switch between dark two states and show.Second control and drive circuit 18 by the detecting of the detecting of integration second induction installation 14 and non-photoinduction control device 54 or setting, export second and the 3rd control signal 583 again, make the second LED source 13 second and the 3rd control signal 583 control under entirely bright and entirely switch between dark two states and show.

In the 5th embodiment, non-photoinduction control device 54 can be a timer, but not as limit; When it is aforementioned timer, hours of daylight value range and/or night hours value range can be set, then export the first control to and drive circuit 16 and second controls and the non-photoinduction control signal 543 of drive circuit 18 can be all time control signal, the control making the illumination of the first LED source 11, second LED source 13 show further to be all subject to time factor and showing.

Fig. 6 is the function block schematic diagram of the lighting apparatus of the sixth embodiment of the present invention.Compared to the lighting apparatus 2 of the second embodiment, the non-photoinduction control signal 643 that the non-photoinduction control device 64 of the lighting apparatus 6 of the 6th embodiment provides, its electrical connection first control and drive circuit 16 and, omit the first induction installation 12 in the lighting apparatus 2 of the second embodiment and change and replace with non-photoinduction control device 64.

Be with, the output 101,103 of the first control and drive circuit 16 electric connection of power supply 10, and be electrically connected on non-photoinduction control device 64, to receive from the detecting of non-photoinduction control device 64 or setting, and then in response to non-photoinduction control device 64 output (namely, non-photoinduction control signal 643) and produce one the 3rd control signal 663 to the first LED source 11, make the first LED source 11 under the control of the 3rd control signal 663 entirely bright and entirely switch between dark two states and show.Second controls and the detecting of integration second induction installation 14 and the 3rd induction installation 24 is exported second and the 3rd control signal 283 by drive circuit 18, make the second LED source 13 second and the 3rd control signal 283 control under entirely bright and entirely switch between dark two states and show.

In the 6th embodiment, non-photoinduction control device 64 can be a timer, but not as limit; When it is aforementioned timer, hours of daylight value range and/or night hours value range can be set, the non-photoinduction control signal 643 then exporting the first control and drive circuit 16 to can be control signal between a period of time, makes the illumination of the first LED source 11 performance be subject to the control of time factor and show further.

Fig. 7 is the schematic appearance of an emergency lighting equipment of the present invention.In appearance, emergency lighting equipment 7 comprises the two lamp bodies 77,79 be fixed on rotationally on lamp socket 70, and is arranged at the induction body 75 below lamp socket 70.According to the first to the 3rd embodiment, comprise power supply, first and second controls and drive circuit can be arranged in lamp socket 70, or first and second controls and drive circuit also can be arranged in induction body 75 together with first and second induction installation.Moreover the multiple light-emitting diodes 73 ranging the first LED source can be arranged on lamp body 77,79 respectively, and the light-emitting diode 71 ranging the second LED source also can be arranged on lamp body 77,79 respectively.

According to above-mentioned, light-emitting diode 73 can in response to surround lighting, entirely go out by day, entirely bright and as the use of a mini light night or security warning at night, light-emitting diode 71 can just startup be entirely bright to save the energy in responding to when body 75 senses human motion, explanation is enumerated below by with regard to the intelligent lighting performance under various situation, but not as limit.

Security warning pattern one:

In wherein, the drived control mode of the first LED source is as follows:

First induced environment light quantity of environment residing for the first induction installation induction lighting device, and detection signal is supplied to the first control and drive circuit.When first control and drive circuit judge the first induced environment light quantity higher than a setting illumination, export the control signal of " lamp goes out entirely " to the first LED source.The first LED source being in state of entirely going out before receiving the control signal of " lamp goes out entirely " can keep the status and appearance that entirely goes out, and before receiving the control signal of " lamp goes out entirely ", be in the first LED source of complete bright state, then switch to the status and appearance that entirely goes out.

In wherein, the drived control mode of the second LED source is as follows:

When having people or object to move near lighting apparatus, after the second induction installation induction, detection signal is supplied to the second control and drive circuit.Second controls and exports the control signal of " having people " to the second LED source after drive circuit judgement.

Second LED source of entirely going out is in before receiving the control signal of " having people ", it can be directly switch into complete bright status and appearance and maintain a period of time until receive next control signal, or switch to state of entirely going out after being directly switch into complete bright status and appearance a period of time, or be in second LED source of entirely going out before being the control signal of reception " having people ", second control and drive circuit, when the first induced environment light quantity of environment residing for the first induction installation induction lighting device is higher than a setting illumination, still keep state of entirely going out.

The second entirely bright LED source is in before receiving the control signal of " having people ", it can keep complete bright status and appearance and maintain a period of time until receive next control signal, or switch to complete bright state after switching to status and appearance a period of time of entirely going out, or be in the second entirely bright LED source before being the control signal of reception " having people ", second control and drive circuit, when the first induced environment light quantity of environment residing for the first induction installation induction lighting device is higher than a setting illumination, switch to state of entirely going out.

Security warning pattern two:

In wherein, the drived control mode of the first LED source is as follows:

First induced environment light quantity of environment residing for the first induction installation induction lighting device, and detection signal is supplied to the first control and drive circuit.When first control and drive circuit judge the first induced environment light quantity lower than a setting illumination, export the control signal of " lamp is entirely bright " to the first LED source.The first LED source of state of entirely going out is in before receiving the control signal of " lamp is entirely bright ", switch to complete bright status and appearance until receive next control signal, or the first LED source being in complete bright state then also can keep complete bright status and appearance until receive next control signal.

In wherein, the drived control mode of the second LED source is as follows:

When having people or object to move near lighting apparatus, after the second induction installation induction, detection signal is supplied to the second control and drive circuit.Second controls and exports the control signal of " having people " to the second LED source after drive circuit judgement.

Second LED source of entirely going out is in before receiving the control signal of " having people ", it can be directly switch into complete bright status and appearance and maintain a period of time until receive next control signal, or switch to state of entirely going out after being directly switch into complete bright status and appearance a period of time, or be in second LED source of entirely going out before being the control signal of reception " having people ", second control and drive circuit are when the first induced environment light quantity of environment residing for the first induction installation induction lighting device is lower than a setting illumination, switch to complete bright status and appearance and maintain a period of time until receive next control signal, or switch to state of entirely going out after switching to complete bright status and appearance a period of time.

The second entirely bright LED source is in before receiving the control signal of " having people ", it directly can keep complete bright status and appearance and maintain a period of time until receive next control signal, or switch to complete bright state after being directly switch into status and appearance a period of time of entirely going out, or be in the second entirely bright LED source before being the control signal of reception " having people ", second control and drive circuit are when the first induced environment light quantity of environment residing for the first induction installation induction lighting device is lower than a setting illumination, switch to complete bright status and appearance and maintain a period of time until receive next control signal, or switch to complete bright state after switching to status and appearance a period of time of entirely going out.

Security warning pattern three:

In wherein, the drived control mode of the first LED source is as follows:

First induced environment light quantity of environment residing for the first induction installation induction lighting device, and detection signal is supplied to the first control and drive circuit.When first control and drive circuit judge the first induced environment light quantity higher or lower than a setting illumination, export the control signal of " lamp goes out entirely " or " lamp is entirely bright " respectively to the first LED source.The first LED source being in state of entirely going out before receiving the control signal of " lamp goes out entirely " can keep the status and appearance that entirely goes out, and before receiving the control signal of " lamp goes out entirely ", be in the first LED source of complete bright state, then switch to the status and appearance that entirely goes out; In addition, the first LED source of state of entirely going out is in before receiving the control signal of " lamp is entirely bright ", switch to complete bright status and appearance until receive next control signal, or the first LED source being in complete bright state then also can keep complete bright status and appearance until receive next control signal.

In wherein, the drived control mode of the second LED source is as follows:

Add the second induced environment light quantity residing for the 3rd induction installation induction, when having people or object to move near lighting apparatus, the second induction installation and the 3rd induction installation all provide detection signal to control and drive circuit to second.When second control and drive circuit judge the second induced environment light quantity higher or lower than a setting illumination, export the control signal of " high illumination has people " or " low-light (level) has people " respectively to the second LED source, or be comprehensive descision first induced environment light quantity and the second induced environment light quantity, during with the integrated sensor cable amount of ambient light of environment residing for Comprehensive affirming lighting apparatus higher or lower than a setting illumination, export the control signal of " high illumination has people " or " low-light (level) has people " respectively to the second LED source.

In wherein, be in the second LED source of state of entirely going out before receiving the control signal of " high illumination has people ", it can be switch to state of entirely going out after switching to complete bright status and appearance a period of time, or continues to keep original state of entirely going out;

Being in the second LED source of complete bright state before receiving the control signal of " high illumination has people ", then can be switch to state of entirely going out;

The second LED source of state of entirely going out is in before receiving the control signal of " low-light (level) has people ", it can switch to complete bright status and appearance and maintain a period of time until receive next control signal, or switch to state of entirely going out after switching to complete bright status and appearance a period of time, or the second LED source still keeps because being disabled (disable) state of entirely going out; And

Being in the second LED source of complete bright state before receiving the control signal of " low-light (level) has people ", then can be keep complete bright state.

Security warning pattern four:

In wherein, the drived control mode of the first LED source is as follows:

First induced environment light quantity of environment residing for the first induction installation induction lighting device, and detection signal is supplied to the first control and drive circuit.When first control and drive circuit judge the first induced environment light quantity higher or lower than a setting illumination, to export the control signal of " lamp goes out entirely " or " lamp is entirely bright " respectively to the first LED source.The first LED source being in state of entirely going out before receiving the control signal of " lamp goes out entirely " can keep the status and appearance that entirely goes out, and before receiving the control signal of " lamp goes out entirely ", be in the first LED source of complete bright state, then switch to the status and appearance that entirely goes out; In addition, the first LED source of state of entirely going out is in before receiving the control signal of " lamp is entirely bright ", switch to complete bright status and appearance until receive next control signal, or the first LED source being in complete bright state then also can keep complete bright status and appearance until receive next control signal.

In wherein, the drived control mode of the second LED source is as follows:

Add the control signal that other non-photoinduction control device provides, the hours of daylight that a such as timer provides or night hours, when having people or object to move near lighting apparatus, the second induction installation and timer provide detection signal and control signal to control and drive circuit to second respectively.After second control and drive circuit judge aforementioned detection signal and control signal, the control signal of exportable " there is people the hours of daylight " or " night hours has people " gives the second LED source, or be after the aforementioned first induced environment light quantity of comprehensive descision and aforementioned detection signal and control signal, during with the integrated sensor cable amount of ambient light of environment residing for Comprehensive affirming lighting apparatus higher or lower than a setting illumination, export the control signal of " there is people the hours of daylight " or " night hours has people " respectively to the second LED source.

Be in the second LED source of state of entirely going out before receiving the control signal of " there is people the hours of daylight ", it can be switch to state of entirely going out after switching to complete bright status and appearance a period of time, or continues to keep original state of entirely going out.

Being in the second LED source of complete bright state before receiving the control signal of " there is people the hours of daylight ", then can be switch to state of entirely going out.

The second LED source of state of entirely going out is in before receiving the control signal of " night hours has people ", it can switch to complete bright status and appearance and maintain a period of time until receive next control signal, or switch to state of entirely going out after switching to complete bright status and appearance a period of time, or the second LED source still keeps because being disabled (disable) state of entirely going out.

Being in the second LED source of complete bright state before receiving the control signal of " night hours has people ", then can be keep complete bright state until receive next control signal.

Comprehensively above-mentioned, the invention has the advantages that, on the one hand, the separate performance of multiple LED source and not affected each other, it has its control coordinated and drive circuit respectively, and this controls and drive circuit also can be separate and do not controlled each other.On the other hand, the detection signal that multiple above induction installation provides can provide multiple control and drive circuit as the use exporting control signal respectively or jointly, increase the illumination performance control of those LED source in response to various situation, and then promote the intelligence performance of lighting apparatus.

Claims (24)

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

Power supply;

First induction installation, it is in order to detect one first induced environment light quantity of environment residing for this lighting apparatus;

First control and drive circuit, it is electrically connected this power supply and this first induction installation, and because of should the first induction installation detecting and produce one first control signal;

First LED source, is electrically connected on this and first controls and drive circuit, and this first LED source is controlled by the first control signal and entirely bright and entirely go out to switch between two states and show;

Second induction installation, it is in order to the relative movement of detecting relative to this lighting apparatus;

Second controls and drive circuit, and it is electrically connected this power supply and this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; Wherein, this first control and drive circuit and this second control and drive circuit separate and do not controlled each other; And

Second LED source, is electrically connected on this and second controls and drive circuit, and this second LED source is controlled by this second control signal and entirely bright and entirely switch between dark two states and show.

2. lighting apparatus as claimed in claim 1, is characterized in that, this first control and drive circuit and this second to control and any one in drive circuit at least comprises a power drives and dimming unit and a micro-processing and control element (PCE).

3. lighting apparatus as claimed in claim 2, is characterized in that, this first control and drive circuit and this second to control and any one in drive circuit at least also comprises detecting unit of turning off the light.

4. lighting apparatus as claimed in claim 1, it is characterized in that, this lighting apparatus also comprises the 3rd induction installation, it is electrically connected this and second controls and drive circuit and detect one second induced environment light quantity of environment residing for the 3rd induction installation, this second control and drive circuit because of should the 3rd induction installation detecting and produce one the 3rd control signal, wherein, this second induced environment light quantity comprise this first induced environment light quantity and this first LED source show both one of at least; This second LED source is controlled by the 3rd control signal and further entirely bright and entirely switch between dark two states and show.

5. a lighting apparatus, is characterized in that, comprising:

First induction installation, it detects one first induced environment light quantity of environment residing for this lighting apparatus;

First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal;

First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show;

Second induction installation, its detecting is relative to a relative movement of this lighting apparatus;

Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation;

3rd induction installation, it is electrically connected this and second controls and drive circuit and detect one second induced environment light quantity of environment residing for the 3rd induction installation, this second control and drive circuit because of should the 3rd induction installation detecting and produce one the 3rd control signal, wherein, this second induced environment light quantity comprise this first induced environment light quantity and this first LED source show both one of at least; And

Second LED source, it is controlled by this second control signal and the 3rd both control signals one of at least and entirely bright and entirely switch between dark two states and show.

6. a lighting apparatus, is characterized in that, comprising:

First induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus;

First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal;

First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show;

Second induction installation, its detecting is relative to a relative movement of this lighting apparatus;

Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; And

Second LED source, it is at least controlled by this second control signal and entirely bright and entirely switch between dark two states and show, wherein, when this second LED source of the complete dark state of performance is in time receiving this second control signal and be in an induction mobile status, this second LED source also because the complete bright status and appearance of the first LED source and this first control signal being in an induction opening one of at least, just switches to complete bright status and appearance.

7. a lighting apparatus, is characterized in that, comprising:

First induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus;

First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal;

First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show;

Second induction installation, its detecting is relative to a relative movement of this lighting apparatus;

Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation;

Non-photoinduction control device, it is electrically connected this second control and drive circuit, and provides a non-photoinduction control signal, to make this second control and drive circuit because non-photoinduction control signal producing one the 3rd control signal; And

Second LED source, it is controlled by this second control signal and the 3rd both control signals one of at least and entirely bright and entirely switch between dark two states and show.

8. lighting apparatus as claimed in claim 7, it is characterized in that, this non-photoinduction control device is also electrically connected this first control and drive circuit, and this non-photoinduction control signal is provided, with make this first control and drive circuit because of should non-photoinduction control signal and produce one the 4th control signal, and and then this first LED source making to be controlled by this first control signal because of should the 4th control signal, entirely bright and entirely switch between dark two states and show.

9. lighting apparatus as claimed in claim 7, it is characterized in that, this non-photoinduction control device is lighting hours control device or decibel device, and this non-photoinduction control signal is time control signal or decibel control signal; Wherein, this lighting hours control device is timer.

10. lighting apparatus as claimed in claim 7, it is characterized in that, this non-photoinduction control device is electronic switch, mechanical switch, electromechanical integration switch or condenser type or resistance-type or semiconductor-type contact panel or touch switch, and this non-photoinduction control signal is hand switch signal.

11. lighting apparatus as claimed in claim 7, is characterized in that, this non-photoinduction control signal for by an amplitude-modulated signal, a FM signal or an action wireless communication signals the temporal information that captures out.

12. 1 kinds of lighting apparatus, is characterized in that, comprising:

Lighting hours control device, provides a time control signal;

First controls and drive circuit, and it is electrically connected this lighting hours control device, and because of should time control signal and produce one first control signal;

First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show;

First induction installation, its detecting is relative to a relative movement of this lighting apparatus;

Second controls and drive circuit, and it is electrically connected this first induction installation, and at least because this relative movement should be detected and produce one second control signal by the first induction installation; And

Second LED source, it is controlled by this second control signal and entirely bright and entirely switch between dark two states and show.

13. lighting apparatus as claimed in claim 12, it is characterized in that, this lighting apparatus also comprises non-photoinduction control device, this non-photoinduction control device is electrically connected this second control and drive circuit, and non-photoinduction control signal is provided, with make this second control and drive circuit because of should non-photoinduction control signal and produce one the 3rd control signal, and and then this second LED source making to be controlled by this second control signal because of should the 3rd control signal, entirely bright and entirely switch between dark two states and show.

14. lighting apparatus as described in claim 12 or 13, it is characterized in that, this lighting apparatus also comprises the second induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus, and be electrically connected this first control and drive circuit, with make this first control and drive circuit because of should the second induction installation detecting and produce one the 4th control signal, and and then this first LED source making to be controlled by this first control signal because of should the 4th control signal, entirely bright and entirely switch between dark two states and show.

15. lighting apparatus as claimed in claim 12, it is characterized in that, this lighting apparatus also comprises the second induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus, and be electrically connected this second control and drive circuit, with make this second control and drive circuit because of should the second induction installation detecting and produce one the 3rd control signal, and and then this second LED source making to be controlled by this second control signal because of should the 3rd control signal, entirely bright and entirely switch between dark two states and show.

16. lighting apparatus as claimed in claim 12, it is characterized in that, this lighting hours control device is timer, and this time control signal produced by this timer.

17. lighting apparatus as claimed in claim 12, it is characterized in that, this time control signal produced by a timer, or for by an amplitude-modulated signal, a FM signal or an action wireless communication signals the temporal information that captures out.

18. 1 kinds of lighting apparatus, is characterized in that, comprising:

Lighting hours control device, provides a time control signal;

First controls and drive circuit, and it is electrically connected this lighting hours control device, and because of should time control signal and produce one first control signal;

First LED source, it is controlled by this first control signal and entirely bright and entirely go out to switch between two states and show;

First induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus;

Second induction installation, its detecting is relative to a relative movement of this lighting apparatus;

Second controls and drive circuit, and it is electrically connected on this first induction installation and this second induction installation, and at least because this induced environment light quantity should be detected and this second induction installation is detected this relative movement and produced one second control signal by the first induction installation; And

Second LED source, it is controlled by this second control signal and entirely bright and entirely switch between dark two states and show.

19. lighting apparatus as claimed in claim 18, it is characterized in that, this lighting hours control device is timer, and this time control signal is produced by this timer.

20. lighting apparatus as described in claim 18 or 19, it is characterized in that, this time control signal produced by timer, or for by an amplitude-modulated signal, a FM signal or an action wireless communication signals the temporal information that captures out.

21. 1 kinds of lighting apparatus, is characterized in that, comprising:

Power supply;

First induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus;

First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal;

First LED source, it is electrically connected this power supply, wherein, determines whether this power supply powers make it shinny to this first LED source by this first control signal;

Second induction installation, its detecting is relative to a relative movement of this lighting apparatus;

Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; And

Second LED source, it is electrically connected this power supply, wherein, one of at least coordinate this second control signal to decide this power supply by this first LED source and this first control signal whether to power and make it shinny to this second LED source, when this first LED source does not have shinny, this power supply is not powered and is made it shinny to this second LED source.

22. 1 kinds of lighting apparatus, is characterized in that, comprising:

Power supply;

First induction installation, it detects an induced environment light quantity of environment residing for this lighting apparatus;

First control and drive circuit, it is electrically connected this first induction installation, and because of should the first induction installation detecting and produce one first control signal;

First LED source, it is electrically connected this power supply, wherein, determines whether this power supply powers make it shinny to this first LED source by this first control signal;

Second induction installation, its detecting is relative to a relative movement of this lighting apparatus;

Second controls and drive circuit, and it is electrically connected this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation;

Second LED source, whether it is electrically connected this power supply, wherein, one of at least coordinate this second control signal to decide this power supply power and make it shinny to this second LED source by this first LED source and this first control signal; And

Manual overvide, it provides a manual control signal, and wherein, this manual control signal covers this first control signal and this second control signal with conducting or interrupt this Power supply to this first LED source and this second LED source.

23. 1 kinds of lighting apparatus, is characterized in that, comprising:

Power supply;

First induction installation, it is in order to detect one first induced environment light quantity of environment residing for this lighting apparatus;

First control and drive circuit, it is electrically connected this power supply and this first induction installation, and because of should the first induction installation detecting and produce one first control signal;

First LED source, is electrically connected on this and first controls and drive circuit, and this first LED source is controlled by the first control signal and entirely bright and entirely go out to switch between two states and show;

Second induction installation, it is in order to the relative movement of detecting relative to this lighting apparatus;

Second controls and drive circuit, and it is electrically connected this power supply and this second induction installation, and at least because this relative movement should be detected and produce one second control signal by the second induction installation; And

Second LED source, is electrically connected on this and second controls and drive circuit, and this second LED source is controlled by this second control signal and entirely bright and entirely switch between dark two states and show;

Wherein, this first LED source and the separate performance of this second LED source and do not affected each other.

24. lighting apparatus as claimed in claim 23, is characterized in that, this first control and drive circuit and this second control and drive circuit separate and do not controlled each other.