CN202488807U - Mixing lighting device - Google Patents

Abstract

The present utility model relates to a mixing lighting device provided with a lighting function and a situation building function. The device comprises a storage module which is provided with a plurality of mode materials inside; a plurality of luminescence modules, each luminescence module is provided with a plurality of luminescence assemblies; a plurality of light adjusting modules, wherein each light adjusting module is provided with a plurality of adjusting units for respectively controlling the luminescence assemblies of each corresponding luminescence module; an input module which comprises at least one input panel for generating a input signal; a control module which is coupled with the input module and the storage module, and the control module comprises a control unit for choosing one of the above mode materials and controlling the light adjusting modules. In the device, as the control unit for choosing one of the mode materials to control the light adjusting modules is arranged, luminescence of a first luminescence assembly and a second luminescence assembly can be controlled, thus lighting can be provided and needs of building situations of various atmosphere can be realized.

Description

A kind of hybrid lighting device

Technical field:

The utility model relates to lighting device, refers to a kind of hybrid lighting device with illumination and situation construction function especially.

Background technology:

Conventional illuminator is used for illumination mostly, lacks the effect of atmosphere construction, and does not have systematized integration between each light, and control method also only has the state of Push And Release.Therefore, can't do whole configuration for shading value, color change and the changes in temperature colour temperature of different lamps and light.

Yet; Lifting along with quality of the life; The modern needs the lighting device that can change according to atmosphere and whole for ease control and construction in lighting environment; Traditional mode of connection can't satisfy the demands, and more needs a kind of device that can integrate various light fixtures via wireless transmission method.Therefore, how,, become the important topic that this cause personage institute desire solves to promote the additional function of lighting device by the design improved of hardware device and control mode.

The utility model content:

The purpose of the utility model is to overcome the above-mentioned deficiency of existing lighting device, and a kind of hybrid lighting device that has illumination and situation construction function concurrently is provided.

The utility model realizes that the technical scheme that its purpose adopts is: a kind of hybrid lighting device, and it comprises:

One storage module has the various modes data in it;

A plurality of light emitting modules, wherein each light emitting module has a plurality of luminescence components;

A plurality of light-adjusting modules, wherein each light-adjusting module has a plurality of light modulation unit that are respectively applied for those luminescence components of each corresponding light emitting module of control;

One input module, it comprises at least one TIP that is used to produce an input signal;

One control module, it is coupled to this input module and this storage module, and this control module comprises that one selects above-mentioned wherein a kind of pattern data to control the control unit of those light-adjusting modules.

In the technique scheme, each light emitting module more comprises a circuit substrate, and those luminescence components of this light emitting module all are arranged on this circuit substrate and are electrically connected at this circuit substrate.

Each luminescence component comprises at least two first luminescence components and at least one second luminescence component.

Each first luminescence component comprises that one is arranged on this circuit substrate and is electrically connected at first substrate of this circuit substrate, at least one blue LED bare chip that is arranged on this first substrate and is electrically connected at this first substrate, and one is arranged on this first substrate to cover the fluorescent colloid of this at least one blue LED bare chip.

This at least one second luminescence component comprises that one is arranged on this circuit substrate and is electrically connected at second substrate of this circuit substrate; Be arranged on this second substrate and be electrically connected at least one red light emitting diodes bare chip of this second substrate; At least one green LED bare chip and at least one blue LED bare chip; And be arranged on this second substrate to cover this at least one red light emitting diodes bare chip; The transparent colloid of this at least one green LED bare chip and this at least one blue LED bare chip.

Each light-adjusting module comprises at least one first light modulation unit and at least one second light modulation unit that is used to control each corresponding second luminescence component that is used to control each corresponding first luminescence component.

Each light-adjusting module also comprises a plurality of constant current units, and each constant current unit is coupled to each corresponding first light modulation unit, and wherein this constant current unit is one can limit the demand limiter of output current size.

Each light-adjusting module also comprises the certain voltage unit, and it is coupled to above-mentioned at least one constant current unit, wherein should decide voltage cell be one alternating voltage to be converted to direct voltage and the transducer of the direct voltage fixed is provided.

This hybrid lighting device comprises that also one is used for the control device of wireless of this control module of controlled in wireless, wherein this control device of wireless comprise one be used to produce an input signal wireless input module, the wireless control module and that is used to receive this input signal and convert a communication signal to use a wireless communication protocol to transmit the wireless transport module of this communication signal.

This hybrid lighting device comprises that also one is coupled to this control module and uses this wireless communication protocol to receive the wireless receiving module of this communication signal.

The utility model passes through technique scheme; Can select wherein a kind of pattern data to control the control unit of a plurality of light-adjusting modules; Thereby a plurality of first luminescence components, the luminous of second luminescence component are controlled; Thereby play the needs that illumination are provided and build the situation of various atmosphere, enrich the function of lighting device, satisfy consumer demand.

Below in conjunction with specific embodiment and accompanying drawing the utility model is further specified.

Description of drawings:

Fig. 1 is the theory diagram of the hybrid lighting device of the utility model first embodiment.Fig. 2 is the schematic appearance of the hybrid lighting device of the utility model first embodiment.Fig. 3 A is the generalized section of the light emitting module of the utility model first embodiment.Fig. 3 B is the schematic top plan view of the light emitting module of the utility model first embodiment.Fig. 4 is the theory diagram of the hybrid lighting device of the utility model second embodiment.Fig. 5 is the schematic appearance of the hybrid lighting device of the utility model second embodiment.[primary clustering symbol description] hybrid lighting device 1; 2 storage modules, 10 light emitting modules, 11 circuit substrates, 114 first substrates, 1101 blue LED bare chips, 1102 fluorescent colloids, 1,103 second substrates, 1121 red light emitting diodes bare chips, 1122 green LED bare chips, 1123 blue LED bare chips, 1124 transparent colloids, 1,125 first luminescence components 110; 110-1～110-N second luminescence component 112; 112-1～112-N input module 12 TIPs 120 lamp brackets 13 control modules 14 control units 140 lamp sockets 15; 15-1～15-N decides voltage cell 16 lampshades 17; 17-1～17-N constant current unit 18-1～18-N light-adjusting module 20 first light modulation unit 200-1～200-N second light modulation unit 202-1～202-N wireless receiving module 19 control device of wireless 3 wireless control modules 30 wireless input module 32 TIPs 320 wireless transport modules 34 dimming control signal C1-1～C1-N; C2-1～C2-N

Embodiment:

(first embodiment)

At first, please consult Fig. 1, Fig. 2, Fig. 3 A and Fig. 3 B simultaneously, as shown in Figure 1, hybrid lighting device 1 comprises storage module 10, light emitting module 11, input module 12, control module 14, decides voltage cell 16, constant current unit 18 and light-adjusting module 20.As shown in Figure 2, lighting device 1 has a lamp bracket 13, lamp socket 15 and lampshade 17.As shown in Figure 2, aforementioned each functional module system is assembled in the lamp socket 15.Hybrid lighting device 1 is generally positioned at the user within doors, selects in order to indoor illumination to be provided according to user's operation, or the effect of atmosphere construction.

The control unit 140 of control module 14 is the logic control core of hybrid lighting device 1, can be made up of jointly with relevant peripheral circuit microcontroller, microprocessor or digital signals processor.Control module 14 is by the firmware definition operational logic that is stored in the nondeclarative memory body, with the expection function of implement device.Storage module 10 can be the memory body of building in the device or is external storage devices such as memory card in order to store data.Input module 12 is the operation input interface of hybrid lighting device 1.A plurality of light emitting modules 11 have a plurality of luminescence components.A plurality of light-adjusting modules 20, wherein each light-adjusting module has a plurality of light modulation unit 140 that are respectively applied for those luminescence components of each corresponding light emitting module 11 of control.

Input module 12 includes TIP 120, is used to produce input signal and input signal is sent to control module 14.For example, TIP 120 optional usefulness have the device of a plurality of buttons with the generation different input signals, and can be electrically connected at input module 12 through a lead, but the utility model is not as limit.For example TIP 120 can be a kind of device with contact panel.

Having the various modes data in the storage module 10 also can in advance be built in the various modes data in the device according to the demand of user's illumination environment.For example, control unit 140 can be according to input signal, and in the stored various modes data of storage module 10, selected a kind of pattern data is with control light-adjusting module 20.

For example, first kind of pattern data can be adjusted the brightness of each luminescence component of key lighting.Second kind of pattern data can be adjusted the brightness of each luminescence component of floor light, for example from bright to secretly have 20 sections can supply the adjustment.The third pattern data can synchronously be adjusted the colourity of each luminescence component of floor light, has seven kinds of colors in for example, is red, orange, yellow, green, blue, indigo, purple in regular turn, can supply adjustment.The 4th kind of pattern data can synchronously be adjusted the brightness and the speed of each luminescence component of floor light with dividing, for example from bright to secretly have eight sections, and near have slowly eight sections can supply the adjustment.The 5th kind of pattern data can control in order floor light each luminescence component unlatching and close, and after a period of time selected one of them luminescence component as floor light.The 6th kind of pattern data can synchronously be adjusted the colourity of each luminescence component of floor light, and the brightness of each luminescence component of adjustment key lighting, with the colour temperature of adjustment key lighting.

In addition, cooperate shown in Fig. 1, Fig. 3 A and Fig. 3 B, light emitting module 11 comprises a circuit substrate 114, at least two first luminescence components 110 and at least one second luminescence components 112.For example, first luminescence component 110 can be selected the light-emitting diode that produces white light source or yellow-white light source for use.Furtherly, the light-emitting diode of white light source or yellow-white light source can be identical colour temperature, or colour temperature inequality.In the present embodiment, first luminescence component 110-1～110-N selects the light-emitting diode of identical colour temperature for use, to produce the yellow-white light source.Secondly, second luminescence component 112-1～112-N can select the light-emitting diode of redness, green and three kinds of different colours of blue-light source for use.Furtherly, control module 14 can see through the brightness ratio of light-adjusting module 20 allotment redness, green and blue-light source, and then produces light sources of different colors.

Accept above-mentioned; First luminescence component 110 of those light emitting modules 20 and second luminescence component 112 all are arranged on the circuit substrate 114 and are electrically connected at circuit substrate 114; And first luminescence component 110 is arranged at the both sides of second luminescence component 112; But the utility model is not as limit, and the user can adjust the configuration of each luminescence component according to demand.Whereby; The utility model can see through at least two first luminescence components 110, at least one second luminescence component 112, and select the design of wherein a kind of pattern data with the control unit 140 of control light-adjusting module 20, builds so that the situation that has indoor main illumination and atmosphere concurrently to be provided.

For example, first luminescence component 110 can comprise that one is arranged on the circuit substrate 114 and is electrically connected at first substrate 1101 of circuit substrate 114, at least one blue LED bare chip 1102 that is arranged on first substrate 1101 and is electrically connected at first substrate 1101, and one is arranged at the fluorescent colloid 1103 to cover at least one blue LED bare chip 1102 on first substrate 1101.

Moreover, second luminescence component 112 can comprise one be arranged on the circuit substrate 114 and be electrically connected at circuit substrate 114 second substrate 1121, be arranged on second substrate 1121 and be electrically connected at least one red light emitting diodes bare chip 1122 of second substrate 1121, at least one green LED bare chip 1123 and at least one blue LED bare chip 1124 and be arranged on second substrate 1121 to cover the transparent colloid 1125 of at least one red light emitting diodes bare chip 1122, at least one green LED bare chip 1123 and at least one blue LED bare chip 1124.

It is noted that the red light emitting diodes bare chip 1122 of above-mentioned second illuminating part 112, green LED bare chip 1123 and blue LED bare chip 1124 can be provided with respectively and be electrically connected on the different substrates.In addition, above-mentioned red light emitting diodes bare chip 1122, green LED bare chip 1123 and blue LED bare chip 1124 can directly be provided with and be electrically connected on the circuit substrate 114.

As shown in Figure 1; Each light-adjusting module 20 comprises at least one first light modulation unit 200-1～200-N that is used to control each corresponding first luminescence component 110-1～110-N, and at least one second light modulation unit 202-1～202-N that is used to control each corresponding second luminescence component 112-1～112-N.For example; First light modulation unit 200-1～200-N and second light modulation unit 202-1～202-N all have control end; Dimming control signal C1-1～the C1-N and the C2-1～C2-N that are exported with indivedual reception control modules 14, and then control first luminescence component 110-1～110-N and second luminescence component 112-1～112-N respectively.

Constant current unit 18-1～18-N is used to limit the demand limiter of output current size, and wherein each constant current unit is coupled to each corresponding light modulation unit.For example, constant current unit 18-1 is coupled to the first light modulation unit 200-1, uses to the first luminescence component 110-1 so that stable electric current to be provided.

Decide voltage cell 16 and be coupled to above-mentioned at least one constant current unit.For example, deciding voltage cell 16 is one alternating voltage to be converted to direct voltage and the transducer of a fixing direct voltage is provided.For example deciding voltage cell 16 provides a galvanic current to press to constant current unit 18-1～18-N.

Specifying for example at this, please consult Fig. 1 and Fig. 2 simultaneously, is example with the demand of user's illumination environment.The user can see through TIP 120 selected wherein a kind of pattern data; And see through control module 14 output dimming control signal C1-1～C1-N or C2-1～C2-N controlling first light modulation unit 200-1～200-N or second light modulation unit 202-1～202-N, and then brightness or the colourity of brightness or second luminescence component 112-1～112-N of controlling first luminescence component 110-1～110-N is to build different lighting environments.

For example, when the user sees through the selected first kind of pattern data of TIP 120, from bright to secretly can there being eight sections, with (the brightness of the first luminescence component 110-1～110-N) of each luminescence component of adjustment key lighting.

When the user sees through the selected second kind of pattern data of TIP 120, from bright to secretly can there being 20 sections, with (the brightness of the second luminescence component 112-1～112-N) of each luminescence component of adjusting floor light respectively.In other words; The brightness of the bare chip of each light-emitting diode (brightness of red light emitting diodes bare chip 1122, green LED bare chip 1123 and blue LED bare chip 1124) has 20 sections can supply to adjust producing different colourity, and then produces 8,000 kinds of various colors.

When the user selectes the third pattern data through TIP 120; Control module 14 can synchronously be adjusted each luminescence component (colourity of the second luminescence component 112-1～112-N) of floor light; For example storage module 10 can in build seven kinds of colors, be red, orange, yellow, green, blue, indigo, purple in regular turn.In other words; After each second luminescence component 112-1～112-N produces the ruddiness of a period of time; After then each second luminescence component 112-1～112-N produces the orange light of a period of time; After then each second luminescence component 112-1～112-N produces gold-tinted, green glow, blue light and the indigo light of a period of time in order again,, each second luminescence component 112-1～112-N just finishes this pattern until producing the purple light of a period of time.

When the user selectes the 4th kind of pattern data through TIP 120; From bright to dark, and near respectively there being eight sections slowly; (brightness and the speed of the second luminescence component 112-1～112-N) also produces various colors in order with each luminescence component of synchronously adjusting floor light respectively; For example the coloured light that has of second luminescence component 112-1 generation a period of time just extinguishes afterwards; Then second luminescence component 112-2～112-N produce a period of time coloured light is arranged after just extinguish, then the second luminescence component 112-1 produce again a period of time coloured light is arranged after just extinguish, circulation so times without number goes round and begins again.In addition, the speed of each luminescence component can see through the length of above-mentioned a period of time of adjustment and determine.

When the user sees through selected the 5th kind of pattern data of TIP 120, control module 14 can control in order floor light each luminescence component unlatching and close, and after a period of time selected one of them luminescence component as floor light.In other words; The blue light that one of them of second luminescence component 112-1～112-N produces a period of time just extinguishes afterwards; Then two luminescence component 112-1～112-N wherein another just extinguishes after producing blue light of a period of time, only have a luminescence component to produce blue light at last but do not extinguish.For example, for the first time selected this function is that the second luminescence component 112-2 produces blue light but do not extinguish, and for the second time selected this function is that the second luminescence component 112-N produces blue light but do not extinguish.

When the user sees through selected the 6th kind of pattern data of TIP 120, can there be eight sections from cool colour temperature to warm colour temperature, with the colour temperature of each luminescence component of synchronously adjusting key lighting.For example control module 14 can synchronously be adjusted each luminescence component of floor light (colourity of the second luminescence component 112-1～112-N) to be producing the light of orange, and (brightness of the first luminescence component 110-1～110-N) is to produce yellowish-white light synchronously to adjust each luminescence component of key lighting.The utility model can see through the light of orange and the mixed light of yellowish-white light, and then makes key lighting produce the gold-tinted of warm colour temperature.In addition; For example control module 14 can synchronously be adjusted each luminescence component of floor light (colourity of the second luminescence component 112-1～112-N) to be producing the light (for example can be mixed out by blue light and green glow) of cyan, and (brightness of the first luminescence component 110-1～110-N) is to produce yellowish-white light synchronously to adjust each luminescence component of key lighting.The utility model can see through the light of cyan and the mixed light of yellowish-white light, and then makes key lighting produce the white light of cool colour temperature.

It is noted that above-mentioned pattern data is only in order to explain the concrete example of hybrid lighting device, so it is not the scope in order to restriction the utility model.

(second embodiment)

At first, please consult Fig. 4 and Fig. 5 simultaneously, Fig. 4 is the functional block diagram of the hybrid lighting device of the utility model second embodiment, and Fig. 5 is the schematic appearance of the hybrid lighting device of the utility model second embodiment.

As shown in Figure 4, hybrid lighting device 2 comprises storage module 10, light emitting module 11, input module 12, control module 14, decides voltage cell 16, constant current unit 18, wireless receiving module 19 and light-adjusting module 20.Control device of wireless 3 comprises wireless control module 30, wireless input module 32, wireless transport module 34 and TIP 320.

Comparison by Fig. 4 and Fig. 1 can know that the difference of the utility model second embodiment and first embodiment is: in a second embodiment, hybrid lighting device 2 more comprises wireless receiving module 19 and control device of wireless 3.For example, control device of wireless 3 comprises wireless control module 30, wireless input module 32 and wireless transport module 34.In other words, the user can see through control device of wireless 3 with a kind of pattern data in the selected storage module 10 with control light-adjusting module 20, and then control light emitting module 11.

In this example, control device of wireless 3 can be used for controlling the control module 14 of hybrid lighting device 2.Wireless input module 32 includes TIP 320, is used to produce an input signal to wireless control module 30.For example, the device that TIP 320 optional usefulness have a plurality of buttons has the device that touch-control is imported to produce different input signals or optional usefulness, but the utility model is not as limit.

Wireless control module 30 is used for converting received input signal to a communication signal, and wireless transport module 34 uses a wireless communication protocol to transmit the wireless receiving module 19 of above-mentioned communication signal to hybrid lighting device 2.Described wireless receiving module 19 is coupled to control module 14 and uses above-mentioned identical wireless communication protocol to receive communication signal.For example, wireless communication protocol can be wireless communication protocols such as infrared ray (infrared) communications protocol, bluetooth (bluetooth) communications protocol, Wi-Fi communications protocol (IEEE 802.11), Zigbee communications protocol, but the utility model is not as limit.

In sum; A kind of hybrid lighting device that the utility model embodiment is provided; It can see through " at least two first luminescence components ", " at least one second luminescence component ", reach the design of " selects above-mentioned wherein a kind of pattern data to control the control unit of above-mentioned a plurality of light-adjusting modules ", so that the hybrid lighting device of the utility model can provide the situation that has indoor main illumination and atmosphere concurrently to build.

The above is merely the preferable possible embodiments of the utility model, and the claim of non-so limitation the utility model so use the equivalence techniques variation for it of the utility model specification and graphic content institute such as, all is contained in the scope of the utility model.

Claims (10)

1. hybrid lighting device, it is characterized in that: it comprises:

One storage module has the various modes data in it;

A plurality of light emitting modules, wherein each light emitting module has a plurality of luminescence components;

A plurality of light-adjusting modules, wherein each light-adjusting module has a plurality of light modulation unit that are respectively applied for those luminescence components of each corresponding light emitting module of control;

One input module, it comprises at least one TIP that is used to produce an input signal;

One control module, it is coupled to this input module and this storage module, and this control module comprises that one selects above-mentioned wherein a kind of pattern data to control the control unit of those light-adjusting modules.

2. hybrid lighting device according to claim 1 is characterized in that: each light emitting module more comprises a circuit substrate, and those luminescence components of this light emitting module all are arranged on this circuit substrate and are electrically connected at this circuit substrate.

3. hybrid lighting device according to claim 2 is characterized in that: each luminescence component comprises at least two first luminescence components and at least one second luminescence component.

4. hybrid lighting device according to claim 3 is characterized in that: each first luminescence component comprises that one is arranged on this circuit substrate and is electrically connected at first substrate of this circuit substrate, at least one blue LED bare chip that is arranged on this first substrate and is electrically connected at this first substrate, and one is arranged on this first substrate to cover the fluorescent colloid of this at least one blue LED bare chip.

5. hybrid lighting device according to claim 4 is characterized in that: this at least one second luminescence component comprise one be arranged on this circuit substrate and be electrically connected at this circuit substrate second substrate, be arranged on this second substrate and be electrically connected at least one red light emitting diodes bare chip of this second substrate, at least one green LED bare chip and at least one blue LED bare chip and be arranged on this second substrate to cover the transparent colloid of this at least one red light emitting diodes bare chip, this at least one green LED bare chip and this at least one blue LED bare chip.

6. hybrid lighting device according to claim 5 is characterized in that: each light-adjusting module comprises at least one first light modulation unit and at least one second light modulation unit that is used to control each corresponding second luminescence component that is used to control each corresponding first luminescence component.

7. hybrid lighting device according to claim 6; It is characterized in that: each light-adjusting module also comprises a plurality of constant current units; Each constant current unit is coupled to each corresponding first light modulation unit, and wherein this constant current unit is one can limit the demand limiter of output current size.

8. hybrid lighting device according to claim 7; It is characterized in that: each light-adjusting module also comprises the certain voltage unit; It is coupled to above-mentioned at least one constant current unit, wherein should decide voltage cell be one alternating voltage to be converted to direct voltage and the transducer of the direct voltage fixed is provided.

9. hybrid lighting device according to claim 1; It is characterized in that: this hybrid lighting device comprises that also one is used for the control device of wireless of this control module of controlled in wireless, wherein this control device of wireless comprise one be used to produce an input signal wireless input module, the wireless control module and that is used to receive this input signal and convert a communication signal to use a wireless communication protocol to transmit the wireless transport module of this communication signal.

10. hybrid lighting device according to claim 9 is characterized in that: this hybrid lighting device comprises that also one is coupled to this control module and uses this wireless communication protocol to receive the wireless receiving module of this communication signal.

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