CN203827571U - Integrated control system - Google Patents

Abstract

Provided is an integrated control system, used to control one or more illuminating modules. The integrated control system comprises a control module, a power line bridging module, and at least a power control module. The control module is used to output a control signal in a wired manner. The control module comprises a plurality of area selection units and a light modulation unit. The power line bridging module is coupled with the control module. The at least a power control module has a default area code, and is coupled with the power line bridging module and at least an illuminating module. One of the area selection units is arranged corresponding to the default area code and the area selection units corresponding to the default area code is used to indicate that the control module is on a setting status of the default area code. The light modulation unit is used to indicate luminance, color temperature, or color rendering of at least an illuminating module. Using the integrated control system, luminance, color temperature, or color rendering of illuminating modules in different areas are controlled through a power line control method.

Description

Integrated control system

Technical field

The utility model relates to a kind of integrated control system, particularly relates to the integrated control system of one of controlling light emitting module brightness of illumination.

Background technology

General illumination or ornamental light fixture at home, because light fixture kind quantity is too many, and do not carry out systematized integration between these light fixtures.So the control method of conventional lamp is mostly maintained at diverter switch on wall and flickers to control light fixture.For example, before sleeping time, people still must go to wall limit and press diverter switch to turn off the light.The light quantity that people will control the shading value of light or light in addition, people still must go to wall limit and press diverter switch or lamplight brightness knob, switch or adjust the shading value of light with multistage.Cause thus in life not convenient of people.

In addition,, in room lighting environment now, the use of the down light fixture of light-emitting diode is more and more universal.Wherein for general Hydroelectric Project Construction person, for example, installing DMX512 lighting, is very inconvenient.For instance, general Hydroelectric Project Construction person must dig a hole to fill lamp by ceiling decoration, and except walking power line power supply, DMX512 lighting need draw holding wire again, causes thus the inconvenience of installing lighting.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of integrated control system, to control luminosity, colour temperature or the color rendering of light emitting module of zones of different, promotes thus the ease of use of integrated control system by power line control mode.

The utility model provides a kind of integrated control system, and in order to control one or more light emitting modules, integrated control system comprises: a control module, a power line bridge connection module and at least one energy supply control module.Control module is in order to wired output one control signal, and control module comprises multiple regions selected cell and a light modulation unit.Power line bridge access module couples control module.At least one energy supply control module has a default zone code, and couples power line bridge connection module and at least one light emitting module.Wherein, one of them of those region selected cells corresponds to default zone code and arranges, and corresponding to the region selected cell of default zone code in order to indicate the set condition of control module in default zone code, and light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of at least one light emitting module.

Preferably, this control module comprises a control unit, a coding unit and a transmission unit, this control unit couples this region selected cell, this light modulation unit, this coding unit and this transmission unit, this transmission unit couples this coding unit and power line, this control module is a distant bar or a control panel, respectively this region selected cell is a physical button, an entity knob, a virtual key or a virtual knob, and this light modulation unit is at least one physical button, at least one entity knob, at least one virtual key or at least one virtual knob.

Preferably, this energy supply control module, comprise a converting unit, a decoding unit, a processing unit and a driver element, this converting unit couples power line and this decoding unit, this processing unit couples this converting unit, this decoding unit and this driver element, this driver element couples this at least one light emitting module, and this processing unit has this default zone code.

The utility model provides again a kind of integrated control system, in order to control one or more light emitting modules, integrated control system comprises: a control module, a receiver module, a power line bridge connection module, a power line bridge connection module and at least one energy supply control module.Control module is in order to wireless output one control signal, and control module comprises multiple regions selected cell and a light modulation unit.Receiver module is in order to wireless receiving control signal.Power line bridge access module couples receiver module.At least one energy supply control module has a default zone code, and couples power line bridge connection module and at least one light emitting module.Wherein, one of them of those region selected cells corresponds to default zone code and arranges, and corresponding to the region selected cell of default zone code in order to indicate the set condition of control module in default zone code, and light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of at least one light emitting module.

Preferably, this control module comprises a control unit, one coding unit and a transmission unit, this control unit couples this region selected cell, this light modulation unit, this coding unit and this transmission unit, this transmission unit couples this coding unit, this control module is a Digiplex, one intelligent mobile phone, one flat computer or a smart watch, respectively this region selected cell is a physical button, one entity knob, one virtual key or a virtual knob, this light modulation unit is at least one physical button, at least one entity knob, at least one virtual key or at least one virtual knob.

Preferably, this receiver module is an infrared receiver, a Bluetooth Receiver, a Wireless Fidelity receiver or a purple honeybee receiver, and this transmission unit is an infrared transmitter, a bluetooth transmitters, a Wireless Fidelity reflector or a purple honeybee reflector.

Preferably, this energy supply control module, comprise a converting unit, a decoding unit, a processing unit and a driver element, this converting unit couples power line and this decoding unit, this processing unit couples this converting unit, this decoding unit and this driver element, this driver element couples this at least one light emitting module, and this processing unit has this default zone code.

The utility model also provides a kind of integrated control system, in order to control one or more the first light emitting modules, and control one or more the second light emitting modules, integrated control system comprises: one first control module, one first receiver module, one second control module, a power line bridge connection module, at least one the first energy supply control module, one second receiver module and at least one second source control module.The first control module is in order to wireless output one first control signal, and the first control module comprises multiple first areas selected cell and one first light modulation unit.The first receiver module is in order to wireless receiving the first control signal.The second control module is in order to wired output one second control signal, and the second control module comprises multiple second area selected cells and one second light modulation unit.Power line bridge access module couples the first receiver module and the second control module.At least one the first energy supply control module has one first default zone code, and couple power line bridge connection module and at least one the first light emitting module, and at least one the first energy supply control module is according to the first control signal or the second control signal, to control luminosity, colour temperature or the color rendering of at least one the first light emitting module.At least one second source control module has one second default zone code, and couple the second receiver module and at least one the second light emitting module, and at least one second source control module is according to the first control signal, to control luminosity, colour temperature or the color rendering of at least one the second light emitting module.Wherein, one the corresponding to the first default zone code and arranging wherein of those first area selected cells, and corresponding to the first area selected cell of the first default zone code in order to indicate the set condition of the first control module in the first default zone code, and the first light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of at least one the first light emitting module.Wherein, one of them of those first area selected cells corresponds to the second default zone code and arranges, and corresponding to the first area selected cell of the second default zone code in order to indicate the set condition of the first control module in the second default zone code, and the first light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of at least one the second light emitting module.Wherein, one of them of those second area selected cells corresponds to the first default zone code and arranges, and corresponding to the second area selected cell of the first default zone code in order to indicate the set condition of the second control module in the first default zone code, and the second light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of at least one the first light emitting module.

Preferably, this first receiver module is an infrared receiver, a Bluetooth Receiver, a Wireless Fidelity receiver or a purple honeybee receiver, and this second receiver module is an infrared receiver, a Bluetooth Receiver, a Wireless Fidelity receiver or a purple honeybee receiver, and this first control signal of the wireless output of this first control module is given this first receiver module or this second receiver module, and this second control signal of the wired output of this second control module is given this power line bridge connection module.

In sum, concrete means of the present utility model are for utilizing a kind of integrated control system, by power line control mode to control luminosity, colour temperature or the color rendering of light emitting module of zones of different.Another conventional lamp can install energy supply control module and receiver module additional, so that flickering that control module can controlled in wireless conventional lamp promotes the ease of use of integrated control system thus.

Above general introduction and the embodiment that next will narrate, be all in order to further illustrate technological means of the present utility model and effect, but the embodiment narrating and accompanying drawing only provide reference explanation use, are not used for the utility model to be limited.

Brief description of the drawings

Fig. 1 is the functional block diagram of the integrated control system of the utility model one embodiment;

Fig. 2 is the functional block diagram of the integrated control system of another embodiment of the utility model;

Fig. 3 is the functional block diagram of the integrated control system of another embodiment of the utility model;

Fig. 4 is the running schematic diagram of the integrated control system of another embodiment of the utility model.

[description of reference numerals]

1,1a, 1b: integrated control system

10: control module

100, C100, C200, L1～L5: region selected cell

102, C102, C202, A1～A4: light modulation unit

104, C104, C204: control unit

106, C106, C206: coding unit

108, C108, C208: transmission unit

C01: the first control module

C02: the second control module

W10: Digiplex

12: power line bridge connection module

14,14a, 14b: energy supply control module

140,140a: converting unit

142,142a: decoding unit

144,144a: processing unit

146,146a: driver element

14a1,14a2: the first energy supply control module

14n1: second source control module

16,16a1,16a2,16b1,16b2,16b3, B1～B4: light emitting module

16a1,16a3,16a4,16a5: the first light emitting module

16n1,16n2,16n3: the second light emitting module

18: receiver module

18a: the first receiver module

18n: the second receiver module

Embodiment

Example example one

Fig. 1 is the functional block diagram of the integrated control system of the utility model one embodiment.Refer to Fig. 1.A kind of integrated control system 1, in order to control one or more light emitting modules 16, integrated control system 1 comprises: a control module 10, a power line bridge connection module 12 and at least one energy supply control module 14.When practical application, control module 10 couples power line bridge connection module 12, and energy supply control module 14 is coupled between power line bridge connection module 12 and light emitting module 16.Therefore, the integrated control system 1 of the present embodiment can be controlled luminosity, colour temperature or the color rendering of the light emitting module 16 of zones of different.The present embodiment does not limit the aspect of integrated control system 1.

Furthermore, control module 10 is in order to wired output one control signal, and control module 10 comprises multiple regions selected cell 100, a light modulation unit 102, a control unit 104, a coding unit 106 and a transmission unit 108.When practical application, control unit 104 couples region selected cell 100, light modulation unit 102, coding unit 106 and transmission unit 108, and transmission unit 108 couples coding unit 106 and power line.Therefore, user-operable control module 10, to control luminosity, colour temperature or the color rendering of these light emitting modules 16.The present embodiment does not limit the aspect of control module 10.

It is worth mentioning that, control module 10 is for example a distant bar or a control panel, each region selected cell 100 is for example a physical button, an entity knob, a virtual key or a virtual knob, and light modulation unit 102 is for example at least one physical button, at least one entity knob, at least one virtual key or at least one virtual knob.Wherein region selected cell 100 is in order to select the control of light emitting module 16 of zones of different position.

For instance, one of them indicates the control of the light in indoor parlor these region selected cells 100, and wherein another of these region selected cells 100 indicated the control of the light in indoor bathroom.Therefore,, in the time that user presses the region selected cell 100 of control of the light in the indoor parlor of aforementioned instruction, control module 10, power line bridge connection module 12, energy supply control module 14 and the light emitting module 16 that is positioned at indoor parlor complete online setting.So user can be positioned at luminosity, colour temperature or the color rendering of the light emitting module 16 in indoor parlor again with adjustment by light modulation unit 102.The present embodiment does not limit the aspect of control module 10, region selected cell 100 and light modulation unit 102.

It is worth mentioning that, control unit 104 is for example microprocessor or central processing unit, in order to process, to calculate the operations such as exclusive disjunction.Coding unit 106 is for example encoder, in order to operation that control signal is encoded.And transmission unit 108 is for example wire transmission device or power line transmitter.Those skilled in the art can freely design control unit 104, coding unit 106 and transmission unit 108.

Power line bridge connection module 12 is for example power line carrier bridge module, couples control module 10 and energy supply control module 14.When practical application, control module 10 is passed through power line control mode to control energy supply control module 14, and power line bridge connection module 12 is the bridge joint means in power line control mode, for example control signal is changed into power line carrier signal by power line bridge connection module 12, and be coupled to power line.Those skilled in the art can freely design power line bridge connection module 12.

The utility model provides a kind of power line control technology that (Powerline Control) moves to control light emitting module 16.For example power line control can be controlled conducting and the cut-off of alternating current, thus for example for the input power of alternating current has generation the alternating voltage of digitally encoded signal, and is transferred to power line bridge connection module 12.And power line bridge connection module 12 is by the alternating current line of force, to transmit an alternating voltage with digitally encoded signal to energy supply control module 14, and energy supply control module 14 can receive the alternating voltage with digitally encoded signal, and alternating voltage is converted to direct voltage to power to light emitting module 16.Another energy supply control module 14 can be to having the alternating voltage decoding of digitally encoded signal, and energy supply control module 14 can be controlled the luminosity of light emitting module 16 thus.

At least one energy supply control module 14 couples power line bridge connection module 12 and at least one light emitting module 16.When practical application, energy supply control module 14 has a default zone code.For instance, the default zone code in indoor parlor is for example 01, and the default zone code in indoor bathroom is for example 02.So user presses the region selected cell 100 of the default zone code of instruction 01, in subsequent operation, control module 10 is by the control signal of the default zone code of output instruction 01.So the energy supply control module 14 with 01 default zone code will move according to control signal.

Furthermore, one of them of these region selected cells 100 corresponds to default zone code and arranges, and corresponding to the region selected cell 100 of default zone code in order to indicate the set condition of control module 10 in default zone code, and light modulation unit 102 is in order to indicate the luminosity of at least one light emitting module 16, control module 10 by light modulation unit 102 to adjust the luminosity of these light emitting modules 16.

It should be noted that, energy supply control module 14 comprises a converting unit 140, a decoding unit 142, a processing unit 144 and a driver element 146, converting unit 140 couples power line and decoding unit 142, processing unit 144 couples converting unit 140, decoding unit 142 and driver element 146, driver element 146 couples at least one light emitting module 16, and processing unit 144 has default zone code.

Converting unit 140 is for example reduction voltage circuit.For example converting unit 140 is in order to be converted to the civil power of 110 volts the voltage of 45 volts.And converting unit 140 also can be by the design of bleeder circuit, provide the voltage of 5 volts to processing unit 144, and provide the voltage of 40 volts to driver element 146.In other embodiments, converting unit 140 also can be converted to civil power the voltage of N volt, and those skilled in the art can freely design the aspect of converting unit 140.

Processing unit 144 is for example microprocessor or central processing unit, in order to process, to calculate the operations such as exclusive disjunction.Decoding unit 142 is for example decoder, in order to control signal is carried out to decoding operation.Another driver element 146 is for example LED lamp drive circuit, in order to drive the luminous output of light emitting module 16.The present embodiment does not limit the aspect of processing unit 144, decoding unit 142 and driver element 146.

It is worth mentioning that, energy supply control module 14 has default zone code.When practical application, energy supply control module 14 has a thumb-acting switch, and thumb-acting switch for example has multiple default zone code pointers.For convenience of description, the present embodiment illustrates with five default zone code pointers, and these default zone code pointers are for example 01,02,03,04 and 05.Therefore, water power work, decoration master worker or the user position that thumb-acting switch can be alloted for default zone code pointer be 01.So user can set according to indoor location the default zone code of energy supply control module 14.

Certainly, at different indoor locations, energy supply control module 14 uses different default zone codes, and each energy supply control module 14 with different default zone codes couples light emitting module 16.So user can be by control module 10 to control luminosity, colour temperature or the color rendering of light emitting module 16 of different indoor locations.The present embodiment does not limit the running aspect of energy supply control module 14.

Embodiment bis-

Fig. 2 is the functional block diagram of the integrated control system of another embodiment of the utility model.Refer to Fig. 2.The wherein integrated control system 1 in Fig. 2 and Fig. 1, the two framework of 1a and functional similarity, for example control module 10 is also controlled luminosity, colour temperature or the color rendering of light emitting module 16a1,16a2,16b1,16b2,16b3.But the two difference of integrated control system 1,1a is: control module 10 is to carry out communication by wireless mode with receiver module 18, and receiver module 18 couples power line bridge connection module 12.Power line bridge connection module 12 couples light emitting module 16a1,16a2,16b1,16b2,16b3.

Specifically, control module 10 is in order to wireless output one control signal.Control module 10 comprises multiple regions selected cell 100, a light modulation unit 102, a control unit 104, a coding unit 106 and a transmission unit 108.Wherein transmission unit 108 is for example wireless communicator.For convenience of description, the transmission unit 108 of the present embodiment is for example an infrared transmitter, in other embodiments, transmission unit 108 is for example a bluetooth transmitters, a Wireless Fidelity (WiFi) receiver and purple honeybee (Zigbee) reflector.The present embodiment does not limit the aspect of transmission unit 108.

Control module 10 is for example a Digiplex, an intelligent mobile phone, a flat computer or a smart watch, each region selected cell 100 is for example a physical button, an entity knob, a virtual key or a virtual knob, and light modulation unit 102 is for example at least one physical button, at least one entity knob, at least one virtual key or at least one virtual knob.

Receiver module 18 is in order to wireless receiving control signal.When practical application, receiver module 18 designs according to transmission unit 108, and the receiver module 18 of for example the present embodiment is an infrared receiver.In other embodiments, receiver module 18 is for example a Bluetooth Receiver, a Wireless Fidelity receiver and a purple honeybee receiver.The present embodiment does not limit the aspect of receiver module 18.

In like manner known, control module 10 of the present utility model can be passed through communication, to control luminosity, colour temperature or the color rendering of light emitting module 16a1,16a2,16b1,16b2,16b3.Known based on foregoing, integrated control system 1a of the present utility model can pass through wire communication mode or communication, to control luminosity, colour temperature or the color rendering of light emitting module 16a1,16a2,16b1,16b2,16b3, promote thus the convenience of controlling light emitting module 16a1,16a2,16b1,16b2,16b3.

Energy supply control module 14a that it should be noted that the present embodiment for example has 01 default zone code, and energy supply control module 14b for example has 02 default zone code.Wherein the default zone code in indoor parlor is for example 01, and the default zone code in indoor bathroom is for example 02.So user presses the region selected cell 100 of the default zone code of instruction 01, in subsequent operation, control module 10 is by the control signal of the default zone code of output instruction 01.In simple terms, light emitting module 16a1,16a2 will export luminosity, colour temperature or color rendering according to control signal.And light emitting module 16b1,16b2,16b3 can not export luminosity, colour temperature or color rendering according to control signal.So user can be positioned at luminosity, colour temperature or the color rendering of light emitting module 16a1, the 16a2 in indoor parlor again with adjustment by light modulation unit 102.

Embodiment tri-

Fig. 3 is the functional block diagram of the integrated control system of another embodiment of the utility model.Refer to Fig. 3.Wherein the two framework of integrated control system 1a, 1b and the functional similarity in Fig. 3 and Fig. 2, for example the first or second control module C01, C02 also can control luminosity, colour temperature or the color rendering of the first light emitting module 16a1,16a3,16a4,16a5.But the two difference of integrated control system 1a, 1b is:

The integrated control system 1b of the present embodiment, in order to control one or more the first light emitting module 16a1,16a3,16a4,16a5, and controlling one or more the second light emitting module 16n1,16n2,16n3, integrated control system 1b comprises: one first control module C01, one first receiver module 18a, one second control module C02, a power line bridge connection module 12, at least one the first energy supply control module 14a1,14a2, one second receiver module 18n and at least one second source control module 14n1.

When practical application, the first light emitting module 16a1,16a3,16a4,16a5 are for example LED lamp.The second light emitting module 16n1,16n2,16n3 are for example the light emitting modules such as T5, MR16, fluorescent lamp or laminate lamp.When practical application, the lighting device of existing family mostly uses the second light emitting module 16n1,16n2, the 16n3 of T5, MR16, fluorescent lamp or laminate lamp etc.Certainly, existing family coordinates environmental protection, energy-saving and carbon-saving, economy or policy, and LED lamp will likely can be installed or newly install in existing family additional.So T5, MR16, fluorescent lamp or laminate lamp that numerically controlled LED lamp and tradition are controlled may coexist in same family.And integrated control system 1b of the present utility model can control the luminosity of first and second light emitting module 16a1,16a3,16a4,16a5,16n1,16n2,16n3.

Furthermore, the first control module C01 is in order to wireless output one first control signal, and the first control module C01 comprises multiple first area selected cell C100 and one first light modulation unit C102.The first receiver module 18a is in order to wireless receiving the first control signal.The second control module C02 is in order to wired output one second control signal, and the second control module C02 comprises multiple second area selected cell C200 and one second light modulation unit C202.

Power line bridge connection module 12 couples the first receiver module 18a and the second control module C02.At least one the first energy supply control module 14a1,14a2 have one first default zone code, and couple power line bridge connection module 12 and at least one the first light emitting module 16a1,16a3,16a4,16a5, and at least one the first energy supply control module 14a1,14a2 are according to the first control signal or the second control signal, to control luminosity, colour temperature or the color rendering of at least one the first light emitting module 16a1,16a3,16a4,16a5.

At least one second source control module 14n1 has one second default zone code, and couple the second receiver module 18n and at least one the second light emitting module 16n1,16n2,16n3, and at least one second source control module 14n1 is according to the first control signal, to control luminosity, colour temperature or the color rendering of at least one the second light emitting module 16n1,16n2,16n3.

Wherein, one of them of these first areas selected cell C100 corresponds to the first default zone code and arranges, and corresponding to the first area selected cell C100 of the first default zone code in order to indicate the set condition of the first control module C01 in the first default zone code, and the first light modulation unit C102 is in order to indicate luminosity, colour temperature or the color rendering of at least one the first light emitting module 16a1,16a3,16a4,16a5.

Wherein, one of them of these first areas selected cell C100 corresponds to the second default zone code and arranges, and corresponding to the first area selected cell C100 of the second default zone code in order to indicate the set condition of the first control module C01 in the second default zone code, and the first light modulation unit C102 is in order to indicate the luminosity of at least one the second light emitting module 16n1,16n2,16n3.

Wherein, one of them of these second area selected cells C200 corresponds to the first default zone code and arranges, and corresponding to the second area selected cell C200 of the first default zone code in order to indicate the set condition of the second control module C02 in the first default zone code, and the second light modulation unit C202 is in order to indicate luminosity, colour temperature or the color rendering of at least one the first light emitting module 16a1,16a3,16a4,16a5.

The first control module C01 is a Digiplex, an intelligent mobile phone, a flat computer or a smart watch, and the second control module C02 is a distant bar or a control panel.The first receiver module 18a is an infrared receiver, a Bluetooth Receiver, a Wireless Fidelity receiver or a purple honeybee receiver, and the second receiver module 18n is an infrared receiver, a Bluetooth Receiver, a Wireless Fidelity receiver or a purple honeybee receiver, and wireless output the first control signal of the first control module C01 is given the first receiver module 18a or the second receiver module 18n, and wired output the second control signal of the second control module C02 is to power line bridge connection module 12.

The first energy supply control module 14a1,14a2 comprise one first converting unit (not shown), one first decoding unit (not shown), one first processing unit (not shown) and one first driver element (not shown), the first converting unit couples power line and the first decoding unit, the first processing unit couples the first converting unit, the first decoding unit and the first driver element, the first driver element couples at least one the first light emitting module 16a1,16a3,16a4,16a5, and the first processing unit has the first default zone code.

Second source control module 14n1 comprises one second converting unit (not shown), one second decoding unit (not shown), one second processing unit (not shown) and one second driver element (not shown), the second converting unit couples power line and the second decoding unit, the second processing unit couples the second converting unit, the second decoding unit and the second driver element, the second driver element couples at least one the second light emitting module 16n1,16n2,16n3, and the second processing unit has the second default zone code.

Embodiment tetra-

Fig. 4 is the running schematic diagram of the integrated control system of another embodiment of the utility model.Refer to Fig. 4 and Fig. 3.The present embodiment illustrates with the lighting device in general house, and these interior illuminators are arranged at respectively parlor, kitchen, bedroom one and bedroom two.Wherein, kitchen arranges the lighting device such as T5, MR16 or general fluorescent lamp, for example, be the second light emitting module 16n1,16n2, the 16n3 of Fig. 3.And parlor, bedroom one and bedroom two arrange LED lamp, for example, be the first light emitting module 16a1,16a3,16a4, the 16a5 of Fig. 3.In addition, for convenience of description, the Digiplex W10 of the present embodiment is for example the first control module C01 of Fig. 3, has multiple region selected cell L1～L5 and light modulation unit A1～A4.

Furthermore, region selected cell L1 indicates the control of the light emitting module B1 in indoor parlor, region selected cell L2 indicates the control of the light emitting module B2 in indoor kitchen, region selected cell L3 indicates the control of the light emitting module B3 in indoor bedroom one, and region selected cell L4 indicates the control of the light emitting module B4 in indoor bedroom two.And the variation that the luminosity of light modulation unit A1 indication light module B1～B4 successively decreases, the variation that the luminosity of light modulation unit A2 indication light module B1～B4 increases progressively, the variation that the color rendering of light modulation unit A3 indication light module B1～B4 successively decreases, the variation that the color rendering of light modulation unit A4 indication light module B1～B4 increases progressively.

It is worth mentioning that, in other embodiments, light modulation unit A1～A2 is for example that the multisection type of the luminosity of pilot light switches operation.Wherein multisection type switches operation for example for syllogic is switched operation.The first segmentation is for example the output of luminosity 100%, and the second segmentation is for example the output of luminosity 50%, and syllogic is for example the output of luminosity 0%.Wherein light modulation unit A1 is for example with the first segmentation, syllogic, the second segmentation, the first segmentation, syllogic ... endless form switch, and light modulation unit A2 is for example with the first segmentation, the second segmentation, syllogic, the first segmentation ... endless form switch.The present embodiment does not limit the running aspect of light modulation unit A1～A4.

For instance, when user views and admires TV in indoor parlor, user can press the region selected cell L1 in Digiplex W10, thus the light emitting module B1 in parlor in control room.Then, user presses light modulation unit A1～A4 again, to adjust luminosity or the color rendering of light emitting module B1.When user has a meal in indoor kitchen, user can press the region selected cell L2 in Digiplex W10, whereby the light emitting module B2 of the T5 in kitchen, MR16 or general fluorescent lamp etc. in control room.Wherein, T5, MR16 or general fluorescent lamp also cannot be adjusted luminous color rendering.So the Digiplex W10 only luminosity of capable of regulating T5, MR16 or general fluorescent lamp is 100% or 0% output.

In like manner known, user is in bedroom one or have a rest in bedroom two or in bed, user can press the region selected cell L3～L4 in Digiplex W10, controls thus the light emitting module B3～B4 in bedroom one or bedroom two.Then, user presses light modulation unit A1～A4 again, to adjust luminosity or the color rendering of light emitting module B3～B4.So user can go to wall limit and press diverter switch to turn off the light or to carry out light and adjust operation.Integrated control system of the present utility model will promote the convenience using thus.

It is worth mentioning that, the Digiplex W10 system of the present embodiment is the luminosity with light emitting module B1～B4 such as control LED lamp, T5, MR16 or general fluorescent lamps by infrared-ray communication.When practical application, if Digiplex W10 uses radio wave transmissions signal, for example bluetooth, less radio-frequency or Wireless Fidelity communication, except cost improves, the problem that Digiplex W10 also needs consideration to interfere with each other.It is also troubling in another living environment, being flooded with a large amount of electromagnetic waves, and uses the Digiplex W10 of infrared-ray communication, with low cost and application is extremely wide, but has the restricted problem of control angle scope, cannot control to all light or electrical equipment on a large scale.Therefore, integrate wired and wireless signal transmission technology, power line is also used for to the power line carrier technology of signal transmission and imports, the hommization function of controlling to reach wired home illumination.

In sum, the utility model provides a kind of integrated control system, wherein the energy supply control module of integrated control system has default zone code, and the control module of integrated control system is by wire communication (or radio communication) and power line control mode, to control the energy supply control module of zones of different, so that energy supply control module drives the brightness output of light emitting module, and then control luminosity, colour temperature or the color rendering of light emitting module.Another conventional lamp can install energy supply control module and receiver module additional, so that flickering that control module can controlled in wireless conventional lamp promotes the ease of use of integrated control system thus.

The foregoing is only embodiment of the present utility model, it is not in order to limit to protection range of the present utility model.

Claims (10)

1. an integrated control system, in order to control one or more light emitting modules, is characterized in that, this integrated control system comprises:

One control module, in order to wired output one control signal, this control module comprises multiple regions selected cell and a light modulation unit;

One power line bridge connection module, couples this control module; And

At least one energy supply control module, has a default zone code, and couples this power line bridge connection module and this at least one light emitting module;

Wherein, one of them of those region selected cells corresponds to this default zone code and arranges, and corresponding to this region selected cell of this default zone code in order to indicate the set condition of this control module in this default zone code, and this light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of this at least one light emitting module.

2. integrated control system as claimed in claim 1, it is characterized in that, this control module comprises a control unit, one coding unit and a transmission unit, this control unit couples this region selected cell, this light modulation unit, this coding unit and this transmission unit, this transmission unit couples this coding unit and power line, this control module is a distant bar or a control panel, respectively this region selected cell is a physical button, one entity knob, one virtual key or a virtual knob, this light modulation unit is at least one physical button, at least one entity knob, at least one virtual key or at least one virtual knob.

3. integrated control system as claimed in claim 1, it is characterized in that, this energy supply control module, comprise a converting unit, a decoding unit, a processing unit and a driver element, this converting unit couples power line and this decoding unit, this processing unit couples this converting unit, this decoding unit and this driver element, and this driver element couples this at least one light emitting module, and this processing unit has this default zone code.

4. an integrated control system, in order to control one or more light emitting modules, is characterized in that, this integrated control system comprises:

One control module, in order to wireless output one control signal, this control module comprises multiple regions selected cell and a light modulation unit;

One receiver module, in order to this control signal of wireless receiving;

One power line bridge connection module, couples this receiver module; And

At least one energy supply control module, has a default zone code, and couples this power line bridge connection module and this at least one light emitting module;

Wherein, one of them of those region selected cells corresponds to this default zone code and arranges, and corresponding to this region selected cell of this default zone code in order to indicate the set condition of this control module in this default zone code, and this light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of this at least one light emitting module.

5. integrated control system as claimed in claim 4, it is characterized in that, this control module comprises a control unit, one coding unit and a transmission unit, this control unit couples this region selected cell, this light modulation unit, this coding unit and this transmission unit, this transmission unit couples this coding unit, this control module is a Digiplex, one intelligent mobile phone, one flat computer or a smart watch, respectively this region selected cell is a physical button, one entity knob, one virtual key or a virtual knob, this light modulation unit is at least one physical button, at least one entity knob, at least one virtual key or at least one virtual knob.

6. integrated control system as claimed in claim 5, it is characterized in that, this receiver module is an infrared receiver, a Bluetooth Receiver, a Wireless Fidelity receiver or a purple honeybee receiver, and this transmission unit is an infrared transmitter, a bluetooth transmitters, a Wireless Fidelity reflector or a purple honeybee reflector.

7. integrated control system as claimed in claim 4, it is characterized in that, this energy supply control module, comprise a converting unit, a decoding unit, a processing unit and a driver element, this converting unit couples power line and this decoding unit, this processing unit couples this converting unit, this decoding unit and this driver element, and this driver element couples this at least one light emitting module, and this processing unit has this default zone code.

8. an integrated control system, in order to control one or more the first light emitting modules, and controls one or more the second light emitting modules, it is characterized in that, this integrated control system comprises:

One first control module, in order to wireless output one first control signal, this first control module comprises multiple first areas selected cell and one first light modulation unit;

One first receiver module, in order to this first control signal of wireless receiving;

One second control module, in order to wired output one second control signal, this second control module comprises multiple second area selected cells and one second light modulation unit;

One power line bridge connection module, couples this first receiver module and this second control module;

At least one the first energy supply control module, there is one first default zone code, and couple this power line bridge connection module and this at least one the first light emitting module, and this at least one first energy supply control module is according to this first control signal or this second control signal, to control luminosity, colour temperature or the color rendering of this at least one the first light emitting module;

One second receiver module; And

At least one second source control module, there is one second default zone code, and couple this second receiver module and this at least one the second light emitting module, and this at least one second source control module is according to this first control signal, to control luminosity, colour temperature or the color rendering of this at least one the second light emitting module;

Wherein, one of them of those first area selected cells corresponds to this first default zone code and arranges, and corresponding to this first area selected cell of this first default zone code in order to indicate the set condition of this first control module in this first default zone code, and this first light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of this at least one the first light emitting module;

Wherein, one of them of those first area selected cells corresponds to this second default zone code and arranges, and corresponding to this first area selected cell of this second default zone code in order to indicate the set condition of this first control module in this second default zone code, and this first light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of this at least one the second light emitting module;

Wherein, one of them of those second area selected cells corresponds to this first default zone code and arranges, and corresponding to this second area selected cell of this first default zone code in order to indicate the set condition of this second control module in this first default zone code, and this second light modulation unit is in order to indicate luminosity, colour temperature or the color rendering of this at least one the first light emitting module.

9. the integrated control system as described in claim 8, is characterized in that, this first control module is a Digiplex, an intelligent mobile phone, a flat computer or a smart watch, and this second control module is a distant bar or a control panel.

10. the integrated control system as described in claim 8, it is characterized in that, this first receiver module is an infrared receiver, a Bluetooth Receiver, a Wireless Fidelity receiver or a purple honeybee receiver, and this second receiver module is an infrared receiver, a Bluetooth Receiver, a Wireless Fidelity receiver or a purple honeybee receiver, and this first control signal of the wireless output of this first control module is given this first receiver module or this second receiver module, and this second control signal of the wired output of this second control module is given this power line bridge connection module.