CN105848344A - Foldable hollowed-out flexible screen LED lamp remote control system - Google Patents
Foldable hollowed-out flexible screen LED lamp remote control system Download PDFInfo
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- CN105848344A CN105848344A CN201610234874.2A CN201610234874A CN105848344A CN 105848344 A CN105848344 A CN 105848344A CN 201610234874 A CN201610234874 A CN 201610234874A CN 105848344 A CN105848344 A CN 105848344A
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- 238000004891 communication Methods 0.000 claims abstract description 64
- 238000000034 method Methods 0.000 claims description 258
- 238000010422 painting Methods 0.000 claims description 45
- 239000003990 capacitor Substances 0.000 claims description 21
- 230000005611 electricity Effects 0.000 claims description 20
- 239000013078 crystal Substances 0.000 claims description 10
- 238000000151 deposition Methods 0.000 claims description 3
- 238000010586 diagram Methods 0.000 description 9
- 239000003381 stabilizer Substances 0.000 description 7
- 239000004065 semiconductor Substances 0.000 description 6
- 238000005868 electrolysis reaction Methods 0.000 description 4
- 230000006837 decompression Effects 0.000 description 3
- 238000001914 filtration Methods 0.000 description 3
- 230000008878 coupling Effects 0.000 description 2
- 238000010168 coupling process Methods 0.000 description 2
- 238000005859 coupling reaction Methods 0.000 description 2
- 239000004744 fabric Substances 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 239000004593 Epoxy Substances 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005538 encapsulation Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000005286 illumination Methods 0.000 description 1
- 230000007935 neutral effect Effects 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/30—Driver circuits
- H05B45/37—Converter circuits
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/30—Semiconductor lamps, e.g. solid state lamps [SSL] light emitting diodes [LED] or organic LED [OLED]
Abstract
The invention discloses a foldable hollowed-out flexible screen LED lamp remote control system, which comprises a remote control terminal, an LED lamp module and a display control terminal, wherein the LED lamp module comprises an LED lamp unit and a first control circuit, the first control circuit is connected with the LED lamp unit, and the first control circuit comprises a wireless communication unit; the remote control terminal comprises a second processor, a second wireless communication unit and a second command input unit, and the second processor is connected with the second wireless communication unit and the second command input unit; and the display control terminal comprises a third processor, a third wireless communication unit, an LED lamp display content input unit and an LED lamp display information distribution unit, and the third processor is connected with the third wireless communication unit, the LED lamp display content input unit and the LED lamp display information distribution unit. The foldable hollowed-out flexible screen LED lamp remote control system disclosed by the invention can control LED lamps conveniently and rapidly.
Description
Technical field
The invention belongs to LED and control technical field, relate to a kind of LED control system, particularly relate to one
Collapsible hollow-out flexible screen LED remote control system.
Background technology
LED (Light Emitting Diode), light emitting diode, it is visible to be that one can convert electrical energy into
The semiconductor devices of the solid-state of light, it directly can be converted into light electricity.The heart of LED is a semiconductor
Wafer, one end of wafer is attached on a support, and one end is negative pole, and the other end connects the positive pole of power supply, makes whole
Individual wafer is got up by epoxy encapsulation.Semiconductor wafer is made up of two parts, and a part is P-type semiconductor,
Inside it, occupy an leading position in hole, and the other end is N-type semiconductor, at the most mainly electronics.But both
The when that semiconductor coupling together, between them, it is formed for a P-N junction.When electric current acts on this by wire
The when of individual wafer, electronics will be pushed to P district, and in P district, electronics is with hole-recombination, then will be with light
The form of son sends energy, here it is the principle that LED is luminous.And the wavelength of light i.e. the color of light, it is
Determined by the material forming P-N junction.
Initially LED is used as the instruction light source of instrument and meter, and the most various photochromic LED are at traffic lights and big
Area display is widely applied, creates good economic benefit and social benefit.
The controller of cloth screen LED display device of today and LED wired connection, under many circumstances cannot be square
Just LED is manipulated.
Additionally, the information that existing cloth screen LED shows presets when generally being dispatched from the factory by producer, user also may be used
To input some Word messages by some terminals, but generally cannot show hand-drawing image, also cannot show picture,
Video information.
In view of this, nowadays in the urgent need to designing a kind of new LED control system, in order to overcome existing control system
The drawbacks described above that system exists.
Summary of the invention
The technical problem to be solved is: provide a kind of collapsible hollow-out flexible screen LED remote pilot
System, can control LED conveniently and efficiently.
For solving above-mentioned technical problem, the present invention adopts the following technical scheme that
A kind of collapsible hollow-out flexible screen LED remote control system, described remote control system includes: remote control
Control terminal, display control terminal, LED lamp module;
Described LED lamp module includes LED lamp unit, first control circuit, and described first control circuit connects
LED lamp unit, first control circuit includes radio communication unit;
Described remote pilot terminal includes the second processor, the second radio communication unit, the second command input unit,
Described second processor connects the second radio communication unit, the second command input unit respectively;
Described display control terminal includes that the 3rd processor, the 3rd radio communication unit, LED display content is defeated
Entering unit, LED display information assigning unit, the 3rd processor connects the 3rd radio communication unit, LED respectively
Lamp display content input unit, LED display information assigning unit;Described first radio communication unit, second
Radio communication unit, the 3rd radio communication unit are Wifi unit;
Described LED display content input unit is in order to form linear image in setting painting canvas, in order to LED
Lamp unit shows;The distribution of painting canvas correspondence LED lamp unit, some LED that LED lamp unit includes are at painting canvas
In all have the coordinate of its correspondence, as key node;
Described LED display content input unit includes painting canvas generation module, Freehandhand-drawing image generating module;Described
Painting canvas generation module is in order to generate painting canvas;Described LED lamp unit includes the LED that M row N arranges, and M row N arranges
Key node corresponding to LED be covered with whole painting canvas, the distance between LED with between corresponding key node
Distance become corresponding;Described Freehandhand-drawing image generating module is with generating at described painting canvas generation module for user
Freehandhand-drawing picture in painting canvas, forms corresponding linear image;
Described LED display information assigning unit is in order to the information according to LED display content input unit input
Distribute switch and the color of each LED;The mode of LED display information assigning unit distribution is: judge each
Whether there are the lines of described linear image in individual LED respective coordinates setpoint distance, if existing, setting should
LED is for opening, if not existing, then sets this LED as closing;The face of the color attribute correspondence lines of LED
Look;
Described first controller is that the information that each LED sets controls according to LED display information assigning unit
LED lamp unit;
Described LED display content input unit also includes picture acquisition module, picture gradation processing module, figure
Sheet profile automatically-generating module;Picture acquisition module in order to obtain image data, picture gradation processing module in order to
Picture carries out gray proces, and picture profile automatically-generating module is in order to generate the picture after gray proces
Outline line;
The described LED display outline line that generates according to picture profile automatically-generating module of information assigning unit and
The switch of each LED of color assignment of former outline line and color;LED display information assigning unit distribution
Mode is: whether there is the outline line of described picture in judging each LED respective coordinates setpoint distance, if depositing
Then setting this LED as opening, if not existing, then setting this LED as closing;The color attribute pair of LED
Answer the color of outline line;
Described LED display content input unit also include video acquiring module, video turn picture module, second
Picture gradation processing module, second picture profile automatically-generating module, playing interval control module;Video acquisition
Module in order to obtain video data, video turn picture module in order to obtain formed video key frame picture, second
Picture gradation processing module in order to carry out gray proces, second picture profile automatically-generating module by key frame picture
In order to generate the outline line of the picture after gray proces, playing interval control module is in order to control each picture
Reproduction time;
The profile that described LED display information assigning unit generates according to second picture profile automatically-generating module
The switch of each LED of color assignment of line and former outline line and color;LED display information assigning unit divides
The mode joined is: whether there is the outline line of described picture in judging each LED respective coordinates setpoint distance,
If existing, setting this LED as opening, if not existing, then setting this LED as pass;The color of LED belongs to
The color of property correspondence outline line;
Described control system also includes sound acquisition module, in order to obtain voice data.
Described first control circuit include mu balanced circuit, wireless communication line, main control circuit, through control circuit,
Latitude control circuit;
Described mu balanced circuit includes the first diode D1, the first electric capacity C1, the second electric capacity C2, the first electrolysis electricity
Hold EC1, the second electrochemical capacitor EC2, the second process chip U2;Described second the first pipe processing chip U2
Pin ground connection;Second the second pin processing chip U2 connects second source VDD, and the second electrochemical capacitor EC2
The first end, first end of the second electric capacity C2;Second end of the second electrochemical capacitor EC2, the second electric capacity C2
The second end ground connection;Second three-prong processing chip U2 connects the first power supply VCC, and the first electrolysis
First end of electric capacity EC1, first end of the first electric capacity C1, second end of the first electrochemical capacitor EC1, first
The second end ground connection of electric capacity C1;The plus earth of the first diode D1, negative pole meet the first power supply VCC;
Described wireless communication line include the first process chip U1, the 3rd electric capacity C3, the 4th electric capacity C4, the 5th
Electric capacity C5, the 6th electric capacity C6, the 17th electric capacity C17, the 21st electric capacity Z1, the 22nd electric capacity Z2,
First inductance Z3, the second inductance Z4, crystal oscillator Y1;First process first pin of chip U1, the
Six pin ground connection;First the second pin processing chip U1 connects wireless telecommunications electricity by the 21st electric capacity Z1
Road, first processes second pin of chip U1 also through the second inductance Z4 ground connection;Wireless communication line is also distinguished
By the 22nd electric capacity Z2, the first inductance Z3 ground connection;First three-prong processing chip U1 connects the
Two power vd D, first end of the 17th electric capacity C17, first end of the 5th electric capacity C5, the 6th electric capacity C6
First end, second end of the 17th electric capacity C17, second end of the 5th electric capacity C5, the second of the 6th electric capacity C6
End ground connection respectively;First processes the 4th pin of chip U1 through the 3rd electric capacity C3 ground connection;First processes chip
7th pin of U1 is through the 4th electric capacity C4 ground connection;First the 8th pin processing chip U1 shakes through crystal
Swing device Y1 ground connection;
Main control circuit includes the 3rd process chip U3, indicating lamp control circuit, the 9th electric capacity C9, the tenth electricity
Hold C10;3rd processes chip U3 connects indicating lamp control circuit, and the 3rd processes the 12nd pin of chip U3
Connecting second source VDD, first end of the tenth electric capacity C10, the 3rd the tenth pin processing chip U3 connects
First end of the 9th electric capacity C9, the 3rd processes the 11st pin ground connection of chip U3;The of tenth electric capacity C10
Two ends, the second end ground connection of the 9th electric capacity C9;
The 11st process chip U11, the 12nd process chip U12, the 13rd process core is included through control circuit
Sheet U13, some interface circuits, the 13rd electric capacity C13, the 14th electric capacity C14, the 15th electric capacity C15;The
11 the first pin GND ground connection processing chip U11, the 11st processes the 24th pin of chip U11
VCC connects first end of the first power supply VCC, the 13rd electric capacity C13 and connects the of the 11st process chip U11
Second end of 24 pin VCC, the 13rd electric capacity C13 connects first pin of the 11st process chip U11
GND;The 11st multiple pins processing chip U11 connect corresponding interface circuit;
12nd the first pin GND ground connection processing chip U12, the 12nd processes the 24th of chip U12
Pin VCC connects the first power supply VCC, and first end of the 14th electric capacity C14 connects the 12nd process chip U12
The 24th pin VCC, the 14th electric capacity C14 second end connect the 12nd process chip U12 first
Pin GND;The 12nd multiple pins processing chip U12 connect corresponding interface circuit;
13rd the first pin GND ground connection processing chip U13, the 13rd processes the 24th of chip U13
Pin VCC connects the first power supply VCC, and first end of the 15th electric capacity C15 connects the 13rd process chip U13
The 24th pin VCC, the 15th electric capacity C15 second end connect the 13rd process chip U13 first
Pin GND;The 13rd multiple pins processing chip U13 connect corresponding interface circuit;
Latitude control circuit include the 5th process chip U5, the 6th process chip U6, the 7th process chip U7, the
Eight process chip U8, the 9th process chip U9, the tenth process chip U10, the 14th process chip U14, the
15 process chip U15, the 16th process chip U16, the 17th process chip U17, some interfaces, the
12 electric capacity C12, the 16th electric capacity C16;
6th process chip U6, the 9th process chip U9 connect the 5th process chip U5, the 7th process core respectively
Sheet U7, the 8th process chip U8, the tenth process chip U10, the 14th process chip U14, the 15th process
Chip U15, the 16th process chip U16, the 17th process chip U17;5th process chip U5, the 7th
Process chip U7, the 8th process chip U8, the tenth process chip U10 connect corresponding interface circuit, and the 14th
Process chip U14, the 15th process chip U15, the 16th process chip U16, the 17th process chip U17
Connect corresponding interface circuit.
A kind of collapsible hollow-out flexible screen LED remote control system, described remote control system includes: remote control
Control terminal, LED lamp module;
Described LED lamp module includes LED lamp unit, first control circuit, and described first control circuit connects
LED lamp unit, first control circuit includes radio communication unit;
Described remote pilot terminal includes the second processor, the second radio communication unit, the second command input unit,
Described second processor connects the second radio communication unit, the second command input unit respectively.
As a preferred embodiment of the present invention, described control system also includes display control terminal;Display controls
Terminal includes that the 3rd processor, the 3rd radio communication unit, LED display content input unit, LED show
Showing information assigning unit, the 3rd processor connects the 3rd radio communication unit, LED display content input respectively
Unit, LED display information assigning unit;
Described LED display content input unit is in order to form linear image in setting painting canvas, in order to LED
Lamp unit shows;The distribution of painting canvas correspondence LED lamp unit, some LED that LED lamp unit includes are at painting canvas
In all have the coordinate of its correspondence, as key node;
Described LED display content input unit includes painting canvas generation module, Freehandhand-drawing image generating module;Described
Painting canvas generation module is in order to generate painting canvas;Described Freehandhand-drawing image generating module generates at described painting canvas with for user
Freehandhand-drawing picture in the painting canvas that module generates, forms corresponding linear image;
Described LED display information assigning unit is in order to the information according to LED display content input unit input
Distribute the switch of each LED;The mode of LED display information assigning unit distribution is: judge each LED
Whether there are the lines of described linear image in lamp respective coordinates setpoint distance, if existing, setting this LED
Lamp is for opening, if not existing, then sets this LED as closing;
Described first controller is that the information that each LED sets controls according to LED display information assigning unit
LED lamp unit.
As a preferred embodiment of the present invention, described LED lamp unit includes the LED that M row N arranges, M row
The key node that the LED of N row is corresponding is covered with whole painting canvas, the distance between LED and corresponding key node
Between distance become corresponding;
Described LED display information assigning unit is in order to the information according to LED display content input unit input
Distribute switch and the color of each LED;The color of the color attribute correspondence lines of LED.
As a preferred embodiment of the present invention, described LED display content input unit also includes that picture obtains
Module, picture gradation processing module, picture profile automatically-generating module;Picture acquisition module is in order to obtain picture
Data, picture gradation processing module in order to picture to be carried out gray proces, picture profile automatically-generating module in order to
Generate the outline line of the picture after gray proces;
The described LED display outline line that generates according to picture profile automatically-generating module of information assigning unit and
The switch of each LED of color assignment of former outline line and color;LED display information assigning unit distribution
Mode is: whether there is the outline line of described picture in judging each LED respective coordinates setpoint distance, if depositing
Then setting this LED as opening, if not existing, then setting this LED as closing;The color attribute pair of LED
Answer the color of outline line.
As a preferred embodiment of the present invention, described LED display content input unit also includes video acquisition
Module, video turn picture module, second picture gradation processing module, second picture profile automatically-generating module,
Playing interval control module;Video acquiring module is in order to obtain video data, and video turns picture module in order to obtain
Forming the key frame picture of video, second picture gradation processing module is in order to carry out key frame picture at gray scale
Reason, second picture profile automatically-generating module, in order to generate the outline line of the picture after gray proces, is play
Separation control module is in order to control the reproduction time of each picture;
The profile that described LED display information assigning unit generates according to second picture profile automatically-generating module
The switch of each LED of color assignment of line and former outline line and color;LED display information assigning unit divides
The mode joined is: whether there is the outline line of described picture in judging each LED respective coordinates setpoint distance,
If existing, setting this LED as opening, if not existing, then setting this LED as pass;The color of LED belongs to
The color of property correspondence outline line.
As a preferred embodiment of the present invention, described control system also includes sound acquisition module, in order to obtain
Voice data.
As a preferred embodiment of the present invention, described first radio communication unit, the second radio communication unit,
3rd radio communication unit is Wifi unit.
As a preferred embodiment of the present invention, described first control circuit includes mu balanced circuit, wireless telecommunications electricity
Road, main control circuit, through control circuit, latitude control circuit;
Described mu balanced circuit includes the first diode D1, the first electric capacity C1, the second electric capacity C2, the first electrolysis electricity
Hold EC1, the second electrochemical capacitor EC2, the second process chip U2;Described second the first pipe processing chip U2
Pin ground connection;Second the second pin processing chip U2 connects second source VDD, and the second electrochemical capacitor EC2
The first end, first end of the second electric capacity C2;Second end of the second electrochemical capacitor EC2, the second electric capacity C2
The second end ground connection;Second three-prong processing chip U2 connects the first power supply VCC, and the first electrolysis
First end of electric capacity EC1, first end of the first electric capacity C1, second end of the first electrochemical capacitor EC1, first
The second end ground connection of electric capacity C1;The plus earth of the first diode D1, negative pole meet the first power supply VCC;
Described wireless communication line include the first process chip U1, the 3rd electric capacity C3, the 4th electric capacity C4, the 5th
Electric capacity C5, the 6th electric capacity C6, the 17th electric capacity C17, the 21st electric capacity Z1, the 22nd electric capacity Z2,
First inductance Z3, the second inductance Z4, crystal oscillator Y1;First process first pin of chip U1, the
Six pin ground connection;First the second pin processing chip U1 connects wireless telecommunications electricity by the 21st electric capacity Z1
Road, first processes second pin of chip U1 also through the second inductance Z4 ground connection;Wireless communication line is also distinguished
By the 22nd electric capacity Z2, the first inductance Z3 ground connection;First three-prong processing chip U1 connects the
Two power vd D, first end of the 17th electric capacity C17, first end of the 5th electric capacity C5, the 6th electric capacity C6
First end, second end of the 17th electric capacity C17, second end of the 5th electric capacity C5, the second of the 6th electric capacity C6
End ground connection respectively;First processes the 4th pin of chip U1 through the 3rd electric capacity C3 ground connection;First processes chip
7th pin of U1 is through the 4th electric capacity C4 ground connection;First the 8th pin processing chip U1 shakes through crystal
Swing device Y1 ground connection;
Main control circuit includes the 3rd process chip U3, indicating lamp control circuit, the 9th electric capacity C9, the tenth electricity
Hold C10;3rd processes chip U3 connects indicating lamp control circuit, and the 3rd processes the 12nd pin of chip U3
Connecting second source VDD, first end of the tenth electric capacity C10, the 3rd the tenth pin processing chip U3 connects
First end of the 9th electric capacity C9, the 3rd processes the 11st pin ground connection of chip U3;The of tenth electric capacity C10
Two ends, the second end ground connection of the 9th electric capacity C9;
The 11st process chip U11, the 12nd process chip U12, the 13rd process core is included through control circuit
Sheet U13, some interface circuits, the 13rd electric capacity C13, the 14th electric capacity C14, the 15th electric capacity C15;The
11 the first pin GND ground connection processing chip U11, the 11st processes the 24th pin of chip U11
VCC connects first end of the first power supply VCC, the 13rd electric capacity C13 and connects the of the 11st process chip U11
Second end of 24 pin VCC, the 13rd electric capacity C13 connects first pin of the 11st process chip U11
GND;The 11st multiple pins processing chip U11 connect corresponding interface circuit;
12nd the first pin GND ground connection processing chip U12, the 12nd processes the 24th of chip U12
Pin VCC connects the first power supply VCC, and first end of the 14th electric capacity C14 connects the 12nd process chip U12
The 24th pin VCC, the 14th electric capacity C14 second end connect the 12nd process chip U12 first
Pin GND;The 12nd multiple pins processing chip U12 connect corresponding interface circuit;
13rd the first pin GND ground connection processing chip U13, the 13rd processes the 24th of chip U13
Pin VCC connects the first power supply VCC, and first end of the 15th electric capacity C15 connects the 13rd process chip U13
The 24th pin VCC, the 15th electric capacity C15 second end connect the 13rd process chip U13 first
Pin GND;The 13rd multiple pins processing chip U13 connect corresponding interface circuit;
Latitude control circuit include the 5th process chip U5, the 6th process chip U6, the 7th process chip U7, the
Eight process chip U8, the 9th process chip U9, the tenth process chip U10, the 14th process chip U14, the
15 process chip U15, the 16th process chip U16, the 17th process chip U17, some interfaces, the
12 electric capacity C12, the 16th electric capacity C16;
6th process chip U6, the 9th process chip U9 connect the 5th process chip U5, the 7th process core respectively
Sheet U7, the 8th process chip U8, the tenth process chip U10, the 14th process chip U14, the 15th process
Chip U15, the 16th process chip U16, the 17th process chip U17;5th process chip U5, the 7th
Process chip U7, the 8th process chip U8, the tenth process chip U10 connect corresponding interface circuit, and the 14th
Process chip U14, the 15th process chip U15, the 16th process chip U16, the 17th process chip U17
Connect corresponding interface circuit.
The beneficial effects of the present invention is: the present invention proposes collapsible hollow-out flexible screen LED remote pilot system
System, can control LED conveniently and efficiently.Meanwhile, control system of the present invention adds display control terminal, can show
Show hand-drawing image, facilitate user to control the display of LED.
Accompanying drawing explanation
Fig. 1 is the composition schematic diagram of the present invention collapsible hollow-out flexible screen LED remote control system.
Fig. 2 is the circuit diagram of mu balanced circuit in the present invention.
Fig. 3 is the circuit diagram of wireless communication line in the present invention.
Fig. 4 is the circuit diagram of main control circuit in the present invention.
Fig. 5 is the circuit diagram of latitude control circuit in the present invention.
Fig. 6 is the circuit diagram in the present invention through control circuit.
Fig. 7 is the line schematic diagram of LED lamp module in present system.
Fig. 8 is the circuit diagram of present system control circuit.
Fig. 9 is the composition schematic diagram of speech recognition apparatus in present system.
Detailed description of the invention
Describe the preferred embodiments of the present invention below in conjunction with the accompanying drawings in detail.
Embodiment one
Refer to Fig. 1, present invention is disclosed a kind of collapsible hollow-out flexible screen LED remote control system, institute
State remote control system to include: LED lamp module 1, remote pilot terminal 2, display control terminal 3.
Described LED lamp module 1 includes the first controller 11, LED lamp unit the 12, first radio communication unit
13, described controller 11 connects LED lamp unit the 12, first radio communication unit 13.
Described remote pilot terminal 2 includes that second processor the 21, second radio communication unit 22, second is ordered
Input block 23, described second processor 21 connects the second radio communication unit 22, second respectively orders input
Unit 23.
Described display control terminal 3 includes that the 3rd processor the 31, the 3rd radio communication unit 32, LED are aobvious
Showing that content input unit 33, LED show information assigning unit 34, the 3rd processor 31 connects the 3rd respectively
Radio communication unit 32, LED display content input unit 33;Described first radio communication unit 13,
Two radio communication unit the 22, the 3rd radio communication units 32 can be Wifi unit.
Described LED display content input unit 33 is in order to form linear image in setting painting canvas, in order to
LED lamp unit shows;The distribution of painting canvas correspondence LED lamp unit, some LED that LED lamp unit includes exist
Painting canvas all has the coordinate of its correspondence, as key node.
Described LED display content input unit 33 includes painting canvas generation module, Freehandhand-drawing image generating module;
Described painting canvas generation module is in order to generate painting canvas;Described LED lamp unit includes the LED that M row N arranges, M row
The key node that the LED of N row is corresponding is covered with whole painting canvas, the distance between LED and corresponding key node
Between distance become corresponding;Described Freehandhand-drawing image generating module is with raw at described painting canvas generation module for user
Freehandhand-drawing picture in the painting canvas become, forms corresponding linear image.
Described LED display information assigning unit 34 is in order to according to LED display content input unit input
Information distributes switch and the color of each LED;The mode of LED display information assigning unit 34 distribution is:
Whether there are the lines of described linear image in judging each LED respective coordinates setpoint distance, if existing,
Setting this LED as opening, if not existing, then setting this LED as closing;The color attribute correspondence line of LED
The color of bar.
The letter that described first controller 11 sets for each LED according to LED display information assigning unit 34
Breath controls LED lamp unit 12.
Described LED display content input unit 33 can also include picture acquisition module, picture gray proces
Module, picture profile automatically-generating module;Picture acquisition module in order to obtain image data, picture gray proces
Module in order to carry out gray proces by picture, and picture profile automatically-generating module is in order to generate after gray proces
The outline line of picture.
The outline line that described LED display information assigning unit 34 generates according to picture profile automatically-generating module
And the switch of each LED of color assignment of former outline line and color;LED display information assigning unit distribution
Mode be: whether there is the outline line of described picture in judging each LED respective coordinates setpoint distance, if
Existing and then set this LED as opening, if not existing, then setting this LED as pass;The color attribute of LED
The color of corresponding outline line.
Described LED display content input unit 33 can also include that video acquiring module, video turn picture mould
Block, second picture gradation processing module, second picture profile automatically-generating module, playing interval control module;
Video acquiring module is in order to obtain video data, and video turns picture module in order to obtain the key frame figure forming video
Sheet, second picture gradation processing module is in order to carry out gray proces by key frame picture, and second picture profile is automatic
Generation module is in order to generate the outline line of the picture after gray proces, and playing interval control module is in order to control
The reproduction time of each picture.
The profile that described LED display information assigning unit generates according to second picture profile automatically-generating module
The switch of each LED of color assignment of line and former outline line and color;LED display information assigning unit divides
The mode joined is: whether there is the outline line of described picture in judging each LED respective coordinates setpoint distance,
If existing, setting this LED as opening, if not existing, then setting this LED as pass;The color of LED belongs to
The color of property correspondence outline line.
In order to play the sound (or coordinating photo to play music) in video, described control system also includes sound
Sound acquisition module, in order to obtain voice data.
Embodiment two
A kind of collapsible hollow-out flexible screen LED remote control system, described remote control system includes: remote control
Control terminal, LED lamp module.Described LED lamp module includes LED lamp unit, first control circuit, described
First control circuit connects LED lamp unit, and first control circuit includes radio communication unit.Described remote pilot
Terminal includes the second processor, the second radio communication unit, the second command input unit, described second processor
Connect the second radio communication unit, the second command input unit respectively.
Described first control circuit include mu balanced circuit, wireless communication line, main control circuit, through control circuit,
Latitude control circuit.
Refer to Fig. 2, described mu balanced circuit include the first diode D1, the first electric capacity C1, the second electric capacity C2,
First electrochemical capacitor EC1, the second electrochemical capacitor EC2, the second process chip U2;Described second processes chip U2
The first pin ground connection;Second the second pin processing chip U2 connects second source VDD, and the second electricity
Solve first end of electric capacity EC2, first end of the second electric capacity C2;Second end of the second electrochemical capacitor EC2,
The second end ground connection of two electric capacity C2;Second three-prong processing chip U2 connects the first power supply VCC, and
First end of the first electrochemical capacitor EC1, first end of the first electric capacity C1, the second of the first electrochemical capacitor EC1
End, the second end ground connection of the first electric capacity C1;The plus earth of the first diode D1, negative pole connect the first power supply
VCC。
Refer to Fig. 3, described wireless communication line include the first process chip U1, the 3rd electric capacity C3, the 4th
Electric capacity C4, the 5th electric capacity C5, the 6th electric capacity C6, the 17th electric capacity C17, the 21st electric capacity Z1, second
12 electric capacity Z2, the first inductance Z3, the second inductance Z4, crystal oscillator Y1;First processes chip U1's
First pin, the 6th pin ground connection;First processes second pin of chip U1 by the 21st electric capacity Z1
Connecting wireless communication line, first processes second pin of chip U1 also through the second inductance Z4 ground connection;Wireless
Communicating circuit is the most respectively by the 22nd electric capacity Z2, the first inductance Z3 ground connection;First processes chip U1's
Three-prong connect second source VDD, first end of the 17th electric capacity C17, first end of the 5th electric capacity C5,
First end of the 6th electric capacity C6, second end of the 17th electric capacity C17, second end of the 5th electric capacity C5, the 6th
Second end of electric capacity C6 ground connection respectively;First processes the 4th pin of chip U1 through the 3rd electric capacity C3 ground connection;
First processes the 7th pin of chip U1 through the 4th electric capacity C4 ground connection;First the 8th pipe processing chip U1
Pin is through crystal oscillator Y1 ground connection.
Referring to Fig. 4, main control circuit includes the 3rd process chip U3, indicating lamp control circuit, the 9th electric capacity
C9, the tenth electric capacity C10;3rd processes chip U3 connects indicating lamp control circuit, and the 3rd processes chip U3's
12nd pin connects second source VDD, first end of the tenth electric capacity C10, and the 3rd processes the of chip U3
Ten pins connect first end of the 9th electric capacity C9, and the 3rd processes the 11st pin ground connection of chip U3;Tenth electricity
Hold second end of C10, the second end ground connection of the 9th electric capacity C9.
Refer to Fig. 5, through control circuit include the 11st process chip U11, the 12nd process chip U12,
13rd process chip U13, some interface circuits, the 13rd electric capacity C13, the 14th electric capacity C14, the tenth
Five electric capacity C15;11st the first pin GND ground connection processing chip U11, the 11st processes chip U11's
24th pin VCC connects first end of the first power supply VCC, the 13rd electric capacity C13 and connects the 11st process
Second end of the 24th pin VCC of chip U11, the 13rd electric capacity C13 connects the 11st process chip U11
The first pin GND;The 11st multiple pins processing chip U11 connect corresponding interface circuit.
12nd the first pin GND ground connection processing chip U12, the 12nd processes the 24th of chip U12
Pin VCC connects the first power supply VCC, and first end of the 14th electric capacity C14 connects the 12nd process chip U12
The 24th pin VCC, the 14th electric capacity C14 second end connect the 12nd process chip U12 first
Pin GND;The 12nd multiple pins processing chip U12 connect corresponding interface circuit.
13rd the first pin GND ground connection processing chip U13, the 13rd processes the 24th of chip U13
Pin VCC connects the first power supply VCC, and first end of the 15th electric capacity C15 connects the 13rd process chip U13
The 24th pin VCC, the 15th electric capacity C15 second end connect the 13rd process chip U13 first
Pin GND;The 13rd multiple pins processing chip U13 connect corresponding interface circuit.
Referring to Fig. 6, latitude control circuit includes the 5th process chip U5, the 6th processes chip U6, at the 7th
Reason chip U7, the 8th process chip U8, the 9th process chip U9, the tenth process chip U10, the tenth everywhere
Reason chip U14, the 15th process chip U15, the 16th process chip U16, the 17th process chip U17,
Some interfaces, the 12nd electric capacity C12, the 16th electric capacity C16.
6th process chip U6, the 9th process chip U9 connect the 5th process chip U5, the 7th process core respectively
Sheet U7, the 8th process chip U8, the tenth process chip U10, the 14th process chip U14, the 15th process
Chip U15, the 16th process chip U16, the 17th process chip U17;5th process chip U5, the 7th
Process chip U7, the 8th process chip U8, the tenth process chip U10 connect corresponding interface circuit, and the 14th
Process chip U14, the 15th process chip U15, the 16th process chip U16, the 17th process chip U17
Connect corresponding interface circuit.
Embodiment three
In the present embodiment, described LED lamp module includes M group LED lamp unit, N bar connecting line, M >=2, M
For even number, N >=2;Each connecting line connects dry cell;M=(N-1) * N;Every two groups of LED lamp unit include to
A few LED, when every two groups of LED lamp unit include more than 2 LED, each LED includes series connection
LED or/and the LED of parallel connection.
As, described LED lamp module includes 56 groups of LED lamp unit, 8 connecting lines;Or, LED lamp module
Including 42 groups of LED lamp unit, 7 connecting lines;Or, LED lamp module include 30 groups of LED lamp unit, 6
Bar connecting line;Or, LED lamp module includes 20 groups of LED lamp unit, 5 connecting lines.In the present embodiment,
As it is shown in fig. 7, LED lamp module 3 includes 30 groups of LED lamp unit, 6 connecting lines.
Every two groups of LED lamp unit partner, the connecting line that every pair of LED lamp unit connection is identical, but wiring side
To on the contrary;That is, the positive pole of the one of which LED lamp unit of every pair LED lamp unit connects the i-th connecting line Li,
Negative pole connects jth connecting line Lj;The positive pole of another group LED lamp unit of every pair of LED lamp unit connects jth
Connecting line Lj, negative pole connects the i-th connecting line Li.
As it is shown in fig. 7, LED lamp unit 31, LED lamp unit 32 are as a pair, LED lamp unit 31 is just
Pole connects connecting line L1, and negative pole connects connecting line L6;The positive pole of LED lamp unit 32 connects connecting line L6, negative
Pole connects connecting line L1.For another example, LED lamp unit 33, LED lamp unit 34 as a pair, LED lamp unit
The positive pole of 33 connects connecting line L3, and negative pole connects connecting line L5;The positive pole of LED lamp unit 34 connects connecting line
L5, negative pole connects connecting line L3.
Described control circuit controls the voltage of each connecting line in the way of scanning, makes synchronization only have one group of LED
Lamp unit lights;The most often group LED lamp unit is all lit at least one times in same period of time T, and
Other group LED lamp unit are in OFF state when lighting;Period of time T is shorter than human eye vision and persists the time, makes
Human eye thinks that often group LED lamp unit is all in illuminating state.In the present embodiment, T < 0.02 second;As can one
Second carry out 60 scanning, scan each time, according to setting sequential illumination (and closedown) to each group of LED
Unit.
The voltage only having a connecting line in synchronization, N bar connecting line is just, the voltage of a connecting line
It is negative;Thus control a LED lamp unit in corresponding two LED lamp unit connected with these two connecting lines
Lighting, remaining LED lamp unit is in OFF state.
Referring to Fig. 8, the present embodiment is as a example by 4 line 12 tunnels (12 groups of LED lamp unit, 4 connecting lines)
Introduce the composition of control circuit.Described control circuit include first processor, LED drive circuit, memory,
First wireless communication module, first processor connects memory, the first wireless communication module, LED driving respectively
Circuit.
Described control circuit include transformer, current rectifying and wave filtering circuit, decompression voltage regulator, MCU control chip,
Some triodes;Described transformer, current rectifying and wave filtering circuit, decompression voltage regulator are sequentially connected with, and MCU controls core
Sheet connects each triode respectively;Described MCU control chip is also associated with memory chip.
Described current rectifying and wave filtering circuit includes the first diode, the first electric capacity;First port of transformer, the one or two
The positive pole of pole pipe, the second end ground connection of the first electric capacity, the negative pole of the first diode, the first end of the first electric capacity lead to
Cross the second port of fuse connection transformer.
Described decompression voltage regulator include the first voltage-stabiliser tube, the second voltage-stabiliser tube, the second electric capacity, the second diode,
3rd diode;First port of described first voltage-stabiliser tube, the first port of the second voltage-stabiliser tube are connected by fuse
Connect the second port of transformer;First voltage-stabiliser tube, the grounding ports ground connection of the second voltage-stabiliser tube;Described first voltage stabilizing
The output port of pipe connects the first end of the second electric capacity, the positive pole of the second diode, the second termination of the second electric capacity
Ground, the negative pole of the second diode connects voltage VCC;The output port of the first voltage-stabiliser tube connects the 3rd diode
Positive pole, the negative pole of the 3rd diode connects voltage VCC.
The base stage of described MCU control chip coupling part triode respectively, every three triodes assemble conjunction as one
Use;With the use of three triodes in, a pin of MCU control chip connects the base of the first triode
Pole, the grounded emitter of the first triode, send control signal by the colelctor electrode of the first triode;MCU is controlled
Another pin of coremaking sheet connects the base stage of the second triode, the grounded emitter of the second triode, and the two or three
The colelctor electrode of pole pipe connects the base stage of the 3rd triode;The emitter stage of the 3rd triode connects voltage VCC, passes through
The colelctor electrode of the 3rd triode sends control signal.
Preferably, described control system also includes speech recognition apparatus;Described control circuit sets according to speech recognition
LED lamp module is controlled by the standby control command identified.
Refer to Fig. 9, described speech recognition apparatus include voice acquiring unit 41, voice comparison data storehouse 42,
Voice comparing unit 43, voice recognition unit 44;Voice comparing unit 43 connects voice acquiring unit respectively
41, voice comparison data storehouse 42, the voice messaging that voice acquiring unit 41 is obtained and voice comparison data storehouse
Voice in 42 is compared, and finds out the voice that similarity is the highest, sends to voice recognition unit 44;Voice
The result that recognition unit 44 will identify that sends to control circuit 1 as control command.
Described voice comparing unit includes that dialect comparing unit, voice comparison data storehouse include dialect comparison data
Storehouse;Described dialect comparing unit will set the setting dialect of user and corresponding dialect comparison data storehouse comparison;
The dialect of setting user is set by the user or system obtains according to the use record autonomous learning of user.
Described system also includes autonomous learning module, passes through neutral net in order to the use record according to each user
Independent study study obtains;If as user's use is the most same or like after dialect phonetic order, system is not known
Not going out, or the result identified by user is negated all, then user manually performs the operational order of correspondence;
Then think above-mentioned dialect phonetic order to should operational order, and update dialect comparison data storehouse.By this side
Formula can improve identification accuracy, can better adapt to the pronunciation custom of different people.
In sum, the collapsible hollow-out flexible screen LED remote control system that the present invention proposes, can facilitate fast
Control LED promptly.Meanwhile, control system of the present invention adds display control terminal, can show hand-drawing image,
User is facilitated to control the display of LED.
Here description of the invention and application is illustrative, is not wishing to limit the scope of the invention to above-mentioned reality
Execute in example.The deformation of embodiments disclosed herein and change are possible, for the common skill of those this areas
For art personnel, the various parts with equivalence of replacing of embodiment are known.It should be clear to a person skilled in the art that
, in the case of without departing from the spirit or essential characteristics of the present invention, the present invention can in other forms, knot
Structure, layout, ratio, and realize with other assembly, material and parts.Without departing from the scope of the invention and
In the case of spirit, embodiments disclosed herein can be carried out other deformation and change.
Claims (9)
1. a collapsible hollow-out flexible screen LED remote control system, it is characterised in that described remote pilot system
System includes: remote pilot terminal, display control terminal, LED lamp module;
Described LED lamp module includes LED lamp unit, first control circuit, and described first control circuit is even
Connecing LED lamp unit, first control circuit includes radio communication unit;
Described remote pilot terminal includes the second processor, the second radio communication unit, the second order input
Unit, described second processor connects the second radio communication unit, the second command input unit respectively;Institute
State the first radio communication unit, the second radio communication unit is Wifi unit;
In described display control terminal includes that the 3rd processor, the 3rd radio communication unit, LED show
Holding input block, LED display information assigning unit, the 3rd processor connects the 3rd wireless telecommunications respectively
Unit, LED display content input unit, LED display information assigning unit;
Described LED display content input unit is in order to form linear image in setting painting canvas, in order to
LED lamp unit shows;The distribution of painting canvas correspondence LED lamp unit, some LED that LED lamp unit includes
Lamp all has the coordinate of its correspondence in painting canvas, as key node;
Described LED display content input unit includes painting canvas generation module, Freehandhand-drawing image generating module;
Described painting canvas generation module is in order to generate painting canvas;Described LED lamp unit includes the LED that M row N arranges, M
The key node that the LED of row N row is corresponding is covered with whole painting canvas, and the distance between LED is closed with corresponding
Distance between key node becomes corresponding;Described Freehandhand-drawing image generating module with for user at described painting canvas
Freehandhand-drawing picture in the painting canvas that generation module generates, forms corresponding linear image;
Described LED display information assigning unit is in order to according to LED display content input unit input
Information distributes switch and the color of each LED;The mode of LED display information assigning unit distribution is:
Whether there are the lines of described linear image, if depositing in judging each LED respective coordinates setpoint distance
Then setting this LED as opening, if not existing, then setting this LED as closing;The color of LED belongs to
The color of property correspondence lines;
Described first controller is the information that each LED sets according to LED display information assigning unit
Control LED lamp unit;
Described LED display content input unit also include picture acquisition module, picture gradation processing module,
Picture profile automatically-generating module;Picture acquisition module in order to obtain image data, picture gray proces mould
Block in order to carry out gray proces by picture, and picture profile automatically-generating module is in order to generate through gray proces
After the outline line of picture;
The outline line that described LED display information assigning unit generates according to picture profile automatically-generating module
And the switch of each LED of color assignment of former outline line and color;LED display information assigning unit
The mode of distribution is: whether there is the wheel of described picture in judging each LED respective coordinates setpoint distance
Profile, if existing, sets this LED as opening, if not existing, then sets this LED as pass;LED
The color of the color attribute correspondence outline line of lamp;
Described LED display content input unit also include video acquiring module, video turn picture module,
Second picture gradation processing module, second picture profile automatically-generating module, playing interval control module;
Video acquiring module is in order to obtain video data, and video turns picture module in order to obtain the key forming video
Frame picture, second picture gradation processing module is in order to carry out gray proces, second picture by key frame picture
Profile automatically-generating module is in order to generate the outline line of the picture after gray proces, and playing interval controls
Module is in order to control the reproduction time of each picture;
The wheel that described LED display information assigning unit generates according to second picture profile automatically-generating module
The switch of each LED of color assignment of profile and former outline line and color;LED display information distribution
The mode of unit distribution is: whether there is described picture in judging each LED respective coordinates setpoint distance
Outline line, if existing, setting this LED as opening, if not existing, then setting this LED as pass;
The color of the color attribute correspondence outline line of LED;
Described control system also includes sound acquisition module, in order to obtain voice data;
Described first control circuit include mu balanced circuit, wireless communication line, main control circuit, through control
Circuit, latitude control circuit;
Described mu balanced circuit includes the first diode D1, the first electric capacity C1, the second electric capacity C2, the first electricity
Solve electric capacity EC1, the second electrochemical capacitor EC2, the second process chip U2;Described second processes chip U2's
First pin ground connection;Second the second pin processing chip U2 connects second source VDD, and the second electricity
Solve first end of electric capacity EC2, first end of the second electric capacity C2;Second end of the second electrochemical capacitor EC2,
The second end ground connection of the second electric capacity C2;Second three-prong processing chip U2 connects the first power supply VCC,
And first first end of electrochemical capacitor EC1, first end of the first electric capacity C1, the first electrochemical capacitor EC1
The second end, the second end ground connection of the first electric capacity C1;The plus earth of the first diode D1, negative pole connect
First power supply VCC;
Described wireless communication line include the first process chip U1, the 3rd electric capacity C3, the 4th electric capacity C4,
5th electric capacity C5, the 6th electric capacity C6, the 17th electric capacity C17, the 21st electric capacity Z1, the 22nd electricity
Hold Z2, the first inductance Z3, the second inductance Z4, crystal oscillator Y1;First processes the first of chip U1
Pin, the 6th pin ground connection;First processes second pin of chip U1 by the 21st electric capacity Z1 even
Connecing wireless communication line, first processes second pin of chip U1 also through the second inductance Z4 ground connection;Nothing
Line communicating circuit is the most respectively by the 22nd electric capacity Z2, the first inductance Z3 ground connection;First processes chip
The three-prong of U1 connects second source VDD, first end of the 17th electric capacity C17, the 5th electric capacity C5
The first end, first end of the 6th electric capacity C6, second end of the 17th electric capacity C17, the 5th electric capacity C5
The second end, the second end respectively ground connection of the 6th electric capacity C6;First the 4th pin warp processing chip U1
Cross the 3rd electric capacity C3 ground connection;First processes the 7th pin of chip U1 through the 4th electric capacity C4 ground connection;The
One processes the 8th pin of chip U1 through crystal oscillator Y1 ground connection;
Main control circuit include the 3rd process chip U3, indicating lamp control circuit, the 9th electric capacity C9, the tenth
Electric capacity C10;3rd processes chip U3 connects indicating lamp control circuit, and the 3rd processes the tenth of chip U3
Two pins connect second source VDD, first end of the tenth electric capacity C10, and the 3rd processes the tenth of chip U3
Pin connects first end of the 9th electric capacity C9, and the 3rd processes the 11st pin ground connection of chip U3;Tenth
Second end of electric capacity C10, the second end ground connection of the 9th electric capacity C9;
The 11st process chip U11, the 12nd process chip U12, the 13rd process is included through control circuit
Chip U13, some interface circuits, the 13rd electric capacity C13, the 14th electric capacity C14, the 15th electric capacity C15;
11st the first pin GND ground connection processing chip U11, the 11st processes the 24th of chip U11
Pin VCC connects the first power supply VCC, and first end of the 13rd electric capacity C13 connects the 11st process chip
Second end of the 24th pin VCC of U11, the 13rd electric capacity C13 connects the 11st process chip U11
The first pin GND;The 11st multiple pins processing chip U11 connect corresponding interface circuit;
12nd the first pin GND ground connection processing chip U12, the 12nd processes the second of chip U12
14 pin VCC connect the first power supply VCC, and first end of the 14th electric capacity C14 connects the 12nd process
Second end of the 24th pin VCC of chip U12, the 14th electric capacity C14 connects the 12nd process core
The first pin GND of sheet U12;The 12nd multiple pins processing chip U12 connect corresponding interface electricity
Road;
13rd the first pin GND ground connection processing chip U13, the 13rd processes the second of chip U13
14 pin VCC connect the first power supply VCC, and first end of the 15th electric capacity C15 connects the 13rd process
Second end of the 24th pin VCC of chip U13, the 15th electric capacity C15 connects the 13rd process core
The first pin GND of sheet U13;The 13rd multiple pins processing chip U13 connect corresponding interface electricity
Road;
Latitude control circuit include the 5th process chip U5, the 6th process chip U6, the 7th process chip U7,
8th process chip U8, the 9th process chip U9, the tenth process chip U10, the 14th process chip U14,
15th process chip U15, the 16th process chip U16, the 17th process chip U17, some interfaces,
12nd electric capacity C12, the 16th electric capacity C16;
6th process chip U6, the 9th process chip U9 and connect the 5th process chip U5 respectively, at the 7th
Reason chip U7, the 8th process chip U8, the tenth process chip U10, the 14th process chip U14, the
15 process chip U15, the 16th process chip U16, the 17th process chip U17;5th processes core
Sheet U5, the 7th process chip U7, the 8th process chip U8, the tenth process chip U10 connect correspondence and connect
Mouthful circuit, the 14th process chip U14, the 15th process chip U15, the 16th process chip U16,
17th processes chip U17 connects corresponding interface circuit.
2. a collapsible hollow-out flexible screen LED remote control system, it is characterised in that described remote pilot system
System includes: remote pilot terminal, LED lamp module;
Described LED lamp module includes LED lamp unit, first control circuit, and described first control circuit is even
Connecing LED lamp unit, first control circuit includes radio communication unit;
Described remote pilot terminal includes the second processor, the second radio communication unit, the second order input
Unit, described second processor connects the second radio communication unit, the second command input unit respectively.
Collapsible hollow-out flexible screen LED remote control system the most according to claim 2, it is characterised in that:
Described control system also includes display control terminal;Display control terminal include the 3rd processor,
Three radio communication units, LED display content input unit, LED display information assigning unit, the 3rd
Processor connects the 3rd radio communication unit, LED display content input unit, LED display letter respectively
Breath allocation unit;
Described LED display content input unit is in order to form linear image in setting painting canvas, in order to
LED lamp unit shows;The distribution of painting canvas correspondence LED lamp unit, some LED that LED lamp unit includes
Lamp all has the coordinate of its correspondence in painting canvas, as key node;
Described LED display content input unit includes painting canvas generation module, Freehandhand-drawing image generating module;
Described painting canvas generation module is in order to generate painting canvas;Described Freehandhand-drawing image generating module with for user described
Freehandhand-drawing picture in the painting canvas that painting canvas generation module generates, forms corresponding linear image;
Described LED display information assigning unit is in order to according to LED display content input unit input
Information distributes the switch of each LED;The mode of LED display information assigning unit distribution is: judge
Whether there are the lines of described linear image in each LED respective coordinates setpoint distance, if existing,
Setting this LED as opening, if not existing, then setting this LED as closing;
Described first controller is the information that each LED sets according to LED display information assigning unit
Control LED lamp unit.
Collapsible hollow-out flexible screen LED remote control system the most according to claim 3, it is characterised in that:
Described LED lamp unit includes the LED that M row N arranges, the key that the LED of M row N row is corresponding
Node is covered with whole painting canvas, and the distance between LED becomes corresponding with the distance between corresponding key node;
Described LED display information assigning unit is in order to according to LED display content input unit input
Information distributes switch and the color of each LED;The color of the color attribute correspondence lines of LED.
Collapsible hollow-out flexible screen LED remote control system the most according to claim 3, it is characterised in that:
Described LED display content input unit also include picture acquisition module, picture gradation processing module,
Picture profile automatically-generating module;Picture acquisition module in order to obtain image data, picture gray proces mould
Block in order to carry out gray proces by picture, and picture profile automatically-generating module is in order to generate through gray proces
After the outline line of picture;
The outline line that described LED display information assigning unit generates according to picture profile automatically-generating module
And the switch of each LED of color assignment of former outline line and color;LED display information assigning unit
The mode of distribution is: whether there is the wheel of described picture in judging each LED respective coordinates setpoint distance
Profile, if existing, sets this LED as opening, if not existing, then sets this LED as pass;LED
The color of the color attribute correspondence outline line of lamp.
Collapsible hollow-out flexible screen LED remote control system the most according to claim 3, it is characterised in that:
Described LED display content input unit also include video acquiring module, video turn picture module,
Second picture gradation processing module, second picture profile automatically-generating module, playing interval control module;
Video acquiring module is in order to obtain video data, and video turns picture module in order to obtain the key forming video
Frame picture, second picture gradation processing module is in order to carry out gray proces, second picture by key frame picture
Profile automatically-generating module is in order to generate the outline line of the picture after gray proces, and playing interval controls
Module is in order to control the reproduction time of each picture;
The wheel that described LED display information assigning unit generates according to second picture profile automatically-generating module
The switch of each LED of color assignment of profile and former outline line and color;LED display information distribution
The mode of unit distribution is: whether there is described picture in judging each LED respective coordinates setpoint distance
Outline line, if existing, setting this LED as opening, if not existing, then setting this LED as pass;
The color of the color attribute correspondence outline line of LED.
Collapsible hollow-out flexible screen LED remote control system the most according to claim 3, it is characterised in that:
Described control system also includes sound acquisition module, in order to obtain voice data.
Collapsible hollow-out flexible screen LED remote control system the most according to claim 2, it is characterised in that:
Described first radio communication unit, the second radio communication unit, the 3rd radio communication unit are Wifi
Unit.
Collapsible hollow-out flexible screen LED remote control system the most according to claim 2, it is characterised in that:
Described first control circuit include mu balanced circuit, wireless communication line, main control circuit, through control
Circuit, latitude control circuit;
Described mu balanced circuit includes the first diode D1, the first electric capacity C1, the second electric capacity C2, the first electricity
Solve electric capacity EC1, the second electrochemical capacitor EC2, the second process chip U2;Described second processes chip U2's
First pin ground connection;Second the second pin processing chip U2 connects second source VDD, and the second electricity
Solve first end of electric capacity EC2, first end of the second electric capacity C2;Second end of the second electrochemical capacitor EC2,
The second end ground connection of the second electric capacity C2;Second three-prong processing chip U2 connects the first power supply VCC,
And first first end of electrochemical capacitor EC1, first end of the first electric capacity C1, the first electrochemical capacitor EC1
The second end, the second end ground connection of the first electric capacity C1;The plus earth of the first diode D1, negative pole connect
First power supply VCC;
Described wireless communication line include the first process chip U1, the 3rd electric capacity C3, the 4th electric capacity C4,
5th electric capacity C5, the 6th electric capacity C6, the 17th electric capacity C17, the 21st electric capacity Z1, the 22nd electricity
Hold Z2, the first inductance Z3, the second inductance Z4, crystal oscillator Y1;First processes the first of chip U1
Pin, the 6th pin ground connection;First processes second pin of chip U1 by the 21st electric capacity Z1 even
Connecing wireless communication line, first processes second pin of chip U1 also through the second inductance Z4 ground connection;Nothing
Line communicating circuit is the most respectively by the 22nd electric capacity Z2, the first inductance Z3 ground connection;First processes chip
The three-prong of U1 connects second source VDD, first end of the 17th electric capacity C17, the 5th electric capacity C5
The first end, first end of the 6th electric capacity C6, second end of the 17th electric capacity C17, the 5th electric capacity C5
The second end, the second end respectively ground connection of the 6th electric capacity C6;First the 4th pin warp processing chip U1
Cross the 3rd electric capacity C3 ground connection;First processes the 7th pin of chip U1 through the 4th electric capacity C4 ground connection;The
One processes the 8th pin of chip U1 through crystal oscillator Y1 ground connection;
Main control circuit include the 3rd process chip U3, indicating lamp control circuit, the 9th electric capacity C9, the tenth
Electric capacity C10;3rd processes chip U3 connects indicating lamp control circuit, and the 3rd processes the tenth of chip U3
Two pins connect second source VDD, first end of the tenth electric capacity C10, and the 3rd processes the tenth of chip U3
Pin connects first end of the 9th electric capacity C9, and the 3rd processes the 11st pin ground connection of chip U3;Tenth
Second end of electric capacity C10, the second end ground connection of the 9th electric capacity C9;
The 11st process chip U11, the 12nd process chip U12, the 13rd process is included through control circuit
Chip U13, some interface circuits, the 13rd electric capacity C13, the 14th electric capacity C14, the 15th electric capacity C15;
11st the first pin GND ground connection processing chip U11, the 11st processes the 24th of chip U11
Pin VCC connects the first power supply VCC, and first end of the 13rd electric capacity C13 connects the 11st process chip
Second end of the 24th pin VCC of U11, the 13rd electric capacity C13 connects the 11st process chip U11
The first pin GND;The 11st multiple pins processing chip U11 connect corresponding interface circuit;
12nd the first pin GND ground connection processing chip U12, the 12nd processes the second of chip U12
14 pin VCC connect the first power supply VCC, and first end of the 14th electric capacity C14 connects the 12nd process
Second end of the 24th pin VCC of chip U12, the 14th electric capacity C14 connects the 12nd process core
The first pin GND of sheet U12;The 12nd multiple pins processing chip U12 connect corresponding interface electricity
Road;
13rd the first pin GND ground connection processing chip U13, the 13rd processes the second of chip U13
14 pin VCC connect the first power supply VCC, and first end of the 15th electric capacity C15 connects the 13rd process
Second end of the 24th pin VCC of chip U13, the 15th electric capacity C15 connects the 13rd process core
The first pin GND of sheet U13;The 13rd multiple pins processing chip U13 connect corresponding interface electricity
Road;
Latitude control circuit include the 5th process chip U5, the 6th process chip U6, the 7th process chip U7,
8th process chip U8, the 9th process chip U9, the tenth process chip U10, the 14th process chip U14,
15th process chip U15, the 16th process chip U16, the 17th process chip U17, some interfaces,
12nd electric capacity C12, the 16th electric capacity C16;
6th process chip U6, the 9th process chip U9 and connect the 5th process chip U5 respectively, at the 7th
Reason chip U7, the 8th process chip U8, the tenth process chip U10, the 14th process chip U14, the
15 process chip U15, the 16th process chip U16, the 17th process chip U17;5th processes core
Sheet U5, the 7th process chip U7, the 8th process chip U8, the tenth process chip U10 connect correspondence and connect
Mouthful circuit, the 14th process chip U14, the 15th process chip U15, the 16th process chip U16,
17th processes chip U17 connects corresponding interface circuit.
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CN201610234874.2A CN105848344B (en) | 2016-04-15 | 2016-04-15 | Foldable hollow-out flexible screen LED light remote control system |
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CN105848344A true CN105848344A (en) | 2016-08-10 |
CN105848344B CN105848344B (en) | 2018-05-15 |
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CN102186281A (en) * | 2011-03-18 | 2011-09-14 | 华中科技大学 | Map type visible control system for LED (Light Emitting Diode) lamps |
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CN202335013U (en) * | 2011-11-21 | 2012-07-11 | 华中科技大学 | Light-emitting diode (LED) light fitting control system |
CN102802321A (en) * | 2012-09-03 | 2012-11-28 | 武汉巨正环保科技有限公司 | Intelligent drive control device for LED lamps |
CN203273429U (en) * | 2013-05-24 | 2013-11-06 | 浙江农林大学 | Red, blue and far-red light three-color patch LED fill-in light strip with remote control |
CN203338688U (en) * | 2013-07-10 | 2013-12-11 | 童维泽 | LED dot matrix image device |
CN204377231U (en) * | 2015-02-27 | 2015-06-03 | 王康 | The light fixture of two remote controller combination |
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2016
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US20110266971A1 (en) * | 2007-09-29 | 2011-11-03 | Ian Osborn | Skylight LED lighting system |
CN102186281A (en) * | 2011-03-18 | 2011-09-14 | 华中科技大学 | Map type visible control system for LED (Light Emitting Diode) lamps |
CN202335013U (en) * | 2011-11-21 | 2012-07-11 | 华中科技大学 | Light-emitting diode (LED) light fitting control system |
CN102802321A (en) * | 2012-09-03 | 2012-11-28 | 武汉巨正环保科技有限公司 | Intelligent drive control device for LED lamps |
CN203273429U (en) * | 2013-05-24 | 2013-11-06 | 浙江农林大学 | Red, blue and far-red light three-color patch LED fill-in light strip with remote control |
CN203338688U (en) * | 2013-07-10 | 2013-12-11 | 童维泽 | LED dot matrix image device |
CN204377231U (en) * | 2015-02-27 | 2015-06-03 | 王康 | The light fixture of two remote controller combination |
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