CN104180275A - Realizing method for colored luminous ball system - Google Patents

Abstract

The invention discloses a realizing method for a colored luminous ball system, and colored luminous balls inside a box body are controlled through a remote controller. The box body includes a base (1) and a transparent outer cover (4) buckled on the base, wherein a plurality of charging coils (2) are arranged inside the base and are parallel to the bottom surface of the base; multiple rows of air ejecting pipes (3) are arranged at the top of the base; a plurality of colored luminous balls (5) are arranged inside a cavity defined by the base and the transparent outer cover; each colored luminous ball includes a transparent spherical casing (51) as well as a circuit board (54), an induction coil (55), a support rod (53) and a tricolor light (52) all arranged inside the transparent spherical casing; a microprocessor, a wireless signal receiving module, a rectifying and charging circuit, a lithium battery and an LED drive circuit are arranged on the circuit board. The realizing method for the colored luminous ball system is ingenious in conception and easy to realize, and a dynamic and multicolored visual effect can be generated.

Description

A kind of implementation method of colored photosphere system

Technical field

The present invention relates to a kind of implementation method of colored photosphere system.

Background technology

Existing LED lamp, be generally used in static light fixture, as wall-mounted lamp, shot-light, desk lamp etc., although can be by some unique visual effects that are combined to form of various lamps, but be at most some application extension to ordinary lamp and lantern, the revolutionary improvement in performance that is far from being, in order to pursue more gorgeous and dynamic visual performance, is necessary to design a kind of brand-new lighting system.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of implementation method of colored photosphere system, and the implementation method of this colour photosphere system is skillfully constructed, easy to implement, can produce dynamically colorful visual effect.

The technical solution of invention is as follows:

An implementation method for colored photosphere system, by the colored photosphere in remote controller control casing;

Described casing comprises base (1) and the base-mounted transparent housing of button (4); Base inside is provided with multiple charge coils (2); Charge coil is parallel with the bottom surface of base; The top of base is provided with many row's air jet pipes (3), and the mouth of pipe of adjacent air jet pipe is tangent; Air jet pipe is connected with air pump; By the rotating speed of speed regulator control air pump;

In the internal cavities that base and transparent housing surround, be provided with multiple colored photospheres (5);

Each colourama bag is drawn together circuit board (54), induction coil (55), pole (53) and the tri coloured lantern (52) of transparent ball-type shell (51) and the setting of transparent ball-type enclosure; Induction coil is arranged on circuit board bottom, and obtaining induced-current for the charge coil from base is colored photosphere charging; Pole is perpendicular to described circuit board setting, and pole top is fixed with described tri coloured lantern, and pole bottom is fixed on circuit board; Tri coloured lantern is positioned at the centre of sphere place of transparent ball-type shell;

Circuit board is provided with microprocessor, reception of wireless signals module, rectification and charging circuit, lithium battery and LED drive circuit;

Rectification and charging circuit convert direct current to for the induced-current that charge coil is obtained and are lithium cell charging;

Reception of wireless signals module is for receiving the wireless signal that remote controller sends; Reception of wireless signals module is connected with the signal input part of microprocessor;

Induction coil, rectification and charging circuit, lithium battery, LED drive circuit and tri coloured lantern are connected successively;

The signal output part of microprocessor connects the control end of LED drive circuit; Remote controller sends wireless signal and by microprocessor and the state of LED drive circuit with control tri coloured lantern to colored photosphere, as light, extinguish, brightness and show which kind of color.

Adopt the wind direction of wind direction governor motion control air jet pipe ejection gas; Wind direction governor motion is included in a screw mandrel (9) and multiple blinker (6) of the mouth of pipe place setting of the air jet pipe in casing; The lower end of blinker is arranged on the mouth of pipe place of air jet pipe, and multiple blinkers are serially connected by this screw mandrel; Screw mandrel traverses in casing, fixing left nut (8) and the right nut (7) of sidewall of the left and right sides of transparent housing passed respectively at the two ends, left and right of screw mandrel, and the part of stretching out casing of screw mandrel right-hand member is also set with the adjusting knob (10) for regulating blinker direction.Left and right nut is fixed, and adjusting knob is fixed on screw mandrel, and with screw mandrel interlock, turn adjusting knob, screw mandrel rotation, drives blinker transverse shifting, thereby regulates the air-out direction of air jet pipe.

Transparent ball-type enclosure is filled with hydrogen, and the effect of hydrogen is the part gravity of the colored photosphere of customer service.

Totally 12 groups of charge coils, are 2 row 6 row and arrange.

Air jet pipe is 60, is 3 rows and arranges, 20 air jet pipes of every row.

Each colourama ball has a unique identifier, and remote controller is controlled separately each colored photosphere based on this identifier, is convenient to the control of remote controller to each colored photosphere.

Described drive circuit comprises 3 electronic switches and 3 resistance, and described tri coloured lantern comprises 3 single lamps: red LED lamp, green LED lamp and blue led lamp; 3 electronic switches, 3 resistance and 3 single lamps are linked to be 3 light modulation branch roads; Each light modulation is propped up electronic switch of route, a resistance and a single lamp and is in series, the anodal Vcc of a termination lithium battery of light modulation branch road, the negative pole of another termination lithium battery; Described electronic switch is triode or metal-oxide-semiconductor, and the control end of 3 electronic switches (as the B level of NPN triode, or the grid of metal-oxide-semiconductor) connects respectively 3 output ports of microprocessor; The equal outputs level signals of output port or the pwm pulse signal of microprocessor;

Microprocessor is by the brightness of each single lamp in pwm pulse signal control tri coloured lantern.

Electronic switch preferably adopts NPN triode, and the c utmost point of triode meets Vcc, and the e utmost point connects the positive pole of diode, and b is control end very, is connected with the output of microprocessor.

Beneficial effect:

The implementation method of colored photosphere system of the present invention, has adopted multiple important technological means to realize dynamic optical image effect:

(1) photosphere color transformed controlled and there is diversity:

Tri coloured lantern is set in photosphere, under the control of microprocessor and drive circuit, can produce multiple color, and can realize the gradual change and sudden change of color, and each photosphere can be controlled separately, operator can be according to own different color and the colour switching schemes (as realized the effect of breath light) of required setting, therefore, not only can produce multiple color effect, and will view and admire with participation and combine, user is remote controller just as an operate game machine, thereby operating process is also very novel, has enjoyment.

(2) colored photosphere is kept in motion

By passing into hydrogen to overcome part deadweight in colored photosphere, thereby under the effect of air jet pipe ejection gas, more easily swim in casing dynamically, or under the acting in conjunction of wind-force and deadweight, quiver up and down in casing, form unique effect.

(3) having designed wind direction governor motion makes colourama ball have unique motor pattern.

By the wind direction governor motion taking screw mandrel, deep bead, adjusting knob as core, make colourama ball have unique athletic posture, in the time that wind direction tilts with respect to vertical direction, can make colored photosphere in casing, form circinate movement locus.

(4) ensure the electric power supply of colored photosphere based on wireless charging device

On base, be provided with charge coil and send electric energy, in colored photosphere, there is induction coil to obtain electric energy, because induction coil and circuit board etc. are positioned at the bottom of photosphere, make the center of gravity of photosphere be positioned at bottom, therefore, in most cases, induction coil is all parallel with base or substantially parallel, so just can obtain to greatest extent electric energy, and by power storage in lithium battery; In addition, when colored photosphere and air jet pipe are not worked, charging work can be carried out (now can extinguish the tri coloured lantern in all photospheres by remote controller, to save electric energy) as usual.

(5) adopt the mode control of controlled in wireless more convenient

Controlled in wireless is one of bright spot of the present invention, adopt controlled in wireless, each seems self-movement each colored photosphere, and its color show state is all controlled by remote controller in fact, thereby the control of this colored photosphere is the pattern that a kind of brand-new experience and control combine.

(6) the present invention can realize and have unique indoor decorative effect

Multi-motion mode (floated, great-jump-forward, Scroll-tupe motion), plurality of display modes (monochrome display mode, color gradient pattern etc.), various control pattern (controlling separately some photospheres or the unified all photospheres etc. of controlling), make the implementation method of this colored photosphere system have unique brand-new decorative effect.

(7) the present invention is conducive to improve teen-age manipulative ability and intelligence.

If operator is teenager,, by the setting to Color scheme, to the control of the colored photosphere of difference, improve teen-age manipulative ability, control ability and IQ, make teenager in amusement, obtain the lifting of many abilities.

In sum, the implementation method of this colored photosphere system has unique remote control mode, charge mode, color pattern, motion attitude control pattern is set, it is a kind of implementation method of original creation, the new type colorful photosphere system based on controlled in wireless that has the method to obtain not only can be used as decorative lamp and uses, and itself is again a kind of handling strong amusement equipment.

Brief description of the drawings

Fig. 1 is the overall structure figure of casing.

Fig. 2 is the structural representation of colored photosphere.

Fig. 3 is the mouth of pipe of the air jet pipe schematic diagram of arranging.

Fig. 4 is the electric theory diagram of colored photosphere inside.

Fig. 5 is the drive circuit figure of tri coloured lantern.

Label declaration: 1-base, 2-charge coil, 3-air jet pipe, 4-transparent housing, the colored photosphere of 5-, 6-deep bead, the right nut of 7-, the left nut of 8-, 9-screw mandrel, 10-adjusting knob; The transparent ball-type shell of 51-, 52-tri coloured lantern, 53-pole, 54-circuit board, 55-induction coil.

Detailed description of the invention

Below with reference to the drawings and specific embodiments, the present invention is described in further details:

Embodiment 1: as Fig. 1-5, a kind of implementation method of colored photosphere system, by the colored photosphere in remote controller control casing;

Described casing comprises base 1 and the base-mounted transparent housing 4 of button; Base inside is provided with multiple charge coils 2; Charge coil is parallel with the bottom surface of base; The top of base is provided with many row's air jet pipes 3, and the mouth of pipe of adjacent air jet pipe is tangent; Air jet pipe is connected with air pump; By the rotating speed of speed regulator control air pump;

In the internal cavities that base and transparent housing surround, be provided with multiple colored photospheres 5;

Each colourama bag is drawn together circuit board 54, induction coil 55, pole 53 and the tri coloured lantern 52 of transparent ball-type shell 51 and the setting of transparent ball-type enclosure; Induction coil is arranged on circuit board bottom, and obtaining induced-current for the charge coil from base is colored photosphere charging; Pole is perpendicular to described circuit board setting, and pole top is fixed with described tri coloured lantern, and pole bottom is fixed on circuit board; Tri coloured lantern is positioned at the centre of sphere place of transparent ball-type shell;

Circuit board is provided with microprocessor, reception of wireless signals module, rectification and charging circuit, lithium battery and LED drive circuit;

Rectification and charging circuit convert direct current to for the induced-current that charge coil is obtained and are lithium cell charging;

Reception of wireless signals module is for receiving the wireless signal that remote controller sends; Reception of wireless signals module is connected with the signal input part of microprocessor;

Induction coil, rectification and charging circuit, lithium battery, LED drive circuit and tri coloured lantern are connected successively;

The signal output part of microprocessor connects the control end of LED drive circuit; Remote controller sends wireless signal and by microprocessor and the state of LED drive circuit with control tri coloured lantern to colored photosphere, as light, extinguish, brightness and show which kind of color.

Remote controller sends wireless signal to control the state of tri coloured lantern to colored photosphere.

Adopt the wind direction of wind direction governor motion control air jet pipe ejection gas; Wind direction governor motion is included in screw mandrel 9 and the multiple blinker 6 that the mouth of pipe place of the air jet pipe in casing arranges; The lower end of blinker is arranged on the mouth of pipe place of air jet pipe, and multiple blinkers are serially connected by this screw mandrel; Screw mandrel traverses in casing, and fixing left nut 8 and the right nut 7 of sidewall of the left and right sides of transparent housing passed respectively at the two ends, left and right of screw mandrel, and the part of stretching out casing of screw mandrel right-hand member is also set with the adjusting knob 10 for regulating blinker direction.Left and right nut is fixed, and adjusting knob is fixed on screw mandrel, and with screw mandrel interlock, turn adjusting knob, screw mandrel rotation, drives blinker transverse shifting, thereby regulates the air-out direction of air jet pipe.

Transparent ball-type enclosure is filled with hydrogen, and the effect of hydrogen is the part gravity of the colored photosphere of customer service.

Totally 12 groups of charge coils, are 2 row 6 row and arrange.

Air jet pipe is 60, is 3 rows and arranges, 20 air jet pipes of every row.

Each colourama ball has a unique identifier, and remote controller is controlled separately each colored photosphere based on this identifier, is convenient to the control of remote controller to each colored photosphere.

Described drive circuit comprises 3 electronic switches and 3 resistance, and described tri coloured lantern comprises 3 single lamps: red LED lamp, green LED lamp and blue led lamp; 3 electronic switches, 3 resistance and 3 single lamps are linked to be 3 light modulation branch roads; Each light modulation is propped up electronic switch of route, a resistance and a single lamp and is in series, the anodal Vcc of a termination lithium battery of light modulation branch road, the negative pole of another termination lithium battery; Described electronic switch is triode or metal-oxide-semiconductor, and the control end of 3 electronic switches (as the B level of NPN triode, or the grid of metal-oxide-semiconductor) connects respectively 3 output ports of microprocessor; The equal outputs level signals of output port or the pwm pulse signal of microprocessor;

Microprocessor is by the brightness of each single lamp in pwm pulse signal control tri coloured lantern.

Electronic switch preferably adopts NPN triode, and the c utmost point of triode meets Vcc, and the e utmost point connects the positive pole of diode.

Concrete control procedure to tri coloured lantern is existing mature technology, comprises that each colored photosphere is fixing a kind of color, or color gradient, or the unified color of controlling, and is mature technology.

Claims (7)

1. an implementation method for colored photosphere system, is characterized in that, by the colored photosphere in remote controller control casing;

Described casing comprises base (1) and the base-mounted transparent housing of button (4); Base inside is provided with multiple charge coils (2); Charge coil is parallel with the bottom surface of base; The top of base is provided with many row's air jet pipes (3), and the mouth of pipe of adjacent air jet pipe is tangent; Air jet pipe is connected with air pump; By the rotating speed of speed regulator control air pump;

In the internal cavities that base and transparent housing surround, be provided with multiple colored photospheres (5);

Each colourama bag is drawn together circuit board (54), induction coil (55), pole (53) and the tri coloured lantern (52) of transparent ball-type shell (51) and the setting of transparent ball-type enclosure; Induction coil is arranged on circuit board bottom, and obtaining induced-current for the charge coil from base is colored photosphere charging; Pole is perpendicular to described circuit board setting, and pole top is fixed with described tri coloured lantern, and pole bottom is fixed on circuit board; Tri coloured lantern is positioned at the centre of sphere place of transparent ball-type shell;

Circuit board is provided with microprocessor, reception of wireless signals module, rectification and charging circuit, lithium battery and LED drive circuit;

Rectification and charging circuit convert direct current to for the induced-current that charge coil is obtained and are lithium cell charging;

Reception of wireless signals module is for receiving the wireless signal that remote controller sends; Reception of wireless signals module is connected with the signal input part of microprocessor;

Induction coil, rectification and charging circuit, lithium battery, LED drive circuit and tri coloured lantern are connected successively;

The signal output part of microprocessor connects the control end of LED drive circuit; Remote controller sends wireless signal and by microprocessor and the state of LED drive circuit with control tri coloured lantern to colored photosphere.

2. the implementation method of colored photosphere system according to claim 1, is characterized in that, adopts the wind direction of wind direction governor motion control air jet pipe ejection gas; Wind direction governor motion is included in a screw mandrel (9) and multiple blinker (6) of the mouth of pipe place setting of the air jet pipe in casing; The lower end of blinker is arranged on the mouth of pipe place of air jet pipe, and multiple blinkers are serially connected by this screw mandrel; Screw mandrel traverses in casing, fixing left nut (8) and the right nut (7) of sidewall of the left and right sides of transparent housing passed respectively at the two ends, left and right of screw mandrel, and the part of stretching out casing of screw mandrel right-hand member is also set with the adjusting knob (10) for regulating blinker direction.

3. the implementation method of colored photosphere system according to claim 1, is characterized in that, transparent ball-type enclosure is filled with hydrogen, and the effect of hydrogen is the part gravity of the colored photosphere of customer service.

4. the implementation method of colored photosphere system according to claim 1, is characterized in that, totally 12 groups of charge coils are 2 row 6 row and arrange.

5. according to the implementation method of the colored photosphere system described in claim 1-4 any one, it is characterized in that, air jet pipe is 60, is 3 rows and arranges, 20 air jet pipes of every row.

6. the implementation method of colored photosphere system according to claim 5, it is characterized in that, each colourama ball has a unique identifier, and remote controller is controlled separately each colored photosphere based on this identifier, is convenient to the control of remote controller to each colored photosphere.

7. the implementation method of colored photosphere system according to claim 6, is characterized in that, described drive circuit comprises 3 electronic switches and 3 resistance, and described tri coloured lantern comprises 3 single lamps: red LED lamp, green LED lamp and blue led lamp; 3 electronic switches, 3 resistance and 3 single lamps are linked to be 3 light modulation branch roads; Each light modulation is propped up electronic switch of route, a resistance and a single lamp and is in series, the anodal Vcc of a termination lithium battery of light modulation branch road, the negative pole of another termination lithium battery; Described electronic switch is triode or metal-oxide-semiconductor, and the control end of 3 electronic switches connects respectively 3 output ports of microprocessor; The equal outputs level signals of output port or the pwm pulse signal of microprocessor;

Microprocessor is by the brightness of each single lamp in pwm pulse signal control tri coloured lantern.