CN104298285A - Vibrating ball capable of being charged wirelessly and intelligent control system thereof - Google Patents

Abstract

The invention discloses a vibrating ball capable of being charged wirelessly and an intelligent control system thereof. The vibrating ball comprises a hollow ball body, a holding part connected to the ball body, a motor unit and a power unit, wherein the motor unit and the power unit are arranged in the ball body. The vibrating ball further comprises a control device and a charging coil connected with the control device and used for conducting induced conduction with a charging device and charging the power unit, wherein the control device and the charging coil are both arranged in the ball body, and the power unit and the motor unit are both connected with the control device. By arranging the coil in the ball body, the vibrating ball can be charged wirelessly through induced conduction of the coil, and using is convenient.

Description

Can the vibrating ball of wireless charging and intelligent control system thereof

Technical field

The present invention relates to wireless technical field, particularly relate to a kind of can the vibrating ball of wireless charging and intelligent control system thereof.

Background technology

Along with the raising of people's living standard, everybody liberates gradually to the idea of property, also more and more higher to the requirement of property, and vibrating ball is the instrument of wherein a kind of female masturbation.Increasingly mature and perfect along with wireless technology, the application of wireless technology is progressively expanding, but does not also relate to the application of wireless technology on vibrating ball.Current vibrating ball all needs to be charged by charging inlet grafting wire when charging.In addition, vibrating ball is carry out switch control rule, Schema control etc. by the button arranged on it mostly, or is undertaken there is line traffic control, function singleness by wire connection control box, and Consumer's Experience is bad.

Summary of the invention

The technical problem to be solved in the present invention is, what provide a kind of improvement can the vibrating ball of wireless charging and intelligent control system thereof.

The technical solution adopted for the present invention to solve the technical problems is: provide a kind of can the vibrating ball of wireless charging, comprise the spheroid of hollow, be connected to the grip part on described spheroid and the electric motor units be arranged in described spheroid and power supply unit; Also comprise control device, be connected with described control device, conduct electricity for responding to charging device and be the charge coil that described power supply unit charges; Described control device and described charge coil are all arranged in described spheroid, and described power supply unit and described electric motor units are all connected with described control device.

Preferably, described control device comprises the first main control unit, for intelligent terminal wireless telecommunications, receive the steering order from described intelligent terminal and export described first main control unit to carry out the first radio communication unit processed.

Preferably, described first radio communication unit comprises one or more in WIFI unit, bluetooth unit, 3G/4G unit, ZigBee unit, UWB unit and infrared unit.

Preferably, described control device also comprise be connected with described first main control unit for gathering the pressure data on described vibrating ball surface and the pressure data collected being exported to described first main control unit, be sent to the pressure transducer of described intelligent terminal by described first radio communication unit;

Described electric motor units comprises the motor carrying out corresponding vibration according to the pressure regulating control command of described intelligent terminal.

Preferably, described control device also comprises the temperature sensor and/or humidity sensor that are connected with described first main control unit, for gathering temperature data and/or the humidity data on described vibrating ball surface, and export the data collected to described first main control unit, be sent to described intelligent terminal by described first radio communication unit;

This vibrating ball also comprises and being connected with described first main control unit, for regulating temperature control unit and/or the humidity controlling unit of described vibrating ball surface temperature and/or humidity according to the temperature of described intelligent terminal and/or humidity regulation steering order.

Preferably, described power supply unit comprises rechargeable battery and connected charhing unit and power supply unit; Described control device is also comprised and is connected with charhing unit, carries out changing the wireless charging unit to be stored into by charhing unit in described rechargeable battery for the electromagnetic wave sensed by described charge coil;

Described control device also comprises and being connected with described first main control unit, for detecting the detecting unit of the electricity of described power supply unit.

Preferably, this vibrating ball also comprises the charging inlet being arranged on and being connected on described spheroid, with described control device; And/or,

This vibrating ball also comprises the function button being arranged on and being connected on described spheroid, with described control device.

The present invention also provides a kind of vibrating ball intelligent control system, comprise above-mentioned can the vibrating ball of wireless charging and the intelligent terminal that is connected with described vibrating ball wireless telecommunications;

Described intelligent terminal comprises for the second radio communication unit with described vibrating ball wireless telecommunications, and connects described second radio communication unit, by described second radio communication unit, steering order is sent to the second main control unit of described vibrating ball.

Preferably, described second radio communication unit comprises one or more in WIFI unit, bluetooth unit, 3G/4G unit, ZigBee unit, UWB unit and infrared unit.

Preferably, described intelligent terminal also comprises the display unit of current electric quantity, surface pressing, surface temperature and/or humidity data for showing described vibrating ball, for producing the alarm unit of warning message according to current electric quantity, and generate the data input cell of corresponding steering order for described second main control unit for inputted vibration intensity data, surface temperature and/or humidity data; Described display unit, alarm unit and data input cell are connected with described second main control unit respectively; And/or,

Described intelligent terminal also comprise be connected with described second main control unit, for playing video playback unit and/or the audio playing unit of video and/or audio, described second main control unit generates steering order for controlling described vibrating ball oscillation intensity according to the video and/or audio play.

Beneficial effect of the present invention: by arranging coil in spheroid, makes vibrating ball carry out wireless charging by coil-induced conduction, easy to use.In addition, by arranging radio communication unit in vibrating ball, can connect with intelligent terminal, user controls by the oscillation intensity etc. of intelligent terminal to vibrating ball, improves Consumer's Experience.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 be one embodiment of the invention can the sectional structure schematic diagram of vibrating ball of wireless charging;

Fig. 2 is the theory diagram of the vibrating ball intelligent control system of one embodiment of the invention;

Fig. 3 is the circuit diagram of the first main control unit in one embodiment of the invention;

Fig. 4 is the circuit diagram of the first radio communication unit in one embodiment of the invention;

Fig. 5 is the circuit diagram of electric motor units in one embodiment of the invention;

Fig. 6 is the circuit diagram of temperature sensor and temperature control unit in one embodiment of the invention;

Fig. 7 is the circuit diagram of detecting unit in one embodiment of the invention;

Fig. 8 is the circuit diagram of charhing unit in one embodiment of the invention;

Fig. 9 is the circuit diagram of power supply unit in one embodiment of the invention;

Figure 10 is the circuit diagram of storage unit in one embodiment of the invention;

Figure 11 is the circuit diagram of clock unit in one embodiment of the invention;

Figure 12 is the circuit diagram of electrification reset unit in one embodiment of the invention;

Figure 13 is the circuit diagram of LED in one embodiment of the invention;

Figure 14 is the circuit diagram of one embodiment of the invention breaker in middle unit;

Figure 15 is the circuit diagram of wireless charging unit in one embodiment of the invention.

Embodiment

In order to there be understanding clearly to technical characteristic of the present invention, object and effect, now contrast accompanying drawing and describe the specific embodiment of the present invention in detail.

As shown in Figure 2, the vibrating ball intelligent control system of one embodiment of the invention, comprising can the vibrating ball 1 of wireless charging and the intelligent terminal 2 that is connected with vibrating ball 1 wireless telecommunications, can carry out Based Intelligent Control by intelligent terminal 2 to vibrating ball 1; Intelligent terminal 2 can be the terminal device of smart mobile phone, computer, Ipad or other types.Wherein, as shown in Figure 1, the vibrating ball 1 of wireless charging spheroid 11, grip part 12, electric motor units 13, power supply unit 14, control device 15 and charge coil 16 can be comprised; Grip part 12 is connected on spheroid 11, facilitates user's handling; Electric motor units 13, power supply unit 14, control device 15 and charge coil 16 are arranged in spheroid 11, and electric motor units 13, power supply unit 14 and charge coil 16 are all connected with control device 15.

In the present embodiment, spheroid 11 is hollow structure, makes its inside be formed with certain space and carrys out the elements such as accommodating electric motor units 13, power supply unit 14, control device 15 and charge coil 16.Spheroid 11 adopts resilient material to make, and has certain telescopicing performance.Grip part 12 is the column of arc, and it can adopt resilient material to make, and hard material also can be adopted to make.

Control device 15 is positioned at the medium position of spheroid 11, and power supply unit 14 and electric motor units 13 are positioned at the same side or the not homonymy of control device 15.Wherein, electric motor units 13 is for driving the vibration of vibrating ball, and its oscillation intensity is adjustable; Power supply unit 14 is for powering to elements such as control device 15, electric motor units 13.Charge coil 16 is connected with power supply unit 14 by control device 15, and it conducts electricity (electromagnetic wave principle), for power supply unit 14 is powered for carrying out induction with charging device.Charge coil 16 is preferably arranged on the inwall pressing close to spheroid 11 in spheroid 11.When this vibrating ball 1 is charged, vibrating ball 1 is placed on the power supply mainboard of charging device, and make the charge coil 16 of vibrating ball 1 relative with the power supply coil of power supply mainboard inside, after charging device external power supply, by the electromagnetic wave induction between power supply coil and charge coil 16, for the power supply unit 14 of vibrating ball 1 charges, realize the wireless charging of vibrating ball 1, the troublesome operation that when can reduce wired charging modes, wire connects and wire storage, easy to use.

As shown in Figure 1, this vibrating ball 1 also can comprise and is arranged on charging inlet 17 on spheroid 11, this charging inlet 17 is connected with control device 15, be that power supply unit 14 charges for accessing wire, thus this vibrating ball 1 has both charging modes wireless and wired, user selects charging modes according to actual conditions or hobby.This vibrating ball 1 also can comprise the function button 18 be arranged on spheroid 11, this function button 18 is connected with control device 15, can when this vibrating ball 1 and intelligent terminal 2 disconnect for carrying out switch control rule and/or the oscillation intensity regulable control of vibrating ball 1.

With reference to figure 2, control device 15 comprises the first main control unit 101 and the first radio communication unit 102, first radio communication unit 102 for intelligent terminal 2 wireless telecommunications, receive the steering order from intelligent terminal 2 and export the first main control unit 101 to and process for the first main control unit 101.First main control unit 101 controls vibrating ball 1 according to steering order and performs corresponding function.Intelligent terminal 2 comprises the second main control unit 201 and the second radio communication unit 202, second radio communication unit 202 for vibrating ball 1 wireless telecommunications, second main control unit 201 is connected with the second radio communication unit 202, and by the second radio communication unit 202, steering order is sent to vibrating ball 1.

Preferably, the first radio communication unit 102 can comprise one or more in WIFI unit, bluetooth unit, 3G/4G unit, ZigBee unit, UWB unit and infrared unit.Second radio communication unit 202 can comprise in WIFI unit, bluetooth unit, 3G/4G unit, ZigBee unit, UWB unit and infrared unit one or more.Vibrating ball 1 and intelligent terminal 2 can be operated in online mode, that is, vibrating ball 1 and intelligent terminal 2 are connected by WIFI, bluetooth, ZigBee, UWB, infrared mode.Vibrating ball 1 and intelligent terminal 2 also can be operated in distance control mode, that is, vibrating ball 1 and intelligent terminal 2 are by WIFI, 3G/4G accessing Internet respectively, then both sides log in, and be mutually good friend, invite Long-distance Control and after being accepted by the other side, just can realize Long-distance Control.

Fig. 3 is the circuit diagram of the first main control unit 101 in the present embodiment.First main control unit 101 comprises the first main control chip U1, and the first main control chip U1 is provided with some interfaces for being connected with other unit.

Fig. 4 shows the circuit diagram of the first radio communication unit 102.Composition graphs 3,4, first radio communication unit 102 comprises WIFI circuit and Bluetooth circuit, WIFI circuit comprises the inductance L 4 and WIFI antenna WIFI_ANT that are connected with the WIFI antenna leads of the first main control chip U1, inductance L 4 two ends respectively by electric capacity C10, C12 ground connection, to reach the object of voltage stabilizing.Bluetooth circuit comprises the electric capacity C7, inductance L 2, inductance L 1, electric capacity C8, inductance L 3 and the Bluetooth antenna BT_ANT that are connected in series, the power output end (VDD-PA) of the first main control chip U1 is connected between electric capacity C7 and inductance L 2, the antennal interface (ANT1, ANT2) of the first main control chip U1 is connected to the two ends of inductance L 1, inductance L 3 two ends respectively by electric capacity C9, C11 ground connection, to reach the object of voltage stabilizing.

In the present embodiment, as shown in Figure 2, electric motor units 13 comprises two motors, is the first motor 131 and the second motor 132 respectively.Fig. 5 shows the circuit diagram of electric motor units 13; Composition graphs 3,5, electric motor units 13 comprise be connected with the first main control chip U1 for controlling the first motor circuit that the first motor 131 works and for controlling the second motor circuit that the second motor 132 works.First motor circuit comprises resistance R4, triode Q1, motor JP1 and resistance R1, under the control of the first main control chip U1, controls motor JP1 work; First motor circuit also comprises electric capacity C13, electric capacity C2 and diode D1 for realizing voltage stabilizing; The positive pole of diode D1 connects the collector of triode Q1, the negative pole of diode D1 connects supply voltage (VBAT) by resistance R1, the base stage of triode Q1 connects the PWM0 interface of the first main control chip U1 by resistance R4, the grounded emitter of triode Q1, the collector of triode Q1 connects supply voltage (VBAT) by motor JP1, resistance R1, between the base stage that electric capacity C13 is connected to triode Q1 and emitter, electric capacity C2 is connected to the two ends of motor JP1.Second motor circuit comprises resistance R5, triode Q2, motor JP2 and resistance R2, under the control of the first main control chip U1, controls motor JP2 work; Second motor circuit also comprises electric capacity C14, electric capacity C3 and diode D2 for realizing voltage stabilizing; The base stage of triode Q2 connects the PWM1 pin of the first main control chip U1 by resistance R5, the grounded emitter of triode Q2, the collector of triode Q2 connects supply voltage (VBAT) by motor JP2, resistance R2, between the base stage that electric capacity C14 is connected to triode Q2 and emitter, electric capacity C3 is connected to the two ends of motor JP2, the positive pole of diode D2 connects the collector of triode Q2, and the negative pole of diode D2 connects supply voltage (VBAT) by resistance R2.

Further, control device 15 also can comprise the pressure transducer 103 be connected with the first main control unit 101; This pressure transducer 103 for gathering the pressure data on vibrating ball 1 surface, and exports the pressure data collected to first main control unit 101, is sent to intelligent terminal 2 by the first radio communication unit 102.Intelligent terminal 2 receives this pressure data by the second radio communication unit 202, and export the second main control unit 201 to, second main control unit 201 can generate pressure regulating control command according to this pressure data, controls electric motor units 13 and carries out corresponding vibration, thus regulate the oscillation intensity of vibrating ball 1.In vibrating ball 1, electric motor units 13 comprises motor, and it carries out corresponding vibration according to the pressure regulating control command of intelligent terminal 2.Motor can be one or more, and multiple motor can be arranged on diverse location in spheroid 11.Wherein, intelligent terminal 2 also can comprise the display unit 203 be connected with the second main control unit 201, and for showing the surface pressing of vibrating ball 1, the pressure data of vibrating ball 1 that namely the second main control unit 201 receives shows by this display unit 203.Intelligent terminal 2 also can comprise the data input cell 204 be connected with the second main control unit 201, generates corresponding steering order for inputted vibration intensity data for the second main control unit 201.

As shown in Figure 2, in the vibrating ball 1 of the present embodiment, control device 15 also can comprise the temperature sensor 104 and/or humidity sensor that are connected with the first main control unit 101, for gathering temperature data and/or the humidity data on vibrating ball 1 surface, and export the data collected to first main control unit 101, be sent to intelligent terminal 2 by the first radio communication unit 102.Intelligent terminal 2 receives temperature data and/or humidity data by the second radio communication unit 202, and exports the second main control unit 201, second main control unit 201 to and can generate temperature and/or humidity regulation steering order according to this temperature data and/or humidity data.Wherein, the temperature data that receives of the second radio communication unit 202 and/or humidity data also show by the display unit 203 of intelligent terminal 2; Second main control unit 201 of intelligent terminal 2 also generates corresponding temperature and/or humidity regulation steering order by the surface temperature that inputs in data input cell 204 and/or humidity data, controls temperature and/or the humidity of vibrating ball 1.First main control unit 101 receives temperature from intelligent terminal 2 and/or humidity regulation steering order by the first radio communication unit 102.Further, vibrating ball 1 also comprises the temperature control unit 19 and/or humidity controlling unit that are connected with the first main control unit 101, for regulating vibrating ball 1 surface temperature and/or humidity according to the temperature of intelligent terminal 2 and/or humidity regulation steering order.

Understandably, temperature control unit 19 can be electric heater unit, and it supplies electrical heating by power supply unit 14.The container cavity for holding lubricating fluid or other liquid is provided with in the spheroid 11 of vibrating ball 1, spheroid 11 is provided with the through hole being communicated with container cavity and spheroid 11 surface, after humidity controlling unit receives humidity regulation steering order, the lubricating fluid in control container cavity or other liquid flow to vibrating ball 1 surface by through hole.

Fig. 6 shows the circuit diagram of temperature sensor 104 and temperature control unit 19 in the present embodiment.Composition graphs 3,6, temperature sensor 104 comprise be connected with the first main control chip U1 PTC thermistor R26, resistance R25, PTC thermistor R26 other end ground connection, the other end of resistance R25 connects 3.3V voltage (VCC3V3).Temperature control unit 19 comprises resistance R8, triode Q4, resistance wire JP5 and the resistance R3 that order is connected; The other end of resistance R8 is connected with the first main control chip U1, and the other end of resistance R3 connects supply voltage (VBAT); When the first main control chip U1 receives temperature regulating control command, the triode Q4 conducting of temperature control unit 19, controlling resistance silk JP5 heats, to reach the object regulating vibrating ball 1 surface temperature.

As shown in Figure 2, in the vibrating ball 1 of the present embodiment, control device 15 also can comprise detecting unit 105, and it to be arranged in spheroid 11 and to be connected with the first main control unit 101, for detecting the electricity of power supply unit 14.Intelligent terminal 2 is sent to by the first radio communication unit 102 after first main control unit 101 processes detected information about power.Then, the second main control unit 201 of intelligent terminal 2 is processed the information about power received by the second radio communication unit 202, and is shown by display unit 203.Preferably, this detecting unit 105, except can detecting the information about power of power supply unit 14, detects the voltage of external power source, and feeds back to the first main control unit 101 when being also used in charging.Intelligent terminal 2 also can comprise the alarm unit 205 be connected with the second main control unit 201, for producing warning message according to current electric quantity (information about power received).

Fig. 7 shows the circuit diagram of detecting unit 105 in the present embodiment.Composition graphs 3,7, detecting unit 105 comprises that one end is connected with the CHAGDET interface of the first main control chip U1, the resistance R23 of another termination 3.3V voltage (VCC3V3), and during for detecting charging, whether the rechargeable battery 140 of power supply unit 14 is full of.Also comprise and being connected with the USB_DET interface of the first main control chip U1, the resistance R21 of another termination 5V voltage (VCC5V), between the first main control chip U1 and resistance R21, be also connected with the resistance R22 of ground connection, for detecting the 5V voltage exported.Also comprise and being connected with the BAT_DET interface of the first main control chip U1, the resistance R18 that the other end is connected with supply voltage (VBAT), the resistance R19 of ground connection is also connected with, for detecting the circuit accessed by supply voltage (VBAT) port between first main control chip U1 and resistance R18.

Again as shown in Figure 2, power supply unit 14 comprises rechargeable battery 140 and connected charhing unit 141 and power supply unit 142, external power supply is stored in rechargeable battery 140 by charhing unit 141, and rechargeable battery 140 is that the first main control unit 101 and other unit are powered by power supply unit 142.

Fig. 8 shows the circuit diagram of charhing unit 141 in the present embodiment.Composition graphs 3,8, charhing unit 141 comprises charging chip U3, and charging chip U3 is connected with internal battery interface JP4 with external power interface JP3, and charging chip U3 is connected with the GHAGDET interface of the first main control chip U1.Charhing unit 141 also comprises electric capacity C4 for realizing voltage stabilizing and resistance R7; One end of external power interface JP3 is connected with charging chip U3, other end ground connection; Also be provided with the port meeting 5V voltage (VCC5V) between charging chip U3 and external power interface JP3, between charging chip U3 and internal battery interface JP4, be also provided with supply voltage (VBAT) output terminal.Fig. 9 shows the circuit diagram of power supply unit 142 in the present embodiment; Composition graphs 3,9, power supply unit 142 comprises power supply chip U4, the input end VIN of power supply chip U4 is connected with supply voltage (VBAT) interface of other circuit, output terminal VOUT connects 3.3V voltage (VCC3V3), and the voltage transitions for being inputted by VBAT interface becomes 3.3V voltage to export.The Enable Pin EN of power supply chip U4 is connected with the negative pole of diode D4, the positive pole of diode D4 can be accessed by be connected with other circuit resistance R9, ground connection resistance R17 or connect and access interrupteur SW 1, resistance R10.The Enable Pin EN of power supply chip U4 also can be connected with resistance R24, the diode D3 of series connection, and the other end of resistance R24 can connect 5V voltage (VCC5V) interface.The Enable Pin EN of power supply chip U4 also can be connected by diode D5 with other circuit.Understandably, power supply unit 142 also comprises electric capacity C33, C15, C5, C31 for realizing voltage stabilizing object and resistance R20, R33.

Again as shown in Figure 2, control device 15 also comprise be connected with the first main control unit 101 respectively for store data (comprising the various data such as pressure, humidity and temperature) storage unit 106, for providing the clock unit 107 of clock signal, electrification reset unit 108 and LED 109; When carrying out wireless or wired charging to vibrating ball 1, once resetted by the electrification reset unit 108 of this control device 15.Figure 10 illustrates the circuit diagram of storage unit 106 in the present embodiment; Composition graphs 3,10, storage unit 106 comprises storage chip U2, and storage chip is connected with the first main control chip U1 with clock cable SCL by data line SDA, and its power end VCC connects 3.3V voltage (VCC3V3).Figure 11 illustrates the circuit diagram of clock unit 107 in the present embodiment; Composition graphs 3,11, clock unit 107 comprises the crystal oscillator X1 that is connected with the first main control chip U1 and in order to the electric capacity C17 of voltage stabilizing and electric capacity C18; Two clock ends BT_XIN, BT_XO of first main control chip U1 connect the two ends of crystal oscillator X1, and the two ends of crystal oscillator X1 are respectively by electric capacity C17, C18 ground connection.Figure 12 illustrates the circuit diagram of electrification reset unit 108 in the present embodiment; Composition graphs 3,12, electrification reset unit 108 comprises triode Q3, the base stage of triode Q3 connects 5V voltage (VCC5V) by electric capacity C19, the grounded emitter of triode Q3, the collector of triode Q3 connects the reset terminal SWDIO of the first main control chip U1, is connected with the resistance R12 of ground connection between base stage and electric capacity C19.

In vibrating ball 1, LED 109 plays the effect of instruction, such as, can comprise red LED lamp and blue led lamp, respectively bright light under difference in functionality or pattern.Figure 13 shows the circuit diagram of LED 109; The positive pole of composition graphs 3,13, red LED lamp LED1 connects the RED_LED pin of the first main control chip U1, and the negative pole of red LED lamp LED1 is by resistance R34 ground connection; The positive pole of blue led lamp LED2 connects the BLUE_LED pin of the first main control chip U1, and the negative pole of blue led lamp LED2 is by resistance R35 ground connection.

Further, control device 15 also comprises the switch element 111 be connected with the first main control unit 101, for controlling vibrating ball 1 duty.Function button 18 is connected with switch element 111.Figure 14 shows the circuit diagram of switch element 111; Composition graphs 3,14, interrupteur SW 2 one end of switch element 111 is connected with the first main control chip U1, to select the pattern of vibrating ball 1, other end ground connection; The resistance R15 be connected with VCC3V3 port is also connected with between interrupteur SW 2 with the first main control chip U1.Interrupteur SW 3 one end is connected with the first main control chip U1, to control the oscillation intensity of vibrating ball 1, and other end ground connection; The resistance R16 be connected with VCC3V3 port is also connected with between interrupteur SW 3 with the first main control chip U1.

Control device 15 is also comprised and is connected with charhing unit 141, carries out changing the wireless charging unit 110 to be stored into by charhing unit 141 in rechargeable battery 140 for the electromagnetic wave sensed by charge coil 16.Figure 15 shows the circuit diagram of wireless charging unit 110; Composition graphs 3,15, wireless charging unit 110 comprises wireless charging chip U5 and inductance L 5; The output terminal OUT of wireless charging chip U5 is connected with the port of the 5V voltage (VCC5V) of charhing unit 141, for exporting 5V voltage to charhing unit 141; Electric capacity C26 and electric capacity C28 is also connected, the other end ground connection of electric capacity C26 and electric capacity C28 between the port of output terminal OUT and 5V voltage (VCC5V); Enable Pin EN1, the EN2 of wireless charging chip U5 are respectively by resistance R27, R28 ground connection; The two ends of inductance L 5 connect electric capacity C22, C24 respectively, and the ILIM end of wireless charging chip U5 is connected 5V voltage (VCC5V) port by resistance R30 with resistance R31.

Understandably, above-mentioned control device 15, charhing unit 141 and power supply unit 142 are incorporated on a circuit board.

In addition, intelligent terminal 2 also can comprise video playback unit and/or the audio playing unit for the playing video and/or audio that are connected with the second main control unit 201, and the second main control unit 201 generates the steering order for controlling vibrating ball 1 oscillation intensity according to the video and/or audio play.Particularly, the picture of the second main control unit 201 pairs of videos or audio frequency carry out process and form corresponding frequency, and generate corresponding steering order and make vibrating ball 1 by its vibration strong or weak of this frequency adjustment, realize Consumer's Experience and participation better.

Vibrating ball intelligent control system of the present invention, when networking, namely when vibrating ball 1 is connected by wireless telecommunications with intelligent terminal 2, user is by intelligent terminal 2 real time inspection and control the using forestland of current vibration ball 1, with the vibrating ball 1 solved without display interface, the problem of the mode of operation that display is concrete cannot be known, provide good experience to user.User in use, by the data input cell 204 inputted vibration intensity data of intelligent terminal 2 and humidity and/or temperature data, the oscillation intensity of manual control vibrating ball 1 and surperficial and/or temperature, be subject to the use sense improving user, meet the user demand of user, to realize good human-computer interaction.

The foregoing is only embodiments of the invention; not thereby the scope of the claims of the present invention is limited; every utilize instructions of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. can the vibrating ball of wireless charging, this vibrating ball (1) comprise hollow spheroid (11), be connected to the grip part (12) on described spheroid (11) and the electric motor units (13) be arranged in described spheroid (11) and power supply unit (14); It is characterized in that, also comprise control device (15), be connected with described control device (15), conduct electricity for responding to charging device and be the charge coil (16) that described power supply unit (14) charges; Described control device (15) and described charge coil (16) are all arranged in described spheroid (11), and described power supply unit (14) and described electric motor units (13) are all connected with described control device (15).

2. according to claim 1 can the vibrating ball of wireless charging, it is characterized in that, described control device (15) comprises the first main control unit (101), for intelligent terminal (2) wireless telecommunications, receive the steering order from described intelligent terminal (2) and export described first main control unit (101) to carry out the first radio communication unit (102) processed.

3. according to claim 2 can the vibrating ball of wireless charging, it is characterized in that, described first radio communication unit (102) comprise in WIFI unit, bluetooth unit, 3G/4G unit, ZigBee unit, UWB unit and infrared unit one or more.

4. according to claim 2 can the vibrating ball of wireless charging, it is characterized in that, described control device (15) also comprise be connected with described first main control unit (101) for gathering the pressure data on described vibrating ball (1) surface and the pressure data collected being exported to described first main control unit (101), be sent to the pressure transducer (103) of described intelligent terminal (2) by described first radio communication unit (102);

Described electric motor units (13) comprises the motor carrying out corresponding vibration according to the pressure regulating control command of described intelligent terminal (2).

5. according to claim 2 can the vibrating ball of wireless charging, it is characterized in that, described control device (15) also comprises the temperature sensor (104) and/or humidity sensor that are connected with described first main control unit (101), for gathering temperature data and/or the humidity data on described vibrating ball (1) surface, and the data collected are exported to described first main control unit (101), be sent to described intelligent terminal (2) by described first radio communication unit (102);

This vibrating ball (1) also comprises and being connected with described first main control unit (101), for regulating temperature control unit (19) and/or the humidity controlling unit of described vibrating ball (1) surface temperature and/or humidity according to the temperature of described intelligent terminal (2) and/or humidity regulation steering order.

6. according to claim 2 can the vibrating ball of wireless charging, it is characterized in that, described power supply unit (14) comprises rechargeable battery (140) and connected charhing unit (141) and power supply unit (142); Described control device (15) is also comprised and is connected with charhing unit (141), carries out changing the wireless charging unit (110) to be stored into by charhing unit (141) in described rechargeable battery (140) for the electromagnetic wave sensed by described charge coil (16);

Described control device (15) also comprises and being connected with described first main control unit (101), for detecting the detecting unit (105) of the electricity of described power supply unit (14).

7. according to claim 1 can the vibrating ball of wireless charging, it is characterized in that, this vibrating ball (1) also comprises and is arranged on the charging inlet (17) that described spheroid (11) is upper, be connected with described control device (15); And/or,

This vibrating ball (1) also comprises the function button (18) being arranged on described spheroid (11), being connected with described control device (15).

8. a vibrating ball intelligent control system, is characterized in that, comprise described in any one of claim 1-7 can the vibrating ball (1) of wireless charging and the intelligent terminal (2) that is connected with described vibrating ball (1) wireless telecommunications;

Described intelligent terminal (2) comprises for the second radio communication unit (202) with described vibrating ball (1) wireless telecommunications, and connects described second radio communication unit (202), by described second radio communication unit (202), steering order is sent to second main control unit (201) of described vibrating ball (1).

9. vibrating ball intelligent control system according to claim 8, it is characterized in that, described second radio communication unit (202) comprise in WIFI unit, bluetooth unit, 3G/4G unit, ZigBee unit, UWB unit and infrared unit one or more.

10. vibrating ball intelligent control system according to claim 8, it is characterized in that, described intelligent terminal (2) also comprises the display unit (203) of current electric quantity, surface pressing, surface temperature and/or humidity data for showing described vibrating ball (1), for producing the alarm unit (205) of warning message according to current electric quantity, and generate the data input cell (204) of corresponding steering order for described second main control unit (201) for inputted vibration intensity data, surface temperature and/or humidity data; Described display unit (203), alarm unit (205) and data input cell (204) are connected with described second main control unit (201) respectively; And/or,

Described intelligent terminal (2) also comprise be connected with described second main control unit (201), for playing video playback unit and/or the audio playing unit of video and/or audio, described second main control unit (201) generates steering order for controlling described vibrating ball (1) oscillation intensity according to the video and/or audio play.