CN205627083U - Multi functional remote toy aircraft - Google Patents

Abstract

The utility model discloses a multi functional remote toy aircraft, it includes that toy aircraft body reaches the remote control of using with the cooperation of toy aircraft body and holds, a serial communication port, toy aircraft body includes casing, control circuit board, battery, fixed camera, movable camera and actuating mechanism, wherein, the last integration of control circuit board has power supply circuit, voltage stabilizing circuit, and motor -drive circuit, central processing unit, the controller, light control circuit and communication circuit, just power supply circuit, voltage stabilizing circuit, motor -drive circuit, central processing unit, light control circuit and communication circuit all with the controller electricity is connected. Can reach and set up the microphone in the remote controller through mobile terminal such as cell -phones, control the aircraft through pronunciation, realize the A variety of control function, greatly increased the utility model discloses the object for appreciation nature of toy aircraft can adapt to the functional requirement of people to the toy aircraft.

Description

A kind of Multifunctional remote controlled toy aircraft

Technical field

This utility model relates to toy art, is specifically related to a kind of Multifunctional remote controlled toy aircraft.

Background technology

Existing toy aircraft handling is poor, function singleness, can only be controlled by mechanical key and rocking bar, lacks playability, can not meet the needs of people.

Utility model content

The purpose of this utility model is for the deficiencies in the prior art, it is provided that a kind of Multifunctional remote controlled toy aircraft, solves existing toy aircraft handling poor, function singleness, the problem can only being controlled by mechanical key and rocking bar.

This utility model be the technical scheme is that for achieving the above object

A kind of Multifunctional remote controlled toy aircraft, it includes toy aircraft body and the remote control end used with toy aircraft body fits, and described toy aircraft body includes housing, control circuit plate, battery, fixed photographic head, movable photographic head and drive mechanism；Wherein, it is integrated with power circuit, mu balanced circuit, motor-drive circuit on described control circuit plate, central processing unit, controller, lighting control circuit and communicating circuit, and described power circuit, mu balanced circuit, motor-drive circuit, central processing unit, lighting control circuit and communicating circuit all electrically connect with described controller.

Described communicating circuit includes communication chip U2, electric capacity C14, electric capacity C15, electric capacity C16, electric capacity C17, electric capacity C18, electric capacity C25, electric capacity C26, electric capacity C27, electric capacity C28, resistance R19, resistance R20, inductance L1, inductance L2, inductance L3, crystal oscillator Y1 and antenna E1；Wherein, the 19th foot of one end connecting communication chip U2 of described electric capacity C14；16th foot of one end connecting communication chip U2 of electric capacity C15；One end of one end of electric capacity C16, one end of electric capacity C17 and electric capacity C25 is all connected with the 18th foot and the 15th foot of communication chip U2, and connects power supply 3.3V；13rd foot of communication chip U2 is connected with one end of one end, one end of inductance L2 and the electric capacity C26 of electric capacity C18, the other end of electric capacity C26 is connected with one end of inductance L1 and one end of inductance L3, the other end of inductance L2 connects one end of electric capacity C27, the other end of inductance L3 connects one end of electric capacity C28, and the other end of inductance L1 connects antenna E1；9th foot of communication chip U2 and the 10th foot connect the two ends of crystal oscillator Y1 respectively, 4th foot of one end connecting communication chip U2 of resistance R19,5th foot of one end connecting communication chip U2 of resistance R20, the other end of resistance R19 and the other end of resistance R20 are all connected with power supply 3.3V；14th foot, the 12nd foot, the 8th foot, the 17th foot and the 20th equal ground connection of foot of the other end of electric capacity C14, the other end of electric capacity C15, the other end of electric capacity C16, the other end of electric capacity C17, the other end of electric capacity C25, the other end of electric capacity C18, the other end of electric capacity C27, the other end of electric capacity C28 and communication chip U2.

Described central processing unit includes processing chip U3, resistance R22, resistance R23, resistance R24, electric capacity C21, electric capacity C22, electric capacity C23 and electric capacity C24, and wherein, one end connection of described resistance R22 processes the 24th foot of chip U3 and connects controller；One end connection of resistance R23 processes the 23rd foot of chip U3 and connects controller；One end connection of resistance R24 processes the 22nd foot of chip U3；One end connection of electric capacity C21 processes the 20th foot of chip U3；One end of electric capacity C22 is connected with the 13rd foot processing chip U3 and power supply 3.3V；One end of electric capacity C23 processes the 10th foot of chip U3；One end of electric capacity C24 processes the 8th foot of chip U3；The other end of the other end of resistance R22, the other end of resistance R23 and resistance R24 all meets power supply 3.3V；The other end of electric capacity C21, the other end of electric capacity C22, the other end of electric capacity C23, the other end of electric capacity C24 and process the 1st foot of chip U3, the 18th foot, the 11st foot, the 9th equal ground connection of foot.

Described motor-drive circuit is made up of two groups of Dual-motors Driving circuit parallel with one another, and described Dual-motors Driving circuit includes motor M1, motor M2, diode D1, diode D2, electric capacity C7, electric capacity C8, resistance R25, resistance R26, resistance R31, resistance R29, resistance R7, resistance R8 and chip U4；Wherein, the 2nd foot of described chip U4 connects one end of resistance R7；4th foot of chip U4 connects resistance R8 one end, and the 5th foot of chip U4 is connected with one end of the 6th foot, one end of electric capacity C8, the positive pole of diode D2, one end of motor M1 and the resistance R31 of chip U4, and the other end of resistance R31 connects one end of resistance R29；7th foot of chip U4 is connected with one end of the 8th foot, one end of electric capacity C7, the positive pole of diode D1, one end of motor M2 and the resistance R25 of chip U4, and the other end of resistance R25 connects one end of resistance R26；The other end of described motor M1, the negative pole of diode D2, the other end of electric capacity C8, the other end of electric capacity C7, the negative pole of diode D1, the other end of motor M2 are all connected with power supply B+；The other end of described resistance R32, the 1st foot of chip U4, the 3rd foot of chip U4, the other end of resistance R10, the other end of resistance R9, the equal ground connection of the other end of resistance R30.

Described remote control end is mobile phone terminal or remote controller.

It is provided with speech recognition device in described control end.

Described housing includes being formed between shell, upper cover and the base, and upper cover and base being sequentially connected with from top to bottom cavity, and described control circuit plate, battery and fixed photographic head are located in this cavity.

Battery fixed frame it is provided with in the middle part of described base.

Described drive mechanism includes drive mechanism fixed mount, motor and helical blade, and helical blade engages with motor by being located at the canine tooth of bottom, and described motor and helical blade are fixed on drive mechanism fixed mount.

Described communication and extension element are provided with external plug-in and storage expansion card.

Described fixed photographic head rear portion is provided with battery draw-in groove.

Being additionally provided with anti-striker at drive mechanism, base bottom is provided with undercarriage.

The beneficial effects of the utility model are: aircraft of the present utility model, can be by mobile terminals such as mobile phones, and mike is set in remote controller, by voice, aircraft is controlled, realize various control function, considerably increase the playability of this utility model toy aircraft, it is possible to adapt to people's functional requirement to toy aircraft.

Accompanying drawing explanation

Fig. 1 is this utility model aircraft overall structure schematic diagram；

Fig. 2 is this utility model controller circuitry figure；

Fig. 3 is this utility model central processor circuit figure；

Fig. 4 is this utility model power supply and mu balanced circuit figure；

Fig. 5 is this utility model communicating circuit figure；

Fig. 6 is this utility model motor-drive circuit figure；

Fig. 7 is this utility model lighting control circuit figure.

Detailed description of the invention

Embodiment:See Fig. 1 to Fig. 7, the present embodiment provides a kind of Multifunctional remote controlled toy aircraft, it includes toy aircraft body and the remote control end used with toy aircraft body fits, and described toy aircraft body includes housing, control circuit plate, battery, fixed photographic head, movable photographic head and drive mechanism；Wherein, it is integrated with power circuit, mu balanced circuit, motor-drive circuit on described control circuit plate, central processing unit, controller, lighting control circuit and communicating circuit, and described power circuit, mu balanced circuit, motor-drive circuit, central processing unit, lighting control circuit and communicating circuit all electrically connect with described controller.

Described communicating circuit includes communication chip U2, electric capacity C14, electric capacity C15, electric capacity C16, electric capacity C17, electric capacity C18, electric capacity C25, electric capacity C26, electric capacity C27, electric capacity C28, resistance R19, resistance R20, inductance L1, inductance L2, inductance L3, crystal oscillator Y1 and antenna E1；Wherein, the 19th foot of one end connecting communication chip U2 of described electric capacity C14；16th foot of one end connecting communication chip U2 of electric capacity C15；One end of one end of electric capacity C16, one end of electric capacity C17 and electric capacity C25 is all connected with the 18th foot and the 15th foot of communication chip U2, and connects power supply 3.3V；13rd foot of communication chip U2 is connected with one end of one end, one end of inductance L2 and the electric capacity C26 of electric capacity C18, the other end of electric capacity C26 is connected with one end of inductance L1 and one end of inductance L3, the other end of inductance L2 connects one end of electric capacity C27, the other end of inductance L3 connects one end of electric capacity C28, and the other end of inductance L1 connects antenna E1；9th foot of communication chip U2 and the 10th foot connect the two ends of crystal oscillator Y1 respectively, 4th foot of one end connecting communication chip U2 of resistance R19,5th foot of one end connecting communication chip U2 of resistance R20, the other end of resistance R19 and the other end of resistance R20 are all connected with power supply 3.3V；14th foot, the 12nd foot, the 8th foot, the 17th foot and the 20th equal ground connection of foot of the other end of electric capacity C14, the other end of electric capacity C15, the other end of electric capacity C16, the other end of electric capacity C17, the other end of electric capacity C25, the other end of electric capacity C18, the other end of electric capacity C27, the other end of electric capacity C28 and communication chip U2.

Described central processing unit includes processing chip U3, resistance R22, resistance R23, resistance R24, electric capacity C21, electric capacity C22, electric capacity C23 and electric capacity C24, and wherein, one end connection of described resistance R22 processes the 24th foot of chip U3 and connects controller；One end connection of resistance R23 processes the 23rd foot of chip U3 and connects controller；One end connection of resistance R24 processes the 22nd foot of chip U3；One end connection of electric capacity C21 processes the 20th foot of chip U3；One end of electric capacity C22 is connected with the 13rd foot processing chip U3 and power supply 3.3V；One end of electric capacity C23 processes the 10th foot of chip U3；One end of electric capacity C24 processes the 8th foot of chip U3；The other end of the other end of resistance R22, the other end of resistance R23 and resistance R24 all meets power supply 3.3V；The other end of electric capacity C21, the other end of electric capacity C22, the other end of electric capacity C23, the other end of electric capacity C24 and process the 1st foot of chip U3, the 18th foot, the 11st foot, the 9th equal ground connection of foot.

Described motor-drive circuit is made up of two groups of Dual-motors Driving circuit parallel with one another, and described Dual-motors Driving circuit includes motor M1, motor M2, diode D1, diode D2, electric capacity C7, electric capacity C8, resistance R25, resistance R26, resistance R31, resistance R29, resistance R7, resistance R8 and chip U4；Wherein, the 2nd foot of described chip U4 connects one end of resistance R7；4th foot of chip U4 connects resistance R8 one end, and the 5th foot of chip U4 is connected with one end of the 6th foot, one end of electric capacity C8, the positive pole of diode D2, one end of motor M1 and the resistance R31 of chip U4, and the other end of resistance R31 connects one end of resistance R29；7th foot of chip U4 is connected with one end of the 8th foot, one end of electric capacity C7, the positive pole of diode D1, one end of motor M2 and the resistance R25 of chip U4, and the other end of resistance R25 connects one end of resistance R26；The other end of described motor M1, the negative pole of diode D2, the other end of electric capacity C8, the other end of electric capacity C7, the negative pole of diode D1, the other end of motor M2 are all connected with power supply B+；The other end of described resistance R32, the 1st foot of chip U4, the 3rd foot of chip U4, the other end of resistance R10, the other end of resistance R9, the equal ground connection of the other end of resistance R30.

Described remote control end is mobile phone terminal or remote controller.

It is provided with speech recognition device in described control end.

Described housing includes being formed between shell, upper cover and the base, and upper cover and base being sequentially connected with from top to bottom cavity, and described control circuit plate, battery and fixed photographic head are located in this cavity.

Battery fixed frame it is provided with in the middle part of described base.

Described drive mechanism includes drive mechanism fixed mount, motor and helical blade, and helical blade engages with motor by being located at the canine tooth of bottom, and described motor and helical blade are fixed on drive mechanism fixed mount.

Described communication and extension element are provided with external plug-in and storage expansion card.

Described fixed photographic head rear portion is provided with battery draw-in groove.

Being additionally provided with anti-striker at drive mechanism, base bottom is provided with undercarriage.

The above, preferable possible embodiments the most of the present utility model, and it is not used to limit to the scope of the claims of the present utility model, therefore the equivalent structure change that all utilization this utility model description are made, it is all contained in protection domain of the present utility model.

Claims (6)

1. a Multifunctional remote controlled toy aircraft, it include toy aircraft body and with object for appreciation Tool aircraft body with the use of remote control end, it is characterised in that described toy aircraft body Including housing, control circuit plate, battery, fixed photographic head, movable photographic head and driving Mechanism；Wherein, described control circuit plate being integrated with power circuit, mu balanced circuit, motor drives Galvanic electricity road, central processing unit, controller, lighting control circuit and communicating circuit, and described electricity Source circuit, mu balanced circuit, motor-drive circuit, central processing unit, lighting control circuit is with logical News circuit all electrically connects with described controller.

Multifunctional remote controlled toy aircraft the most according to claim 1, it is characterised in that Described communicating circuit includes communication chip U2, electric capacity C14, electric capacity C15, electric capacity C16, Electric capacity C17, electric capacity C18, electric capacity C25, electric capacity C26, electric capacity C27, electric capacity C28, Resistance R19, resistance R20, inductance L1, inductance L2, inductance L3, crystal oscillator Y1 and antenna E1；Wherein, the 19th foot of one end connecting communication chip U2 of described electric capacity C14；Electric capacity 16th foot of one end connecting communication chip U2 of C15；One end of electric capacity C16, electric capacity C17 One end and one end of electric capacity C25 be all connected with the 18th foot and the 15th foot of communication chip U2 Connect, and connect power supply 3.3V；13rd foot of communication chip U2 and one end of electric capacity C18, One end of inductance L2 and one end of electric capacity C26 are connected, the other end of electric capacity C26 and inductance One end of L1 and one end of inductance L3 are connected, and the other end of inductance L2 connects electric capacity C27 One end, the other end of inductance L3 connects one end of electric capacity C28, the other end of inductance L1 Connect antenna E1；9th foot of communication chip U2 and the 10th foot connect crystal oscillator Y1's respectively Two ends, the 4th foot of one end connecting communication chip U2 of resistance R19, one end of resistance R20 5th foot of connecting communication chip U2, the other end of resistance R19 and the other end of resistance R20 It is all connected with power supply 3.3V；The other end of electric capacity C14, the other end of electric capacity C15, electric capacity C16 The other end, the other end of electric capacity C17, the other end of electric capacity C25, electric capacity C18 another The of one end, the other end of electric capacity C27, the other end of electric capacity C28 and communication chip U2 14 feet, the 12nd foot, the 8th foot, the 17th foot and the 20th equal ground connection of foot.

Multifunctional remote controlled toy aircraft the most according to claim 1, it is characterised in that Described central processing unit includes processing chip U3, resistance R22, resistance R23, resistance R24, Electric capacity C21, electric capacity C22, electric capacity C23 and electric capacity C24, wherein, described resistance R22 One end connection process the 24th foot of chip U3 and connect controller；One end of resistance R23 Connection processes the 23rd foot of chip U3 and connects controller；The junction, one end of resistance R24 22nd foot of reason chip U3；One end connection of electric capacity C21 processes the 20th foot of chip U3； One end of electric capacity C22 is connected with the 13rd foot processing chip U3 and power supply 3.3V；Electric capacity One end of C23 processes the 10th foot of chip U3；One end of electric capacity C24 processes chip U3's 8th foot；Another of the other end of resistance R22, the other end of resistance R23 and resistance R24 End all meets power supply 3.3V；The other end of electric capacity C21, the other end of electric capacity C22, electric capacity C23 The other end, the other end of electric capacity C24 and process the 1st foot of chip U3, the 18th foot, 11st foot, the 9th equal ground connection of foot.

Multifunctional remote controlled toy aircraft the most according to claim 1, it is characterised in that Described motor-drive circuit is made up of two groups of Dual-motors Driving circuit parallel with one another, described double electricity Drive circuit includes motor M1, motor M2, diode D1, diode D2, electric capacity C7, electric capacity C8, resistance R25, resistance R26, resistance R31, resistance R29, resistance R7, Resistance R8 and chip U4；Wherein, the 2nd foot of described chip U4 connects the one of resistance R7 End；4th foot of chip U4 connects resistance R8 one end, the 5th foot and the chip of chip U4 6th foot of U4, one end of electric capacity C8, the positive pole of diode D2, one end of motor M1 And one end of resistance R31 is connected, the other end of resistance R31 connects one end of resistance R29； 7th foot of chip U4 and the 8th foot of chip U4, one end of electric capacity C7, diode D1 One end of positive pole, one end of motor M2 and resistance R25 be connected, resistance R25's is another One end connects one end of resistance R26；The other end of described motor M1, diode D2 negative Pole, the other end of electric capacity C8, the other end of electric capacity C7, the negative pole of diode D1, motor The other end of M2 is all connected with power supply B+；The other end of described resistance R32, the of chip U4 1 foot, the 3rd foot of chip U4, the other end of resistance R10, the other end of resistance R9, The equal ground connection of the other end of resistance R30.

Multifunctional remote controlled toy aircraft the most according to claim 1, it is characterised in that Described remote control end is mobile phone terminal or remote controller.

Multifunctional remote controlled toy aircraft the most according to claim 1, it is characterised in that It is provided with speech recognition device in described control end.