A kind of preparation method of toy hand-held remote control and remote controller
Technical field
The present invention relates to remote-control toy field, be specifically related to a kind of preparation method of the toy hand-held remote control for the toy such as remote toy aircraft, automobile, and by remote controller prepared by the method.
Background technology
On current toy market, electric remote controlled toy is extensively by the toy that child likes, various electric remote controlled toy is full of all over the world, and almost each has the family of child can there is multiple electric remote controlled toy.And toy airplane is exactly a more welcome kind in electric remote controlled toy, the remote control thereof of traditional toy airplane is all generally control by mechanical type is lever operated, advanced by the rising on handle or retreat control lever and control toy airplane rising advance or retreat, control toy airplane by the left-hand rotation on handle or right-hand rotation control lever turn left or turn right, generally when manipulating toy airplane, must all control on handle by two hands, well can manipulate and play, not can free hand to other things busy.And in the lever operated method of this traditional mechanical type, owing to can not very directly, very neatly people be transferred on toy airplane well to the control instruction of toy airplane heading, when by mechanical type handle manipulation toy airplane, need can skillfully manipulate through training many times.
Summary of the invention
The object of the invention is for the deficiencies in the prior art, a kind of preparation method of toy hand-held remote control is provided, and by remote controller prepared by the method.
The technical scheme that the present invention is adopted for achieving the above object is:
A preparation method for toy hand-held remote control, it comprises the following steps:
(1) prepare one and can be set in user's arm and the extracarpal arc shell of hand, and this shell one end is provided with opening;
(2) prepare a holding rod, this holding rod is fixedly connected with the openend of step (1) described shell, and with shell formed one for point through hold hole;
(3) prepare a functional circuit plate, this functional circuit plate is fixed on the inner side of step (1) described shell;
(4) on the described functional circuit plate of step (3), integrated horizontal sensing circuit, control chip circuit, high frequency transmission circuit, mu balanced circuit and power circuit, obtained toy hand-held remote control.
Described shell and holding rod all can be telescopic, to meet the use of different crowd.
Horizontal sensor circuit described in step (4) and control chip circuit have been worked in coordination with by the control of remote-control toy, when holding, by leaning forward, raising up, left side and right side, piezo-electric effect is produced by horizontal sensor circuit, export control signal forward, backward, and to the right respectively left to control chip circuit, by control chip control circui by the direct of travel of remote-control toy.
Be provided with battery case in holding rod described in step (2), described functional circuit plate is connected with this battery case by wire, is provided with protective casing outside this wire; Described holding rod is provided with power switch, power supply indicator, cell through lid and anti-skid structure.
Control chip circuit described in step (4) comprises control chip U1 and electric capacity C2, and wherein, the 1st pin of described control chip U1 is connected with electric capacity C2 one end and 3.3V power supply, the other end of electric capacity C2 and the 8th pin ground connection of control chip U1, described horizontal sensor circuit comprises horizon sensor U2, electric capacity C1, resistance R1 and resistance R2, wherein, 7th pin of the 1st pin connection control chip U1 of horizon sensor U2, 3rd pin of horizon sensor U2 is connected with one end of electric capacity C1 and 3.3V power supply, 4th pin of horizon sensor U2 is connected with one end of the 6th pin of control chip U1 and resistance R2, 5th pin of horizon sensor U2 is connected with one end of the 5th pin of control chip U1 and resistance R1, another termination 3.3V power supply of described resistance R1 and resistance R2, the other end of described electric capacity C1 and the 6th pin ground connection of horizon sensor U2.
Stabilization process software and track automatic straightening software is built-in with at described control chip.
High frequency transmission circuit described in step (4) comprises resistance R7, resistance R8, resistance R9, resistance R10, electric capacity C6, electric capacity C, electric capacity C7, electric capacity C4, electric capacity C22, electric capacity C9, electric capacity C10, inductance L 1, inductance L 2, inductance L 3, crystal resonator Y1, triode Q4
With triode Q5, wherein, 3rd pin of described resistance R7 one end connection control chip U1, the other end is connected with the base stage of crystal resonator one end and triode Q4, the emitter stage of triode Q4 is connected with resistance R8 one end and electric capacity C22 one end, one end of the colelctor electrode of triode Q4 and the other end of crystal resonator and inductance L 1, the other end of electric capacity C22 is connected with one end of electric capacity C4, the other end of electric capacity C4 is connected with one end of electric capacity C6 with the base stage of one end of resistance R9 and triode Q5, 2nd pin of the other end connection control chip U1 of resistance R9, the emitter stage of triode Q5 is connected with one end of one end of resistance R10 and electric capacity C, colelctor electrode is connected with one end of inductance L 2 and one end of electric capacity C7, the other end of electric capacity C7 is connected with one end of one end of electric capacity C9 and inductance L 3, the other end of inductance L 3 is connected with electric capacity C10 and antenna ANT, the other end of described resistance R3, the other end of electric capacity C6, the other end of resistance R10, the other end of electric capacity C, the other end of electric capacity C9 and the equal ground connection of the other end of electric capacity C10, the other end of inductance L 1 is connected 9V power supply with the other end of inductance L 2.
According to a toy hand-held remote control prepared by described method, it comprises one can be set in user's arm and the extracarpal arc shell of hand, and this shell one end is provided with opening; One holding rod, this holding rod is fixedly connected with the openend of described shell, and with shell formed one for point through hold hole; One functional circuit plate, this functional circuit plate is fixed on the inner side of described shell; On described functional circuit plate, be integrated with horizontal sensor circuit, control chip circuit, high frequency transmission circuit, mu balanced circuit and power circuit.
Be provided with battery case in described holding rod, described functional circuit plate is connected with this battery case by wire, is provided with protective casing outside this wire.
Described holding rod is provided with power switch, power supply indicator, cell through lid and anti-skid structure.
Described control chip circuit comprises control chip U1 and electric capacity C2, and wherein, the 1st pin of described control chip U1 is connected with electric capacity C2 one end and 3.3V power supply, the other end of electric capacity C2 and the 8th pin ground connection of control chip U1; Described horizontal sensor circuit comprises horizon sensor U2, electric capacity C1, resistance R1 and resistance R2, wherein, and the 7th pin of the 1st pin connection control chip U1 of horizon sensor U2, the 3rd pin of horizon sensor U2 and electric capacity C1
One end and 3.3V power supply be connected, 4th pin of horizon sensor U2 is connected with one end of the 6th pin of control chip U1 and resistance R2,5th pin of horizon sensor U2 is connected with one end of the 5th pin of control chip U1 and resistance R1, another termination 3.3V power supply of described resistance R1 and resistance R2, the other end of described electric capacity C1 and the 6th pin ground connection of horizon sensor U2.
Described high frequency transmission circuit comprises resistance R7, resistance R8, resistance R9, resistance R10, electric capacity C6, electric capacity C, electric capacity C7, electric capacity C4, electric capacity C22, electric capacity C9, electric capacity C10, inductance L 1, inductance L 2, inductance L 3, crystal resonator Y1, triode Q4 and triode Q5, wherein, 3rd pin of described resistance R7 one end connection control chip U1, the other end is connected with the base stage of crystal resonator one end and triode Q4, the emitter stage of triode Q4 is connected with resistance R8 one end and electric capacity C22 one end, one end of the colelctor electrode of triode Q4 and the other end of crystal resonator and inductance L 1, the other end of electric capacity C22 is connected with one end of electric capacity C4, the other end of electric capacity C4 is connected with one end of electric capacity C6 with the base stage of one end of resistance R9 and triode Q5, 2nd pin of the other end connection control chip U1 of resistance R9, the emitter stage of triode Q5 is connected with one end of one end of resistance R10 and electric capacity C, colelctor electrode is connected with one end of inductance L 2 and one end of electric capacity C7, the other end of electric capacity C7 is connected with one end of one end of electric capacity C9 and inductance L 3, the other end of inductance L 3 is connected with electric capacity C10 and antenna ANT, the other end of described resistance R3, the other end of electric capacity C6, the other end of resistance R10, the other end of electric capacity C, the other end of electric capacity C9 and the equal ground connection of the other end of electric capacity C10, the other end of inductance L 1 is connected 9V power supply with the other end of inductance L 2.
Control principle of the present invention is: lean forward when holding, and built-in horizon sensor produces piezo-electric effect and exports a control signal to main control chip, and the controlled advance of telecar travels.Raise up when holding, built-in horizon sensor produces piezo-electric effect and exports a control signal to main control chip, and the controlled retrogressing of telecar travels.Hold on the left of when leaning forward, built-in horizon sensor produces piezo-electric effect and exports a control signal to main control chip, and the controlled advance of telecar turns left to travel.Hold on the right side of when leaning forward, built-in horizon sensor produces piezo-electric effect and exports a control signal to main control chip, and the controlled advance of telecar is turned right and travelled.Raise up when holding left side, and built-in horizon sensor produces pressure
Electrical effect exports a control signal to main control chip, and the controlled retrogressing of telecar turns left to travel.Raise up when holding right side, and built-in horizon sensor produces piezo-electric effect and exports a control signal to main control chip, and the controlled retrogressing of telecar is turned right and travelled.
The invention has the beneficial effects as follows: the present invention is a high-grade four-way remote controller, modern design, and one-hand operation, holds comfortable, and the use board design of innovation realizes the function that gravity sensing carrys out remote control car left and right turn; Children easily arbitrarily, dexterity is active experiences outstanding remote control effect.
Accompanying drawing explanation
Fig. 1 is overall structure schematic diagram of the present invention;
Fig. 2 is Fig. 1 detonation configuration schematic diagram;
Fig. 3 is horizon sensor of the present invention and control chip circuit diagram;
Fig. 4 is high frequency transmission circuit figure of the present invention;
Fig. 5 is mu balanced circuit figure of the present invention;
Fig. 6 is power circuit diagram of the present invention.
Wherein: 1. shell 2. holds hole 3. holding rod 4. functional circuit plate 5. battery case
6. protective casing 7. power switch 8. cell through lid 9. anti-skid structure
10. power supply indicator.
Detailed description of the invention
embodiment:see Fig. 1 to Fig. 6, the present embodiment provides a kind of preparation method of toy hand-held remote control, and it comprises the following steps:
(1) prepare one and can be set in user's arm and the extracarpal arc shell 1 of hand, and this shell 1 one end is provided with opening;
(2) prepare a holding rod 3, this holding rod 3 is fixedly connected with the openend of the described shell 1 of step (1), and with shell 1 formed one for point through hold hole 2;
(3) prepare a functional circuit plate 4, this functional circuit plate 4 is fixed on the inner side of the described shell 1 of step (1);
(4) on the described functional circuit plate 4 of step (3), integrated horizontal sensing circuit, control
Chip circuit processed, high frequency transmission circuit, mu balanced circuit and power circuit, obtained toy hand-held remote control.
Described shell 1 and holding rod 3 all can be telescopic, to meet the use of different crowd.
Horizontal sensor circuit described in step (4) and control chip circuit have been worked in coordination with by the control of remote-control toy, when holding, by leaning forward, raising up, left side and right side, piezo-electric effect is produced by horizontal sensor circuit, export control signal forward, backward, and to the right respectively left to control chip circuit, by control chip control circui by the direct of travel of remote-control toy.
Be provided with battery case 5 in holding rod 3 described in step (2), described functional circuit plate 4 is connected with this battery case 5 by wire, is provided with protective casing 6 outside this wire; Described holding rod 3 is provided with power switch 7, power supply indicator 10, cell through lid 8 and anti-skid structure 9.
Control chip circuit described in step (4) comprises control chip U1 and electric capacity C2, and wherein, the 1st pin of described control chip U1 is connected with electric capacity C2 one end and 3.3V power supply, the other end of electric capacity C2 and the 8th pin ground connection of control chip U1, described horizontal sensor circuit comprises horizon sensor U2, electric capacity C1, resistance R1 and resistance R2, wherein, 7th pin of the 1st pin connection control chip U1 of horizon sensor U2, 3rd pin of horizon sensor U2 is connected with one end of electric capacity C1 and 3.3V power supply, 4th pin of horizon sensor U2 is connected with one end of the 6th pin of control chip U1 and resistance R2, 5th pin of horizon sensor U2 is connected with one end of the 5th pin of control chip U1 and resistance R1, another termination 3.3V power supply of described resistance R1 and resistance R2, the other end of described electric capacity C1 and the 6th pin ground connection of horizon sensor U2.
Stabilization process software and track automatic straightening software is built-in with at described control chip.
High frequency transmission circuit described in step (4) comprises resistance R7, resistance R8, resistance R9, resistance R10, electric capacity C6, electric capacity C, electric capacity C7, electric capacity C4, electric capacity C22, electric capacity C9, electric capacity C10, inductance L 1, inductance L 2, inductance L 3, crystal resonator Y1, triode Q4 and triode Q5, wherein, the 3rd pin of described resistance R7 one end connection control chip U1, the other end is connected with the base stage of crystal resonator one end and triode Q4, the emitter stage of triode Q4 is connected with resistance R8 one end and electric capacity C22 one end, and the colelctor electrode of triode Q4 is with brilliant
Shake the other end of device and one end of inductance L 1, the other end of electric capacity C22 is connected with one end of electric capacity C4, the other end of electric capacity C4 is connected with one end of electric capacity C6 with the base stage of one end of resistance R9 and triode Q5, 2nd pin of the other end connection control chip U1 of resistance R9, the emitter stage of triode Q5 is connected with one end of one end of resistance R10 and electric capacity C, colelctor electrode is connected with one end of inductance L 2 and one end of electric capacity C7, the other end of electric capacity C7 is connected with one end of one end of electric capacity C9 and inductance L 3, the other end of inductance L 3 is connected with electric capacity C10 and antenna ANT, the other end of described resistance R3, the other end of electric capacity C6, the other end of resistance R10, the other end of electric capacity C, the other end of electric capacity C9 and the equal ground connection of the other end of electric capacity C10, the other end of inductance L 1 is connected 9V power supply with the other end of inductance L 2.
According to a toy hand-held remote control prepared by described method, it comprises one can be set in user's arm and the extracarpal arc shell 1 of hand, and this shell 1 one end is provided with opening; One holding rod 3, this holding rod 3 is fixedly connected with the openend of described shell 1, and with shell 1 formed one for point through hold hole 2; One functional circuit plate 4, this functional circuit plate 4 is fixed on the inner side of described shell 1; On described functional circuit plate 4, be integrated with horizontal sensor circuit, control chip circuit, high frequency transmission circuit, mu balanced circuit and power circuit.
Be provided with battery case 5 in described holding rod 3, described functional circuit plate 4 is connected with this battery case 5 by wire, is provided with protective casing 6 outside this wire.
Described holding rod 3 is provided with power switch 7, power supply indicator 10, cell through lid 8 and anti-skid structure 9.
Described control chip circuit comprises control chip U1 and electric capacity C2, and wherein, the 1st pin of described control chip U1 is connected with electric capacity C2 one end and 3.3V power supply, the other end of electric capacity C2 and the 8th pin ground connection of control chip U1; Described horizontal sensor circuit comprises horizon sensor U2, electric capacity C1, resistance R1 and resistance R2, wherein, 7th pin of the 1st pin connection control chip U1 of horizon sensor U2,3rd pin of horizon sensor U2 is connected with one end of electric capacity C1 and 3.3V power supply, and the 4th pin of horizon sensor U2 is connected with one end of the 6th pin of control chip U1 and resistance R2, the 5th pin and the control of horizon sensor U2
5th pin of chip U1 and one end of resistance R1 are connected, another termination 3.3V power supply of described resistance R1 and resistance R2, the other end of described electric capacity C1 and the 6th pin ground connection of horizon sensor U2.
Described high frequency transmission circuit comprises resistance R7, resistance R8, resistance R9, resistance R10, electric capacity C6, electric capacity C, electric capacity C7, electric capacity C4, electric capacity C22, electric capacity C9, electric capacity C10, inductance L 1, inductance L 2, inductance L 3, crystal resonator Y1, triode Q4 and triode Q5, wherein, 3rd pin of described resistance R7 one end connection control chip U1, the other end is connected with the base stage of crystal resonator one end and triode Q4, the emitter stage of triode Q4 is connected with resistance R8 one end and electric capacity C22 one end, one end of the colelctor electrode of triode Q4 and the other end of crystal resonator and inductance L 1, the other end of electric capacity C22 is connected with one end of electric capacity C4, the other end of electric capacity C4 is connected with one end of electric capacity C6 with the base stage of one end of resistance R9 and triode Q5, 2nd pin of the other end connection control chip U1 of resistance R9, the emitter stage of triode Q5 is connected with one end of one end of resistance R10 and electric capacity C, colelctor electrode is connected with one end of inductance L 2 and one end of electric capacity C7, the other end of electric capacity C7 is connected with one end of one end of electric capacity C9 and inductance L 3, the other end of inductance L 3 is connected with electric capacity C10 and antenna ANT, the other end of described resistance R3, the other end of electric capacity C6, the other end of resistance R10, the other end of electric capacity C, the other end of electric capacity C9 and the equal ground connection of the other end of electric capacity C10, the other end of inductance L 1 is connected 9V power supply with the other end of inductance L 2.
The present invention is not limited to above-mentioned embodiment, and all employings and similarity method of the present invention and structure realize all modes of the object of the invention, all within protection scope of the present invention.