In a moving apparatus, flapping angle of a front wing shaft is γ+Δγ/2, and the flapping angle of rear wing shaft is γ−Δγ/2. Specifically, amplitude difference between front wing shaft and rear wing shaft is Δγ. Further, the flapping motion of front wing shaft is represented by sin (τ+φ/2), and the f
In a moving apparatus, flapping angle of a front wing shaft is γ+Δγ/2, and the flapping angle of rear wing shaft is γ−Δγ/2. Specifically, amplitude difference between front wing shaft and rear wing shaft is Δγ. Further, the flapping motion of front wing shaft is represented by sin (τ+φ/2), and the flapping motion of rear wing shaft is represented by sin (τ−φ/2). In other words, phase difference between the front and rear wing shafts is φ. Further, amplitude difference Δγ and phase difference φ are each represented by a function using a common parameter. Therefore, a control portion can independently change the amplitude difference Δγ and phase difference φ, so as to variously change a torsion angle formed by a tip end portion of the wing and a prescribed phantom plane. Thus, a moving apparatus that can make an efficient transition from hovering to forward or backward flight can be provided.
대표청구항▼
1. A moving apparatus, comprising: a wing portion making a flapping operation in a space where a fluid exists;a driving portion causing the flapping operation of said wing portion;a control portion controlling said driving portion; anda main body portion to which said driving portion and said contro
1. A moving apparatus, comprising: a wing portion making a flapping operation in a space where a fluid exists;a driving portion causing the flapping operation of said wing portion;a control portion controlling said driving portion; anda main body portion to which said driving portion and said control portion are mounted; wherein:said wing portion includes:one wing shaft portion and another wing shaft portion connected to said driving portion, anda wing body portion formed at least across said one wing shaft portion and said another wing shaft portion;said driving portion includes:one driving portion causing said one wing shaft portion to make a first periodic motion, andanother driving portion for separately and independently from said one driving portion causing said another wing shaft portion to make a second periodic motion; andsaid control portion controls said one driving portion and said another driving portion such that an amplitude difference between said first periodic motion and said second periodic motion is changed, thereby changing a torsion angle formed by a tip end of said wing body portion and a prescribed phantom plane. 2. The moving apparatus according to claim 1, wherein said control portion controls said one driving portion and said another driving portion such that said amplitude difference changes while a first phase difference between said first periodic motion and said second periodic motion is kept constant. 3. A moving apparatus, comprising: a wing portion making a flapping operation in a space where a fluid exists;a driving portion causing the flapping operation of said wing portion;a control portion controlling said driving portion; anda main body portion to which said driving portion and said control portion are mounted; wherein:said wing portion includes:one wing shaft portion and another wing shaft portion connected to said driving portion, anda wing body portion formed at least across said one wing shaft portion and said another wing shaft portion;said driving portion includes:one driving portion for causing said one wing shaft portion to make a first periodic motion, andanother driving portion for separately and independently from said one driving portion causing said another wing shaft portion to make a second periodic motion; andsaid control portion controls said one driving portion and said another driving portion such that at least one of (i) a first phase difference between said first periodic motion and said second periodic motion and(ii) an amplitude difference between said first periodic motion and said second periodic motionis changed, so as to change a torsion angle formed by a tip end of said wingbody portion and a prescribed phantom plane, wherein said torsion angle makes a periodic change; andsaid control portion controls said one driving portion and said another driving portion such that a second phase difference between(iii) at least one of said first and second periodic motions and(iv) said periodic change of said torsion angle is kept constant. 4. A moving apparatus, comprising: a wing portion making a flapping operation in a space where a fluid exists;a driving portion causing the flapping operation of said wing portion;a control portion controlling said driving portion; anda main body portion to which said driving portion and said control portion are mounted; wherein:said wing portion includes:one wing shaft portion and another wing shaft portion connected to said driving portion, anda wing body portion formed at least across said one wing shaft portion and said another wing shaft portion;said driving portion includes:one driving portion for causing said one wing shaft portion to make a first periodic motion, andanother driving portion for separately and independently from said one driving portion causing said another wing shaft portion to make a second periodic motion; andsaid control portion controls said one driving portion and said another driving portion such that at least one of (i) a first phase difference between said first periodic motion and said second periodic motion and(ii) an amplitude difference between said first periodic motion and said second periodic motion is changed,so as to change a torsion angle formed by a tip end of said wing body portion and a prescribed phantom plane, wherein said torsion angle makes a periodic change; andsaid control portion controls said one driving portion and said another driving portion such that a second phase difference between(iii) at least one of said first and second periodic motions and(iv) said periodic change in said torsion angle is changed as a speed of flight of said moving apparatus increases, so that a thrust exerted on said moving apparatus increases to a peak value. 5. A moving apparatus, comprising: a wing portion making a flapping operation in a space where a fluid exists;a driving portion causing the flapping operation of said wing portion;a control portion controlling said driving portion; anda main body portion to which said driving portion and said control portion are mounted; wherein:said wing portion includes:one wing shaft portion and another wing shaft portion connected to said driving portion, anda wing body portion formed at least across said one wing shaft portion and said another wing shaft portion;said driving portion includes:one driving portion causing said one wing shaft portion to make a first periodic motion, andanother driving portion separately and independently from said one driving portion said another wing shaft portion to make a second periodic motion; andsaid control portion controls said one driving portion and said another driving portion such that both a first phase difference between said first periodic motion and said second periodic motion and an amplitude difference between said first periodic motion and said second periodic motion are changed in a manner governed by a common parameter, so as to change a torsion angle formed by a tip end of said wing body portion and a prescribed phantom plane. 6. The moving apparatus according to claim 5, wherein said torsion angle makes a periodic change; andsaid control portion controls said one driving portion and said another driving portion such that a second phase difference between at least one of said first and second periodic motions and said periodic change in said torsion angle is kept constant as both of said phase difference and said amplitude difference are changed in a manner governed by said common parameter. 7. The moving apparatus according to claim 5, wherein said torsion angle makes a periodic change; andsaid control portion controls said one driving portion and said another driving portion such that a maximum amplitude of said periodic change in said torsion angle is kept constant as both of said first phase difference and said amplitude difference are changed in a manner governed by said common parameter.
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