Gear structure for a figurine

Information

  • Patent Grant
  • 6644139
  • Patent Number
    6,644,139
  • Date Filed
    Monday, September 10, 2001
    23 years ago
  • Date Issued
    Tuesday, November 11, 2003
    21 years ago
  • Inventors
  • Examiners
    • Kim; Chong H.
    • Hansen; Colby
    Agents
    • Bacon & Thomas, PLLC
Abstract
A gear structure for a figurine. The structure includes coaxial gears provided on a shaft, each of the coaxial gears is provided with toothed portions at a periphery thereof at suitable positions, with a smooth portion between adjacent toothed portions. At suitable positions facing the periphery of each of the coaxial gears, action gear sets are respectively provided to drive at least one joint on a figurine to move such that by rotating the shaft to different angular positions, at least one of the toothed portions on at least one of the coaxial gears engages the corresponding action gear set so as to actuate the action gear set, thereby enabling the figurine to perform at least one action.
Description




FIELD OF THE INVENTION




The invention relates to a gear structure, more particularly to a gear structure of a figurine enabling the figurine to perform at least one action.




DESCRIPTION OF THE RELATED ART




In a conventional robot, there are disposed therein a plurality of drivers and gear structures engaging the respective driver to initiate actions of the four limbs and the head of the robot. In order to enable the robot to perform human-like actions, the gear structure is designed to comprise a large amount of gears so as to enable the robot to perform smooth and diverse actions. As such, the size and weight of the robot, as well as the manufacturing cost thereof, will increase with the number of the drivers used and the construction of the gear structure.




SUMMARY OF THE INVENTION




In view of the large size and weight of the robot and the relatively high manufacturing cost of the conventional robot due to the large number of drivers and the complicated gear structure, the present invention provides a gear structure for a figurine, in which a plurality of coaxial gears are provided on a shaft. Each of the coaxial gears is provided with a plurality of toothed portions at a periphery thereof at suitable positions, with a smooth portion between adjacent toothed portions. At suitable positions facing the periphery of each of the coaxial gears, a plurality of action gear sets are respectively provided to drive at least one joint on a figurine to move such that by rotating the shaft to different angular positions, at least one of the toothed portions on at least one of the coaxial gears engages the corresponding action gear set so as to actuate the action gear set, thereby enabling the figurine to perform at least one action.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a perspective view of the preferred embodiment according to the present invention;





FIG. 2

is a top view of

FIG. 1

;





FIG. 3

is a schematic view illustrating the action gear sets, the limiting wheel and the reset wheel in an assembled state; and





FIG. 4

is a front view of

FIG. 1

illustrating the toothed belt and the control circuit.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT




With reference to

FIG. 1

, a gear structure for a figurine is shown to include a shaft


1


provided with a plurality of coaxial gears


2


. Each of the coaxial gears


2


is provided with a plurality of toothed portions


20


grouped together at a periphery thereof at suitable positions, with a smooth portion between adjacent ones of the grouped toothed portions


20


. At suitable positions facing the periphery of each of the coaxial gears


2


, a plurality of action gear sets


3


are respectively provided to drive at least one joint on a figurine to move such that by rotating the shaft


1


to different angular positions, at least one of the toothed portions


20


on at least one of the coaxial gears


2


engages the corresponding action gear set


3


so as to actuate the action gear set


3


, thereby enabling the figurine to perform at least one action.




In this invention, referring to

FIGS. 1 and 2

, the shaft


1


is provided with a driven gear


4


at a suitable position. The driven gear


4


engages a drive gear set


5


such that the drive gear set


5


drives the driven gear


4


to rotate. The drive gear set


5


engages a driver


6


via a toothed belt


9


(shown in FIG.


4


). In this embodiment, the driver


6


may be an electromotor or a step motor, but is not limited thereto in actual practice. The driver


6


is connected to a control circuit


90


(shown in FIG.


4


). By controlling the operation (which includes clockwise rotation, counterclockwise rotation, and angles of clockwise and counterclockwise rotation) of the driver


6


via the control circuit, the direction and angle of rotation of the drive gear set


5


can be controlled such that the drive gear set


5


can bring the driven gear


4


to rotate in a clockwise or counterclockwise direction and about an angle to a suitable position so as to control the state of engagement between each of the toothed portions


20


and the action gear sets


3


engaged therewith, thereby enabling the figurine to perform different actions.




If the driver


6


always rotates in the same direction, each of the toothed portions


20


will repeatedly bring the corresponding action gear sets


3


to rotate, this will cause the figurine to continuously perform the same repeated actions. In case a user has observed the figurine for a time, he/she will find out this phenomenon and will feel that the actions of the figurine are not smooth. In particular, if the figurine is a robot simulating a human being, the robot will perform actions that do not match the joint movement of a human being (e.g., the head of the robot will swing through 360 degrees). Therefore, in order to solve the aforesaid problem, in a preferred embodiment of the present invention, referring to

FIG. 3

, the action gear set


3


is provided with a limiting wheel


7


and a reset wheel


8


connected to the limiting wheel


7


at suitable positions. The reset wheel


8


is disposed at a position proximate to the toothed portion


20


, and has an inner edge provided with a lap block


80


. The lap block


80


is provided with a plurality of radially extending elastic arms


802


that are bent about a suitable angle. The limiting wheel


7


has an outer edge provided with at least one limiting portion


70


at a suitable position, and an inner edge provided with a plurality of equidistantly spaced oblique surfaces


72


having a gradual thickness from thick to thin (or from thin to thick). The juncture of adjacent oblique surfaces


72


is abutted against by the respective elastic arm


802


.




When the driven gear


4


brings the coaxial gear


2


to rotate to cause the respective toothed portion


20


to continuously bring the action gear sets


3


to rotate, the elastic arms


802


within the reset wheel


8


will abut against the junctures between adjacent oblique surfaces


72


so as to bring the limiting wheel


7


to rotate. When one of the limiting portions


70


of the limiting wheel


7


is retained, the limiting wheel


7


cannot rotate any further. At this time, the reset wheel


8


, by virtue of the elasticity of the elastic arms


802


, can pass beyond the junctures between adjacent oblique surfaces


72


so that it can continue to be driven by the driven gear


4


. At this time, since the driven gear


4


continues to drive the coaxial gear


2


to rotate, the toothed portions


20


of the respective coaxial gear


2


can continue to be rotated to the position of the corresponding action gear set


3


to continue performing other actions. In addition, when the driven gear


4


drives the coaxial gear


2


to rotate in a reverse direction, the elastic arms


802


within the reset wheel


8


will slide along the oblique surfaces


72


and cannot drive the limiting wheel


7


to rotate. As such, so long as the positions of the limiting portions


70


are calculated with precision prior to designing the limiting wheel


7


, it can be ensured that the robot will not perform actions that do not match the swinging movement of the human joints.



Claims
  • 1. A gear structure for a figurine, comprising:a shaft; a plurality of coaxial gears, said coaxial gears being provided on said shaft, each of said coaxial gears being provided with a plurality of toothed portions at a periphery thereof at suitable positions, with a smooth portion between adjacent toothed portions; a plurality of action gear sets, said action gear sets being provided at positions facing the periphery of a respective one of the coaxial gears to bring at least one joint on a figurine to move, said shaft being rotated to different angular positions such that at least one of the toothed portions on at least one of the coaxial gears engages a corresponding one of said action gear sets so as to actuate said action gear set, thereby enabling the figurine to perform at least one action; and wherein said action gear sets are provided with a limiting wheel and a reset wheel connected to said limiting wheel at suitable positions, said reset wheel being disposed at a position proximate to said toothed portion and having an inner edge provided with a lap block, said lap block being provided with a plurality of radially extending elastic arms that are bent about a suitable angle, said limiting wheel having an outer edge provided with at least one limiting portion at a suitable position, and an inner edge provided with a plurality of equidistantly spaced oblique surfaces having a gradual thickness from thick to thin, a juncture of adjacent oblique surfaces being abutted by a respective one of the elastic arms.
  • 2. The gear structure for a figurine as claimed in claim 1, wherein said shaft is provided with a driven gear at a suitable position, said driven gear engaging a drive gear set such that said drive gear set drives said driven gear to rotate.
  • 3. The gear structure for a figurine as claimed in claim 1, wherein said drive gear set engages a driver via a toothed belt, said driver being connected to a control circuit, operation of said driver being controlled via said control circuit so as to control the direction and angle of rotation of said drive gear set such that said drive gear set can bring said driven gear to rotate in a clockwise or counterclockwise direction at a suitable angular position so as to control engagement between each of said toothed portions and said action gear sets engaged therewith, thereby enabling the figurine to perform different actions.
  • 4. The gear structure for a figurine as claimed in claim 3, wherein operation of said driver includes clockwise rotation, counterclockwise rotation, and angles of clockwise and counterclockwise rotation, such that said drive gear set can bring said driven gear to rotate in a clockwise or counterclockwise direction.
  • 5. The gear structure for a figurine as claimed in claim 3, wherein said driver is an electromotor.
  • 6. The gear structure for a figurine as claimed in claim 3, wherein said driver is a step motor.
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4152982 Mikoshiba et al. May 1979 A
4785362 Nozawa et al. Nov 1988 A
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5284064 Green et al. Feb 1994 A
5605072 Schmidt et al. Feb 1997 A
6210249 Stadlbauer Apr 2001 B1
6547632 Marine et al. Apr 2003 B2