Customizable action figures
Customizable action figures comprising a torso, a transmission mechanism supported in the torso, and an appendage operatively connected to the transmission mechanism. In some examples, the customizable action figures may include an upper torso rotatably connected to a lower torso. In some examples, the customizable action figures may include an appendage having a plurality of segments, with each segment configured to move relative to one or more neighboring segments. In some examples, the customizable action figures may include a set of arms, with each arm being configured to be selectively coupled to the transmission mechanism, or each arm may be configured to move differently than an other arm in the set.
This application claims priority under 35 U.S.C. § 119(e) to U.S. Provisional Application No. 60/734,710 filed on Nov. 7, 2005, the disclosure of which is incorporated herein by reference for all purposes.
BACKGROUNDAction figures provide entertainment to persons using them. Customizable action figures may include a torso, a transmission mechanism supported in the torso, and an appendage operatively connected to the transmission mechanism. A torso may house the transmission mechanism. Action figures may have various shapes, such as the shape of a human, an animal, a robot, or a fanciful creature. A transmission mechanism may drive an appendage to move and may comprise interconnected gears and levers. The appendage may resemble an arm, leg, or other extremity, and it may have segments that move with one or more degrees of freedom.
Examples of customizable action figures are found in U.S. Pat. Nos. 1,270,781; 1,359,030; 1,456,422; 3,010,253; 3,425,155; 3,611,625; 3,648,405; 3,775,900; 3,858,353; 3,947,994; 3,955,311; 3,988,855; 4,003,158; 4,125,961; 4,135,327; 4,274,224; 4,571,209; 4,597,574; 4,601,672; 4,623,318; 4,655,725; 4,657,518; 4,669,998; 4,680,019; 4,723,932; 4,738,649; 4,790,789; 4,968,280; 4,988,324; 4,995,846; 5,044,960; 5,257,873; 5,394,766; 5,620,352; 5,727,982; 6,022,263; 6,106,359; 6,224,456; 6,296,543; 6,422,871; 6,422,916; 6,482,068; 6,494,763; 6,524,158; 6,579,143; 6,585,556; 6,601,326; 6,682,392; 6,685,530; 6,692,332; 6,817,921; 6,830,497; 6,869,331; and U.S. Published Applications 2002/0155; 2004/0198; and 2005/0020; and Foreign Patents CH 646612, CH 675081; FR 2666514; GB 2201899; JP 4288187; and JP 6023154. All of these references are incorporated herein by reference for all purposes.
SUMMARYThe present disclosure is directed to customizable action figures comprising a torso, a transmission mechanism supported in the torso, and an appendage operatively connected to the transmission mechanism. In some examples, the customizable action figures may include an upper torso rotatably connected to a lower torso. In some examples, the customizable action figures may include an appendage having a plurality of segments, with each segment configured to move relative to one or more neighboring segments. In some examples, the customizable action figures may include a set of arms, with each arm being configured to be selectively coupled to the transmission mechanism, or each arm may be configured to move differently than an other arm in the set.
BRIEF DESCRIPTION OF THE DRAWINGS
A first customizable action
Torso 12 may house transmission mechanism 14 as shown in
Transmission mechanism 14 may transmit energy applied to actuator 16 relative to torso 12 to appendages 18 through a series of gears. As shown in
Waist gear 28 may be fixedly secured to actuator 16 and rotate about a vertical axis V1 as actuator 16 is rotated relative to torso 12 by a user. Waist gear 28 may engage torso gear 29 having a horizontal axis of rotation H1. Rotation of waist gear 28 rotates torso gear 29 about a horizontal axis H1. Rotation of torso gear 29 causes shoulder gear 30 to rotate about a generally horizontal axis H2. Shoulder gear 30 may be mounted at either aperture 24 or 25 and, optionally, a different gear may be mounted in the other aperture. In some embodiments, customizable action
In this example, shoulder gear 30 moves arm 27 when gear 30 is driven by torso gear 29. Arm 26 may couple to shoulder gear 30 at shoulder aperture 24 or 25 by a drive rod 37 attached to the proximal end of arm 27 as shown in
Shoulder gear 30 may also mesh with neck gear 32 causing neck gear 32 to rotate about a vertical axis V2 when shoulder gear 30 rotates. Neck gear 32 may be rigidly attached to a head 40. As a result, head 40 may rotate as neck gear 32 rotates. In some examples (not shown), the neck gear may be a mushroom gear with an articulation point located in the head.
Transmission mechanism 14 may be configured such that neck gear 32 and waist gear 28 rotate in the same direction. It is within the scope of this disclosure, however, that transmission mechanism 14 may configured such that neck gear 32 and waist gear 28 rotate in opposite directions. Further, transmission mechanism 14 and neck gear 32 may be configured such that neck gear 32 and waist gear 28 rotate at the same rate or at different rates.
A user may actuate actuator 16 to introduce energy into customizable action
Actuator 16 may take numerous forms. For example, actuator 16 may be a belt configured to slide around torso 12, a button configured to move into and out of torso 12, or a lever configured to pivot into and out of torso 12. In the non-exclusive examples shown in
Appendage 18 may include a plurality of segments 46 and movement mechanisms 38. Movement mechanisms 38 may include gearing configured to move one segment relative to another as explained more fully below. For example, movement mechanism 38 may rotate, bend, or extend one segment relative to another segment. Appendage 18 may include various combinations of movement mechanisms such that a first segment rotates relative to second segment, while a third segment bends relative to the second segment, etc. Different appendages may include different combinations of segments 46 and movement mechanisms 38, such as shown in
Sets of interchangeable appendages 18 may be provided to allow a user to interchangeably customize customizable action
Right arm 26 may include a first segment gear train 58 drivingly connected to first segment 50 and drive rod 37. First segment gear train 58 may rotate first segment 50 when driven by drive rod 37. As shown in
Second segment gear 60 may be drivingly connected to the second segment, such as in this example to upper arm 52. Rotation of second segment gear 60 typically causes the second segment to rotate. As is well known in the art, the size and number of gears in first segment gear train 58 relative to second segment gear 60 may cause the second segment to rotate at the same rate or a different rate than first segment 50 as well in the same direction or in a different direction than first segment 50.
In the example depicted in
Fourth segment gear train 65 may rotate fourth segment 56 relative to the second segment as main gear 59 of first segment gear train 58 rotates. Different combinations of gear sizes may be used in fourth segment gear train 65 to cause fourth segment 56 to rotate at the same rate or a different rate than first segment 50 and/or the second segment. Further, it is well known within the art that different numbers of gears may be used in fourth segment gear train 65 to cause fourth segment 56 to rotate in the same direction or a different direction than first segment 50 or the second segment.
Right arm 26 in the example shown in
Forearm 54 of right arm 26 shown in
In some examples, fourth segment 56 of right arm 26 shown in
Left arm 27 may be similarly configured as either right-arm 26 shown in
Appendage 18 may be configured to support a coupling member 66 attached to object 62 with hand or fourth segment 56 as shown in
Coupling member 66 may be rigidly attached to object 62 and may include different regions 68 for interfacing with different regions of socket 63. For example, as shown in
In the rotation position shown in
In the stationary position shown in
Customizable action
Moving transmission mechanism 14 may activate sound mechanism 19 to produce sounds by means of switch 82. Movement of a component, such as a projection on a rotating component (not shown), of transmission mechanism 14 may cause switch 82 to toggle sound mechanism 19 between active and inactive states. Additionally or alternatively, switch 82 may toggle sound mechanism between different active states. For example, sound mechanism 19 may be configured to produce different sounds each time transmission mechanism 14 is actuated or it may be configured to produce different sounds as actuator 16 is actuated in different directions.
Customizable action
As can be seen from the above description, an action figure may include a set of interconnected body segments, a transmission mechanism mounted in a housing and operatively coupled to the set of body segments, an actuator operatively connected to the transmission mechanism, wherein actuating the actuator drives the transmission mechanism, and an appendage operatively connected to the transmission mechanism and configured for selective removal from the transmission mechanism, the appendage having a plurality of adjacent segments with each segment configured to move relative to an adjacent segment when the appendage is driven by the transmission mechanism.
As can further be seen from the above description, an action figure may include a torso, a transmission mechanism supported in the torso, a hip section connected to the torso, rotation of the hip section relative to the torso driving the transmission mechanism, a first appendage drivingly connected to the transmission mechanism, the first appendage being configured to move in a first manner when the first appendage is driven by the transmission mechanism, and a second appendage drivingly connected to the transmission mechanism, the second appendage being configured to move in a second manner when the first appendage is driven by the transmission mechanism, wherein the first manner of motion and the second manner of motion are different.
The above description makes it further apparent that an action figure may include a housing, a transmission mechanism supported in the housing, a set of two or more arms, each arm in the set being configured to selectively couple with the transmission mechanism and including: a plurality of adjacent segments, each segment configured to move relative one or more to adjacent segments, and at least one movement mechanism mounted between adjacent segments, each movement mechanism being configured move one segment relative to an adjacent segment; wherein the movement mechanisms are configured to move the segments differently in at least two arms in the set.
While embodiments of a customizable action figure and methods of use thereof have been particularly shown and described, many variations may be made therein. This disclosure may include one or more independent or interdependent inventions directed to various combinations of features, functions, elements and/or properties, one or more of which may be defined in the following claims. Other combinations and sub-combinations of features, functions, elements and/or properties may be claimed later in this or a related application. Such variations, whether they are directed to different combinations or directed to the same combinations, whether different, broader, narrower or equal in scope, are also regarded as included within the subject matter of the present disclosure. An appreciation of the availability or significance of claims not presently claimed may not be presently realized. Accordingly, the foregoing embodiments are illustrative, and no single feature or element, or combination thereof, is essential to all possible combinations that may be claimed in this or a later application. Each claim defines an invention disclosed in the foregoing disclosure, but any one claim does not necessarily encompass all features or combinations that may be claimed.
Where the disclosure recites “a” or “a first” element or the equivalent thereof, such recitations include one or more such elements, neither requiring nor excluding two or more such elements. Further, ordinal indicators, such as first, second or third, for identified elements are used to distinguish between the elements, and do not indicate a required or limited number of such elements, and do not indicate a particular position or order of such elements unless otherwise specifically stated.
Inventions embodied in various combinations and subcombinations of features, functions, elements, and/or properties may be claimed through presentation of claims in a related application. Such claims, whether they are directed to different inventions or directed to the same invention, whether different, broader, narrower or equal in scope to the other claims, are also regarded as included within the subject matter of the present disclosure.
Claims
1. An action figure comprising:
- a set of interconnected body segments;
- a transmission mechanism mounted in a housing and operatively coupled to the set of body segments;
- an actuator operatively connected to the transmission mechanism, wherein actuating the actuator drives the transmission mechanism; and
- an appendage operatively connected to the transmission mechanism and configured for selective removal from the transmission mechanism, the appendage having a plurality of adjacent segments with each segment configured to move relative to an adjacent segment when the appendage is driven by the transmission mechanism.
2. The action figure of claim 1, wherein the housing is a torso segment and the actuator comprises a hip segment rotatably connected to the torso segment, the hip section being configured to actuate the transmission mechanism when rotated relative to the torso.
3. The action figure of claim 1, wherein the appendage includes:
- a first segment proximate to the torso;
- an second segment adjacent to the first segment; and
- a third segment adjacent to the second segment and distal from the first segment.
4. The action figure of claim 3, wherein the appendage includes a first movement mechanism drivingly connected to the first segment and to the second segment, the first movement mechanism being configured to rotate the second segment relative to the first segment and including:
- a first segment gear train drivingly connected to the transmission mechanism; and
- a second segment gear drivingly connected to the first segment gear train.
5. The action figure of claim 4, wherein the first movement mechanism is configured to rotate the first segment in a first direction and is configured to rotate the second segment in a second direction opposite the first direction.
6. The action figure of claim 4, wherein the appendage includes a second movement mechanism drivingly connected to the third segment, the second movement mechanism being configured to rotate the third segment relative to the second segment and including a third segment gear drivingly connected to the first segment gear train.
7. The action figure of claim 5, wherein the appendage includes a second movement mechanism drivingly connected to the third segment, the second movement mechanism being configured to rotate the third segment relative to the second segment in the first direction and including a third segment gear drivingly connected to the first segment gear train.
8. The action figure of claim 3, wherein the appendage includes a third movement mechanism connected to the first segment, the third movement mechanism being configured to rotate the first segment relative to the housing and including a drive rod drivingly connected to the transmission mechanism.
9. The action figure of claim 8, wherein the second segment includes:
- a fourth segment adjacent to the first segment,
- a fifth segment pivotally connected to the fourth segment at an end distal from the first segment.
10. The action figure of claim 9, wherein the fourth segment includes a slot at an end distal from the first segment and the fifth segment includes a pin extending through the slot in the fourth segment.
11. The action figure of claim 4, wherein the third segment includes a socket for receiving an object inserted therein.
12. The action figure of claim 11, wherein the socket defines:
- a first cavity having an opening with a first area; and
- a second cavity adjacent to the first cavity, the second cavity having a second area which is smaller than the first area.
13. The action figure of claim 12, wherein the object includes:
- a body; and
- a projection having: a first portion which is proximate to the body and which has a first cross sectional area; and a second portion which is distal from the body and which has a second cross sectional area which is smaller than the first cross sectional area.
14. The action figure of claim 1, further comprising a sound mechanism configured to produce sound when the actuator is actuated.
15. An action figure comprising:
- a torso;
- a transmission mechanism supported in the torso;
- a hip section connected to the torso, rotation of the hip section relative to the torso driving the transmission mechanism;
- a first appendage drivingly connected to the transmission mechanism, the first appendage being configured to move in a first manner when the first appendage is driven by the transmission mechanism; and
- a second appendage drivingly connected to the transmission mechanism, the second appendage being configured to move in a second manner when the first appendage is driven by the transmission mechanism;
- wherein the first manner of motion and the second manner of motion are different.
16. The action figure of claim 15, wherein:
- the first appendage includes: a first segment proximate to the torso; a second segment adjacent to the first segment; and a third segment adjacent to the second segment and distal from the first segment; and
- the second appendage includes: a fourth segment proximate to the torso; a fifth segment adjacent the fourth segment; and a sixth segment adjacent to the fifth segment and distal from the fourth segment.
17. The action figure of claim 16, wherein:
- a) the first appendage includes: i) a first segment gear train drivingly connected to the first segment and to the transmission mechanism, the first segment gear train being configured to rotate the first segment relative to the torso; and ii) a second segment gear drivingly connected to the second segment and to the first segment gear train, the second segment gear being configured to rotate the second segment relative to the first segment; and
- b) the second appendage includes a drive rod drivingly connected to the fourth segment and to the transmission mechanism, the drive rod configured to rotate the fourth segment relative to the torso;
- c) wherein the fifth segment is pivotally connected to the fourth segment, the fifth segment being configured to freely pivot relative to the fourth segment as the fourth segment rotates.
18. The action figure of claim 17, wherein the first appendage further comprises a third segment gear train drivingly connected the third segment and the first segment gear train, the third segment gear train being configured to rotate the third segment relative to the second segment.
19. An action figure comprising:
- a housing;
- a transmission mechanism supported in the housing;
- an actuator operatively connected to the transmission mechanism, actuation of the actuator driving the transmission mechanism; and
- a set of two or more arms, each arm in the set being configured to selectively couple with the transmission mechanism and including:
- a plurality of adjacent segments, each segment configured to move relative one or more to adjacent segments, and
- at least one movement mechanism mounted between adjacent segments, each movement mechanism being configured move one segment relative to an adjacent segment;
- wherein the movement mechanisms are configured to move the segments differently in at least two arms in the set.
20. The action figure of claim 19, wherein a first arm in the set includes:
- a first segment proximate to the housing;
- a second segment adjacent to the first segment;
- a third segment adjacent to the second segment and distal from the first segment;
- a first movement mechanism comprising a first segment gear train drivingly connected to the first segment and to the transmission mechanism, the first segment gear train being configured to rotate the first segment relative to the housing; and
- a second movement mechanism comprising a second segment gear drivingly connected to the second segment and to the first segment gear train, the second segment gear being configured to rotate the second segment relative to the first segment.
21. The action figure of claim 20, wherein a second arm in the set includes:
- a fourth segment proximate to the housing;
- a fifth segment pivotally connected to the fourth segment; and
- a sixth segment adjacent to the fifth segment and distal from the fourth segment; and
- a third movement mechanism comprising a drive rod drivingly connected to the fourth segment and to the transmission mechanism, the drive rod configured to rotate the fourth segment relative to the housing;
- wherein the fifth segment is configured to freely pivot relative to the fourth segment as the fourth segment rotates.
Type: Application
Filed: Nov 7, 2006
Publication Date: Jun 28, 2007
Inventor: Gabriel De La Torre (Bell Gardens, CA)
Application Number: 11/594,574
International Classification: A63H 3/36 (20060101);