The present disclosure relates generally to an animated toy figure, such as a doll or toy action figure and, more particularly, to a toy action figure having a head and a rotatable torso, wherein the head remains in a fixed position when the torso is rotated.
Examples of toy figures, including dolls and action figures, are disclosed in U.S. Pat. No. 3,648,405, U.S. Pat. No. 4,217,726, U.S. Pat. No. 4,536,166, U.S. Pat. No. 4,623,318, U.S. Pat. No. 4,601,672, U.S. Pat. No. 4,968,280, and U.S. Pat. No. 6,022,263. The disclosures of these and all other publications referenced herein are incorporated by reference in their entirety for all purposes.
Advantages of the present disclosure will be more readily understood after considering the drawings and the Detailed Description.
The drawings illustrate embodiments and schematic concepts for animated toy figures according to the invention. The purpose of these drawing is to aid in explaining the principles of the invention. Thus, the drawings should not be considered as limiting the scope of the invention to the embodiments and schematic concepts shown therein. Other embodiments of animated toy figures may be created which follow the principles of the invention as taught herein, and these other embodiments are intended to be included within the scope of patent protection.
An action figure in accordance with the present disclosure, shown in
Turning first to
Head 12 may be a figurative or decorative element affixed to the anatomically superior end of torso 14. For example, head 12 may be molded or formed to suggest a human head with recognizable features, such as, features of a fictional character.
Lower portion 22 may include a pelvis 24, a first or fixed leg 26, and a second or movable leg 28. Pelvis 24 may be an armature-like portion of lower portion 22 that supports attachment, leverage, or rotation of fixed and movable parts of action
Fixed leg 26 may be rigidly mounted on pelvis 24, and movable leg 28 may be rotatably mounted on pelvis 24. Squeezing together legs 26, 28 may cause leg 28 to move (with respect to center axis CA) toward leg 26, through an internal activation mechanism 50, seen best in
Torso 14 may be hollow form, enclosing and rotatably attached to a spine, discussed below. Torso 14 may include, for example, a molded or pressed front half 14f and a molded or pressed back half 14b, the two halves 14f, 14b configured to mate together to form an enclosure surrounding spine 25. Torso 14 may serve as a point of attachment, for example, for arms 16, 18.
Similarly, pelvis 24 may be formed from multiple pieces or elements. For example, pelvis 24 may include a molded or pressed front half 24b and a molded or pressed back half 24b, the two halves 24a, 24b being configured to mate together. Pelvis 24 may be fixed to spine 25 separate from torso 14, so that torso 14 is in between head 12 (anatomically superior to spine 25) and pelvis 24 (anatomically inferior to spine 25). For example, pelvis 24 may be fixed to spine 25 through pelvic plate 27 sandwiched between a front half of pelvis 24 and a back half of pelvis 24.
Spine 25 may be an armature of upper portion 20, generally within torso 14, which supports attachment, leverage, or rotation of fixed or movable parts of action
In an embodiment, a leg-biasing element 68 may be operatively connected between pelvis 24 and movable leg 28 to bias leg 28 to a first position, also called an unactuated or unactivated position. Leg-biasing element 68 such as a spring may in effect maintain a separation between legs 26, 28 when legs 26, 28 are not being squeezed together.
Movable arm 16 may be movably mounted on torso 14 at the proximal or shoulder end of arm 16, approximately in the manner of a human shoulder joint. Movable arm 16 may pivot or rotate on torso 14. Movable arm 16 may include a first (upper arm) portion 30 and a second (forearm) portion 32. Arm 16 may include a disk 62 to serve as a point of attachment for linkage 60 between spine 25 and movable arm 16, so that movable arm 16 moves as torso 14 rotates on spine 25.
Linkage 60 between spine 25 and movable arm 16 may operably connect spine 25 to movable arm 16, so that movable arm 16 moves as torso 14 rotates on spine 25. The proximal end of linkage 60 may attach to center rod 52 (e.g., via upper platform 58) and the distal end of linkage 60 may attach to arm 16 (e.g., via disc 62). Center rod 52 may serve as a relatively fixed point of attachment for proximal end of linkage 60, thereby aiding the transfer of a rotational motion of torso 14 to movable arm 16 via linkage 60. In an embodiment, the distal end of linkage 60 may attach to the proximal end of movable arm 16 via a disk 62 located at the proximal end of arm 16 (in effect, at or near the shoulder of arm 16). In an embodiment, the distal end of linkage 60 may attach to a disk 62 located at the distal end of arm portion 30 (in effect, at or near the elbow of arm 16).
Linkage 60 may include an arm-biasing element 54 such as a coiled spring coiled around spine 25 and attached (at one end) to spine 25 and (at the other end) to upper platform 58. Arm-biasing element 54 may maintain a relatively fixed attachment between linkage 60 and spine 25 while also providing a degree of flexibility or relief in the attachment. Arm-biasing element 54 may create, for movable arm 16, a biased freedom of motion with respect to spine 25, for example, to avoid damage to action
Second or unanimated arm 18 may attach to torso 14 without linkage to spine 25. The attachment between proximal end of arm 18 and torso 14 may be fixed or movable. A fixed attachment may cause arm 18 to be substantially immobile. A movable attachment may allow arm 18 to rotate, pivot, or otherwise move, e.g., to simulate some or all of the range of motion of a human shoulder joint. The motion of unanimated arm 18 may be a relatively free motion, unconstrained by a linkage to spine 25.
Action
In the second position, one or more of head 12, torso 14, arms 16, 18, pelvis 24, fixed leg 26, and movable leg 28 may be rotated about the center axis CA to face a second direction, also referred to as the side direction. Action
Accordingly, the action figure may be configured such that in the second position, torso 14 rotates and head 12 remains in the same position. Additionally and/or alternatively, the action figure may be configured such that in the second position torso 14 rotates, head 12 remains in the same position and first arm 16 moves to be substantially parallel with respect to the ground, such that the action figure appears to be looking in the same direction as the distal end 34 of first arm 16.
Activation of the action figure to move from the first position to the second position may include positioning and/or squeezing legs 26, 28 to be adjacent to one another, moving one or both the first and second leg 26, 28 with respect to the center axis CA, and/or moving one or both first and second legs 26, 28 to be in substantial alignment with the center axis CA. Action
A lever 70 may extend from movable leg 28 into torso 14. Lever 70 may engage with torso 14 so that torso 14 rotates on spine 25 as a result of the motion of movable leg 28 This engagement may occur on either the anterior or posterior side of spine 25, for example, to cause either a clockwise or counterclockwise rotation of torso 14. In the exemplary embodiments of the figures, first or right leg 26 a fixed leg and second or left leg 28 is a movable leg. The right/left and fixed/movable relationships of legs 26, 28 may be reversed or mirrored, so that leg 26 is movable and leg 28 is fixed. Furthermore, in some embodiments, not shown, both first and second legs 26, 28 may be moveable with respect to the center axis CA, each including a corresponding lever acting on a corresponding front half or back half of the torso.
Upper portion 120 may include a head 112, a torso 114, a first arm 116, and a second arm 118. One or more of torso 114 and/or first and second arms 116, 118 may be moveable with respect to the center axis CA, which is defined by the intersection of the saggital and coronal planes.
Lower portion 122 may include a pelvis 124, a first leg 126, and a second leg 128. One or both of first and second legs 126, 128 may be moveable with respect to the center axis CA. action
In the first position, head 112, torso 114, pelvis 124 and/or first and second legs 126, 128 may face a first direction, also referred to as the forward direction. The action figure in the first position may be configured to be in a “ready to fight” and/or “weapons up” position. For example, the first arm 116 may include a first portion 130 at an angle with respect to torso 114 and/or a second portion 132 at an approximate 90-degree angle with respect to first portion 130, such that a distal end or first of second portion 132 faces up or away from first and second legs 126, 128. The second arm may include a first portion 130 disposed adjacent torso 114 and a second portion 132 disposed at a 90-degree angle with first portion 130. Distal end 134 of second portion 132 of the second arm may face a second direction, also referred to as the side direction. The first and second portions of the first and/or second arms may be hingedly connected or may be fixed with respect to one another. First and second legs 126, 128 may be spaced from one another.
In the second position, one or more of head 112, torso 114, the first and second arms 116, 118, waist 124 and first and second legs 126, 128 may be rotated about the center axis CA to face the second direction. The action figure in the second position may be configured to be in a “weapons drawn” and/or “ka-pow” position. For example, head 112, waist 124 and first and second legs 126, 128 may remain facing the first direction. Torso 114 and second arm 118 may be rotated about the center axis CA such that torso 114 faces the second direction and distal end 134 of the second arm 118 faces the first direction. The first arm 116 may be activated such that first portion 120 is disposed at a 90-degree angle with torso 114 or center axis CA, the first and second portions are in approximately the same plane and/or distal end 134 of second portion 122 faces the first direction.
Activation of the action
In the embodiment of
As shown in
The embodiment of
With reference now to
Referring now to
Some embodiments of the action figure may include one or more accessories that may be removably mounted to a portion of the action figure, for example, to second portion 32 of the first arm 16. Turning first to
In the first position (
Turning now to
In the first position (
The action figure in accordance with the present disclosure may include an internal activation mechanism 50, also referred to as an actuating mechanism, which may be configured to cause transition between the first position and the second position. Activation mechanism 50 may be disposed within one or both of upper portion 20 and lower portion 22. Movement of one or both of first and second legs 26, 28 may trigger activation of activation mechanism 50 to cause torso 14 to rotate about the center axis CA, while the head 12 may remain stationary during rotation of torso 14.
Activation mechanism 50 may be operably connected to one or more of first and second legs 26, 28, the first and second arms 16, 18, head 12 and/or torso 14. Activation mechanism 50 may not be operably connected to other parts, such as one or more of first and second legs 26, 28, the first and second arms 16, 18, head 12 and/or torso 14. For example, activation mechanism 50 may be operably connected to the first leg, torso 14 and the first arm. Additionally and/or alternatively, activation mechanism 50 may not be operably connected to the second leg, head 12 and the second arm.
The upper portion may include a center rod 52 in substantial alignment with the center axis CA and on which head 12 may be mounted. A biasing element 54 may wrap around the rod 52. The lower end of the center rod 52 and/or biasing element 54 may be connected to a lower platform 56 and the upper end of the center rod 52 and/or biasing element 54 may be connected to an upper platform 58.
The upper platform 58 may be further connected via a linkage 60 to a disk 62 adjacent to the first arm 16. The disk 62 may be rotatable and may be operably connected to cause movement of the first arm 16. The first arm 16 may be rotatably and/or otherwise moveably attached to torso 14. The second arm 18 may also be rotatably and/or otherwise moveably attached to torso 14.
The center rod 52 may extend into lower portion 22 and/or may be operably connected to activation mechanism 50 disposed in lower portion 22. The center rod 52 may include a tubular portion 64 surrounding a screw 66. Lower portion 22 may include a biasing element 68 that may extend into the second leg. An elongate member 70 may extend into the first leg. A portion of the elongate member 70 may partially wrap around the tubular portion 64 of the rod 52. One or both of first and second legs 26, 28 may be moveable with respect to the rod 52 and/or the center axis CA.
A further example of an action
Activation mechanism 150 may be operably connected to one or more of first and second legs 126, 128, the first and second arms 116, 118, head 112 and/or torso 114. Activation mechanism 150 may not be operably connected to other parts, such as one or more of first and second legs 126, 128, the first and second arms 116, 118, head 112 and/or torso 114. For example, activation mechanism 150 may be operably connected to the first leg 126, torso 14 and the first arm 116. Additionally and/or alternatively, activation mechanism 150 may not be operably connected to the second leg 128, head 112 and the second arm 118.
The upper portion 120 may include a center rod 152 in substantial alignment with the center axis CA and on which head 112 may be mounted. A biasing element 154 may wrap around the rod 152. The lower end of the rod 152 and/or biasing element 154 may be connected to a lower platform 156 and the upper end of the rod 152 and/or biasing element 154 may be connected to an upper platform 158.
The upper platform 158 may be further connected via a rod 160 to a disk 162 disposed between the first and second portions 130, 132 of the first arm 116. The disk 162 may be rotatable and may be operably connected to cause movement of the first arm 116, for example movement of second portion 132 from a 90-degree angle with respect to first portion 130, to a substantially same plane as first portion 130. The second arm 118 may be rotatably and/or otherwise moveably attached to torso 114 for example via a ball and socket joint.
A lever 170 may extend from the lower portion 122 into upper portion 120 and/or may be operably connected to activation mechanism 150 disposed in lower portion 122. Lower portion 122 may include a spring 164 that may extend into the first leg 128. An elongate member 166 may extend into the second leg 126. One or both of first and second legs 126, 128 may be moveable with respect to the rod 152 and/or the center axis CA.
An action figure in accordance with the present disclosure may also be described as follows: an action figure may include a feature in that when the figure's legs are squeezed to activate the internal mechanism action feature (punching/karate chopping/etc), the figure's head remains facing FORWARD rather than turning with torso as on other feature figures. This creates a unique and realistic action fighting feature. These figures may also include snap-on attachable/detachable accessories w/simple mechanisms (gravity slides/hinges/etc) that “amplify” the figure's play feature.
An action figure in accordance with the present disclosure may also be described as follows: The action figures feature a head, upper torso, and lower torso having two legs. The lower torso and head are coupled to one another by a vertical post, and the legs are squeezed together to actuate rotation of the upper torso, while the head remains fixed. Additional features include a slide element removably fixed to the hands of the figure, allowing the slide to extend and contract (due to centrifugal force) when the upper torso rotates.
In one example, a toy figure (also called an action figure) incorporates a spine; a torso rotatably mounted on the spine; a head mounted on the spine separate from the torso; a pelvis fixed to the spine separate from the torso, so that the torso is between the head and pelvis; a movable leg mounted on the pelvis, with a lever extending from the movable leg into the torso so that the torso rotates on the spine as the movable leg moves on the pelvis; a movable arm movably mounted on the torso; and a linkage between the spine and the movable arm, so that the movable arm moves as the torso rotates on the spine.
The toy figure may further include a leg-biasing element operatively connected between the pelvis and the movable leg to bias the leg to an unactuated position. The toy figure may further include an arm-biasing element that allows forced movement of the arm relative to the torso, spine, and pelvis. The arm-biasing element may be a coil spring coiled around the spine. The toy figure may affix the pelvis to the spine through a pelvic plate sandwiched between two pelvic halves.
Some embodiments may further include a packaged toy, which may include a package with an elevated support and a toy figure, wherein the pelvis of the toy figure is releasably attached to the support; the movable leg is exposed for movement relative to the package; the torso is allowed to rotate relative to the package; and the movable arm is allowed to move relative to the package. The packaged toy may further include an accessory that removably attaches to the movable arm. The accessory may include a movable element that moves as the movable arm moves, when the accessory is attached to the movable arm.
In another example, an animated toy figure includes an upper portion including a head and a torso; a lower portion moveably secured to the upper portion, the lower portion including a moveable lower limb; and an actuating mechanism disposed within the upper and lower portions, the actuating mechanism operably connected to the lower limb and the torso, wherein movement of the lower limb triggers activation of the actuating mechanism to cause the torso to rotate about a center axis and wherein the head remains stationary during rotation of the torso. The upper portion may further include at least one upper limb operably connected to the actuating mechanism, wherein activation of the actuating mechanism causes the upper limb to move relative to the torso. The linkage may further include an arm-biasing element that allows forced movement of the arm relative to the torso, spine, and pelvis. The toy figure may further include a spine extending through the torso and connecting the head to the lower portion. The toy figure may further include a pelvis fixed to the spine through a pelvic plate sandwiched between two pelvic halves. The toy figure may further include a lower limb that includes a biasing element secured to the lower portion, where the biasing element biases the lower limb to an unactuated position. The toy figure may further comprise an accessory removably disposed on the upper limb. The accessory may further include a movable element, wherein a force of activating the toy figure causes the movable element to move.
In another example, the invention may include a toy figure including a first leg and a second leg; an actuating mechanism driven by squeezing the first leg toward the second leg; a rotatable torso operatively connected to the actuating mechanism; a movable arm operatively connected to the actuating mechanism; and a head frictionally fixed by a spine to the first leg so that the head remains fixed while the torso rotates and the arm moves.
In yet another example, the invention may include a toy figure including a head, an upper torso, and a lower torso having two legs; wherein: the lower torso and the head are coupled to one another by a vertical post and the two legs may be squeezed together to actuate rotation of the upper torso, while the head remains fixed. The upper torso that further includes a movable upper limb supported by the upper torso and operably connected to one of the two legs, wherein rotation of the upper torso relative to the two legs causes the movable upper limb to move relative to the upper torso. The toy figure may further include a movable upper limb that is a forearm, an upper torso that includes a hollow upper arm formed as a rigid portion of the upper torso, where the forearm moves relative to the hollow upper arm; a linkage extends through the upper torso and through the hollow upper arm to connect to the forearm.
While embodiments of various animated toy figures have been particularly shown and described, many variations may be made therein. This disclosure may include one or more independent or interdependent embodiments directed to various combinations of features, functions, elements and/or properties. Other combinations and sub-combinations of features, functions, elements and/or properties may be claimed later in 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. 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.
It is believed that the disclosure set forth herein encompasses multiple distinct inventions with independent utility. While each of these inventions has been disclosed in its preferred form, the specific embodiments thereof as disclosed and illustrated herein are not to be considered in a limiting sense as numerous variations are possible. Each example defines an embodiment disclosed in the foregoing disclosure, but any one example does not necessarily encompass all features or combinations that may be eventually claimed. Where the description recites “a” or “a first” element or the equivalent thereof, such description includes 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.
This application claims priority to U.S. Provisional Patent Application Ser. No. 61/540,376, filed Sep. 28, 2011, the disclosure of which is incorporated herein by reference.
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Number | Date | Country | |
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20130084772 A1 | Apr 2013 | US |
Number | Date | Country | |
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61540376 | Sep 2011 | US |