The present invention relates to hand puppets, and, more particularly, to hand puppets of the soft sculpture variety equipped with an internal animator that produces life-like movement of various appendages.
Hand puppets featuring a chamber for receiving a human hand and appendages that can be manipulated by the inserted hand and/or its fingers have delighted children of all ages for many decades. Frequently, such puppets are in the form of animals and the chamber is situated to permit the fingers of a hand to work such parts as the mouth, arms, legs, wings and/or head, whereupon the puppet can be made to appear to come to life.
What has not been achieved with such puppets, prior to the present invention, is a way of using the inserted hand to give life-like movement to long narrow appendages, such as a neck (swans, flamingos, giraffes, etc.), an elephant's trunk, or the like, when the passages are too small to allow the insertion of a hand and too long to be worked by a finger.
In order to be able to produce life-like animation to the head and neck of a swan, or trunk of an elephant, or other long narrow appendage of a soft sculpture hand puppet, the present invention provides a flexible, elongated animator having a base section, an elongated body section terminating in a tip end, a top side and a generally parallel bottom side. A first control strap extends along the top side of the animator from its base section to the tip end. A second control strap extends along the top side of the base section, and then through the base section and along the bottom side to the tip end. Pulling one strap causes the animator to bend in one direction; pulling the other strap causes the animator to bend in an opposite direction; pulling both straps causes the animator to form a curve having a shape depending on the animator's construction.
A ring is attached to the end of each control strap by which the straps are pulled by fingers inserted into the puppet body chamber. In this way, a hand in the body chamber can insert a finger in each ring and pull the control straps in combinations that produce life-like motion of the long narrow appendage in which the animator is affixed. A one strap, one ring embodiment is also disclosed.
The structure of the body of the animator allows for variations which produce particular bending curves that most nearly emulate the actual movement of the animal appendage being vitalized.
So as not to change the soft and cuddly character of the soft sculpture puppets, the animator of the invention is made from soft and pliable materials.
Accordingly, it is an object of the present invention to provide a soft sculpture hand puppet having a long narrow appendage that can be hand animated.
It is another object of the invention to provide an animator which can be incorporated into a soft sculpture hand puppet having a long narrow appendage so that the appendage can be animated.
Yet another object of the present invention is to provide an animator for a soft sculpture hand puppet that is soft and pliable.
The foregoing and other objectives, features and advantages of the invention will be more readily understood upon consideration of the following detailed description of the invention taken in conjunction with the accompanying drawings.
Referring to
Animator 17 has a base section 18 disposed in the internal chamber 14 where it can be grasped by the hand 16, and a flexible body section 20 that extends from the base section 18 through the neck 12 to the head 13 where it terminates in tip end 22 which is attached at 21.
As more fully described below, the animator 17 includes a hand-operated mechanism (not shown) by which the body section 20 can be made to selectively bend in opposing directions, causing the neck 12 and head 13 to make life-like movements between the positions illustrated by dashed lines 23 and 24. One of the outstanding features of the invention is that the animator 17 does not merely cause the neck 12 and head 13 to move back and forth, but also causes the neck 12 to curve as it moves forward or backward, making the movements more life-like.
Referring to
Member 26 which has a top side 36 and a generally, but not precisely, parallel bottom side 37 and an aperture 38 in the base section 27 near the juncture 33 with body section 28 can, in addition to a taper in its width, have a taper in its thickness, with the thickness being greatest at the base section 27 and least at the tip end 31. When the unitary member 26 has a width taper and a thickness taper, the flexibility of the member 26 increases along its length, with it being most flexible at tip end 31.
A first non-elastic control strap 41 extends along the top side 36 of member 26 to the tip end 31 where it is attached at 42A as by stitching or the like. A first finger-engagable device, such as pull ring 43, is attached to the free end 40 of control strap 41. A second non-elastic control strap 44 extends generally parallel to the first control strap 41 along the top side 36 of member 26, but is threaded through aperture 38 and runs along the bottom side 37 of member 26 to the tip end 31 where it is attached at 42B as by stitching or the lie. A second finger-engagable device, such as pull ring 46, is attached to the free end 45 of second control strap 44. The control straps 41 and 44 can advantageously be made of polyester ribbon.
The end 32 of base section 27 provides a structure that the thumb of a manipulating hand can press against when a finger of the hand is pulling one or both of the rings 43 and 46.
Referring to
Pulling on control strap 41 (
Pulling both straps 41 and 44 produces a complex curve such as that illustrated in
It will be understood by those skilled in the art that the particular curves produced by pulling on the control straps of an animator of the present invention depends on a number of factors including the construction of the animator (as more fully explained below), the particular puppet appendage in which the animator is operatively disposed and the construction of the puppet. The neck 12 and head 13 of the swan puppet 11 of
Both the width taper and thickness taper along the body section 28 help determine the shape of the curves caused by manipulating control straps 41 and 44 and can be varied to produce the shape that best emulates the movement of a particular animal that the puppet strives to emulate. For example, to emulate the movement of an elephant's trunk when putting something in its mouth, it is desirable for the body section 28 nearest tip end 31 to curl before the rest of the body section 28 curves.
When the animator 25 of the present invention is incorporated into a soft sculpture puppet, it is advantageous for its member 26 to be made from a generally soft material to retain the soft and cuddly character of the toy. A material particularly well suited to that purpose is ethylene vinyl acetate (EVA). As best seen in
Referring to
Primary body member 53, which can be made from sheet ethylene vinyl acetate (EVA) or like material, includes a base section 56 and a flexible body section 60 terminating in a tip end 59. The base section 56 has the geometric shape of two isosceles trapezoids formed by a first trapezoid segment 61 and a second, mirror image trapezoid segment 62 which share a common base 63. A generally elliptical aperture 64 is formed near the short end of trapezoid segment 61 and a generally elliptical aperture 67 is formed near the short end of trapezoid segment 62.
When the base trapezoid segment 62 is folded over toward base trapezoid segment 61 along the common base line 63 (see
The auxiliary body member 54 has an isosceles trapezoid-shaped base section 74 generally matching the size and shape of isosceles trapezoid base segment 61 of primary body member 53 with a generally elliptical aperture 76 near its short end generally matching apertures 64 and 67 in base section 56. Extending from base section 74 is a body section 77 which generally matches the shape of body section 60 of primary body member 53, but which may or may not be as long, depending on the curve characteristics to be achieved. Auxiliary body member 54 can also advantageously be formed from a sheet of EVA or equivalent material.
The flexible elastic sheet member 55, preferably of plastic, has an isosceles trapezoid-shaped base section 81 generally matching the shape of isosceles trapezoid base segment 61 of primary body member 53 and a generally elliptical aperture 82 near its short end generally matching the size and shape of apertures 64 and 67 in base section 56. Extending from base section 81 is a body section 83 which generally matches the shape of body section 60 of primary body member 53, but which may or may not be as long. While the shape of elastic sheet member 55 generally matches the shape of primary body member 53, its overall dimensions are smaller, producing a margin 84 around the sides and end of primary body member 53 extending outwardly of sheet member 55 when sheet member 55 is placed on top of the primary body member 53 and its aperture 82 is aligned with aperture 67 (see
One embodiment of the invention includes a generally rectangular-shaped aperture reinforcing member 91 (see
A sheath cover 85 (see
The various pieces of the laminate body structure 52 described above are combined as follows. The flexible elastic sheet member 55 is placed onto the primary body member 53 with their respective apertures 82 and 67 aligned. While the embodiment illustrated shows the sheet member 55 extending almost all the way to the tip end 59, as mentioned above, that is not always necessary and, in some cases, it is preferred for it to only extend part way. The auxiliary member 54, which can also vary from extending all the way to tip end 59 to only part way, depending on the curve response desired, is then placed onto the sheet member 55 with the apertures 76 and 82 aligned. In an embodiment without flexible sheet member 55, auxiliary member 54 is placed directly onto primary body member 53. The length of body section 77 of auxiliary member 54 is illustrated as only extending part way to tip end 59 of primary body member 53, but, in other configurations, it can extend all the way to tip end 59. The reinforcing member 91 is sized so that its edge 93 does not extend beyond the juncture 75 between base section 74 and body section 77 of auxiliary member 54 when member 91 is placed onto auxiliary member 54 and their respective apertures 92 and 76 are aligned.
With flexible sheet 55 in place on primary body member 53, auxiliary member 54 in place on sheet 55, and reinforcing member 91 on auxiliary member 54 and all of their respective apertures aligned, the segment 62 of base section 56 of primary body member 53 is folded over toward segment 61, capturing therebetween flexible sheet 55, auxiliary member 54 and reinforcing member 91 (see
The panels 87 and 88 are placed above and below the laminated structure to loosely cover the body sections, but not the base section and, in particular, do not extend over aperture 67.
With the panels 87 and 88 in place, the various parts are secured into a unitary member by stitches 79 sewn along the sides and tip edges at the margin 84 which does not include the flexible sheet member 55. Thus secured, a combined body section 73 is formed (see
Referring particularly to
A second control strap 104 is disposed to extend along the top surface 56A of base section 56, through all of the apertures 67, 92, 76, 82 and 64 to and along the bottom surface 60A of the body section 60 of primary body member 53 to the tip end 59 where it, too, is secured as by stitching at 102. A second pull ring 108 is attached to the free end 109 of strap 104.
Referring primarily to
Referring to
The advantage of this embodiment is that second control strap 104 does not have to pass through base segment 65, thereby reducing the friction on control strap 104. This permits the elimination of aperture reinforcing member 91. To maintain strap 101 in place on body section 77, a guide strap 117 is provided on upper surface 77A of body section 77. The control strap 101 is placed through guide strap 117 and thereby maintained in position (see
Referring to
The animator 123 is affixed in the puppet (not shown) in a generally vertical orientation, as illustrated in
A guide strap 137 on base section 130 keeps strap 126 and ring 132 in place to be conveniently grasped. A like guide strap (not shown) is provided for strap 127 and ring 133. Alternatively, guide strap 137 can be of the type that passes through the ring 133 as shown in
Referring to
In all of the embodiments, two straps are disposed on opposite sides of a body section, with each strap capable of providing a force bending the body section in one direction or another with at least one strap being adapted to be controlled by a user.
It will be obvious to those skilled in the art that numerous modifications can be made in the various components described above without departing from the invention. By way of example, and without being exhaustive, the shape of the components forming the base member, the relative lengths of the components, the materials from which the components are made, the presence or absence of a flexible sheet member, the existence, shape and size of the apertures, the use of a solid structure or a laminate structure, the presence and degrees of taper, and the presence or absence of a sheath, are all matters of choice that are within the scope of the invention. As such, it is intended that the present invention only be limited by the terms of the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
1648411 | Felix | Nov 1927 | A |
2551195 | Wirth | May 1951 | A |
2771708 | Enison | Nov 1956 | A |
3162214 | Bazinet Jr | Dec 1964 | A |
3557780 | Sato | Jan 1971 | A |
4457097 | Miller et al. | Jul 1984 | A |
4695265 | Clark | Sep 1987 | A |
5167221 | Chikama | Dec 1992 | A |
5276934 | Brzoska | Jan 1994 | A |
5489270 | van Erp | Feb 1996 | A |
6858005 | Ohline et al. | Feb 2005 | B2 |
Number | Date | Country | |
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20070184751 A1 | Aug 2007 | US |