US20070060011A1 - Magnetic joints and toy figurines made therefrom - Google Patents
Magnetic joints and toy figurines made therefrom Download PDFInfo
- Publication number
- US20070060011A1 US20070060011A1 US11/478,859 US47885906A US2007060011A1 US 20070060011 A1 US20070060011 A1 US 20070060011A1 US 47885906 A US47885906 A US 47885906A US 2007060011 A1 US2007060011 A1 US 2007060011A1
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- figurine
- ferromagnetic
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- hemispherical portion
- joint
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- 230000005294 ferromagnetic effect Effects 0.000 claims abstract description 74
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- 238000000576 coating method Methods 0.000 claims description 10
- 230000008878 coupling Effects 0.000 description 12
- 238000010168 coupling process Methods 0.000 description 12
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- 230000000295 complement effect Effects 0.000 description 8
- 230000000717 retained effect Effects 0.000 description 7
- 238000004026 adhesive bonding Methods 0.000 description 6
- 210000000245 forearm Anatomy 0.000 description 6
- 238000010276 construction Methods 0.000 description 4
- 239000003302 ferromagnetic material Substances 0.000 description 4
- 239000000463 material Substances 0.000 description 4
- 210000000689 upper leg Anatomy 0.000 description 4
- 229920001971 elastomer Polymers 0.000 description 3
- 239000005060 rubber Substances 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
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- 239000004800 polyvinyl chloride Substances 0.000 description 2
- 238000004381 surface treatment Methods 0.000 description 2
- 230000003213 activating effect Effects 0.000 description 1
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Images
Classifications
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H3/00—Dolls
- A63H3/36—Details; Accessories
- A63H3/46—Connections for limbs
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H33/00—Other toys
- A63H33/26—Magnetic or electric toys
Definitions
- the present invention relates to the field of toy figurines, and, more particularly, to toy figurines having magnetic joints.
- Joints of various designs have, in the past, been developed for toy figurines to permit the selective attachment and removal of component parts, such as appendages and the like.
- An example of a joint for a toy figurine can be found in U.S. Pat. No. 5,295,889 to Ejima, which discloses a toy figurine having magnetically-coupled, ball-and-socket joints that allow appendages to be selectively attached to the figurine as desired.
- Another example of a joint for a toy figurine can be found in U.S. Patent Application Publication No. US 2004/0077259 to Barri, which discloses a toy figurine having joints in the form of magnetized pegs and corresponding sockets for receiving the pegs.
- Other examples of joints include U.S. Pat.
- the magnetic joint comprises a ball and a pair of sockets magnetically coupled to the ball, wherein the first socket is formed in a first figurine part and the second socket is formed in a second figurine part.
- Each socket includes a magnet embedded in the socket for magnetically coupling the socket to the ball.
- the joint allows for angulation and rotation of joined parts, as well as for quick and convenient assembly and disassembly of figurine components.
- the ball “floats” between the sockets, and can be removed by the user and substituted with another ball, as desired.
- a pair of friction inlays or O-rings can be provided between the ball and the sockets to provide sufficient friction when the joint is assembled to allow coupled figurine components to be retained in one or more desired positions.
- the magnetic joint comprises a first socket formed in a first figurine component, a first hemispherical portion magnetically coupled with the first socket, a second hemispherical portion interconnected with the first hemispherical portion, and a second socket formed in a second figurine component and interconnected with the second hemispherical portion.
- a friction inlay could be provided between the first socket and the first hemispherical portion to provide sufficient friction when the joint is assembled to allow the first figurine component to be retained in one or more desired positions.
- the magnetic joint comprises a pair of complementary, generally planar joint surfaces that are magnetically coupled to each other using complementary magnets embedded in the joint surfaces.
- Complementary central magnets could be embedded in central regions of the joint surfaces for coupling the joints together, and a plurality of satellite magnets could be disposed radially about each central magnet and embedded in the joint surfaces to allow coupled figurine components to be rotated and held in one or more predetermined positions (indexed).
- Complementary conductive regions such as a central conductive region surrounded by an annular conductive region, could be provided on each joint surface for allowing electrical power to be transmitted through the joint.
- the magnetic joint comprises a peg and corresponding socket construction that cooperate to permit rotation of coupled figurine components.
- the peg and socket each include corresponding end magnets for retaining the peg in the socket.
- a plurality of corresponding indexing magnets are embedded in the peg and the socket for allowing the joined parts to be retained in one or more predetermined positions (internally indexed) when the indexing magnets are rotated into alignment with each other.
- the magnetic joint comprises a socket including a ring magnet, and a ferromagnetic, hemispherical portion magnetically coupled with the ring magnet.
- the ring magnet is attached to a first figurine component in a recess formed therein, while the ferromagnetic, hemispherical portion is attached to a second figurine component.
- the magnetic joint comprises a socket which includes a magnet having a recess, the magnet being attached to a first figurine component in a recess formed therein, a ferromagnetic, hemispherical portion attached to a second figurine component, and an O-ring positioned between the magnet and the ferromagnetic, hemispherical portion.
- the O-ring provides frictional engagement with the ferromagnetic, hemispherical portion, so that the first figurine component is retained in a desired position with respect to the second figurine component.
- the O-ring could be positioned in an annular channel formed in the magnet.
- the magnetic joint comprises a flexible socket attached to a first figurine component and having a magnet positioned therein, and a ferromagnetic, hemispherical portion attached to a second figurine component and magnetically coupled with the flexible socket.
- An inner surface of the flexible socket frictionally engages the ferromagnetic, hemispherical portion to retain the first figurine component in a desired position with respect to the second figurine component.
- a coating could be provided on the ferromagnetic, hemispherical portion to facilitate frictional engagement with the socket.
- the magnetic joint comprises a socket attached to a first figurine component, a ferromagnetic, hemispherical portion attached to a second figurine component and magnetically coupled with the socket, and a switch extending through an aperture formed in the ferromagnetic, hemispherical portion, wherein the switch is activated when the first figurine component is coupled to or uncoupled from the second figurine component.
- the switch could be connected to an electrical circuit (e.g., a light-emitting diode (LED) and an associated flasher circuit), so that the electrical circuit is activated when the switch is activated.
- an electrical circuit e.g., a light-emitting diode (LED) and an associated flasher circuit
- FIG. 1 is a front elevational view of a toy figurine having magnetically-coupled joints according to a first embodiment of the present invention, wherein each joint includes a ball and a pair of sockets magnetically coupled to the ball;
- FIG. 2 is a front elevational view of one of the magnetic joints for the toy figurine shown in FIG. 1 ;
- FIG. 3 is a cross-sectional view, taken along section line 3 - 3 of FIG. 2 and looking in the direction of the arrows, of the magnetic joint shown in FIG. 2 ;
- FIG. 4 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, wherein friction inlays are provided between the sockets and the ball;
- FIG. 4 b is a perspective view of one of the friction inlays shown in FIG. 4 a;
- FIG. 4 c is a cross-sectional view showing the components of FIG. 4 a assembled
- FIG. 5 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, wherein O-rings are provided between the sockets and the ball;
- FIG. 5 b is a cross-sectional view showing the components of FIG. 5 a assembled
- FIG. 6 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, including a two-piece, ferromagnetic ball which is coupled to only one of two socket members;
- FIG. 6 b is a cross-sectional view showing the components of FIG. 6 a assembled
- FIG. 7 is a perspective view of a toy figurine having magnetic joints according to another embodiment of the present invention, wherein the joints include generally planar surfaces that allow for indexing;
- FIG. 8 a is a perspective view of one of the magnetic joints for the toy figurine shown in FIG. 7 ;
- FIG. 8 b is a front elevational view of the magnetic joint shown in FIG. 8 a;
- FIG. 9 a is a perspective view of another embodiment of the magnetic joints of the present invention, wherein each joint includes generally planar surfaces having conductive areas for allowing power transmission through the joint;
- FIG. 9 b is a front elevational view of the magnetic joint shown in FIG. 9 a;
- FIG. 10 is a perspective view of a toy figurine having magnetic joints according to another embodiment of the present invention, wherein each joint comprises an internally-indexed, magnetically-coupled peg and socket;
- FIG. 11 a is a perspective view of one of the magnetic joints for the toy figurine shown in FIG. 10 ;
- FIG. 11 b is a front elevational view of the magnetic joint shown in FIG. 11 a;
- FIG. 12 a is an exploded perspective view of another embodiment of the magnetic joints of the present invention, which embodiment includes a socket having an hemispherical portion;
- FIG. 12 b is a cross-sectional view showing the components of FIG. 12 a assembled
- FIG. 13 is a cross-sectional view of another embodiment of the magnetic joints of the present invention, which embodiment includes a magnet having a recess, an hemispherical portion coupled to the magnet, and an O-ring positioned between the magnet and the hemispherical portion;
- FIG. 14 is a cross-sectional view of another embodiment of the magnetic joints of the present invention, which embodiment is similar to the one shown in FIG. 13 except that an O-ring is positioned within an annular channel formed in the magnet;
- FIG. 15 is a cross-sectional view of another embodiment of the magnetic joints of the present invention, which embodiment includes a flexible socket having a magnet positioned therein and an hemispherical portion;
- FIG. 16 is a cross-sectional view of another embodiment of the magnetic joints of the present invention, which embodiment is similar to that shown in FIG. 15 except that the hemispherical portion includes a rubber coating;
- FIG. 17 is a front elevational view of a portion of a figurine equipped with a magnetic joint and a switch for activating a lighting circuit within the figurine component;
- FIG. 18 is a schematic diagram showing the switch of FIG. 17 implemented in a light flasher circuit.
- a toy figurine 10 which includes a head 12 , an upper torso 14 , a lower torso 16 , arms 18 , 20 , and legs 22 , 24 .
- the arm 18 includes a bicep 26 , a forearm 28 , and a hand 30 .
- the arm 20 includes a bicep 32 , a forearm 34 , and a hand 36 .
- the leg 22 includes a thigh 38 , a shin 40 , and a foot 42 .
- the leg 24 includes a thigh 44 , a shin 46 , and a foot 48 . All of the foregoing parts are movably coupled to their adjoining parts by magnetic joints 50 a - n.
- FIG. 2 is a front elevational view of the magnetic joint 50 e shown in FIG. 1 , it being understood that each of the magnetic joints 50 a - d and 50 f - n of FIG. 1 has the same construction as the magnetic joint 50 e .
- a ball 56 is positioned between a pair of magnetic sockets 52 a , 52 b (see FIG. 3 ) formed in the upper torso 14 and the bicep 26 , respectively.
- the magnetic joint 50 e allows for both angulation (indicated generally by arrow A) and rotation (indicated generally by arrow B) of the bicep 26 relative to the upper torso 14 .
- Each of the magnetic joints 50 a - d and 50 f - n shown in FIG. 1 is likewise adapted for such angulation and rotation.
- the ball 56 can be completely disengaged from the upper torso 14 and the bicep 26 , and substituted with another ball having any desired color, pattern, or appearance, so as to enhance the entertainment value of the figurine.
- more than two components can be joined to a single ball.
- the ball 56 is positioned between the sockets 52 a , 52 b formed in the upper torso 14 and the bicep 26 , respectively.
- the sockets 52 a , 52 b are generally cup-shaped so as to conform to the shape of the ball 56 , and include magnets 54 a , 54 b embedded in central portions of the sockets 52 a , 52 b .
- the magnets 54 a , 54 b are magnetically attracted to the ball 56 , which can be manufactured from any suitable ferromagnetic material.
- the magnetic attraction of the magnets 54 a , 54 b to the ball 56 retains the sockets 52 a , 52 b in position against the ball 56 so as to couple the upper torso 14 to the bicep 26 .
- the sockets 52 a , 52 b can be disengaged from the ball 56 by pulling the upper torso 14 and the bicep 26 away from the ball 56 .
- FIG. 4 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, indicated generally at 60 , for coupling a first figurine portion 62 a to a second figurine portion 62 b .
- the joint 60 includes friction inlays 65 a , 65 b positioned between sockets 72 a , 72 b (formed in portions 62 a , 62 b , respectively) and a ball 66 .
- the friction inlays 65 a , 65 b include cup-shaped portions 68 a , 68 b which conform to the shape of the ball 66 .
- Magnets 64 a , 64 b extend through apertures 67 a , 67 b formed in the cup-shaped portions 68 a , 68 b , and are positionable within recesses 73 a , 73 b formed in the centers of the sockets 72 a , 72 b .
- the magnets 64 a , 64 b could include rounded faces 69 a , 69 b , respectively, which conform to the shape of the ball 66 .
- the inlays 65 a , 65 b could be interconnected with the sockets 72 a , 72 b in any known manner, such as by gluing or by means of a friction fit.
- the inlays 65 a , 65 b provide sufficient friction against the ball 66 when the joint 60 is assembled (see FIG. 4 c ) to retain the figurine portions 62 a , 62 b in a desired position with respect to each other, while allowing for rotation and angulation.
- FIG. 4 b which is a perspective view of one of the friction inlays 65 a (the opposite friction inlay 65 b being identical thereto)
- the magnet 64 a extends through the aperture 67 a formed in the cup-shaped portion 68 a of the inlay 65 a .
- the magnet 64 a could be permanently attached to the cup-shaped portion 68 a (e.g., by gluing), or could be removable therefrom.
- the inlays 65 a , 65 b could be manufactured from rubber or other suitable material.
- FIG. 5 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, indicated generally at 80 , wherein O-rings 88 a , 88 b are positioned between generally cup-shaped sockets 89 a , 89 b and a ball 86 .
- the sockets 89 a , 89 b are formed in figurine components 82 a , 82 b (which could be any desired components of a figurine), and include magnets 84 a , 84 b positioned in recesses 83 a , 83 b formed in the sockets 89 a , 89 b .
- the O-rings 88 a , 88 b bear against the ball 86 when the sockets 89 a , 89 b are coupled to the ball 86 , so that the figurine components 82 a , 82 b can be retained in a desired position with respect to each other after being moved by a user.
- the O-rings 88 a , 88 b can be made from any suitable material.
- FIG. 6 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, indicated generally at 90 , for joining first and second figurine components 91 a , 91 b (which could be any desired components of a figurine).
- the joint 90 includes a first socket 92 a formed in the first figurine component 91 a , a second socket 92 b formed in the second figurine component 91 b , a friction inlay 94 , a first hemispherical portion 96 , and a second hemispherical portion 98 .
- the socket 92 a includes a recess 93 a for receiving a magnet 95 formed in the friction inlay 94 , and the friction inlay 94 could be permanently attached to the socket 92 a (such as by gluing) or temporarily by means of a friction fit.
- the socket 92 b includes a recess 93 b for receiving a protrusion 99 formed on the second hemispherical portion 98 .
- the second hemispherical portion 98 can be permanently attached to the second socket 92 b in any suitable manner, such as by gluing, etc.
- the first hemispherical portion 96 includes an annular lip 97 a that is configured to be received by an annular external recess 97 b formed on an external surface 98 a of the second hemispherical portion 98 .
- the second hemispherical portion 98 includes an annular lip 97 c that is configured to be received by an annular recess 97 d formed on an internal surface 96 a of the first hemispherical portion 96 .
- the lips 97 a , 97 c and recesses 97 b , 97 d cooperate to interconnect the first hemispherical portion 96 to the second hemispherical portion 98 .
- the first hemispherical portion 96 is preferably manufactured from a ferromagnetic material, so as to facilitate magnetic attraction to the magnet 95 .
- magnetic attraction between the magnet 95 and the first hemispherical portion 96 couples the first figurine component 91 a to the first hemispherical portion 96 , allowing for rotation and angulation of the first figurine component 91 a .
- the friction inlay 94 provides sufficient friction to retain the first figurine component 91 a in a desired position.
- FIG. 7 is a perspective view of a toy figurine, indicated generally at 100 , having a body portion 102 , a plurality of appendages 104 - 118 , and a plurality of magnetic joints 120 a - h made in accordance with another embodiment of the present invention for the purpose of coupling the appendages 104 - 118 to the body portion 102 .
- the magnetic joints 120 a - h include complementary, generally planar (i.e., flat) joint surfaces 122 a , 122 b (see FIGS. 8 a - 8 b ) that allow for rotation and indexing.
- the magnetic joints 120 a - h allow, for example, the plurality of appendages 104 - 118 to be selectively attached to and removed from the body portion 102 , and rotated and indexed when attached to the body portion 102 .
- FIG. 8 a is perspective view of the magnetic joint 120 a shown in FIG. 7 , each of the magnetic joints 120 b - h of FIG. 7 having the same construction as the joint 120 a .
- the complementary, generally planar joint surfaces 122 a , 122 b include complementary magnets 124 a , 124 b positioned within central regions of the joint surfaces 122 a , 122 b , such that attraction between the magnets 124 a , 124 b retains the joint surfaces 122 a , 122 b against each other when the joint 120 a is assembled.
- indexing magnets 126 a , 126 b are positioned in a radial array about the magnets 124 a , 124 b to allow the appendage 104 and the body portion 102 to be indexed by means of magnetic attraction exerted between the magnets 126 a , 126 b when the magnets 126 a , 126 b are rotated into alignment (see arrow C in FIG. 8 b ).
- the magnets 124 a , 124 b and 126 a , 126 b could be embedded in the joint surfaces 122 a , 122 b , or otherwise attached thereto. It should be noted that the magnets 126 a , 126 b could be substituted with protrusions and corresponding recesses to allow for indexing.
- FIG. 9 a is a perspective view of another embodiment of the magnetic joints of the present invention, indicated generally at 130 , for coupling a first figurine component 132 to a second figurine component 134 .
- the joint 130 comprises a pair of complementary, generally planar joint surfaces 136 a , 136 b having annular conductive regions 138 a , 138 b surrounding central conductive regions 140 a , 140 b .
- the annular conductive regions 138 a , 138 b or the central conductive regions 140 a , 140 b , or both, could be magnetic to retain the joint surfaces 136 a , 136 b in position against each other.
- An electrical circuit 142 in the first figurine component 132 (e.g., a battery positioned in a torso portion of a figurine) is in electrical communication with the annular conductive region 138 a and the central conductive region 140 a via leads 144 .
- the annular conductive region 138 a makes electrical contact with the annular conductive region 138 b and the central conductive region 140 a makes electrical contact with the central conductive region 140 b to allow power to be transmitted from the circuit 142 through the joint 130 and into the second figurine component 134 .
- Leads 146 in the second figurine component 134 are connected to the annular conductive region 138 b and the central conductive region 140 b to transfer electrical power to a circuit in the second figurine component 146 (e.g., to a light or motor).
- the joint 130 allows for rotation of the second figurine part 134 with respect to the first figurine part 132 , indicated generally by arrow D.
- the joint 130 allows for power transmission therethrough, while simultaneously allowing for rotation of the magnetically coupled parts.
- the conductive regions 138 a , 138 b and 140 a , 140 b could be provided in any desired shapes and at any desired locations of the joint surfaces 136 a , 136 b without departing from the spirit or scope of the present invention.
- FIG. 10 is a perspective view of a toy figurine, indicated generally at 150 , having a head 152 , an upper torso 154 , arms 156 , 158 , a lower torso 160 , legs 162 , 164 , magnetic joints 166 a , 166 b removably coupling the legs 162 , 164 to the lower torso 160 , and another set of magnetic joints 170 a , 170 b according to another embodiment of the present invention removably coupling the arms 156 , 158 to the upper torso 154 .
- a magnetic joint 168 could be provided for removably coupling the head 152 to the upper torso 154 , or the head 152 could be permanently coupled to the upper torso 154 .
- the magnetic joints 170 a , 170 b are internally indexed and allow for rotation and indexing of the arms 156 , 158 with respect to the upper torso 154 .
- FIGS. 11 a - 11 b are perspective and front elevational views, respectively, of the magnetic joint 170 b shown in FIG. 10 , the magnetic joint 170 a being identical thereto in construction.
- the joint 170 b comprises a peg 172 formed on the arm 158 , which is insertable into a socket 174 formed in the upper torso 154 .
- a shoulder 176 surrounding the socket 174 abuts a shoulder 178 disposed about the peg 172 when the peg 172 is inserted into the socket 174 .
- the socket 174 includes an end magnet 180 and a plurality of indexing magnets 182 disposed along the longitudinal axis of the socket 174 and about the circumference of the socket 174 .
- the peg 172 includes a corresponding end magnet 184 and a plurality of corresponding indexing magnets 186 disposed along the longitudinal axis of the peg 172 and about the circumference of the peg 172 .
- the indexing magnets 182 of the socket 174 are magnetically attracted to the indexing magnets 186 of the peg 172 to allow the arm 158 to be rotated and held in one or more predetermined positions (i.e., indexed). It should be noted that the indexing magnets 182 , 186 could be replaced with corresponding protrusions and recesses to allow for indexing. Moreover, either set of the indexing magnets 182 , 186 could be replaced with a ferromagnetic material, so that only a single set of magnets is required to provide indexing.
- one of the end magnets 180 , 184 could likewise be replaced with a ferromagnetic material so that only a single magnet is required to retain the peg 172 in the socket 174 .
- the magnets could be poled (e.g., one set of magnets could correspond to a south magnetic pole, and another set of magnets could correspond to a north magnetic pole), so as to further facilitate indexing of the joined components.
- the magnetic joints of the present invention could be used to couple figurine components in any desired configuration.
- the arm 26 (see FIG. 1 ) could be formed by coupling the bicep 26 to the forearm 28 using the joint 50 f , and the forearm 28 to the hand 36 using the joint 50 g .
- the arm 26 could then be coupled to upper torso 14 using the joint 50 e .
- the arm 20 could be formed by coupling the bicep 32 to the forearm 34 using the joint 50 c , and the forearm 34 to the hand 36 using the joint 50 d .
- the arm 20 could then be coupled to upper torso 14 using the joint 50 b .
- the head 12 , upper torso 14 , and lower torso 16 could be interconnected using the joints 50 a and 50 h , respectively.
- the legs 22 could be formed by coupling the thigh 38 to the shin 40 using the joint 50 m , and the shin 40 could be coupled to the feet 42 using the joint 50 n .
- the leg 22 could then be coupled to the lower torso 16 using the joint 50 l .
- the legs 24 could be formed by coupling the thigh 44 to the shin 46 using the joint 50 j , and the shin 46 could be coupled to the feet 48 using the joint 50 k .
- the leg 24 could then be coupled to the lower torso 16 using the joint 50 i .
- any desired combination of components could be interconnected in any desired fashion using the magnetic joints of the present invention.
- any desired combination of the various embodiments of the magnetic joints of the present invention could be implemented in a toy figurine.
- the joint 200 includes a hemispherical, ferromagnetic portion 202 , a socket 206 , and a ring magnet 204 positioned in the socket 206 .
- the ring magnet 204 is mounted in a recess 216 of a first figurine component 208 (see FIG. 12 b ).
- the ring magnet 204 is glued or otherwise permanently mounted to the first figurine component 208 .
- the ferromagnetic, hemispherical portion 202 includes an annular lip 210 (see FIG.
- the second figurine component 212 is molded about the ferromagnetic, hemispherical portion 202 .
- the ferromagnetic, hemispherical portion 202 could be glued to the second figurine component 212 .
- the ring magnet 204 couples the first figurine component 208 to the second figurine component 212 by means of magnetic attraction.
- An aperture 214 of the ring magnet 204 receives a portion of the ferromagnetic, hemispherical portion 202 when the first figurine component 208 is coupled with the second figurine component 212 , so that the ferromagnetic, hemispherical portion 202 is “seated” within the aperture 214 . It should be noted that some amount of frictional engagement exists between the ring magnet 204 and the ferromagnetic, hemispherical portion 202 . If additional frictional engagement is desired, the hemispherical portion 202 could include a surface treatment or a coating, such as the coating discussed below with respect to FIG. 16 .
- the joint 220 includes a ferromagnetic, hemispherical portion 222 ; a socket 226 , which includes a magnet 224 having a recess 232 ; and an O-ring 230 positioned between the ferromagnetic, hemispherical portion 222 and the magnet 224 .
- the magnet 224 is mounted in a recess 227 of a first figurine component 228 .
- the magnet 224 is glued or otherwise permanently mounted to the first figurine component 228 .
- the ferromagnetic, hemispherical portion 222 includes an annular lip 236 which facilitates permanent attachment of the ferromagnetic, hemispherical portion 222 to a second figurine component 238 .
- the second figurine component 238 is molded about the ferromagnetic, hemispherical portion 222 .
- the ferromagnetic, hemispherical portion 222 could be glued to the second figurine component 238 .
- the magnet 224 couples the first figurine component 228 to the second figurine component 238 by means of magnetic attraction.
- the recess 232 of the magnet 224 receives a portion of the ferromagnetic, hemispherical portion 222 when the first figurine component 228 is coupled with the second figurine component 238 , so that the ferromagnetic, hemispherical portion 222 is “seated” in the recess 232 .
- the O-ring 230 is positioned proximal to an annular bevel 234 formed in the first figurine component 228 .
- the O-ring 230 facilitates frictional engagement between the first figurine component 228 and the ferromagnetic, hemispherical portion 222 , so that the first figurine component 228 is retained in a desired position with respect to the second figurine component 238 .
- the joint 240 includes a ferromagnetic, hemispherical portion 242 ; a socket 246 , which includes a magnet 244 having a recess 256 and an annular channel 258 ; and an O-ring 250 positioned in the annular channel 258 between the ferromagnetic, hemispherical portion 242 and the magnet 244 .
- the magnet 244 is mounted in a recess 249 of a first figurine component 248 .
- the magnet 244 is glued or otherwise permanently mounted to the first figurine component 248 .
- the ferromagnetic, hemispherical portion 242 includes an annular lip 252 which facilitates permanent attachment of the ferromagnetic, hemispherical portion 242 to a second figurine component 254 .
- the second figurine component 254 is molded about the ferromagnetic, hemispherical portion 242 .
- the ferromagnetic, hemispherical portion 242 could be glued to the second figurine component 254 .
- the magnet 244 couples the first figurine component 248 to the second figurine component 254 by means of magnetic attraction.
- the recess 256 of the magnet 244 receives a portion of the ferromagnetic, hemispherical portion 242 when the first figurine component 248 is coupled with the second figurine component 254 , so that the ferromagnetic, hemispherical portion 242 is “seated” in the recess 256 .
- the O-ring 250 facilitates frictional engagement between the first figurine component 248 and the ferromagnetic, hemispherical portion 242 , so that the first figurine component 248 is retained in a desired position with respect to the second figurine component 254 .
- the joint 260 includes a ferromagnetic, hemispherical portion 262 , a flexible socket 264 , and a magnet 270 positioned within the flexible socket 264 .
- the socket 264 could be manufactured from a suitable, flexible material, such as plastic, rubber, polyvinyl chloride (PVC), and the like.
- the socket 264 is mounted in a recess 268 formed in a first figurine component 266 (e.g., by gluing or other suitable means of attachment), and includes an inner surface 276 which bears against the ferromagnetic, hemispherical portion 262 to provide frictional engagement therewith.
- Such engagement retains the first figurine component 266 in a desired position with respect to a second figurine component 274 .
- the magnet 270 magnetically couples the first figurine component 266 to the second figurine component 274 .
- the ferromagnetic, hemispherical portion 262 includes an annular lip 272 which facilitates permanent attachment of the ferromagnetic, hemispherical portion 262 to the second figurine component 274 .
- the second figurine component 274 is molded about the ferromagnetic, hemispherical portion 262 .
- the ferromagnetic, hemispherical portion 262 could be glued to the second figurine component 274 .
- the joint 280 includes a ferromagnetic, hemispherical portion 282 , a flexible socket 284 , a magnet 290 positioned within the flexible socket 284 , and a coating 283 formed on the ferromagnetic, hemispherical portion 282 .
- Both the coating 283 and the socket 284 could be manufactured from a suitable, flexible material, such as plastic, rubber, polyvinyl chloride (PVC) and the like.
- the socket 284 is mounted in a recess 288 formed in a first figurine component 286 (e.g., by gluing or other suitable means of attachment).
- the magnet 290 magnetically couples the first figurine component 286 to a second figurine component 294 .
- the ferromagnetic, hemispherical portion 282 includes an annular lip 292 which facilitates permanent attachment of the ferromagnetic, hemispherical portion 282 to the second figurine component 294 .
- the second figurine component 294 is molded about the ferromagnetic, hemispherical portion 292 .
- the ferromagnetic, hemispherical portion 292 could be glued to the second figurine component 294 .
- the coating 283 facilitates frictional engagement with the socket 284 , so as to retain the first figurine component 286 in a desired position with respect to the second figurine component 294 .
- the joint 300 includes a ferromagnetic, hemispherical portion 304 attached to a head 302 of a figurine, an electrical switch 306 extending through an aperture in the ferromagnetic, hemispherical portion 304 , and a socket 308 attached to a torso 310 and magnetically coupled to the ferromagnetic, hemispherical portion 304 .
- the head 302 can be removed from the torso 310 by pulling the head 302 away from the torso 310 , as shown by arrow A.
- the switch 306 When the head 310 is removed from the torso 310 , the switch 306 is activated, causing the head 302 to light up. Illumination is facilitated by the circuit 320 shown in FIG. 18 , which is positioned within the head 302 .
- a flasher circuit 324 powered by a battery 312 , is activated, causing the light emitting diode (LED) 326 to flash.
- the LED 326 could be substituted with any other suitable light source, such as an incandescent lamp.
- the flasher circuit 324 could include any suitable, commercially-available lamp or LED flasher circuit.
- the switch 306 could be configured to activate any other circuit, such as a buzzer or sound effects circuit.
- the circuit 320 could be configured so that both removal and attachment of the head 302 of FIG. 17 to the torso 310 causes the LED 326 to flash.
- the joint 300 of FIG. 17 could be implemented in any desired location of a figurine, such as between an arm and a torso, a leg and a torso, etc.
- the switch 306 of FIG. 17 and its associated circuitry shown in FIG. 18 could be implemented using any of the magnetic joints disclosed herein.
- the hemispherical portion 304 (see FIG. 17 ) could include a coating or other surface treatment (such as the coating 283 discussed above with respect to FIG. 16 ) to provide additional frictional engagement between the hemispherical portion 304 and the socket 308 (see FIG. 17 ).
- an O-ring or other frictional engagement means such as the friction inlays 65 a , 65 b shown in FIG. 4 a and described above) could be included to provide additional frictional engagement between the hemispherical portion 304 and the socket 308 of FIG. 17 .
Landscapes
- Toys (AREA)
Abstract
Magnetic joints for toy figurines are provided. In one embodiment, the magnetic joint comprises a socket which is formed in a first figurine component and includes a ring magnet, and a ferromagnetic, hemispherical portion attached to a second figurine component, wherein the ring magnet receives and is magnetically coupled to the ferromagnetic, hemispherical portion. In another embodiment, the magnetic joint comprises a socket which is formed in a first figurine component and includes a magnet having a recess, a ferromagnetic, hemispherical portion attached to a second figurine component, and an O-ring positioned between the magnet and the ferromagnetic, hemispherical portion. In another embodiment, the magnetic joint comprises a flexible socket attached to a first figurine component and having a magnet positioned therein, and a ferromagnetic, hemispherical portion attached to a second figurine component and magnetically coupled with the flexible socket. In another embodiment, the magnetic joint comprises a socket attached to a first figurine component, a ferromagnetic, hemispherical portion attached to a second figurine component and magnetically coupled with the socket, and a switch extending through an aperture formed in the ferromagnetic, hemispherical portion, wherein the switch is activated when the first figurine component is coupled to or uncoupled from the second figurine component.
Description
- This application is a continuation-in-part of U.S. patent application Ser. No. 11/182,212 filed Jul. 15, 2005, which is a continuation-in-part of U.S. Design patent application Ser. No. 29/223,384 filed Feb. 10, 2005; U.S. Design patent application Ser. No. 29/223,389 filed Feb. 10, 2005; U.S. Design patent application Ser. No. 29/223,385 filed Feb. 10, 2005; U.S. Design patent application Ser. No. 29/223,387 filed Feb. 10, 2005; U.S. Design patent application Ser. No. 29/223,386 filed Feb. 10, 2005; U.S. Design patent application Ser. No. 29/223,383 filed Feb. 10, 2005; U.S. Design patent application Ser. No. 29/223,392 filed Feb. 11, 2005; U.S. Design patent application Ser. No. 29/223,391 filed Feb. 11, 2005; U.S. Design patent application Ser. No. 29/223,397 filed Feb. 11, 2005; U.S. Design patent application Ser. No. 29/223,388 filed Feb. 11, 2005; U.S. Design patent application Ser. No. 29/223,395 filed Feb. 11, 2005; and U.S. Design patent application Ser. No. 29/223,393 filed Feb. 11, 2005, the entire disclosures of which are all expressly incorporated herein by reference.
- The present invention relates to the field of toy figurines, and, more particularly, to toy figurines having magnetic joints.
- Joints of various designs have, in the past, been developed for toy figurines to permit the selective attachment and removal of component parts, such as appendages and the like. An example of a joint for a toy figurine can be found in U.S. Pat. No. 5,295,889 to Ejima, which discloses a toy figurine having magnetically-coupled, ball-and-socket joints that allow appendages to be selectively attached to the figurine as desired. Another example of a joint for a toy figurine can be found in U.S. Patent Application Publication No. US 2004/0077259 to Barri, which discloses a toy figurine having joints in the form of magnetized pegs and corresponding sockets for receiving the pegs. Other examples of joints include U.S. Pat. No. 6,203,396 to Asmussen, et al. and U.S. Pat. No. 6,705,794 to Varner, et al., which disclose magnetically-coupled joints for mannequins with generally flat joint surfaces that allow for indexing of parts using protrusions and corresponding recesses (see the Asmussen, et al. Patent) or a pin and corresponding apertures (see the Varner, et al. Patent).
- Existing joint designs suffer from a number of disadvantages. For example, in the case of the magnetically-coupled, ball-and-socket joints currently available in toy figurines, only a single socket is provided, and the ball is attached to a component of the figurine (e.g., to an appendage or other part). Thus, the ball is neither removable from the figurine nor interchangeable with another ball. As such, the user cannot substitute balls of desired colors, patterns, or designs to achieve a desired appearance, nor can the user quickly and conveniently construct figurines using a multitude of interchangeable components.
- Moreover, while existing joint designs allow for indexing of parts, such designs do not allow for indexing using magnets and completely planar (flat) joint surfaces. Rather, a pin and corresponding apertures or a protrusion and corresponding recesses (or other mechanical arrangement) are required to effectuate indexing. Further, current joint designs for toy figurines do not allow power to be transmitted through a completely planar or flat joint interface. Accordingly, there is a need to provide magnetic joints for toy figurines that address the foregoing limitations.
- The present invention overcomes the disadvantages and shortcomings of the prior art discussed above by providing magnetic joints for toy figurines having various configurations that allow for the quick and easy assembly and disassembly of figurine components. In one embodiment of the present invention, the magnetic joint comprises a ball and a pair of sockets magnetically coupled to the ball, wherein the first socket is formed in a first figurine part and the second socket is formed in a second figurine part. Each socket includes a magnet embedded in the socket for magnetically coupling the socket to the ball. The joint allows for angulation and rotation of joined parts, as well as for quick and convenient assembly and disassembly of figurine components. The ball “floats” between the sockets, and can be removed by the user and substituted with another ball, as desired. A pair of friction inlays or O-rings can be provided between the ball and the sockets to provide sufficient friction when the joint is assembled to allow coupled figurine components to be retained in one or more desired positions.
- In another embodiment of the present invention, the magnetic joint comprises a first socket formed in a first figurine component, a first hemispherical portion magnetically coupled with the first socket, a second hemispherical portion interconnected with the first hemispherical portion, and a second socket formed in a second figurine component and interconnected with the second hemispherical portion. A friction inlay could be provided between the first socket and the first hemispherical portion to provide sufficient friction when the joint is assembled to allow the first figurine component to be retained in one or more desired positions.
- In another embodiment of the present invention, the magnetic joint comprises a pair of complementary, generally planar joint surfaces that are magnetically coupled to each other using complementary magnets embedded in the joint surfaces. Complementary central magnets could be embedded in central regions of the joint surfaces for coupling the joints together, and a plurality of satellite magnets could be disposed radially about each central magnet and embedded in the joint surfaces to allow coupled figurine components to be rotated and held in one or more predetermined positions (indexed). Complementary conductive regions, such as a central conductive region surrounded by an annular conductive region, could be provided on each joint surface for allowing electrical power to be transmitted through the joint.
- In still another embodiment of the present invention, the magnetic joint comprises a peg and corresponding socket construction that cooperate to permit rotation of coupled figurine components. The peg and socket each include corresponding end magnets for retaining the peg in the socket. A plurality of corresponding indexing magnets are embedded in the peg and the socket for allowing the joined parts to be retained in one or more predetermined positions (internally indexed) when the indexing magnets are rotated into alignment with each other.
- In another embodiment of the present invention, the magnetic joint comprises a socket including a ring magnet, and a ferromagnetic, hemispherical portion magnetically coupled with the ring magnet. The ring magnet is attached to a first figurine component in a recess formed therein, while the ferromagnetic, hemispherical portion is attached to a second figurine component.
- In still another embodiment of the present invention, the magnetic joint comprises a socket which includes a magnet having a recess, the magnet being attached to a first figurine component in a recess formed therein, a ferromagnetic, hemispherical portion attached to a second figurine component, and an O-ring positioned between the magnet and the ferromagnetic, hemispherical portion. The O-ring provides frictional engagement with the ferromagnetic, hemispherical portion, so that the first figurine component is retained in a desired position with respect to the second figurine component. The O-ring could be positioned in an annular channel formed in the magnet.
- In another embodiment of the present invention, the magnetic joint comprises a flexible socket attached to a first figurine component and having a magnet positioned therein, and a ferromagnetic, hemispherical portion attached to a second figurine component and magnetically coupled with the flexible socket. An inner surface of the flexible socket frictionally engages the ferromagnetic, hemispherical portion to retain the first figurine component in a desired position with respect to the second figurine component. A coating could be provided on the ferromagnetic, hemispherical portion to facilitate frictional engagement with the socket.
- In still another embodiment of the present invention, the magnetic joint comprises a socket attached to a first figurine component, a ferromagnetic, hemispherical portion attached to a second figurine component and magnetically coupled with the socket, and a switch extending through an aperture formed in the ferromagnetic, hemispherical portion, wherein the switch is activated when the first figurine component is coupled to or uncoupled from the second figurine component. The switch could be connected to an electrical circuit (e.g., a light-emitting diode (LED) and an associated flasher circuit), so that the electrical circuit is activated when the switch is activated.
- Further features and advantages of the invention will appear more clearly upon a reading of the following detailed description of various exemplary embodiments thereof, which are given below by way of example only with reference to the accompanying drawings.
- For a better understanding of the present invention, reference is made to the following detailed description of the exemplary embodiments considered in conjunction with the accompanying drawings, in which:
-
FIG. 1 is a front elevational view of a toy figurine having magnetically-coupled joints according to a first embodiment of the present invention, wherein each joint includes a ball and a pair of sockets magnetically coupled to the ball; -
FIG. 2 is a front elevational view of one of the magnetic joints for the toy figurine shown inFIG. 1 ; -
FIG. 3 is a cross-sectional view, taken along section line 3-3 ofFIG. 2 and looking in the direction of the arrows, of the magnetic joint shown inFIG. 2 ; -
FIG. 4 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, wherein friction inlays are provided between the sockets and the ball; -
FIG. 4 b is a perspective view of one of the friction inlays shown inFIG. 4 a; -
FIG. 4 c is a cross-sectional view showing the components ofFIG. 4 a assembled; -
FIG. 5 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, wherein O-rings are provided between the sockets and the ball; -
FIG. 5 b is a cross-sectional view showing the components ofFIG. 5 a assembled; -
FIG. 6 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, including a two-piece, ferromagnetic ball which is coupled to only one of two socket members; -
FIG. 6 b is a cross-sectional view showing the components ofFIG. 6 a assembled; -
FIG. 7 is a perspective view of a toy figurine having magnetic joints according to another embodiment of the present invention, wherein the joints include generally planar surfaces that allow for indexing; -
FIG. 8 a is a perspective view of one of the magnetic joints for the toy figurine shown inFIG. 7 ; -
FIG. 8 b is a front elevational view of the magnetic joint shown inFIG. 8 a; -
FIG. 9 a is a perspective view of another embodiment of the magnetic joints of the present invention, wherein each joint includes generally planar surfaces having conductive areas for allowing power transmission through the joint; -
FIG. 9 b is a front elevational view of the magnetic joint shown inFIG. 9 a; -
FIG. 10 is a perspective view of a toy figurine having magnetic joints according to another embodiment of the present invention, wherein each joint comprises an internally-indexed, magnetically-coupled peg and socket; -
FIG. 11 a is a perspective view of one of the magnetic joints for the toy figurine shown inFIG. 10 ; -
FIG. 11 b is a front elevational view of the magnetic joint shown inFIG. 11 a; -
FIG. 12 a is an exploded perspective view of another embodiment of the magnetic joints of the present invention, which embodiment includes a socket having an hemispherical portion; -
FIG. 12 b is a cross-sectional view showing the components ofFIG. 12 a assembled; -
FIG. 13 is a cross-sectional view of another embodiment of the magnetic joints of the present invention, which embodiment includes a magnet having a recess, an hemispherical portion coupled to the magnet, and an O-ring positioned between the magnet and the hemispherical portion; -
FIG. 14 is a cross-sectional view of another embodiment of the magnetic joints of the present invention, which embodiment is similar to the one shown inFIG. 13 except that an O-ring is positioned within an annular channel formed in the magnet; -
FIG. 15 is a cross-sectional view of another embodiment of the magnetic joints of the present invention, which embodiment includes a flexible socket having a magnet positioned therein and an hemispherical portion; -
FIG. 16 is a cross-sectional view of another embodiment of the magnetic joints of the present invention, which embodiment is similar to that shown inFIG. 15 except that the hemispherical portion includes a rubber coating; -
FIG. 17 is a front elevational view of a portion of a figurine equipped with a magnetic joint and a switch for activating a lighting circuit within the figurine component; and -
FIG. 18 is a schematic diagram showing the switch ofFIG. 17 implemented in a light flasher circuit. - Referring to
FIG. 1 , there is shown atoy figurine 10 which includes ahead 12, anupper torso 14, alower torso 16,arms legs arm 18 includes abicep 26, aforearm 28, and ahand 30. Similarly, thearm 20 includes abicep 32, aforearm 34, and ahand 36. Theleg 22 includes athigh 38, ashin 40, and afoot 42. Similarly, theleg 24 includes athigh 44, ashin 46, and afoot 48. All of the foregoing parts are movably coupled to their adjoining parts by magnetic joints 50 a-n. -
FIG. 2 is a front elevational view of the magnetic joint 50 e shown inFIG. 1 , it being understood that each of the magnetic joints 50 a-d and 50 f-n ofFIG. 1 has the same construction as the magnetic joint 50 e. With particular reference toFIGS. 2 and 3 , aball 56 is positioned between a pair ofmagnetic sockets FIG. 3 ) formed in theupper torso 14 and thebicep 26, respectively. The magnetic joint 50 e allows for both angulation (indicated generally by arrow A) and rotation (indicated generally by arrow B) of thebicep 26 relative to theupper torso 14. Each of the magnetic joints 50 a-d and 50 f-n shown inFIG. 1 is likewise adapted for such angulation and rotation. Importantly, theball 56 can be completely disengaged from theupper torso 14 and thebicep 26, and substituted with another ball having any desired color, pattern, or appearance, so as to enhance the entertainment value of the figurine. Further, it should be noted that more than two components can be joined to a single ball. - As shown in
FIG. 3 , theball 56 is positioned between thesockets upper torso 14 and thebicep 26, respectively. Thesockets ball 56, and includemagnets sockets magnets ball 56, which can be manufactured from any suitable ferromagnetic material. The magnetic attraction of themagnets ball 56 retains thesockets ball 56 so as to couple theupper torso 14 to thebicep 26. Thesockets ball 56 by pulling theupper torso 14 and thebicep 26 away from theball 56. -
FIG. 4 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, indicated generally at 60, for coupling afirst figurine portion 62 a to asecond figurine portion 62 b. The joint 60 includes friction inlays 65 a, 65 b positioned betweensockets portions ball 66. The friction inlays 65 a, 65 b include cup-shapedportions ball 66.Magnets apertures portions recesses sockets magnets ball 66. Theinlays sockets inlays ball 66 when the joint 60 is assembled (seeFIG. 4 c) to retain thefigurine portions FIG. 4 b, which is a perspective view of one of the friction inlays 65 a (theopposite friction inlay 65 b being identical thereto), themagnet 64 a extends through theaperture 67 a formed in the cup-shapedportion 68 a of theinlay 65 a. Themagnet 64 a could be permanently attached to the cup-shapedportion 68 a (e.g., by gluing), or could be removable therefrom. Further, it should be noted that theinlays -
FIG. 5 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, indicated generally at 80, wherein O-rings sockets ball 86. Thesockets figurine components magnets recesses sockets FIG. 5 b), the O-rings ball 86 when thesockets ball 86, so that thefigurine components rings -
FIG. 6 a is an exploded, cross-sectional view of another embodiment of the magnetic joints of the present invention, indicated generally at 90, for joining first andsecond figurine components first socket 92 a formed in thefirst figurine component 91 a, asecond socket 92 b formed in thesecond figurine component 91 b, afriction inlay 94, a firsthemispherical portion 96, and a secondhemispherical portion 98. Thesocket 92 a includes arecess 93 a for receiving amagnet 95 formed in thefriction inlay 94, and thefriction inlay 94 could be permanently attached to thesocket 92 a (such as by gluing) or temporarily by means of a friction fit. Thesocket 92 b includes arecess 93 b for receiving aprotrusion 99 formed on the secondhemispherical portion 98. The secondhemispherical portion 98 can be permanently attached to thesecond socket 92 b in any suitable manner, such as by gluing, etc. - The first
hemispherical portion 96 includes anannular lip 97 a that is configured to be received by an annularexternal recess 97 b formed on anexternal surface 98 a of the secondhemispherical portion 98. Similarly, the secondhemispherical portion 98 includes anannular lip 97 c that is configured to be received by anannular recess 97 d formed on aninternal surface 96 a of the firsthemispherical portion 96. Thelips hemispherical portion 96 to the secondhemispherical portion 98. The firsthemispherical portion 96 is preferably manufactured from a ferromagnetic material, so as to facilitate magnetic attraction to themagnet 95. When the joint 90 is assembled (seeFIG. 6 b), magnetic attraction between themagnet 95 and the firsthemispherical portion 96 couples thefirst figurine component 91 a to the firsthemispherical portion 96, allowing for rotation and angulation of thefirst figurine component 91 a. Thefriction inlay 94 provides sufficient friction to retain thefirst figurine component 91 a in a desired position. -
FIG. 7 is a perspective view of a toy figurine, indicated generally at 100, having abody portion 102, a plurality of appendages 104-118, and a plurality of magnetic joints 120 a-h made in accordance with another embodiment of the present invention for the purpose of coupling the appendages 104-118 to thebody portion 102. The magnetic joints 120 a-h include complementary, generally planar (i.e., flat)joint surfaces FIGS. 8 a-8 b) that allow for rotation and indexing. The magnetic joints 120 a-h allow, for example, the plurality of appendages 104-118 to be selectively attached to and removed from thebody portion 102, and rotated and indexed when attached to thebody portion 102. -
FIG. 8 a is perspective view of the magnetic joint 120 a shown inFIG. 7 , each of themagnetic joints 120 b-h ofFIG. 7 having the same construction as the joint 120 a. The complementary, generally planarjoint surfaces complementary magnets joint surfaces magnets joint surfaces Several indexing magnets magnets appendage 104 and thebody portion 102 to be indexed by means of magnetic attraction exerted between themagnets magnets FIG. 8 b). Themagnets joint surfaces magnets -
FIG. 9 a is a perspective view of another embodiment of the magnetic joints of the present invention, indicated generally at 130, for coupling afirst figurine component 132 to asecond figurine component 134. The joint 130 comprises a pair of complementary, generally planarjoint surfaces conductive regions conductive regions conductive regions conductive regions joint surfaces electrical circuit 142 in the first figurine component 132 (e.g., a battery positioned in a torso portion of a figurine) is in electrical communication with the annularconductive region 138 a and the centralconductive region 140 a via leads 144. When thejoint surface 136 a is coupled with thejoint surface 136 b, the annularconductive region 138 a makes electrical contact with the annularconductive region 138 b and the centralconductive region 140 a makes electrical contact with the centralconductive region 140 b to allow power to be transmitted from thecircuit 142 through the joint 130 and into thesecond figurine component 134.Leads 146 in thesecond figurine component 134 are connected to the annularconductive region 138 b and the centralconductive region 140 b to transfer electrical power to a circuit in the second figurine component 146 (e.g., to a light or motor). As shown inFIG. 9 b, the joint 130 allows for rotation of thesecond figurine part 134 with respect to thefirst figurine part 132, indicated generally by arrow D. Thus, the joint 130 allows for power transmission therethrough, while simultaneously allowing for rotation of the magnetically coupled parts. It should be noted that theconductive regions joint surfaces -
FIG. 10 is a perspective view of a toy figurine, indicated generally at 150, having ahead 152, anupper torso 154,arms lower torso 160,legs magnetic joints 166 a, 166 b removably coupling thelegs lower torso 160, and another set ofmagnetic joints 170 a, 170 b according to another embodiment of the present invention removably coupling thearms upper torso 154. A magnetic joint 168 could be provided for removably coupling thehead 152 to theupper torso 154, or thehead 152 could be permanently coupled to theupper torso 154. Themagnetic joints 170 a, 170 b are internally indexed and allow for rotation and indexing of thearms upper torso 154. -
FIGS. 11 a-11 b are perspective and front elevational views, respectively, of the magnetic joint 170 b shown inFIG. 10 , the magnetic joint 170 a being identical thereto in construction. The joint 170 b comprises apeg 172 formed on thearm 158, which is insertable into asocket 174 formed in theupper torso 154. Ashoulder 176 surrounding thesocket 174 abuts ashoulder 178 disposed about thepeg 172 when thepeg 172 is inserted into thesocket 174. Thesocket 174 includes anend magnet 180 and a plurality ofindexing magnets 182 disposed along the longitudinal axis of thesocket 174 and about the circumference of thesocket 174. Thepeg 172 includes acorresponding end magnet 184 and a plurality ofcorresponding indexing magnets 186 disposed along the longitudinal axis of thepeg 172 and about the circumference of thepeg 172. When thepeg 172 is inserted into thesocket 174, magnetic attraction between theend magnets peg 172 in thesocket 174, so as to couple thearm 158 to theupper torso 154 while allowing for rotation of thearm 158 with respect to the upper torso 154 (as indicated generally by arrow E). - The
indexing magnets 182 of thesocket 174 are magnetically attracted to theindexing magnets 186 of thepeg 172 to allow thearm 158 to be rotated and held in one or more predetermined positions (i.e., indexed). It should be noted that theindexing magnets indexing magnets end magnets peg 172 in thesocket 174. Additionally, in each of the embodiments of the magnetic joints of the present invention, the magnets could be poled (e.g., one set of magnets could correspond to a south magnetic pole, and another set of magnets could correspond to a north magnetic pole), so as to further facilitate indexing of the joined components. - The magnetic joints of the present invention could be used to couple figurine components in any desired configuration. For example, the arm 26 (see
FIG. 1 ) could be formed by coupling thebicep 26 to theforearm 28 using the joint 50 f, and theforearm 28 to thehand 36 using the joint 50 g. Thearm 26 could then be coupled toupper torso 14 using the joint 50 e. Similarly, thearm 20 could be formed by coupling thebicep 32 to theforearm 34 using the joint 50 c, and theforearm 34 to thehand 36 using the joint 50 d. Thearm 20 could then be coupled toupper torso 14 using the joint 50 b. Thehead 12,upper torso 14, andlower torso 16 could be interconnected using thejoints legs 22 could be formed by coupling thethigh 38 to theshin 40 using the joint 50 m, and theshin 40 could be coupled to thefeet 42 using the joint 50 n. Theleg 22 could then be coupled to thelower torso 16 using the joint 50 l. Similarly, thelegs 24 could be formed by coupling thethigh 44 to theshin 46 using the joint 50 j, and theshin 46 could be coupled to thefeet 48 using the joint 50 k. Theleg 24 could then be coupled to thelower torso 16 using the joint 50 i. Thus, as can be readily appreciated, any desired combination of components could be interconnected in any desired fashion using the magnetic joints of the present invention. Further, any desired combination of the various embodiments of the magnetic joints of the present invention could be implemented in a toy figurine. - Referring now to
FIGS. 12 a and 12 b, a magnetic joint 200 constructed in accordance with another embodiment of the present invention is shown. The joint 200 includes a hemispherical,ferromagnetic portion 202, asocket 206, and aring magnet 204 positioned in thesocket 206. Thering magnet 204 is mounted in arecess 216 of a first figurine component 208 (seeFIG. 12 b). Thering magnet 204 is glued or otherwise permanently mounted to thefirst figurine component 208. The ferromagnetic,hemispherical portion 202 includes an annular lip 210 (seeFIG. 12 b) which facilitates permanent attachment of the ferromagnetic,hemispherical portion 202 to asecond figurine component 212. Thesecond figurine component 212 is molded about the ferromagnetic,hemispherical portion 202. Optionally, the ferromagnetic,hemispherical portion 202 could be glued to thesecond figurine component 212. Thering magnet 204 couples thefirst figurine component 208 to thesecond figurine component 212 by means of magnetic attraction. Anaperture 214 of thering magnet 204 receives a portion of the ferromagnetic,hemispherical portion 202 when thefirst figurine component 208 is coupled with thesecond figurine component 212, so that the ferromagnetic,hemispherical portion 202 is “seated” within theaperture 214. It should be noted that some amount of frictional engagement exists between thering magnet 204 and the ferromagnetic,hemispherical portion 202. If additional frictional engagement is desired, thehemispherical portion 202 could include a surface treatment or a coating, such as the coating discussed below with respect toFIG. 16 . - Referring to
FIG. 13 , a magnetic joint 220 constructed in accordance with another embodiment of the present invention is shown. The joint 220 includes a ferromagnetic,hemispherical portion 222; asocket 226, which includes amagnet 224 having arecess 232; and an O-ring 230 positioned between the ferromagnetic,hemispherical portion 222 and themagnet 224. Themagnet 224 is mounted in arecess 227 of afirst figurine component 228. Themagnet 224 is glued or otherwise permanently mounted to thefirst figurine component 228. The ferromagnetic,hemispherical portion 222 includes anannular lip 236 which facilitates permanent attachment of the ferromagnetic,hemispherical portion 222 to asecond figurine component 238. Thesecond figurine component 238 is molded about the ferromagnetic,hemispherical portion 222. Optionally, the ferromagnetic,hemispherical portion 222 could be glued to thesecond figurine component 238. Themagnet 224 couples thefirst figurine component 228 to thesecond figurine component 238 by means of magnetic attraction. Therecess 232 of themagnet 224 receives a portion of the ferromagnetic,hemispherical portion 222 when thefirst figurine component 228 is coupled with thesecond figurine component 238, so that the ferromagnetic,hemispherical portion 222 is “seated” in therecess 232. The O-ring 230 is positioned proximal to anannular bevel 234 formed in thefirst figurine component 228. The O-ring 230 facilitates frictional engagement between thefirst figurine component 228 and the ferromagnetic,hemispherical portion 222, so that thefirst figurine component 228 is retained in a desired position with respect to thesecond figurine component 238. - Referring to
FIG. 14 , a magnetic joint 240 constructed in accordance with another embodiment of the present invention is shown. The joint 240 includes a ferromagnetic,hemispherical portion 242; asocket 246, which includes amagnet 244 having arecess 256 and anannular channel 258; and an O-ring 250 positioned in theannular channel 258 between the ferromagnetic,hemispherical portion 242 and themagnet 244. Themagnet 244 is mounted in arecess 249 of afirst figurine component 248. Themagnet 244 is glued or otherwise permanently mounted to thefirst figurine component 248. The ferromagnetic,hemispherical portion 242 includes anannular lip 252 which facilitates permanent attachment of the ferromagnetic,hemispherical portion 242 to asecond figurine component 254. Thesecond figurine component 254 is molded about the ferromagnetic,hemispherical portion 242. Optionally, the ferromagnetic,hemispherical portion 242 could be glued to thesecond figurine component 254. Themagnet 244 couples thefirst figurine component 248 to thesecond figurine component 254 by means of magnetic attraction. Therecess 256 of themagnet 244 receives a portion of the ferromagnetic,hemispherical portion 242 when thefirst figurine component 248 is coupled with thesecond figurine component 254, so that the ferromagnetic,hemispherical portion 242 is “seated” in therecess 256. The O-ring 250 facilitates frictional engagement between thefirst figurine component 248 and the ferromagnetic,hemispherical portion 242, so that thefirst figurine component 248 is retained in a desired position with respect to thesecond figurine component 254. - Referring to
FIG. 15 , a magnetic joint 260 constructed in accordance with another embodiment of the present invention is shown. The joint 260 includes a ferromagnetic,hemispherical portion 262, aflexible socket 264, and amagnet 270 positioned within theflexible socket 264. Thesocket 264 could be manufactured from a suitable, flexible material, such as plastic, rubber, polyvinyl chloride (PVC), and the like. Thesocket 264 is mounted in arecess 268 formed in a first figurine component 266 (e.g., by gluing or other suitable means of attachment), and includes aninner surface 276 which bears against the ferromagnetic,hemispherical portion 262 to provide frictional engagement therewith. Such engagement retains thefirst figurine component 266 in a desired position with respect to asecond figurine component 274. Themagnet 270 magnetically couples thefirst figurine component 266 to thesecond figurine component 274. The ferromagnetic,hemispherical portion 262 includes anannular lip 272 which facilitates permanent attachment of the ferromagnetic,hemispherical portion 262 to thesecond figurine component 274. Thesecond figurine component 274 is molded about the ferromagnetic,hemispherical portion 262. Optionally, the ferromagnetic,hemispherical portion 262 could be glued to thesecond figurine component 274. - Referring to
FIG. 16 , a magnetic joint 280 constructed in accordance with another embodiment of the present invention is shown. The joint 280 includes a ferromagnetic,hemispherical portion 282, aflexible socket 284, amagnet 290 positioned within theflexible socket 284, and acoating 283 formed on the ferromagnetic,hemispherical portion 282. Both thecoating 283 and thesocket 284 could be manufactured from a suitable, flexible material, such as plastic, rubber, polyvinyl chloride (PVC) and the like. Thesocket 284 is mounted in arecess 288 formed in a first figurine component 286 (e.g., by gluing or other suitable means of attachment). Themagnet 290 magnetically couples thefirst figurine component 286 to asecond figurine component 294. The ferromagnetic,hemispherical portion 282 includes an annular lip 292 which facilitates permanent attachment of the ferromagnetic,hemispherical portion 282 to thesecond figurine component 294. Thesecond figurine component 294 is molded about the ferromagnetic, hemispherical portion 292. Optionally, the ferromagnetic, hemispherical portion 292 could be glued to thesecond figurine component 294. Thecoating 283 facilitates frictional engagement with thesocket 284, so as to retain thefirst figurine component 286 in a desired position with respect to thesecond figurine component 294. - Referring now to
FIG. 17 , a magnetic joint 300 constructed in accordance with another embodiment of the present invention is shown. The joint 300 includes a ferromagnetic,hemispherical portion 304 attached to ahead 302 of a figurine, anelectrical switch 306 extending through an aperture in the ferromagnetic,hemispherical portion 304, and asocket 308 attached to atorso 310 and magnetically coupled to the ferromagnetic,hemispherical portion 304. Thehead 302 can be removed from thetorso 310 by pulling thehead 302 away from thetorso 310, as shown by arrow A. When thehead 310 is removed from thetorso 310, theswitch 306 is activated, causing thehead 302 to light up. Illumination is facilitated by thecircuit 320 shown inFIG. 18 , which is positioned within thehead 302. When theswitch 306 is activated, aflasher circuit 324, powered by abattery 312, is activated, causing the light emitting diode (LED) 326 to flash. TheLED 326 could be substituted with any other suitable light source, such as an incandescent lamp. Theflasher circuit 324 could include any suitable, commercially-available lamp or LED flasher circuit. Additionally, theswitch 306 could be configured to activate any other circuit, such as a buzzer or sound effects circuit. Moreover, thecircuit 320 could be configured so that both removal and attachment of thehead 302 ofFIG. 17 to thetorso 310 causes theLED 326 to flash. - It should be noted that the joint 300 of
FIG. 17 could be implemented in any desired location of a figurine, such as between an arm and a torso, a leg and a torso, etc. Additionally, theswitch 306 ofFIG. 17 and its associated circuitry shown inFIG. 18 could be implemented using any of the magnetic joints disclosed herein. Moreover, the hemispherical portion 304 (seeFIG. 17 ) could include a coating or other surface treatment (such as thecoating 283 discussed above with respect toFIG. 16 ) to provide additional frictional engagement between thehemispherical portion 304 and the socket 308 (seeFIG. 17 ). Further, an O-ring or other frictional engagement means (such as the friction inlays 65 a, 65 b shown inFIG. 4 a and described above) could be included to provide additional frictional engagement between thehemispherical portion 304 and thesocket 308 ofFIG. 17 . - It will be understood that the embodiments described herein are merely exemplary and that a person skilled in the art may make many variations and/or modifications without departing from the spirit and scope of the present invention. All such variations and modifications are intended to be included within the scope of the present invention.
Claims (17)
1. A magnetically-coupled joint for a toy figurine, comprising a ferromagnetic, hemispherical portion attached to a first figurine component; a socket attached to a second figurine component, said socket including a magnet coupled to said ferromagnetic, hemispherical portion to thereby couple said first figurine component to said second figurine component; and means for frictional engagement positioned between said ferromagnetic, hemispherical portion and said socket, said means for frictional engagement retaining said first figurine component in a desired position with respect to said second figurine component.
2. The magnetically-coupled joint of claim 1 , wherein said magnet further includes a recess formed therein.
3. The magnetically-coupled joint of claim 2 , wherein a portion of said ferromagnetic, hemispherical portion extends into said recess when said ferromagnetic, hemispherical portion is coupled to said magnet.
4. The magnetically-coupled joint of claim 3 , wherein said means for frictional engagement includes an O-ring.
5. The magnetically-coupled joint of claim 4 , wherein said magnet further includes an annular channel and said O-ring is positioned in said annular channel.
6. The magnetically-coupled joint of claim 1 , wherein said socket is flexible.
7. The magnetically-coupled joint of claim 6 , wherein said means for frictional engagement further includes an inner surface of said socket which bears against said ferromagnetic, hemispherical portion.
8. The magnetically-coupled joint of claim 6 , wherein said means for frictional engagement further includes a coating formed on said ferromagnetic, hemispherical portion, said coating positioned between said ferromagnetic, hemispherical portion and said socket.
9. The magnetically-coupled joint of claim 1 , wherein said ferromagnetic, hemispherical portion further includes an annular lip extending about an end of said ferromagnetic, hemispherical portion.
10. The magnetically-coupled joint of claim 9 , wherein said second figurine component is molded about said annular lip and a portion of said ferromagnetic, hemispherical portion.
11. The magnetically-coupled joint of claim 1 , wherein said magnet includes a ring magnet.
12. The magnetically-coupled joint of claim 11 , wherein said ring magnet further includes an aperture for receiving a portion of said ferromagnetic, hemispherical portion when said ring magnet contacts said ferromagnetic, hemispherical portion.
13. The magnetically-coupled joint of claim 1 , wherein said ferromagnetic, hemispherical portion includes a switch extending through an aperture formed in said ferromagnetic, hemispherical portion.
14. The magnetically-coupled joint of claim 13 , wherein said switch is activated when said first figurine component is coupled to or removed from said second figurine component.
15. The magnetically-coupled joint of claim 13 , further comprising an electrical circuit connected to said switch.
16. The magnetically-coupled joint of claim 15 , wherein said electrical circuit further includes a light-emitting diode and an associated flasher circuit, said light-emitting diode being flashed by said flasher circuit when said switch is activated.
17. The magnetically-coupled joint of claim 13 , wherein said electrical circuit is positioned within said first figurine component.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US11/478,859 US20070060011A1 (en) | 2005-02-10 | 2006-06-30 | Magnetic joints and toy figurines made therefrom |
Applications Claiming Priority (14)
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US29223386 | 2005-02-10 | ||
US29223383 | 2005-02-10 | ||
US29223389 | 2005-02-10 | ||
US29223385 | 2005-02-10 | ||
US29223387 | 2005-02-10 | ||
US29223388 | 2005-02-11 | ||
US29223395 | 2005-02-11 | ||
US29223391 | 2005-02-11 | ||
US29223397 | 2005-02-11 | ||
US29223392 | 2005-02-11 | ||
US29223393 | 2005-02-11 | ||
US11/182,212 US20060178081A1 (en) | 2005-02-10 | 2005-07-15 | Magnetic joints and toy figurines made therefrom |
US11/478,859 US20070060011A1 (en) | 2005-02-10 | 2006-06-30 | Magnetic joints and toy figurines made therefrom |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/182,212 Continuation-In-Part US20060178081A1 (en) | 2005-02-10 | 2005-07-15 | Magnetic joints and toy figurines made therefrom |
Publications (1)
Publication Number | Publication Date |
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US20070060011A1 true US20070060011A1 (en) | 2007-03-15 |
Family
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Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/182,212 Abandoned US20060178081A1 (en) | 2005-02-10 | 2005-07-15 | Magnetic joints and toy figurines made therefrom |
US11/478,859 Abandoned US20070060011A1 (en) | 2005-02-10 | 2006-06-30 | Magnetic joints and toy figurines made therefrom |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/182,212 Abandoned US20060178081A1 (en) | 2005-02-10 | 2005-07-15 | Magnetic joints and toy figurines made therefrom |
Country Status (2)
Country | Link |
---|---|
US (2) | US20060178081A1 (en) |
WO (1) | WO2006086574A2 (en) |
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US20190038987A1 (en) * | 2017-08-03 | 2019-02-07 | Laser Pegs Ventures, Llc | Lighted Toy Figurines and Related Systems and Methods |
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US20210259347A1 (en) * | 2018-06-27 | 2021-08-26 | Stryker Corporation | A Protective Apparel System with a Lens Assembly |
US11793261B2 (en) | 2018-10-24 | 2023-10-24 | Stryker Corporation | Surgical helmet assembly having an adjustment mechanism |
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Also Published As
Publication number | Publication date |
---|---|
WO2006086574A2 (en) | 2006-08-17 |
US20060178081A1 (en) | 2006-08-10 |
WO2006086574A3 (en) | 2007-12-13 |
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Legal Events
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AS | Assignment |
Owner name: MEGA BRANDS INTERNATIONAL, LUXEMBOURG, ZUG BRANCH, Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:DAFTARI, PARVIZ;KOWALSKI, CHARLES J.;BEAULIEU, ANS;REEL/FRAME:018805/0178;SIGNING DATES FROM 20061219 TO 20070122 |
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STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |