HK1078504B - Frictional joint for toys - Google Patents

Description

Background

The present disclosure relates generally to movable toys, and more specifically, to joints of action figures and dolls. Movable action figures and dolls (e.g., action figures having shoulder/elbow joints, hip/knee joints, waist joints, etc.) can provide imaginative fun for children. Movable joint motion allows a child to configure a toy as he or she chooses. Examples of such toys are disclosed inU.S. Patent Nos. 3,277,602;3,628,282;3,988,855;4,274,224;4,968,282;5,989,658; and6,435,938, the disclosures of which are incorporated herein by reference. Typically, it is desirable that the joints and other structures which enable relative movement be durable, enable the desired range of movement, and be relatively inexpensive to manufacture.FromUS-A-6,033,284 joints for dolls or puppet bodies are known. Each of these joints has a plug portion and a socket portion adapted to receive the plug portion. The plug portion may have protuberances in order to offer frictional resistance with an inner surface of the socket portion.

Summary

The present invention is directed to a joint for a toy having the features of claim 1. The toy may be a doll or action figure, having the joint or like mechanism that enables relative movement. In some embodiments, the toy includes two or more body part members interconnected by the joint having a plug and a socket for receiving the plug. The socket includes one or more protrusions, against which the plug is urged to create friction between the plug and socket, thereby restricting joint motion.

Brief Description of the Drawings

Fig. 1 depicts an embodiment of a movable toy according to the present description.

Fig. 2 is a cross-sectional exploded view of the movable toy ofFig. 1, showing components of the toy that are movably interconnected by a joint according to the present description.

Fig. 3 is a detailed exploded view of the joint shown inFig. 2.

Fig. 4 is a cross-sectional view of the components ofFig. 2 assembled.

Fig. 5 is a cross-sectional view similar toFig. 4, but showing an alternate embodiment of a joint according to the present description.

Detailed Description

Fig. 1 depicts a toy 10 according to the present description. In the depicted example, toy 10 is implemented as an action figure having several body part members 12 with movable interconnections between the members. These movable interconnections take the form of joints 14 defined between body part members 12. The joints enable the various body part members to be moved relative to one another in various ways.

Typically, a given joint is configured to enable one part of the toy (e.g., a body part member) to be moved relative to another, and then maintain the relative position of the parts once a desired position has been achieved. For example, toy 10 has a first body part member, such as torso 16, and a second body part member, such as pelvis 18. One of joints 14 forms a waist joint 20, defined between torso 16 and pelvis 18 to enable relative motion between the torso and pelvis. The remaining description will focus primarily on the waist joint, though it should be appreciated that the structures and mechanisms to be discussed may be implemented in other locations on a doll, and in movable toys other than dolls.

As shown inFigs. 2-5, joint 20 may include a plug portion or assembly 22, and a socket portion or assembly 24 that receives plug 22. Plug portion 22 is formed on one of the first and second body part members, such as on pelvis 18, while socket portion 24 is formed on the other of the first and second body part members, such as on torso 16. Socket portion 24 includes a friction assembly 26 that inhibits relative movement between plug portion 22 and socket portion 24. Friction is produced between multiple socket contact regions 28 and plug contact regions 30, also referred to as the operative surface of plug portion 22. In the depicted examples, contact regions take the shape of a sphere, though it should be appreciated that other shapes and configurations may be employed.

In some embodiments, socket portion 24 has a support surface or wall portion 32 with several protrusions 34 extending therefrom that form socket contact regions 28. Joint 14 may be adapted so that plug portion 22 is urged into contact with protrusions 34 so as to create friction therebetween. The body part members are therefore able to maintain their relative positions during play.

As previously mentioned, joint 14 is comprised of socket portion 24 and plug portion 22. These portions engage with one another to control relative movement between torso 16 and pelvis 18 (e.g., by inhibiting relative movement through friction), or other appropriate body part members 12. Plug contact region 30 articulates within socket portion 24. In some embodiments, plug contact region 30 is spherical and mates with a cylindrically shaped socket portion, as shown inFigs. 2-4. Alternatively, only part of plug portion 22 may be convex and used as a contact region.

In some embodiments, such as shown inFigs. 2-4, socket portion 24 includes a socket insert 36. This insert may be useful in retaining plug portion 22 captured and held within socket portion 24 and increasing the frictional surface contact between socket portion 24 and plug portion 22. In other embodiments, as shown inFig. 5, socket insert 36 is replaced by additional protrusions 34, or extension of the existing lateral protrusions, thus reducing the number of overall components needed to assemble toy 10.

In the depicted examples, insert 36 has an opening sized to accommodate passage of a shaft 58 that extends away from operative surface 30 of plug portion 22. Typically, the opening is smaller than the diameter of operative surface 30, so as to maintain the operative surface captured and held within socket portion 24. Also, the area around the opening typically is adapted to contact the operative surface of plug portion 24 and urge it toward the frictional contact surfaces of the socket.

Socket portion 24 typically includes one or more protrusions 34 extending inward toward the operative surface of plug portion 22. The protrusions may be formed on the torso of the doll, as indicated in the figure, or may be manufactured as a separate piece to be inserted during assembly. Protrusions 34 typically are adapted to provide the friction described above, so as to inhibit movement (e.g., rotation) of plug portion 22 within socket portion 24, thereby inhibiting relative movement of the respective members of the toy (e.g., body part members 12). As shown inFigs. 2-5, protrusions 34 may take the form of ribs having contact regions 28 configured to correspond to plug contact region 30. The protrusions shown inFigs. 2-4 have ends that are angled opposite one another to form a V-shaped seat that straddles and receives the operative surface of plug portion 22. Alternatively, or additionally, socket contact regions 28 may be concave to provide increased contact with at least a portion of the convex contact region of plug portion 22, as shown inFig. 5.

The protrusions themselves may also be aligned towards one another so that the protrusions approach operative surface 30 from different directions, or they may extend parallel to one another from the socket wall. Furthermore, the ends of the protrusions may be angled or formed with a concave contour to complement the concave operative surface of plug portion 22. In addition, the operative surface of the plug portion may be provided with grooves for receiving the protrusions, so as to provide desired constraints on the relative movement permitted between the parts of the toy.

As shown inFig. 2, torso 16 may be subdivided into a torso front 38 and a torso back 40 that define an internal compartment 42. Internal compartment 42 may provide space for the joint components, so as to conceal the joint components and/or protect the components. Accordingly, in the depicted example, torso 16 is configured to conceal at least plug portion 22 and protrusions 34. The section of torso 16 nearest pelvis 18 forms a tapered base, or pelvis mating region 44, which allows a lower end of torso 16 to be recessed within pelvis 18, as shown inFigs. 4 and 5.

Socket portion 24 may have additional structure to secure socket insert 36 within its respective body part member 12. As shown inFigs. 3 and4, socket insert 36 has a flange 46 that anchors socket insert 36 to torso 16 within internal torso compartment 42. As indicated, flange 46 may rest between plates 48 located in pelvis mating region 44 of torso 16 and may thereby be restricted from translating out of alignment once torso front 38 and torso back 40 are joined together.

Similar to torso 16, pelvis 18 may be formed from a pelvis front 50 and a pelvis back 52 that form an internal pelvis compartment 54, as shown inFig. 2. Pelvis 18 further includes a cupped surface 56, which receives pelvis mating region 44 of torso 16, thereby concealing portions of joint 20.

Plug portion 22 may be anchored to the body part member opposite that in which socket portion 24 is mounted, such as to pelvis 18. As shown inFig. 3, plug portion 22 may have a shaft 58 extending from operative surface 30 of the plug portion. At the end of shaft 58, opposite operative surface 30, an anchor 60 may be provided to secure the plug portion to pelvis 18, via plug flange 62. Referring toFig. 4, flange 62 secures plug portion 22 to pelvis 18 by engagement with a pelvis plate 64 located within pelvis 18. As shown, shaft 58 has two flanges 62 that straddle a single pelvis plate 64. Alternatively, pelvis 18 may have a pair of plates, between which a single flange on shaft 58 rests.

InFig. 4, at least some of plug portion 22 may extend through an aperture 66 of socket portion 24, such as via shaft 58. Torso plates 48 and pelvis plates 64 typically have notches or other openings to provide a channel through the plates, for passage of shaft 58. This arrangement allows plug portion 22 to be mounted by one end in pelvis 18 and the other end to be received by torso 16 for engagement with socket portion 24, as depicted inFig. 4.

Once the components of toy 10 have been aligned in their appropriate positions, as previously discussed, the front and back portions of torso 16 and pelvis 18 are joined together using any suitable method, such as those generally known in the art. In some embodiments one half of a body part member includes pins or posts 68, while the other half of the body part member includes receptacles 70 that receive posts 68. In such a configuration, posts 68 are simply aligned with, and pressed into, receptacles 70 to snap the two halves together.

The scope of the invention is defined by the apendent claims.Where any claim recites "a" or "a first" element or the equivalent thereof, such claim should be understood to include incorporation of one or more such elements, neither requiring nor excluding two or more such elements.

Claims (30)

1. A joint for a toy (10) having multiple body part members (12), the joint comprising:

   a plug portion (22); and

   a socket portion (24) adapted to receive the plug portion (22),characterised in thatthe socket portion (24) includes a friction assembly having multiple distinct contact regions (28) that engage an operative surface (30) of the plug portion (22), such that the friction assembly (26) is adapted to produce friction between the multiple distinct contact regions (28) and the operative surface (30) of the plug portion (22), to thereby inhibit relative movement between the plug portion (22) and the socket portion (24), and the socket portion (24) also includes a removable insert (36) adapted to maintain the plug portion (22) in frictional engagement with the socket portion (24).
2. The joint of claim 1, wherein each of the multiple contact regions (28) are formed on an end of a protrusion (34) that extends toward the operative surface (30) of the plug portion (22).
3. The joint of claim 2, wherein the protrusions (34) extend toward the operative surface (30) of the plug portion (22) at angles to one another.
4. The joint of claim 2, wherein the protrusions (34) extend toward the operative surface (30) of the plug portion (22) parallel to one another.
5. The joint of claim 1, wherein the operative surface (30) of the plug portion (22) is convex and at least one of the multiple distinct contact regions (28) is concave.
6. The joint of claim 1, wherein the socket portion (24) is configured to capture and hold the operative surface (30) of the plug portion (22) within the socket portion (24).
7. The joint of claim 6, wherein the socket portion (24) is adapted to urge the operative surface (30) of the plug portion (22) against the multiple distinct contact regions (28).
8. The joint of claim 1, wherein the removable insert (36) includes a substantially cylindrical portion.
9. The joint of claim 8, wherein the removable insert (36) includes a flange extending inwardly from the cylindrical portion, thereby forming a collar to retain the plug portion within the cylindrical portion.
10. The joint of one of claims 2-4, wherein the protrusions are spaced apart, the operative surface (30) of the plug portion (22) is urged into contact with the ends of the protrusions (34) and the removable insert is separately manufactured.
11. The joint of claim 10, wherein the protrusions (34) are formed as ribs that extend toward the operative surface (30) of the plug portion (22) from a wall of the socket portion (24).
12. The joint of claim 11, wherein the ribs are angled towards one another so that the rib members extend toward the operative surface (30) of the plug portion (22) in different directions.
13. The joint of claim 11, wherein the ribs extend from the wall of the socket portion (24) parallel to one another.
14. The joint of claim 11, wherein the ribs form a seat adapted to receive a convex region of the operative surface (30) of the plug portion (22), and wherein each rib has a concave end that conforms at least partially to the convex region of the operative surface (30) of the plug portion (22), such that when the plug portion (22) is urged into contact with the ribs, relative movement between the body part members is inhibited by friction occurring between the concave ends of the ribs and the convex region of the plug portion (22).
15. The joint of claim 10, wherein the protrusions form a seat adapted to receive and center the operative surface (30) of the plug portion (22) thereupon.
16. The joint of claim 15, wherein the operative surface (30) of the plug portion (22) is convex and each of the multiple distinct contact regions (28) has a corresponding concave shape.
17. The joint of claim 10, wherein the socket portion (24) is formed separately from the body part members (12).
18. The joint of claim 17, wherein the operative surface (30) of the plug portion (22) is spherical and includes a shaft (58) extending therefrom, the shaft (58) being narrower in width than the operative surface (30).
19. The joint of claim 18, wherein the shaft (58) extends from the operative surface (30) through an opening in the removable insert (36), the opening being sized smaller than the operative surface (30), such that the removable insert (36) maintains the operative surface (30) captured and held within the socket portion (22) while permitting the shaft (58) to extend through the opening.
20. The joint of claim 19, wherein the insert (36) is positioned so that an area of the removable insert (36) surrounding the opening contacts the operative surface (30) of the plug portion (22) and urges the operative surface (30) into engagement with the protrusions (34).
21. The joint of claim 10, wherein the operative surface (30) is spherical and engages with the protrusions (34) and the plug portion (22) has a shaft (58) that extends away from the operative surface (30) between the body part members (12).
22. The joint of claim 21, wherein an end of the shaft (58) opposite the operative surface (30) has an anchor formed thereon, such anchor being adapted to secure the plug portion (22) to one of the body part members (12).
23. The joint of claim 10, wherein the body part members (12) are adapted to conceal the plug portion (22) and the protrusions (34).
24. The joint of claim 10, wherein the operative surface (30) of the plug portion (22) is captured and held within the socket portion (24), and wherein the plug portion (22) further includes a shaft (58) that extends away from the operative surface (30) and out through an opening sized to accommodate passage of the shaft (58) but prevent withdrawal of the operative surface (30) from the socket portion (24).
25. The joint of claim 24, wherein the operative surface (30) includes a convex contact region which is urged into contact with ends of the spaced apart protrusions (34) of the socket portion (24), and wherein such contact produces friction to thereby inhibit relative movement between the body part members (12).
26. The joint of claim 10, wherein the removable insert (36) includes a substantially cylindrical portion.
27. The joint of claim 26, wherein the removable insert (36) includes a flange extending inwardly from the cylindrical portion, thereby forming a collar to retain the plug portion (22) within the cylindrical portion.
28. The joint of claim 1, wherein the joint is a ball-and-socket joint in which the socket portion (24) holds and captures a ball secured to the other of the body part members (12), the operative surface (3) is formed by an operative convex surface of the ball and the multiple distinct contact regions (28) contact the operative surface (30) at spaced apart locations.
29. The joint of claim 28, wherein the removable insert (36) includes a substantially cylindrical portion.
30. The joint of claim 29, wherein the removable insert (36) includes a flange extending inwardly from the cylindrical portion, thereby forming a collar to retain the plug portion within the cylindrical portion.