Abstract:
An animated figure toy having a lower torso with a trunnion member coupled for rotatable movement, the trunnion including hinge couplers connectable to mating hinge portions on the interior of front and rear halves of the upper torso. A spring is positioned beneath the trunnion for coaction with an actuating post slidingly captively retained within the trunnion for limited axial movement, the post having pivotably attached thereto a head supporting member with a head thereon. Engaging interlocking fingers on the interior of the front and rear halves of the torso hold the parts together, with an actuating member slidably mounted on one of the fingers engageable by a plate portion on the front torso for separation of the arms and movement of the post under force of the spring to pivot the parts outwardly.

Description:
BACKGROUND OF THE INVENTION 
     The background of the invention will be discussed in two parts: 
     1. Field of the Invention 
     This invention relates to animated figure toys, and more particularly to an animated figure toy with a torso constructed to appear to collapse on actuation. 
     2. Description of the Prior Art 
     Toy figures having posable or movable articulated limbs are very popular with children, with some such figures being referred to as action figures. Action figures usually have some distinguishing features or characteristics, such as being configured as the super hero type of figure, and usually such figures are provided with action accessories, such as vehicles and the like to enable the child to configure an action setting. 
     Some such action figures are provided with mechanisms within the torso, or one of the appendages, usually spring-actuated, to enable some form of action such as throwing a punch, or raising an arm or the like, in response to the operation of some control means, such as a depressible lever or the like. Some such figures have articulated or separable portions or are provided with other accessory items for simulating activity. 
     One such device is shown and described in U.S. Pat. No. 1,550,989, issued Aug. 25, 1925 to Stephens for a &#34;Toy Block&#34;, this figure toy including a housing in the form of a block with hinged members therein pivotable to a position simulating a figure with the block resembling a torso. 
     Another animated figure toy is shown and described in U.S. Pat. No. 2,269,095, entitled &#34;Game&#34;, issued Jan. 6, 1945, to Davis, the game including a pair of figure toys assembled to a platform, with members therebelow actuable to move the figures into proximity to simulate a boxing match. 
     Another animated toy in the form of an automobile is shown and described in U.S. Pat. No. 2,597,094, entitled &#34;Impact Operated Toy&#34;, issued May 20, 1952, to Gutmann, the toy being in the form of a vehicle having the components thereof pivotably coupled with springs, and upon impact, the components pivot providing an impression of the vehicle being smashed to pieces. 
     U.S. Pat. No. 2,996,833, issued Aug. 22, 1961 to Giuliano is entitled &#34;Amusement Device&#34;, such patent disclosing a figure toy in the form of an egg upon a wall and having a mechanism including a sound reproducing device driving a belt which topples the egg at a particular moment, the egg then falling into separate pieces, and, as a puzzle, can be reasssembled. 
     Another animation mechanism for a toy figure is shown and described in U.S. Pat. No. 3,346,989, entitled &#34;Pneumatic Space Capsule&#34;, which patent issued to Ryan et al on Oct. 17, 1967, the toy figure having a simulated space suit with hinge parts mountable about a doll, the suit having resilient arm members pneumatically operated by a manually compressible bellows to change shape or position. 
     U.S. Pat. No. 3,874,112, entitled &#34;Animating Device for Figure Toys&#34; issued to Sapkus et al on Apr. 1, 1975, and shows a manually operable hand grip for attachment to a figure toy having articulated appendages for swinging the figure toy through simulated baseball-batting, or the like, activities. 
     Another animated toy is shown and described in U.S. Pat. No. 4,319,751, issued to Kurushima et al on Mar. 16, 1982, for &#34;Hammer Game&#34;, the game including a pair of figures, each having a spring loaded head member detachable upon impact with a hammer pivotably carried by the other figure and actuable by the operator. 
     British Patent Specification No. 8133, by Headworth, accepted Mar. 2, 1916, discloses a &#34;Mechanical Toy Bridge&#34; which divides and springs open upon being struck in a certain spot. 
     It is an object of the present invention to provide a new and improved animated figure toy. 
     It is another object of the present invention to provide a new and improved spring operated animated figure toy configured as a robot, or the like. 
     It is a further object of the present invention to provide a new and improved animated figure toy having a head and torso portions hingedly coupled together for pivotable separation upon actuation of a plate member forming part of the chest. 
     SUMMARY OF THE INVENTION 
     The foregoing and other objects are accomplished by providing a figure toy having a lower torso with a trunnion member coupled for rotatable movement, the trunnion including hinge couplers connectable to mating hinge portions on the interior of front and rear halves of the upper torso. A spring is positioned beneath the trunnion for coaction with an actuating post slidingly captively retained within the trunnion for limited axial movement, the post having pivotably attached thereto a head and arm supporting housing with a head and arms thereon. Engaging interlocking fingers on the interior of the front and rear halves of the torso hold the parts together, with an actuating member slidably mounted on one of the fingers engageable by a plate portion on the front torso for separation of the arms and movement of the post under force of the spring to pivot the parts outwardly. 
     Other objects, features and advantages of the invention will become apparent from a reading of the specification, when taken in conjunction with the drawings, in which like reference numerals refer to like elements in the several views. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a perspective view of the animated figure toy according to the present invention; 
     FIG. 2 is an exploded perspective view of the animated figure toy of FIG. 1 depicting the parts thereof; 
     FIG. 3 is a partial cross-sectional view of the upper torso and head of the animated figure toy of FIG. 1, as viewed generally along a generally central plane extending through the longitudinal center line thereof, illustrating the interior connections in the assembled position; 
     FIG. 4 is a cross-sectional view of the upper torso and head member similar to FIG. 3 with the operative parts pivoted after actuation; 
     FIG. 5 is a cross-sectional view of the toy of FIG. 3 as viewed generally along line 5--5 thereof; and 
     FIG. 6 is a partial cross-sectional view of the upper torso and head of the animated figure toy of FIG. 1, as viewed generally along a generally central plane extending the length thereof from side to side, illustrating the interior connections in the assembled position. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     Referring now to the drawings, and particularly to FIGS. 1 and 2, there is shown a humanoid toy figure, generally designated 10, having a generally hollow upper torso, generally designated 12, formed of front and rear torso shell halves 12a and 12b, a generally hollow lower torso 16, a pair of arms 17 and 18, a pair of legs 19 and 20, and a head 25. Each of the arms 17 and 18 as well as the head 25 is supported in the upper torso 12, by an auxiliary head and arm support housing, generally designated 26 (See FIG. 6). Similarly, the legs 19 and 20 are attached in or to the lower torso 16 for positioning relative thereto. 
     The head 25 is configured in the form of a fanciful creature, such as a robotic archenemy of a superhero, or the like. Similarly the torsos 12 and 16, the arms 17 and 18, and the legs 19 and 20 are configured to provide an overall appearance of a robot like or humanoid figure. 
     As best shown in FIG. 2, it can be seen that the upper torso 12 and lower torso 16 are formed in two parts connectable together to define hollow openings, the two parts being designated with letter suffixes. Similarly the head and arm support housing 26 is formed of two parts 26a and 26b to form a hollow subhousing which captively supports therein the head member 25 and its associated head plug 27. The head and arm support housing 26 is formed with a neck portion 28 which is normally not visible when the toy 10 is in its normal position as shown in FIG. 1. 
     Contained within the hollow interior of the toy 10 are the following parts: a trunnion member generally designated 30, a spring plate member 32, and a post member generally designated 34, this post member 34 being adapted for interconnecting with the head support housing 26 as will be herafter described. 
     For assembly of the toy 10, the legs 19 and 20 are suitably interconnected by a flexible coupler member 38 formed of neoprene or the like having the opposite ends thereof secured within the hollow interiors of the legs 19 and 20 with the center portion thereof being hooked over connection pin 39 under tension within the lower torso halves 16a and 16b, with the upper ends of the legs 19 and 20 positioned within leg openings 40 and 41 of torso 16 (See FIG. 6) with torso 16 assembled. The interior of the upper portion of torso 16 is configured with a ledge portion 42 formed of portions 42a and 42b in spaced generally parallel relation to the opening 44 formed in the upper surface 45 of torso 16. 
     The spring plate member 32 is configured for positioning on the ledge portion 42. The trunnion member 30 has a disc shaped flange portion 30a configured for being rotatably or pivotably retained within the space between the ledge portion 42 and the surface 45 with spring plate member 32 thereunder. The upper portion 30b of trunnion member 30 is formed as a boxlike structure with a generally rectangular opening 46 extending therethrough in alignment with the longitudinal centerline of the toy FIG. 10. 
     The rectangular opening 46 of trunnion member 30 is configured for receiving therein the post member 34 in sliding captive relation. For this purpose, the main body portion of post member 34 is of generally rectangular cross-section slightly smaller then the dimensions of the opening 46. The lower edge of the post member 34 is provided with transversely extending aligned pivot projections 34a and 34b which engage mating recesses 30c and 30d formed on the interior of opening 46 of trunnion 30 adjacent the lower edge thereof (See FIGS. 3 and 6). The recesses 30c and 30d are open at the bottom edge to essentially form slots for enabling limited axial movement of post member 34 along the centerline of the figure toy 10. 
     As depicted in FIGS. 2 through 4 and 6, the trunnion 30 also includes, integrally formed therewith, first and second generally parallel front and rear hinge pins 30e and 30f, positioned and adapted to receive captively thereon hinge hooks 12c, 12d and 12e, integrally formed on the lower edges of the front and rear torso halves 12a and 12b. This interconnection permits pivoting of the front and rear torso halves 12a and 12b relative to the trunnion 30. 
     The upper end of post member 34 is provided with a second set of oppositely extending aligned pivot projections 34c and 34d with an intermediate vertically extending slotted opening at 34e with a lower edge 34f, the projections 34c and 34d lying along a line parallel to the axis formed by projections 34a and 34b. The head and arm support housing 26, when assembled, has a generally rectangular opening 48 (See FIG. 6) formed in the bottom thereof for passage therethrough of the main body portion of the post member 34. 
     By reference to FIGS. 2 through 4 and 6, the upper end of post member 34 pivotally supports the head and arm housing 26. The housing halves 26a and 26b have integrally formed on the interior thereof spaced aligned bearing cutouts, generally designated 49 and 50, which form the journals for rotatably receiving the flanged shaft portions 52a and 53a of first and second arm connectors, generally designated 52 and 53, respectively. The other ends 52b and 53b of the connectors 52 and 53 are generally C-shaped with the open end extending inwardly for receiving therein rod members 17a and 18a secured to the upper inner ends of arms 17 and 18, respectively. As connected, the arms 17 and 18 extend through arm openings 54 and 55, respectively, which are formed in the upper portion of the upper torso 12 at the shoulder portion thereof. With this connection, the C-shaped portions 52b and 53b permit pivoting about the axes of the rods 17a and 18a, in a direction toward and away from the sides of the torso 12, while pivoting of the connectors 52 and 53 about the shaft portions 52a and 53a enable rotation of the arms 17 and 18 along second axes to provide the same effect as a ball and socket joint coupling. 
     The head member 25 has a depending centrally positioned projection 25a with a peripheral groove 25b which is secured by an inwardly extending peripheral ridge of opening 28a at the upper end of neck portion 28 of arm and head support housing 26. As best illustrated in FIG. 3, the upper end of torso 12 is configured to provide an enlarged head opening 60 for enabling the head member 25 to be partially received therein. 
     For interconnection of the front and rear halves of the torso 12, by reference to FIGS. 2 through 6, a generally blade-shaped flexible finger 62 is formed on the interior of the rear torso half 12b in generally perpendicular relation thereto. A matingly coacting generally blade-shaped flexible finger 63 is formed on the interior of the front torso half 12a in generally perpendicular relation thereto with the fingers 62 and 63 being dimensioned, configured and positioned for detachable engagement in the assembled position shown in FIG. 3. To effect this, the forward end 62a of finger 62 is enlarged in cross-section to form a barb, which engages a similar barb 63a formed at the end of finger 63, these fingers, upon engagement, overlapping, while being in general alignment from front to rear within the upper torso 12, as assembled. To permit interconnection of the fingers 62 and 63, the slot 34e of post member 34 is of sufficient size for passage of the fingers 62 and 63 therethrough (See FIG. 6). 
     As shown in FIG. 1, the upper torso half 12a has a chest opening 65 with the upper edge 63b of finger 63 extending partially into this opening at an approximate central position. An actuator member, generally designated 70, has a plate portion 70a of a shape and size corresponding to the opening 65 for insertion therethrough. The member 70 has an actuating arm portion 70b generally perpendicular to the plate portion 70a with a slotted opening 70c along the length thereof for slidable engagement with the cylindrically formed upper edge 63b of finger 63 (See FIG. 6). As shown in FIG. 3, upon assembly, the actuating arm portion 70b of actuator 70 extends below the lower edge of opening 65 to enable retention of actuator 70 on finger 63. 
     It is to be understood that the various components are preferably formed, such as by molding, of plastic materials having the requisite characteristics. In the case of the actuator 70 the material is preferably a rigid, somewhat resilient plastic which enables assembling of the actuator 70 to the finger 63 by a snap fit thus enabling sliding as well as retention thereon. As depicted in FIGS. 3 through 5, the coacting edge 70d of the arm portion 70b is provided with a tapered end which engages the tapered edge 62b of the barb 62a. This coaction will be hereafter described with reference to the description of operation of the toy 10. 
     For assembling the toy 10, the two halves 16a and 16b of the lower torso 16 is assembled with the post member 34 within the trunnion 30 with the spring plate member 32 therebelow and the legs 19 and 20 assembled as described. The upper torso rear half 12b has the hinge hooks 12e and 12f thereof snapped into engagement with the hinge pin 30f of trunnion 30. The actuator member 70 is snap fit onto the finger 63 of the front torso half 12a through the opening 65 thereof. The front torso half 12a then has the hinge hook 12d thereof snapped into engagement with the hinge pin 30e of trunnion 30. The head member 25, which is preferably formed of an expanded foam material such as PVC, has the neck plug 27 inserted therein and the head assembly is then positioned within the neck portion 28 of the arm and head supporting housing half 26b. The arms 17 and 18 are connected to the connectors 52 and 53 and the rods 17a and 18a are attached. The connectors 52 and 53 are then positioned within the housing half 26b and the half 26a is fixedly secured to the housing half 26b. 
     The toy 10 is then ready for interconnection by means of the interlocking barbs 62a and 63a of the fingers 62 and 63. Referring to FIG. 3, the head member 25 is depressed until the spring plate member 32 is deflected downwardly thereby storing energy in the spring member 32. The rear torso half 12b is then pivoted forwardly until the finger 62 thereof extends through the slotted opening 34e of the post member 34. The front torso half 12a is then pivoted rearwardly until the barb 63a of finger 63 engages barb 62a of finger 62, as shown in FIG. 5. During this interlocking the tapered forward edge 62b of barb 62a of finger 62 abuts against the matingly tapered end 70d of actuator arm 70 thereby forcing or sliding the actuator 70 outwardly. 
     Downward pressure on the head 25 is then released, at which point there is a slight retraction of the head 25 due to a slight upward movement of the post 34, which moves an increment sufficient for the lower arcuately configured edge 34f of the slotted opening 34e to abut against the lower edges of the interlocked barbs 62a and 63a positioned therein (See FIG. 3). 
     To cause the parts to pivot, a force is applied to the actuator plate 70a in the direction indicated by the arrow adjacent thereto in FIG. 3. By reference to FIG. 5, this inward force causes tapered edge 70d of actuator 70 to urge against the tapered edge 62b of finger 62 thus separating the barbed ends 62a and 63a of interconnected fingers 62 and 63, respectively. With the cammed edge 34f of post member 34 urging upwardly under the force of spring plate member 32, almost simultaneously, the front torso half 12a pivots forward, the rear torso half 12b pivots rearwardly, the head and arm support member 26 springs upwardly and rearwardly along with the head 25, as shown in FIG. 4, from the dotted line position to the solid line position, providing the illusion of complete destruction of the toy 10. With the parts captively retained, the toy 10 may then be reassembled and reused. 
     In accordance with the present invention, the animated figure toy 10 is provided with a body with hinged, pivotable and movable components in an economical, compact arrangement to provide a striking illusion. While there has been shown and described a preferred embodiment, it is to be understood that various other adaptations and modifications may be made within the spirit and scope of the invention.