US3066442A - Animated pull toy - Google Patents

Description

Dec. 4, 1962 Filed July 22, 1960 R. AYE

ANIMATED PULL TOY llll-i-llllllll IIIIiIIIIl 26 2 Sheets-Sheet 1 INVENTOR RAYMOND AYE ATTORNEYS Dec. 4, 1962 R. AYE 3,066,442

ANIMATED PULL TOY Filed July 22, 1960 2 Sheets-Sheet 2 FIG. 5

= INVENTOR. 24 44 RAYMOND AYE ATTORNEYS KLU ARA Q W United StatesPatent Ofilice 3,%h,44-2 Patented Dec. 4, 1962 3,d,442 ANHMATEB FULL TOY Raymond Aye, @524 Cranberry Lane, tit. Louis 21, Mo. Filed July 22, 196i Ser. No. 44,663 3 Claims. (Cl. 46- 39) This invention relates to improvements in toys, and. in particular, is concerned with an animated pull-type of toy whereby the motion of the wheels, as the toy is pulled along the ground, imparts movement to various body portions of the toy which may be made of a plastic material.

It is a particular feature of this invention that a toy, such as a toy bird or other animal, can have motion imparted to it by a very simply constructed mechanism that is powered by the movement of the wheels and axle forming a body support upon which the toy is mounted. The movement of the wheels drives an axle which can cause a sounding motion and, in addition, serves as a powering means to operate body portions so that full animation is obtained. Particularly, the invention is in the embodimerit of a toy bird whereby flapping of the wings is obtained, coupled with an oscillation of the head, to provide a life-like movement.

It is a particular advantage of the construction of the toy that there is a built-in safety feature provided by means of the powering mechanism. This is obtained by an elastic drive belt, in the nature of a rubber band or the like, connecting the driving shaft to mechanism for moving the wings and the head. The elastic band provides slippage should for any reason a child grasp the wings or the head and prevent movement. This, of course, is a normal circumstance in toys where children provide very rough treatment. By the avoidance of direct linkages, damage to the toy is prevented and the elastic drive belt operates much in the fashion of a slip device or clutch to prevent breakage in such instances.

As a further feature of this invention it will be observed that the sounding mechanism is completely self contained in the toy and is separate from the motion imparting mechanism. Thus, should the movable portions of the toy body be grasped by a child, continued movement of the toy, whereby motion to the wheels is imparted, can still cause the sounding mechanism to operate and no damage can occur, because the body moving parts are not associated with the sounding mechanism. The toy is constructed of very simply formed components and can be automatically operated by merely pulling it along the ground. Thus, it can be used with no skill at all required to provide a very animated and life-like and trouble free operation. Further, by means of the safety features provided in the elastic power belt, damage through hard wear and the like can be very substantially avoided.

It is accordingly an object of this invention to provide a pull-type toy, powered by wheels that impart motion to various body portions through a friction drive belt.

It is a further object of this invention to provide a pulltype animated toy having movable wings that are operated by a driving mechanism and a friction drive belt.

It is still another object of this invention to provide an animated toy having an oscillatory head which may be operated by a friction drive belt.

Still a further object of this invention is to provide an animated toy in which the movement of the wheels moves an operating shaft and a connected friction drive belt to provide an independent sounding or noise making operation and movement of wings and oscillation of the head.

Yet another object of this invention is to provide an animated pull-type toy having movable body members and a sounding mechanism made from simply constructed parts and in which the toy is rugged in construction and is provided with features that prevent damage to the op erating mechanism by slippage of a friction drive belt and which is relatively inexpensive in cost.

Still further objects of this invention will appear in the detailed description which follows and will be further ap parent to those skilled in the art.

For the purpose of illustration of this invention, there is shown in the accompanying drawings a preferred embodiment. It is to be understood that these drawings are for the purpose of illustration only and that the invention is not limited thereto. Thus, instead of an animated bird, an animated bear, or other animal, or the like, can be employed.

In the drawings:

FIGURE 1 is a view in front elevation of the toy;

FIGURE 2 is a view in side elevation. of the toy taken from the right side of FIGURE 1;

FIGURE 3 is a View in section taken on the line 33 of FIGURE 2; I

FIGURE 4 is a vertical view in section taken on the line t4 of FIGURE 2;

FIGURE 5 is a vertical view in section taken on the line 55 of FIGURE 1;

FIGURE 6 is a horizontal view in section of the toy taken in the position of theline 66 of FIGURE 4; and

FIGURE 7 is an enlarged fragmentary pictorial view showing the operating mechanism for oscillating the head of the toy.

Referring now to the drawings, the toy is generally indicated by the reference numeral It? in FIGURES 1 and 2. As there shown, it comprises as its major features awheeled base 12, a body portion l4, movable Wings 116 and 18, and an oscillatable head Ztl. The toy is adapted to be pulled along the ground by means of acord 22 connected to the base l2.

Thebase 12, as particularly shown in FIGURES l, 2, 3, 4 and 5, is comprised of aflat base element 24, which has freely movablerear wheels 26 and 28. Eccentrically positioned powering wheels 3t} and 32, which are larger than the rear wheels, are positioned at the front of the base to provide a wobbling action, but it is to be understood that evenly centered wheels may be used where desired. These wheels are rigidly keyed to a drive shaft oraxle 34 to provide for the powering of the animated portions of the toy.

A sounding mechanism, generally indicated by thereference numeral 36, is positioned upon the top of thefiat base element 24, and is best shown in FIGURES 3, 4 and 5. As there shown, it comprises a sounding box 33 having ahollow chamber 40. Connected to the inside of the sounding box is anoise making spring 42 having an end biased upon a sound makingratchet wheel 44. The ratchet wheel is keyed to thedrive shaft 34 and rotates with it. Relative movement between thespring 42 and the noise makingratchet wheel 44 causes a loud clicking noise as the drive shaft rotates as the toy is pulled along the ground with this noise being magnified by the sounding chamber it The basic powering mechanism for moving the wings and head comprising the drive belt mechanism is generally indicated by thereference numeral 48 in FIGURE 5. As there shown, it comprises abottom pulley wheel 5% rigidly connected to thedrive shaft 34. Atop pulley wheel 52 is supported upon a shaft 54- journaled in opposite sides of thetoy body 14. Anelastic drive belt 56, which may be a rubber band or the like, is positioned over the lower pulley wheel 5t andtop pulley wheel 52 so that motion of the drive shaft moves thepulley wheel 50 and imparts rotary motion to thetop pulley wheel 52 through theelastic pulley belt 56. It will be particularly noted that should the top shaft be frozen or blocked in position for any reason thepulley belt 56 will merely slipe upon the two pulley wheels and damage will thereby be prevented to the operating parts.

The construction ofwings 16 and 18 is best shown in FIGURES 1, 2 and 4. As there shown,wing 16 is formed of a rigid material and is loosely connected to the body 14- byhooks 62 passing through openings in the top of the wing element. Thewing 18 is connected in identical fashion to the opposite side of the body. The means for imparting movement to the twowings 16 and 18 comprises oppositely turned wing operating arms that extend from theshaft 54. Thus, as will be apparent in FIGURE 4, there is connected at the left end of the shaft 54 awing operating arm 64, while at the opposite end, and bent to the opposite direction, is awing operating arm 66. As theshaft 54 rotates theoperating arms 64 and 66 will strike the underneath portions of thewings 18 and 16, respectively, to cause them to move upwardly and downwardly in a flapping motion. It will, of course, be understood that where desired the arms 64- and 66 may be bent in the same direction to give a simultaneous movement of the wings rather than a sequential movement should this be desired.

The structure of the oscillatory head Ztl is best shown in FIGURES 4 through 7. As there shown, thehead 20 is mounted upon anoscillatable stub shaft 70 which is supported upon the top of thebody 14. This relationship is shown in FIGURES 4 and 5. The top of the body is comprised of aflat portion 72 having an opening 74 receiving thehead stub shaft 70. The bottom of the head has afiat portion 76 which meets closely with the top of the body so that the exterior portion of the body and the head form what appears to be a continuous surface. This structure enhances the relative movement of the parts through the mating fiat portions of the bottom of the head and top of the body to form a bearing surface.

The mechanism for oscillating the head comprises a striker bar 8%] which is rigidly connected to theupper pulley wheel 52. This striker bar is adapted to contact an operating arm generally indicated by thereference numeral 82, and which is carried by thestub shaft 70. It will be noted that theoperating arm 82 has abent end portion 84 which facilitates the contacting by thestriker bar 80. The other end of theoperating arm 82 has a hookedportion 86 which receives one end of arubber band 88. This rubber band is connected at its other end to a hook attached to the inside of the body as shown in FIGURE 6. In the unoperated position of the operating arm therubber band 88 will bias the operating arm to a position where thearm 82 contacts astop pin 92, which is connected to the bottom of the upper Wall portion '72 of the body. Thisstop pin 92 is shown in disembodied fashion in FIGURE 7 as it is connected to theWall portion 72 rather than thebottom portion 76 of the head.

Operation The toy may be very simply operated with all of its features by simply pulling it along the ground or the floor, or the like. As it is pulled along by thecord 22 the eccentric wheels and 32 will impart a wobbling action. Further, as these wheels are moved by frictional contact with the ground, theshaft 34 will be caused to rotate. The movement of theshaft 34 imparts all of the power necessary for the noise making and the movement of the wings and the head.

Thus, as theshaft 34 rotates it will cause theratchet wheel 44 to rotate. This rotation will cause a clicking noise by virtue of the contact of the end of thespring 42 with the grooves in the ratchet wheel. The noise will be magnified through thehollow chamber 40 in thesound box 38.

Further, as theshaft 34 rotates, rotary movement of the drum orpulley wheel 50 will follow. This in turn causes the movement of thefriction pulley belt 56 to cause the movement of thetop pulley wheel 52 and theshaft 54. Theshaft 54, as it rotates, will cause the flapping upwardly and downwardly of the twowings 16 and 18. Thus, as shown in FIGURE 4, the contacting of theshaft end portion 64 will move thewing 18 and continued rotation will cause the flapping upwardly and downwardly of thewing 16 by the wing operatingend portion 66 of the shaft. In this operation it should be noted that should for any reason a child grasp the wings so as to move them against the end portions of thewing operating arms 64 and 66, or should these elements be seized by a child, continued pulling of the wheels to impart the motion to the pulley wheel will not cause damage. Thus, slippage will occur between thepulley belt 56 and thepulley wheel 50 and the operating parts will not be injured.

In the above operation the rotary movement of theupper pulley wheel 52 also causes oscillating movement of the head to back and forth positions. As the striker bar 8% moves in the rotary fashion, as shown in FIGURE 7, it will first contact the operatingarm end portion 84 of theshaft 82. Continued movement in the direction of the arrow shown in FIGURE 7 will cause thehead 20 to move in the direction of the arrow of FIGURE 7, which will be in a clockwise direction viewed from the top. This operation is also shown in FIGURE 6 with the dotted position of the head operating arm indicating the nearing of completion of the rotary movement of the head.

In this action the operating arm will be moved against the force of the biasingrubber band 88. Continued rotary movement of theupper pulley wheel 52 causes disengagement of the striker bar with theoperating arm portion 84. As this disengagement occurs therubber band 80 will move the head from the intermediate position shown in FIGURE 6 to a point where theoperating arm 82 is stopped by the limiting action of thestop pin 92. It will be readily apparent that as thepulley wheel 52 continues to rotate as the toy is pulled along the ground the movement is repeated so that the head moves back and forth in oscillating fashion.

It will be apparent that by the instant invention an animated toy has been provided to give both a sounding acion and movemcntof the wings and the head. It will be readily apparent that the movement of the wings could also take the form of movement of arms or other limbs and that the invention is not limited to a toy bird. The toy is one that is rugged and has a built-in safety feature by means of the provided elastic friction drive belt, which may, in the actual production, be a rubber band or the like. The life-like action provided and simple operation makes the toy quite desirable in its convenience for production and simplicity in use.

Various changes and modifications may be made within this invention as will be readily apparent to those skilled in the art as mentioned previously. Such changes and modifications are within the scope and teaching of this invention as defined by the claims appended hereto.

What is claimed is:

1. An animated bird comprising a wheeled base and a body having feet, movable wings and a head which is vertically supported for oscillation about a vertical axis by the body, said wings being loosely supported at a top portion to the body, said wings being gravity biased downwardly, and said head being spring biased in one direction, power means comprising an axle secured to wheels supported by the base, said axle being rotated by frictional contact of the wheels with the ground as the toy is manually moved upon the ground, said power means further including a slippable pulley belt connecting a lower pulley wheel secured to the axle with an upper pulley wheel secured to a rotary operating shaft supported by the body, and wing operating means and head operating means carried by said operating shaft cooperating through an alternate engaging and disengaging cycle with the wings and the head, respectively, to effect an intermittent oscillating motion of the wings about a horizontal axis and the head about a vertical axis, said head operating means comprising an opera-ting arm connected to the head and engageable intermittently by a striker member, supported by the second mentioned pulley wheel for a portion of each cycle of revolution of the operating shaft.

2. An animated bird comprising a wheeled base and a body having feet, movable wings and a head which is vertically supported for oscillation about a vertical axis by the body, said wings being loosely supported at a top portion to the body, said wings being gravity biased downwardly, and said head being spring biased in one direction, power means comprising an axle secured to wheels supported by the base, said axle being rotated by frictional contact of the wheels with the ground as the toy is manually moved upon the ground, said power means further including a slippable pulley belt connecting a lower pulley wheel secured to the axle with an upper pulley wheel secured to a rotary operating shaft supported by the body, and wing operating means and head operating means carried by said operating shaft cooperating through an alternate engaging and disengaging cycle with the wings and the head, respectively, to effect intermittent oscillating motion of the wings about a horizontal axis and the head about a vertical axis, said head operating means comprising an operating arm connected to the head and engageable intermittently by a striker member, supported by the second mentioned pulley wheel, for a portion of each cycle of revolution of the operating shaft, the biasing of said head being effected by biasing said operating arm to a limiting position in which it is ready to be engaged by the striker member.

3. An animated bird comprising a wheeled base and a body having feet, movable wings and a head which is vertically supported for oscillation about a vertical axis by the top of the body, said wings being loosely supported at a top portion to the body, said wings being gravity biased downwardly, and said head being spring biased in one direction, power means comprising an axle secured to wheels supported by the base, said axle being rotated by frictional contact of the wheels with the ground as the toy is manually moved upon the ground, said power means further including a slippa-ble pulley belt connecting a lower pulley wheel secured to the axle with an upper pulley wheel secured to a rotary operating shaft supported by the body, and wing operating means and head operating means carried by said operating shaft cooperating through an alternate engaging and disengaging cycle with the wings and the head, respectively, to impart motion thereto, said wing operating means comprising eccentric elements at the end of the operating shaft intermittently engaging and disengaging from the wings to cause movement of the same, said head operating means comprising an operating arm connected to the head and engageable intermittently by a striker member, supported by the second mentioned pulley wheel, for a portion of each cycle of revolution of the operating shaft and a sounding means operable independently of the wing and head operating means comprising a sound box having a sound spring cooperating with a sound ratchet wheel carried by said axle.

References Cited in the file of this patent UNITED STATES PATENTS 1,365,533 Nash Jan. 11, 1921 1,556,244 Nause Oct. 6, 1925 2,475,072 Behrens July 5, 1949 2,534,609 Mann Dec. 19, 1950 2,551,109 Fornary May 1, 1951 2,935,816 Michael May 10, 1960

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