1. Field of the Invention
This invention relates to rocking horses, rocking chairs, and the like, and more particularly, to making rocking horses and the like move forward and turn by rocking. More specifically, it involves arrangements for translating rocking motion into linear motion and for guiding the linear motion.
2. Background of the Invention
Common examples of devices employing rocking motion are rocking horses and rocking chairs. Rocking horses are toys that are large enough for a child to ride, and are mounted on rockers. Rocking chairs are chairs having legs set on rockers. Rockers are one of two curved or arcuate pieces of wood or the like upon which a rocking horse or a rocking chair rocks. Rocking horses and rocking chairs and the like generally remain in place during rocking.
3. Prior Art
The prior art includes the above-mentioned rocking horses and rocking chairs.
Accordingly, it is an object of the invention to enable rocking horses, rocking horses, and the like, to move during the rocking motion.
Another object of the invention is to enable a moving rocking horse, rocking chair, or the like, to be steered during the rocking motion.
Still another object of the invention is to enable the above objects to be easily achieved by the rider or occupant of a rocking horse or rocking chair.
A further object of the invention is to provide simple and inexpensively manufactured arrangements for accomplishing the above objects.
Yet another object of the invention is to provide a rocking motion to linear motion conversion mechanism that is useful in other devices.
According to the invention, energy created and/or otherwise available during rocking is transformed into a forward (steps) or to a lateral (steering) movement. The rockers or arcuate members of conventional rocking horses or chairs, etc., may each be equipped with a relatively movable stirrup or assembly or component or element which supports the rocker or arcuate element in spaced relationship to its normal rocking surface at some point during the rocking motion. The relatively movable stirrup or assembly or component or element may have a home position on its rocker or arcuate member in which no relative movement occurs during normal rocking motion, and other positions in which relative movement may occur (the greater the distance of the other position from the home position, the greater the relative movement possible). If both stirrups are displaced an equal amount, forward, straight ahead movement of the rocking horse may occur during rocking motion. If one stirrup is moved differentially with respect to he other, turning movement in a direction opposite the stirrup most displaced, may take place.
The rocking horse or chair, at rest, may be supported via its rockers or arcuate members, indirectly upon the floor or other supporting surface through their corresponding stirrups. If a rider mounts the horse or chair and rocks it off of the stirrups so that the rockers or arcuate members rest directly on the floor instead of through the stirrups, the moveable stirrups may be displaced to another position in which movement of the horse or chair with respect to the stirrups and the floor may take place when the horse or chair is rocked thereon.
In the preferred embodiment shown, the stirrups may be shifted forward from their home position by the rocking-horse rider during the back portion of a rocking cycle. During the subsequent front portion of that rocking cycle, the rockers or arcuate members will rise up on the now displaced stirrups and thereafter slide freely forward thereon carrying the horse and rider forward a step, the action being abetted by the rider's pressure on the stirrups and pushing forward on the horse (the rider somewhat imitating the normal forward position of a horse rider). Forward rocking motion may come to a stop with the rockers in full engagement with the floor. During the subsequent rearward motion in the rocking cycle, the rockers will rise upon the stirrups and return to direct contact with the floor, freeing the stirrups again for forward displacement from the home position by the rider during a latter part of the backward portion of the present rocking cycle and/or the early part of the forward portion of the next rocking cycle. This action may be repeated in subsequent rocking cycles to translate the rocking horse as far as desired with respect to its supporting surface such as a floor.
If only one stirrup is displaced with respect to its rocker or arcuate member, only that rocker or arcuate member will be allowed to move during the rocking motion, resulting in turning motion of the rocking horse about the other stirrup with respect to its supporting surface.
In the preferred embodiment, the movable stirrups or slide assemblies or components or elements which support each rocker or arcuate member in spaced relationship to its normal rocking surface at some point during the rocking motion, are movable freely along the rockers or arcuate elements when the latter are resting directly on the floor. This situation obtains when the horse is rocked to the rear. The stirrups or movable assemblies or components or elements are pushed forward on the rockers or arcuate elements proby the feet of the rider.
When the horse is rocked back, it moves off the stirrups or movable assemblies or components or elements on which it may normally rest and frees them for movement forward. If the rider now pushes forward with his legs on the stirrups or movable assemblies or components or elements, the latter will advance forward on the rockers or arcuate elements. When the horse tips forward in its rocking cycle, the stirrups make contact with the floor, thus raising the rockers or arcuate elements out of contact with the floor. Continued forward rocking motion of the horse, abetted by the rider pushing the horse forward against the stirrups, causes the horse to move forward with respect to the floor through the stirrups. This forward motion of the horse until the rocking action of the horse again puts the rockers or arcuate members in contact with the floor where friction takes over, this time at their forward ends. Forward motion of the horse may also be limited by the amount of relative motion accommodated between the rockers and the stirrups. Thus the horse advances through the stirrups, returning the stirrups to their normal position relative to the rockers.
When the horse and rider rock back, the rockers also rock back over the stirrups to where rocking motion continues with them on the floor and the stirrups are free to move forward again with respect to the rockers (if the rider the rider desires to force them forward again). If the rider wishes to continue forward motion of the horse, the action, including forward shifting of the stirrups in rhythm with the rocking action, is repeated.
By reducing the amount of forward displacement of the stirrups or movable assemblies or components or elements, less forward movement of the horse will occur. By differentially displacing them, turning movement in the direction of the one less displaced, will occur.
An advantage o the invention is that it develops a child's sense of timing, coordination, and dexterity. To cause the rocking horse to move forward, a child must first move the stirrups or movable assemblies or components or elements forward sometime during the back portion of the rocking cycle. Then during the front portion of the rocking cycle, when the rockers or arcuate elements have moved forward onto the stirrups or movable assemblies or components or elements, he may exert the pressure on the stirrups to move the rockers, and hence the horse, forward thereon; later he may move the stirrups forward again to continue forward movement.
Steering then becomes the next challenge. Only one or the other stirrup or movable assembly or component or element need be moved; the rocking horse turning in the direction of the side whose stirrup was not moved from its normal position. Thereafter the child may experiment with power turns; both of the stirrups or movable assemblies or components or elements being moved, but differentially so that forward motion and steering are simultaneously effected.
These and other objects, features, and advantages of the invention will become apparent from a consideration of the appended drawings, when considered with the following description, of a preferred embodiment of the invention, wherein:
a depicts a rocked back position;
b depicts the stirrup or slide assembly or component or element on the near side having been moved forward by a rider (not shown) to a walking or turning position while the horse is in a rocked back position;
c depicts the horse is in a rocked forward position in which the slide assembly or component or element on the near side rests on the supporting surface and the corresponding rocker or arcuate element is free to slide therethrough;
d depicts the horse is in a partially rocked forward position in which the stirrup or slide assembly or component or element on the near side still rests on the supporting surface but the corresponding rocker or arcuate element has slid partially forward therethrough under the weight of the horse and a rider thereon and inertial forces, the sliding action resulting in forward walking or translatory motion of the horse if the elements on both sides had been moved forward and in turning to other side if only the element on one side had been moved forward;
e depicts the horse in a fully rocked forward position in which the corresponding rocker or arcuate element has slid completely forward through slide assembly or component or element on the near side and may itself again rest on the supporting surface, and from which the horse rocking back action to a
Referring now more particularly to the drawings, there is shown in
The left and right rockers or arcuate members 20 and 22 movably mount stirrups or assemblies or components or elements generally indicated by the numerals 28 and 30 respectively. Stirrups 28 and 30 are duplicates of the other, so only stirrup 28 will be described in detail. As best seen in
As best seen in
A strap 44 extending across the top of each stirrup and attached at its ends to the sides of the top plate 31 of the stirrups, aids the rider in moving the stirrups on the rockers 20 and 22.
To use, a rider would seat himself or herself on the seat 26 of the rocking horse 10 (
Eventually the rockers 20 and 22 will rock onto the stirrups 20 and 22 and off the floor 42. Where this will be in the rocking cycle is dependent on the position of the stirrups. If they have not been displaced from home position, it will be essentially midway of the going forward portion of the rocking cycle. If the stirrups 28 and 30 have both feet pushed forward by the rider, it will be in the latter part of the forward portion of the rocking cycle.
If the stirrups have not been displaced from home position, the rockers 20 and 22 merely rock over their stirrups 28 and 30 and back onto the floor at their forward ends. Eventually, the forward rocking motion stops and the backward rocking motion begins in normal fashion, the stirrups momentarily separating the rockers from the floor during it. The stirrups will be prevented from engaging in relative movement with respect to their rockers 20 and 22 by the engagement of the sets of ball bearings 38 with the rear ends the slots 40.
In the preferred embodiment shown, the stirrups 28 and 30 can readily be displaced from home position during the back portions of the rocking cycle. Assuming the rider desires the rocking horse to engage in forward travel at maximum speed, he or she will displace the stirrups forward all the way. (This stirrup position is determined by the engagement of the sets of ball bearings 38 with the front ends of the slots 30.) As the rockers 28 and 30 rock up on their stirrups 29 and 30, they will become free of their frictional contact with the floor and free the slide through the stirrups on the sets of ball bearings until either the bearing sets are engaged by the rear ends the rocker slots 40 or the rocking horse 10 has rocked forward so much that the rockers 20 and 22 frictionally engage the floor at their front ends.
Normally the rider will be leaning forward during the forward portion of the rocking cycle, as in normal horseback riding. In so doing he will be imparting forward momentum to the rocking horse by being forward of the center of gravity, which forward inertia will be aided and abetted by any thrust of his legs against the stirrups 28 and 30. Initially the rockers 20 and 22 will be prevented from translating forward by their frictional engagement with the supporting surface 42; however, once they are out of contact with the floor and supported thereon by the stirrups, they will slide forward in the stirrups which are being frictionally held in place by the floor.
The length and location of the grooves 40 are design choices.
A tension spring 46 (
A forward step of the rocking horse may begin by the rider of
If rocking over the stirrups is too bumpy, the lower surfaces on the front and rear ends of the stirrup side walls 32 and 34 may be chamfered to smooth the transition.
To steer, only one of the stirrups needs be moved forward, turning on the other stirrup taking place while the rocker slips forward through its displaced stirrup.
To effect a power turn, both stirrups would be displaced forward, the one on the side of the desired direction of turn being moved least forward.
While there has been shown and described preferred embodiments of the invention, it will be apparent to those skilled in the art that other and different applications may be made of the principles of the invention. It is intended therefore to be limited only by the spirit of the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
152474 | Emery | Jun 1874 | A |
1638951 | Nentwig | Aug 1927 | A |
2239982 | Welch et al. | Apr 1941 | A |
2490059 | Jacobs | Dec 1949 | A |
2561301 | Weglarz | Jul 1951 | A |
2680020 | Dwyer | Jun 1954 | A |
3848869 | Morrison | Nov 1974 | A |
4807926 | Brunn | Feb 1989 | A |
4834402 | Jian | May 1989 | A |
4989856 | Shieh | Feb 1991 | A |
Number | Date | Country | |
---|---|---|---|
20070296255 A1 | Dec 2007 | US |