The present disclosure relates to banks, and more particularly to coin banks which have a multiplicity of maze-type coin paths connecting a coin inlet to a maze solution portion if successful and to a coin storage reservoir if unsuccessful. The disclosure also relates to a puzzle where players maneuver the coin on various paths, providing a three dimensional experience.
There have been a variety of banks designed to provide an extended viewable path along which coins travel before reaching a storage reservoir. Also known are puzzles in which players maneuver a marble or the like object in three dimensional space to guide the marble along a chosen path before the marble reaches its destination. However, it would be advantageous to provide a three-dimensional maze-type coin bank in which multiple viewable coin paths extend in three-dimensional space and connect a coin inlet to at least one of a coin storage reservoir and a coin receiving member. It would also be desirable to allow opening of the coin storage reservoir only if the player successfully maneuvers the coin to the coin receiving member in order to solve the puzzle.
In accordance with one embodiment of the present disclosure, there is provided a maze-type coin bank comprising a housing including a wall, an inlet opening and an exit door. A lock is mounted to one of the wall and the exit door for selectively opening the exit door. A three-dimensional track construction is held in the housing. It includes a plurality of sections extending along different axes, which accommodate an associated coin for movement along the track construction. The track construction includes a coin entrance portion communicating with the inlet opening and a maze solution portion. Solving the maze involves placing a coin in the maze solution portion of the track construction in order to facilitate an opening of the exit door.
In accordance with another aspect of the present disclosure, a maze-type coin bank comprises a housing, including a coin entrance opening and a door mounted to the housing. A coin storage area is defined in the door or between the housing and the door. A lock is mounted to one of the door and the housing. A coin track is accommodated in the housing. The coin track includes a plurality of sections extending along different axes, a coin entrance portion and a maze solving portion. An associated coin is movable along the coin track from the coin entrance portion to the maze solving portion in order to facilitate an actuation of the lock.
A method is provided for minimizing a curvature of a coin track on which coins can travel. The method comprises providing a coin track including a base wall and a pair of opposed side walls and determining a diameter of the largest diameter coin meant to be handled on the coin track. A desired curvature of the coin track is then determined. A width of the base wall of the track or a height of one of the opposed side walls of the track is adjusted in order to accommodate the largest diameter coin meant to be handled on the coin track having the desired curvature.
The disclosure may take physical form in certain parts and arrangements of parts, an embodiment of which will be described in detail in this specification and illustrated in the accompanying drawings which form a part hereof and wherein:
a-11e are cross-sectional views of selected portions of the track section of
Referring now to the drawings wherein the showings are for purposes of illustrating a preferred embodiment of the disclosure only and not for purposes of limiting same,
A door 40 is pivotally connected to the bottom half 20 of the housing. In this embodiment, the door includes at least one pivot member, which can be termed a hinge section 42 and at least one catch member 44.
Contained within the pair of hemispherical housing members 10 and 20 is a track construction. The track construction comprises a maze-type arrangement or labyrinth with multiple paths on which the coin can travel. One or more of these paths can lead to an exit or correct destination. Other paths can lead to dead ends, wrong turns, pitfalls or incorrect destinations. A three-dimensional track construction is provided so that a coin travelling down the track construction needs to be maneuvered along the multiple tracks by suitably manipulating, rotating or reorienting the housing. To solve the puzzle, the coin needs to remain on the selected coin path as the coin moves or travels from an inlet location to a puzzle solving location.
In one embodiment, the coin can roll on the track construction, such as in the design illustrated herein. In another embodiment, not shown, the coin could slide on a face down the track construction by suitably maneuvering the housing. Solving the puzzle requires a high level of dexterity to manipulate the coin through the track construction. The user has multiple choices of paths on which to move the coin in an attempt to solve the puzzle. Put another way, there are several paths or routes for the coin to travel in an attempt to reach the puzzle solving location. Manual dexterity is a requirement for solving the puzzle and for maneuvering the coin from the inlet location to the puzzle solving location.
If the puzzle is not solved, the coin will end up in a coin storage location. As will be discussed below, the coin storage location holds a reservoir of coins in the coin bank. The coin solving location will allow the reservoir to be accessed by the player of the puzzle, but only upon solving the puzzle or maze. The track construction includes a main track 50, as well as a number of track sections, including an initial or first track section 70, another track section 72 and still other track sections 74-86. At least one movable coin transfer element 32 communicating with one or more track sections can also be provided. The track sections can be of differing shapes, sizes, lengths and configurations. It should be appreciated that the track sections can be connected to each other at a variety of locations along the length of a track section, as may be desired in order to design a particular track configuration for the maze.
With reference now to
It should be appreciated that the track can have sections which are oriented generally perpendicular to each other. Alternatively, one or more track sections can be connected to each other at any given acute or obtuse angle as may be desirable for a particular maze configuration.
One or more of the track sections can be double sided. Such a construction adds visual interest to the maze and may perhaps lead a participant attempting to solve the maze down an incorrect path. Moreover, the frequent manipulations of the housing may ultimately lead to a coin being located on an opposite side of a track portion that has already been used. As mentioned, the track construction can further include a coin transfer element or moving member 32 which can communicate with track section 82. In the disclosed embodiment, the coin transfer member pivots from one side of track section 82 to the other so that the coin can then travel via another track section such as 76 or 79 and eventually reach a coin receptacle, receiving member, or coin catcher 34. The coin catcher 34 communicates with the track construction via the maze solution portion 94 of the track. The track construction allows a coin to move from a horizontal path to a vertical path and vice versa as several track sections have end portions that are oriented generally perpendicular to each other. The track construction runs in three-dimensions, obligating the player to maneuver the coin traveling down the track in an attempt to reach the maze solution portion. As mentioned, solving of the puzzle will require manual dexterity by the user.
With reference now to
With reference now also to
Held on a bottom wall 30 of the bottom half is the transfer element or coin spinner 32 and the coin receiving member or coin catcher 34. Movably mounted to the bottom wall 30 is a push rod 36 which can be manually actuated. The push rod 36 can activate the lock mechanism when a coin correctly lands in the receiving member 34. When that happens, the player can move the push rod 36 so as to actuate the latch mechanism 120. When the rod is pushed, the latch 124 can be opened thereby allowing the door 40 to pivot away from the remainder of the housing bottom half 20. This movement allows the coins, held in the coin storage compartment defined in the door, to be retrieved by the player. On the other hand, if the player is unsuccessful in landing the coin in the receiving member 34, the coin will, instead, fall onto the bottom wall 30 and eventually slide through the opening 110 in the wall 30 and thence into the coin storage container defined by or in the door.
With reference now to
With reference now to
With reference now to
When a coin does land in the receiving member 34, as illustrated in
A first biasing member such as a spring 150 biases the latch mechanism 120 towards the closed position as is shown in
The latch mechanism 120 has a first end position which is illustrated in
In this embodiment, the spring 160 is trapped between an enlarged diameter section 168 of the push rod and the guide 156. The spring encircles a reduced diameter section 170 of the push rod.
With reference now to
With reference now to
A change in the height of the side walls and a change in the distance between the side walls impacts the ability of coins to move along the track. The present disclosure teaches that one is able to keep a coin of a given diameter in play on the track when tightening a curve of the track by at the same time widening the distance between the two side walls or by making the side walls higher so that the coin stands more upright and rolls on edge, or a combination of the two. By changing either or both of these dimensions, one is able to control the movement of the coin.
Thus, one can determine a minimum curvature of a coin track on which coins can travel. First, one needs to determine the diameter of the largest diameter coin which is meant to be handled on the coin track. Then, one needs to adjust at least one of the width of the base wall of the track and a height of at least one of the pair of opposed side walls of the track. In this way, the minimum curvature that a coin track can take while still accommodating a given diameter of coin can be determined. Minimizing the radius needed for curving tracks is advantageous in order to fit curving tracks into housings that are not overly large, which could negatively impact the marketability of a maze-type coin bank. In other words, smaller size housings are desirable and difficult to achieve.
With reference now to
While the track elements disclosed herein can be of a generally constant width, that is not a requirement. In other words, a width of the track can vary along the length of the track, if so desired. The track can have a width ranging, in one embodiment, between 0.180 and 0.220 inches. Of course, depending on the type of coin being handled in the maze, the width of the track may need to be adjusted in order to accommodate particularly thick or thin coins meant to be handled by the maze. What is necessary is that the track base wall have a width large enough to accommodate the thickest coin which is capable of being inserted into the maze.
Disclosed has been a coin bank puzzle or maze where players maneuver a coin on one of several tracks or paths inside a housing that can be transparent. In one embodiment, the housing can be in the form of a regular sphere. However, in other embodiments, the housing can be in the form of a generally spherical object made up of a multiplicity of planar hexagonal and pentagonal sections, such as a soccer ball. Other such configurations are also possible. So, too, are non-spherical configurations, such as cylinders, rectangles, cubes and the like. A three-dimensional experience is provided as the players need to turn, rotate and pivot the housing in order to keep or maintain a coin, entering the coin bank puzzle through the coin slot 100, on one of the several track sections 50 and 70-86 contained therein. Players work with gravity and rotate and/or reorient the puzzle in order to guide the coin along the track. Success is achieved when the coin lands in the coin receiver 34. When it does, movement of the push rod 36 can open the door 40 by separation of the latch from the catch. Opening the door allows coins held in the coin container at the base of the coin bank puzzle to be retrieved. However, if the coin departs the track construction, it will eventually drop onto the bottom wall 30 and can then be slid into and through the opening 110 in the bottom wall so as to fall into the coin holder or storage area. If this occurs, another coin will need to be fed into slot 100 in order to try to solve the three dimensional puzzle or maze and access the coin storage area.
The serpentine maze-type track construction illustrated herein is composed of a variety of track segments of varying shapes, sizes and lengths, as is evident from
The disclosure has been described with reference to a preferred embodiment. Obviously, modifications and alterations will occur to others upon a reading and understanding of the preceding detailed description. It is intended that the disclosure be construed as including all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
This application claims priority from the U.S. Provisional Application Ser. No. 61/604,302 filed on Feb. 28, 2012, the subject matter of which is incorporated hereinto in its entirety.
Number | Date | Country | |
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61604302 | Feb 2012 | US |