This invention relates to a child's activity toy, and particularly to such a toy that comprises a planar surface fixed in a frame, and at least one and usually a plurality of dispensers that will dispense coloured discs onto the planar surface, when the dispensers are activated by being pressed against the planar surface. The discs may be dispensed one at a time, or if the dispenser is held against the planar surface and moved at the same time the discs will be dispensed seriatim. The frame is also provided with a sorting system to sort the coloured discs into groups for each colour, and to refill the respective dispensers for each respective colour.
Children enjoy drawing, painting, and playing with bright and multiple coloured toys and other pieces. Numerous designs are known for providing simple activity centres or drawing tools comprising a flat board onto which paper, or the like can be attached and onto which, a child can attached letters, shaped designs, or the like, or draw free-hand to produce an image.
While these types of devices are generally well received by most children, it would still be advantageous to provide an alternative activity toy that would allow the child to “paint” a picture using brightly coloured pieces, and then be able to collect, sort and re-use those pieces to produce additional images.
In our co-pending U.S. patent application No. 61/389680, we have previously described such a toy, and the contents of that document are incorporated herein, by reference.
The present inventors have now discovered improved methods of dispensing the coloured pieces, or “discs” using specifically designed dispensers, and have also provided improved methods for collecting and sorting of the discs so that they can be placed back into the appropriate dispenser—ready for re-use.
As such, a child of at least three or four years of age may be trained to fully enjoy the toy by learning how to remove coloured discs from its planar surface, sort them by colour using an aspect of the present invention to be taught hereafter, and refilling the specific dispensers with specific designated colours, also using an aspect of the present invention to be taught hereafter. This teaches the child such matters as self-discipline, eye-hand coordination, patience, and visual enjoyment.
In accordance with one aspect of the present invention, there is provided a dispenser for dispensing circular discs onto a surface, when activated, comprising:
a generally cylindrical outer sleeve and a substantially cylindrical dispenser tube located within said outer sleeve, each of which has a first end and a second end;
first and second end sleeve rings (or caps) located at the respective first and second ends of the outer sleeve; and
spring means within said outer sleeve to bias said dispenser tube within said outer sleeve.
The interior wall of the outer sleeve has:
a first recess formed therein near the first end;
first and second bearing rings formed at each end of the outer sleeve, and a third bearing ring formed at the end of the first recess distal from the first end;
and a pair of wedge shaped guide probes extending from the second end of the outer sleeve, and arranged 180° from each other.
The first and second end sleeve rings are fitted to the two ends of the outer sleeve, but the length of the dispenser tube is greater than the combined length of the outer sleeve and the end sleeve caps so that it preferably extends beyond the first and second ends of the dispenser tube.
The dispenser tube is adapted to slide within the outer sleeve, and is biased in one direction, by said spring. The dispenser tube slides against the bearing rings on the outer sleeve. A stop ring is formed on the outer surface of the dispenser tube in a location so as to be received into said first recess, and so as to cooperate with the side of the third bearing ring closest to the first end of the outer sleeve so as to limit the sliding motion of the dispenser tube in the direction towards the second end of the outer sleeve.
The spring activation means is preferably a coil spring fitted into the first recess and surrounding a portion of the outer perimeter of the dispenser tube so as to bias the position of the dispensing tube in a direction towards the second end of the outer sleeve.
A pair of guide slots is formed lengthwise in the dispensing tube at the second end thereof, and each extends towards the first end to a position near the mid-point of the length of the outer sleeve, and a portion of the guide slots is adapted to receive the respective guide probe therein, and wherein the end of each portion closest to the second end of the dispenser tube is adapted to cooperate with the respective guide probe to force the outer end of each respective guide slot to spread apart when the second end of the dispenser tube is pressed so as to cause movement thereof along the outer sleeve and the end sleeve caps towards the first end of the outer sleeve against the bias force of the spring activation means.
A further pair of slots is formed lengthwise in the dispensing tube in positions intermediate of the pair of guide slots, and to the same length of the guide slots.
An interference ring is formed on the outer surface of the dispenser tube near the second end thereof so as to limit the sliding motion of the dispenser tube in a direction towards the second end of the outer sleeve; and a conical wedge surface is formed sloping inwardly from the side of the interference ring closest to the second end, towards the second end.
A mating wedge surface is formed on the inner surface of the second end sleeve, sloping outwardly from near the end surface of the second end sleeve and away therefrom.
The cooperation between the conical wedge surface and the mating wedge surface together with the bias force of the spring activation means, acts to maintain the segments at the second end of the dispenser tube in contiguous positions and thereby so as to maintain the dispenser is in its non-dispensing condition.
When the dispenser is activated, by causing movement of the dispenser tube towards the first end of the outer sleeve and the first end sleeve, against the bias force of the spring activation means, the cooperation between the conical wedge surface and the mating wedge surface is overcome so that the contiguous segments are permitted to spread apart one from the other, and thus create a position wherein the dispenser is in its dispensing condition.
The end surfaces of the first pair of segments thereof which are opposite each other extend further away from the second end of the second end sleeve than the end surfaces of the second pair of segments thereof which are opposite each other and intermediate of the first pair of segments.
The inside diameter of the dispenser tube is formed to a predetermined dimension so as to accommodate circular discs of a corresponding diameter.
The dispenser tube is preferably transparent, or translucent, and a viewing slot is formed lengthwise along a portion of the outer sleeve between the second and third bearing rings, so as to permit viewing of circular discs that may be stacked in the dispenser tube.
Preferably, each circular disc accommodated in the respective dispenser tube has a specific colour applied to the top and bottom surfaces thereof, and preferably, all or a portion of the dispenser tube is colour coordinated in the same, or a corresponding colour.
Each circular disc accommodated therein is made from a material which is susceptible to magnetism.
When the segments of the dispenser tube is pressed against a surface, the segments are moved so as to create an opening larger than the discs. As such, the magnetic attraction between the discs and the surface cause a disc to be dispense. Preferably, one of the second pair of segments of the dispenser tube is aligned and creates a opening larger than the discs, so that when the dispenser is activated and moved along a flat surface, a plurality of circular discs are dispensed therefrom, seriatim.
At least one dispenser as described above, and a flat magnetic surface incorporated into a frame, form a rudimentary embodiment of a child's activity toy, as described previously in U.S. 61/389680.
The child's activity toy preferably comprises a plurality of dispensers, as described above, each having a dispenser tube with a differing interior diameter than the other dispensers, and each preferably accommodating a plurality of circular discs having a corresponding colour to the respective dispenser tube therein.
The frame of the child's activity toy has a graduated sorter for collection of the discs, once applied, and which sorter is preferably is located below the flat magnetic surface, and the function of the sorter is described hereinbelow. While various sorting systems might be used, a preferred embodiment of the sorting system is now described.
A collector slot is placed at one edge of the flat magnetic surface in communication with a collector chute in the graduated sorter, and a collection chamber is in communication with the collector chute, so that when the frame is in a horizontal disposition, and the circular discs are pushed through the collector slot, they will fall into the collection chute.
When the frame is then moved into a vertical disposition with the collector chute at the top, the circular discs will fall from the chute, into the collection chamber.
A plurality of sorting chambers is placed below the collection chamber, and these chambers are separated from each contiguous sorting chamber by one or a plurality of separator plates having a plurality of holes therein, wherein the holes in each consecutive separator plate are smaller than in the separator plate which is next above, and wherein the diameters of the respective holes in the respective separators plates are sufficient to allow all circular discs to fall therethrough except the discs of the specific diameter which is larger than the diameter of the holes in that specific separator plate.
Upon gentle shaking of the frame, all of the circular discs which are in the collection chamber will thus pass through the separator plates with larger diameter openings than the disc diameter, and thus, the discs will ultimately be sorted into the respective sorting chambers. As a result, after gentle shaking of the device, all circular discs of the specific diameter and colour will be positioned in their respective sorting chamber.
The child's activity toy also comprises a plurality of compartments which are formed in the frame, where each compartment accommodates a specific dispenser for a specific designated colour.
A plurality of sliding gate latches is placed in a dispensing separator so as to allow, and control, communication between each respective specific dispenser and its respective sorting chamber.
The lengthwise dimension of each compartment is predetermined so as to hold the dispensers, and position each dispenser within the compartment. In particular, the compartment includes opening ridges which act against the contiguous segments at the end of the inner tube of the dispenser, and move the segments to the open position. In this position, the dispenser is positioned so that the discs can be inserted back into the dispenser.
When the frame is turned into a vertical disposition with the compartments and respective dispensers at the bottom, all the circular discs in any sorting chamber in which the gate latch has been moved to its open position will fall into the respective dispensing tube of each respective dispensing tube of each respective dispenser.
Moreover, removal of any dispenser from its respective compartment will de-activate that dispenser, so that the dispenser will once again assume its non-dispensing condition.
In one embodiment of the present invention, the coloured image may be viewed by the child using three dimensional (3D) imaging technology. In particular, in the preferred embodiment, the child uses a type of three dimensional imaging technology known as “Chromadepth” imaging technology, which was developed by American Paper Optics. This technique produces a 3D effect based upon differences in the diffraction of colour through a special prism-like holographic film which is typically fitted into glasses worn by the viewer.
In the present invention, the discs are preferably coloured using different colours so that the result image has a 3D effect when viewed through Chromadepth glasses. The use of fluorescent pigments can also enhance this effect. As such, in a preferred embodiment, the image is viewed with Chromadepth glasses wherein at least some of the coloured discs are coloured using fluorescent pigments.
Moreover, if the image is viewed under Ultraviolet (UV) light, it may be still further enhanced.
The novel features which are believed to be characteristic of the present invention, as to its structure, organization, use and method of operation, together with further objectives and advantages thereof, will be better understood from the following drawings in which a presently preferred embodiment of the invention will now be illustrated by way of example. It is expressly understood, however, that the drawings are for the purpose of illustration and description only and are not intended as a definition of the limits of the invention. Embodiments of this invention will now be described by way of example in association with the accompanying drawings in which:
The novel features which are believed to be characteristic of the present invention, as to its structure, organization, use and method of operation, together with further objectives and advantages thereof, will be better understood from the following discussion.
Turning first to
Frame 1: “To start filling the pens with the 3-D Magic Dots, each pen into the compartment with the latch that is the same colour as the pen cap. Make sure the clear window is facing up.”
Frame 2: “Holding the main body of the pen, insert the writing tip into the refill position. When the pen is inserted correctly you will feel it click into the slot. NOTE. Each Magic pen will only fit into the correct slot. If the pen is not ‘clicking’ into position check to make sure the colour of the pen is the same as the latch.”
Frame 3: “Once all the pens are in place, close the compartment spice sliding each latch across to the left side.”
Frame 4: “You can draw right on the screen or lift up the frame and insert a design stencil to colour.”
Frame 5: “for all the 3-D Magic Dots on the stencil. Use the screen swiper to slide the 3-D Magic Dots to the top of the 3-D design tablet. Make sure all 3-D Magic Dots go through the slot at the top.”
Further steps are described in
Frame 6: “Gently shake the design tablet left to right and you will see the coloured dots separate into their proper roles. Continue to shake until all the colours have separated.”
Frame 7: “Turn the 3-D design tablet counterclockwise.”
Frame 8: “Open up all four pin compartments by moving the latches to the right so that the 3-D Magic Dots fall into the Magic Dot pens.”
Frame 9: “Before you start removing the pens, slide the compartment doors to the closed position. Remove the pen by lifting up on the end.”
Frame 10: “To make sure that the 3-D Magic Dots are lined up, place your finger over the writing tip and gently shake up and down. You will be able to see through the clear window whether any of the dots are tilted.”
The tablet 10 comprises a frame 22 which may be hinged at the top edge thereof so as to permit placement of differing stencils or blank pages into the frame, as seen in
The coloured discs 18 are distinguished by being made from a material which is susceptible to magnetism, usually steel. They may have a diameter ranging from 2 mm up to about 6 mm in a usual embodiment of the present invention, and a thickness ranging from about 0.5 mm up to about 2 mm. All of the coloured discs 18 of any specific diameter will be coloured under top and bottom surfaces by having a specific colour applied thereto, such as by painting, coating, having a coloured paper or plastic disc adhered thereto. The discs are typically coloured before being punched from a sheet of materials, but other methods are also possible.
In a typical commercial embodiment of a child's activity toy in keeping with the present invention, four dispensers are provided having four different colours; and typically, those colours are red, orange, yellow, and green, ranging from the largest coloured discs 18 to the smallest coloured discs 18 in four specific diameters thereof. However, it will be clear that additional disc sizes can be provided, and additional dispensers can be provided.
Referring now to
In
It will also be seen in
It will be seen in
It should also be noted that the lengthwise dimension of each compartment 56 is predetermined so that the dispensers 12 will be activated—that is, put into their dispensing condition—when the dispensers are placed into the respective compartments. The dispensing and non-dispensing conditions of the dispensers 12 are discussed hereafter.
Moreover, it should be noted that not only are the diameters of respective coloured discs 18 different from colour to colour, the diameters of the respective dispensers 12 differ in keeping with the diameter of the coloured discs with which they are intended to be used. Thus, the dimensions of the respective compartments 56 differ so as to accommodate the differing diameters of the respective dispensers 12. It will be understood from the above discussion that the four dispensers 12 which will communicate with sorting chambers 34, 36, 38, and 40, will thereby be intended to dispense coloured discs having the colours red, orange, yellow, and green, respectively.
Turning now to
First, it is to be noted that each dispenser 12 comprises a generally cylindrical outer sleeve 70 which, for practical purposes, is molded in two halves, as seen in
Referring specifically to
A stop ring 98 is formed on the outer surface of the dispenser tube 72 in a location so that it will be received into the first recess 88. The stop ring 98 will cooperate with the side of the third bearing ring 94 which is closest to the first end 74 of the outer sleeve 70, so as to limit the sliding motion of the dispenser tube 72 in a direction towards the second end 78 of the outer sleeve 70.
The spring activation means 86 is a coil spring which is compressed into the first recess 88, and which surrounds a portion of the outer perimeter of the dispenser tube 72. The spring activation means 86 acts so as to bias the position of the dispenser tube 72 in a direction towards the second end 78 of the outer sleeve 70, due to the fact that the coil spring has been compressed into the first recess 88.
There is a pair of guide slots 100 which is formed lengthwise in the dispensing tube 72 at the second end 80 thereof, and each of the guide slots 100 extends towards the first end 76 of the dispenser tube 72 to a position which is near the mid-point of the length of the outer sleeve 70. A portion 102 of the guide slots 100 is adapted to receive the respective guide probe 96 therein. It is also noted that the end of each portion of each guide slot which is closest to the second end of the dispenser tube is adapted to cooperate with the respective guide probe 78 so as to force the outer end of each respective guide slot 100 to spread apart when the second end 80 of the dispenser tube 72 is pressed so as to cause movement of the dispenser tube 72 inside and along the outer sleeve 70 and the end caps 82, 84 towards the first end 74 of the outer sleeve 70. It will be understood, and it is obvious, that pressing the second end 80 of the dispenser tube 72 with sufficient force will overcome the bias force of the spring activation means 86.
There is also a second pair of slots 104 which is formed lengthwise in the dispensing tube 72 in positions which are intermediate of the pair of guide slots 100. The slots 102 are formed to the same length as the guide slots 100.
There is an interference ring 106 which is formed on the outer surface of the dispenser tube 72 near the second and 80 thereof, and its purpose is to limit the sliding motion of the dispenser tube 72 in a direction towards the first end 74 of the outer sleeve 70. A conical wedge surface 108 is formed which slopes inwardly from the side of the interference ring 106 closest to the second and 80 of the dispenser tube 72, towards the second end 80. There is also a mating wedge surface 110 which is formed on the inner surface of the second end sleeve 84. That surface 110 slopes outwardly from near the end surfaces of the second end sleeve 84, and away therefrom.
Referring specifically to
Now, it can be seen that the cooperation between the conical wedge surface 108 and the mating wedge surface 110, together with the bias force of the spring activation means 86, acts to maintain the segments 112, 114, 116, and 118, in contiguous positions as seen particularly in
However, when any dispenser 12 is activated, whereby the dispenser tube 72 moves towards the first end 74 of the outer sleeve 70 and towards the first end sleeve 82, and also moves against the bias force of the spring activation means 86, then the cooperation between the conical wedge surface 108 and the mating wedge surface 110 is overcome. Thus, the contiguous segments 112, 114, 116, and 118, are permitted to spread apart one from the other, as is seen in
As noted above, the inside diameter of each dispenser tube 72 will be formed to a predetermined dimension, so as to thereby accommodate only the coloured circular discs 18 which have a corresponding diameter.
Each dispenser tube 72 is typically translucent or transparent. Accordingly, a viewing slot 130 is formed lengthwise along a portion of the outer sleeve 70 between the second and third bearing rings 92, 94, so as to permit viewing of the circular discs 18 which may be stacked inside the dispenser tube 70. This is shown particularly in
Moreover, the dispenser tube 72 of each respective dispenser 12 will be of the same colour as the coloured discs 18 which are to be accommodated therein.
When each dispenser 12 is assembled in the manner shown in
Other modifications and alterations may be used in the design and manufacture of the apparatus of the present invention without departing from the spirit and scope of the accompanying claims.
Thus, it is apparent that there has been provided, in accordance with the present invention, a child's activity toy, disc dispenser and disc sorting system, which fully satisfies the goals, objects, and advantages set forth hereinbefore. Therefore, having described specific embodiments of the present invention, it will be understood that alternatives, modifications and variations thereof may be suggested to those skilled in the art, and that it is intended that the present specification embrace all such alternatives, modifications and variations as fall within the scope of the appended claims.
Additionally, for clarity and unless otherwise stated, the word “comprise” and variations of the word such as “comprising” and “comprises”, when used in the description and claims of the present specification, is not intended to exclude other additives, components, integers or steps.
Moreover, the words “substantially” or “essentially”, when used with an adjective or adverb is intended to enhance the scope of the particular characteristic; e.g., substantially planar is intended to mean planar, nearly planar and/or exhibiting characteristics associated with a planar element.
Also, unless otherwise specifically noted, all of the features described herein may be combined with any of the above aspects, in any combination.
Further, use of the terms “he”, “him”, or “his”, is not intended to be specifically directed to persons of the masculine gender, and could easily be read as “she”, “her”, or “hers”, respectively. Similarly, use of terms such as top, bottom sides, front, back, and the like, are used to describe the relative positioning of various components, when the described device is used in its normal configuration.
Finally, while this discussion has addressed prior art known to the inventor, it is not an admission that all art discussed is citable against the present application.
Number | Date | Country | |
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61389680 | Oct 2010 | US |