This application claims the benefit of U.S. Provisional Application of Roy V. Wilson, Ser. No. 61/600,513, filed 17 Feb. 2012, having the title Toy Device For Adapting Track or Roadway To Fit With Pegged Construction Bricks Or Blocks, which is incorporated herein by reference in its entirety.
The present disclosure relates generally to a toy track adapter for wooden train sets and, more particularly, an adapter configured to connect toy train tracks or roadway tracks to toy pegged construction bricks/blocks and to connect useful, functional and educational accessories along the length of toy train or roadway tracks.
Traditional toy train tracks and roadway tracks (hereinafter known as “toy tracks”) have been around for years and it is known that it takes children great planning, patience and time to set up a workable toy track layout. At first, children planned and built toy track layouts that were simply a flat design. This type of toy track layout eventually became completely impractical as children became more interested in designing more complex toy track layouts. The toy track layouts comprised of using multilevel tracks with slight elevation but were very unstable and virtually unusable, as the toy track layouts would collapse where the toy track pieces connected.
U.S. Pat. No. 5,779,145 ('145) issued to Zelle et al., addressed the problem of maintaining railroad track connectability by disclosing a track connector to secure the interlocking track connection of two train tracks of a wooden train set and effectively resist loosening and disconnecting under normal playing conditions. However, the '145 patent is limited to only a connection securing device, as the '145 patent does not allow children to adapt the toy tracks to be used in conjunction with toy pegged construction bricks and blocks (hereinafter known as “building blocks”). A simple connection-securing device limits the creativity and three-dimensional potential of the two toy systems when played with together. In addition, there is no way to attach useful, functional and educational accessories such as rails, toy trees or lights to the toy tracks. Another deficiency of a track connector without an adjustable tension spring is that various manufacturers produce different sized tracks, which can only be secured with a connection-securing device that is specifically sized to accommodate each size of track due to the dimensional variations of the track.
Thus, a heretofore unaddressed need exists in the industry to address the aforementioned deficiencies and inadequacies.
The present disclosure provides a toy device for adapting train tracks or roadway tracks (hereinafter known as “toy tracks”) to fit with pegged construction bricks or blocks (hereinafter known as “building blocks”), the use of attaching functional and education accessories to the toy tracks and to secure several different size pieces of toy track together. A traditional track connector does not allow children to adapt the toy tracks to be used in conjunction with building blocks. Thus, resulting in separate play with the two toy systems, without the extreme advantage of integrating the two toy systems together, which would result in greater versatility, three-dimensional educational development, greater creativity and better understanding of construction methods. In addition, the traditional track connectors do not allow children to attach useful, functional and educational accessories to the toy tracks or to secure several different size pieces of toy track together.
Briefly described, in one embodiment, a toy track and brick adapter for toy tracks and bricks comprising, a base having a top surface and a bottom surface with indentations in the bottom surface of the base, capable of receiving building blocks, wherein mounted to the base are at least two side support ribs and tension springs, which are configured to contract and expand to accommodate various toy tracks.
Other systems, devices, methods, features, and advantages will be or become apparent to one with skill in the art upon examination of the following drawings and detailed description. It is intended that all such additional systems, methods, features, and advantages be included within this description, be within the scope of the present disclosure, and be protected by the accompanying claims.
Many aspects of the disclosure can be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the present disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
Reference is now made in detail to the description of the embodiments as illustrated in the drawings. While several embodiments are described in the connection with these drawings, there is no intent to limit the disclosure to the embodiment or embodiments disclosed herein. On the contrary, the intent is to cover all alternatives, modifications, and equivalents.
It should be clearly understood that like reference numerals are intended to identify the same structural elements, portions, or surfaces consistently through out the several drawing figures, as may be further described or explained by the entire written specification of which this detailed description is an integral part. The drawings are intended to be read together with the specification and are to be construed as a portion of the entire “written description” of this invention as required by 35 U.S.C. §112.
Currently it is known that it takes great planning, patience and time to set up a toy train track or a roadway track system (hereinafter known as “toy tracks”). In addition, toy track designs which involve vertical lifts and multilevel tracks require support pillars at each and every track connection, thus significantly limiting toy track designs and providing a very unstable, virtually unusable layout. The toy track layouts can take hours to assemble with each support requiring minutely accurate placement and any slight deviation resulting in devastating collapse. The serviceability for children of any layout other than a flat simple design is completely impractical. A simple track connector device to secure and stabilize the interlocking track connection of two toy tracks cannot accommodate and function with various sized toy tracks. Thus, creating the problem that a child or user would need to purchase multiple sized track connectors to accommodate each different toy track size by the various manufacturers.
Simple track connectors do not allow children to play with toy tracks in conjunction with the pegged construction bricks or blocks (hereinafter known as “building blocks”). Toy tracks and building blocks are commonly found in many family homes, as they are among some of the most popular toys purchased for children by adults. Currently, when children play with toy tracks, there is no way to adapt these toy tracks to be used in conjunction with the building blocks. This connectability problem limits the child's creativity and three-dimensional potential of the two toy systems when played with together. In addition, there is no way to attach useful, functional and educational accessories to the toy tracks.
An embodiment a toy track and brick adapter for toy tracks and bricks is constructed in accordance with the teaching of the claimed invention is comprised of an adapter which has tension springs and side support ribs on both sides of the adapter, which allows the adapter to accommodate many different sized tracks varying in height and width dimensions, so that the toy tracks are held in place snugly by the adapter.
The toy track and brick adapter comprises a base having top surface and a bottom surface with indentations in the bottom surface of the base. The indentations are capable of receiving building blocks of various protrusion combinations and shapes. The indentations allow the toy track and brick adapter of the present disclosure to be connected to building blocks constructed as structures such as trestles, bridges, towers, aerial suspension supports, tunnels, caves, support columns and building structures and the like. Attached generally perpendicularly to the base are arm assemblies comprised of support ribs and tension springs to hold toy tracks of various dimensions in height and width. The side support ribs provide increased strength to the tension springs of the toy track and brick adapter. Attached to the side support ribs distal to the base are roadway retention lips, which in conjunction with the tension springs hold the toy track in place within the toy track and brick adapter. Also attached to the roadway retention lips are pull-tab accessory brackets. The pull-tab accessory brackets are configured to releasably connect a variety of useful, functional educational accessories such as side railings, overhead signs, stoplights, traffic controls, signs and the like to increase the versatility and constructive play value of the various toy systems.
Adverting now to the drawings, with reference to
Attached generally perpendicularly to the base 30 are arm assemblies 25 distally disposed in a parallel relationship to one another to grip a toy track 90. The arm assemblies each comprise of support ribs 40, tension springs 70, roadway retention lips 50 and pull-tab accessory brackets 60. Mounted generally perpendicular to the base 30 are side support ribs 40 which rise at a generally 90 degree angle from the base 30 or may be slightly angled inward from the base 30. The slight inward angle of the side support ribs 40 provide increased strength to the tension springs 70 allowing the toy track and brick adapter 20 to secure different size toy tracks 90. Mounted generally perpendicular to the side support ribs 40 are reinforcement members 41, with the preferred shape of reinforcement members 41 being a shape of a triangle. The reinforcement member 41 are slightly thicker proximate the base 30 and taper as it rises along the side support ribs 40 in a perpendicular direction from the base 30. Located in between the side support ribs 40 are the tension springs 70. The tension springs 70 are mounted to the base 30 and are configured in a semi-circular shape proximate the base 30 and as the tension springs 70 become distal to the base 30, the tension springs 70 flatten becoming a straight member and slightly angled inward from the base 30. Each tension spring 70 has the ability to revert rapidly to its original position after being extended, compressed, or placed under tension. The slight inward angle of the tension springs 70 allows the toy track and brick adapter 20 to secure different size toy tracks 90. For example, some toy tracks 90 have smaller lateral widths with respect to other toy tracks 90, while other toy tracks 90 may have the same lateral widths but smaller vertical heights or the toy tracks 90 may have different vertical heights and different lateral widths with respect to other toy tracks 90. Accordingly, the sloping angles the tension springs 70 will flexibly couple with smaller toy tracks 90, while expanding outwardly for toy tracks 90 with greater widths. Additionally, the side support ribs 40 and the tension springs 70 also help retain toy tracks 90 that have curved track portions or “y” track, “t” track, and any other configuration of toy track 90.
Mounted to the side support ribs 40 distal to the base 30 are roadway retention lips 50, which in conjunction with the tension springs 70 hold the toy track 90 in place. The roadway retention lips 50 project away from its respective side support rib 40, forming a cove or notch under each roadway retention lip 50. The toy track 90 has a track surface 91, which fits inside the cove of each roadway retention lip 50. The roadway retention lips 50 are of a length slightly less the track surface 91 so as to not obstruct train wheels or automobile wheels.
Mounted to the side support ribs 40 and the roadway retention lips 50 are a sloped surface 52 and pull-tab accessory brackets 60. The sloped surface 52 is of an angle, that when the toy track 90 is pressed firmly against the sloped surface 52 the side support ribs 40 will easily expand outward allowing the toy track 90 to easily slide down the sloped surface 52 and snap into the toy track and brick adapter 20. The pull-tab accessory brackets 60 protrude outwardly from the side support ribs 40, parallel to the base 30 and in an upward perpendicular direction to the side support ribs 40 forming the site where an accessory connector 100 (as shown in
Mounted generally perpendicular to the side support ribs 40 are reinforcement members 41, the preferred shape of reinforcement members 41 are of a shape of a triangle. With the reinforcement member 41 being slightly thicker proximate the base 30 and tapering as it rises along the side support ribs 40 in a perpendicular direction from the base 30. Located in between the side support ribs 40 are the tension springs 70. The tension springs 70 are mounted to the base 30 and are configured in a semi-circular shape proximate the base 30 and as the tension springs 70 become distal to the base 30, the tension springs 70 flatten becoming a straight member and slightly angled inward from the base 30. Each tension spring 70 has the ability to revert rapidly to its original position after being extended, compressed, or placed under tension. The slight inward angle of the tension springs 70 allows the toy track and brick adapter 20 to secure different size toy tracks 90.
Mounted to the side support ribs 40 distal to the base 30 are roadway retention lips 50, sloped surface 52 and pull-tab accessory brackets 60. The roadway retention lips 50 project away from its respective side support ribs 40, forming a cove or notch under each roadway retention lip 50. The roadway retention lips 50 are of a length slightly less then track surface 91 (as shown in
The sloped surface 52 is of an angle, that when the toy track 90 is pressed firmly against the sloped surface 52 the side support ribs 40 will easily expand outward allowing the toy track 90 to easily slide down the sloped surface 52 and snap into the toy track and brick adapter 20.
Pull-tab accessory brackets 60 protrude outwardly from the side support ribs 40, parallel to the base 30 and in an upward perpendicular direction to the side support ribs 40 forming the site where accessory connector 100 (as shown in
The toy track and brick adapter 20 dimensions may vary from one inch to over two inches in order to be able to hold securely straight track, curved track, “y” track, “t” track, and any other configuration of toy tracks 90 that fits within the width and height of the toy track and brick adapter 20. It may be advantageous to fabricate the toy track and brick adapter 20 as a single molded piece, made from strong but flexible plastics formulated such that the toy track and brick adapter 20 can be transparent, translucent or opaque, and meet all safety and toxicity standards. The toy track and brick adapter 20 can also be made of separate parts utilizing plastic polymers, die cast metals, or other durable material appropriately and sufficiently fastened together mechanically or with adhesive bonds. The toy track and brick adapter 20 may be manufactured by the use of complex injection molds with multiple dies and slides to form the complex shape of the toy track and brick adapter 20 or made using any one or more other well known manufacturing techniques available to those of ordinary skill in the art.
Mounted generally perpendicular to the base 30 are side support ribs 40 (as shown in
Mounted generally perpendicular to the side support ribs 40 are reinforcement members 41, the reinforcement members 41 are triangularly shaped having a slightly thicker region proximate the base 30 and tapering as it rises along the side support ribs 40 in a perpendicular direction from the base 30. Located in between the side support ribs 40 are the tension springs 70. The tension springs 70 are mounted to the base 30 and are configured in a semi-circular shape proximate the base 30 and as the tension springs 70 become distal to the base 30, the tension springs 70 flatten becoming a straight member and slightly angled inward from the base 30. Each tension spring 70 has the ability to revert rapidly to its original position after being extended, compressed, or placed under tension. The slight inward angle of the tension springs 70 allows the toy track and brick adapter 20 to secure different size toy tracks 90. Therefore, the tension springs 70 will flexibly couple with smaller toy tracks 90, while expanding outwardly for toy tracks 90 with greater widths. Additionally, the side support ribs 40 and the tension springs 70 also help retain toy tracks 90 that have curved track portions or “y” track, “t” track, and any other configuration of toy track 90.
Mounted to the side support ribs 40 distal to the base 30 are roadway retention lips 50. The roadway retention lips 50 project away from its respective side support ribs 40, forming a cove or notch under each roadway retention lip 50. The roadway retention lips 50 are of a length slightly less then track surface 91 (as shown in
Mounted to the side support ribs 40 and the roadway retention lips 50 are the sloped surface 52 and pull-tab accessory brackets 60. The sloped surface 52 is of an angle, that when the toy track 90 is pressed firmly against the sloped surface 52 the side support ribs 40 will easily expand outward thus allowing the toy track 90 to easily slide down the sloped surface 52 and snap into the toy track and brick adapter 20. The pull-tab accessory brackets 60 can be of any shape, design, size or material as long as allows the pull-tab accessory brackets 60 allow for the easy attachment and release of the accessories 102 (as shown in
Although exemplary embodiments have been shown and described, it will be clear to those of ordinary skill in the art that a number of changes, modifications, or alterations to the disclosure as described may be made. For example, the length, width, height, thickness, angles shape and number of indentations 38 of the toy track and brick adapter 20 could be changed to accommodate other types and dimensions of toy track 90, building blocks 80, and additional types of accessories. The pull-tab accessory brackets 60 dimensions could be changed or slightly relocated to accommodate larger accessories 102. Also, the number of side support ribs 70 could be increased to add more strength or to reduce the flexibility of the sides, depending on the material(s) used to manufacture the toy track and brick adapter 20. All such changes, modifications, and alterations should therefore be seen as within the scope of the disclosure.
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Zydac, Duplo Brick to Brio Track adapater with snap-lock, uploaded 9/9/10, Thingiverse.com, 2 pp. |
Number | Date | Country | |
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20140134915 A1 | May 2014 | US |