A portion of the disclosure of this patent document contains material which is subject to copyright protection. The owner has no objection to the facsimile reproduction by anyone of the patent disclosure, as it appears in the Patent and Trademark Office files or records, but otherwise reserves all copyright rights whatsoever.
This invention is related to a toy assembly comprising a flexible joint element and a construction member. The flexible joint element includes a flexible string and two spherical components. The construction member includes slots and circular holes which are used to receive the flexible joint element. Multiple flexible joint elements and construction members are assembled to construct toys or other structures with members having six (6) degrees of freedom.
Construction toys, such as Lego construction toys, are interlocking plastic bricks which are coupled together to construct objects such as vehicles and buildings. Construction toys are popular because they can easily be assembled and disassembled to construct a variety of objects as desired. They are also versatile for design purposes and inexpensive to use.
The present invention includes a flexible joint element and a construction member as the building block for constructing complex objects. The flexible joint element includes a flexible string and two spherical components. The construction member has six (6) faces which include apertures for receiving the flexible joint element. The apertures are cut into the faces of the construction member. In particular, four (4) slots and two (2) holes are cut into a cuboid construction member which receives a flexible joint element. A plurality of flexible joint element and construction member assemblies can be assembled to arrive at complex shapes.
In one aspect, a toy assembly is disclosed wherein the assembly comprises a flexible joint element, comprising a cylindrical flexible string having a flexible-string diameter, a first flexible-string-end and a second flexible-string-end, a first spherical component having a first-spherical-component diameter, a first-spherical-component center, and a first-spherical-component thru-hole through the first-spherical-component center, and a second spherical component having a second-spherical-component diameter, a second-spherical-component center, and a second-spherical-component thru-hole through the second-spherical-component center, wherein the first spherical component receives the flexible string through the first-spherical-component thru-hole and the first spherical component is coupled with the flexible string at the first flexible-string-end and wherein the second spherical component receives the flexible string through the second-spherical-component thru-hole and the second spherical component is coupled with the flexible string at the second flexible-string-end, thereby defining a flexible-joint-element length extending between the first-spherical-component center and the second-spherical-component center, and a first cuboid construction member, defined in a first three dimensional orthogonal coordinate system having orthogonal x axis, y axis, and z axis, said first cuboid construction member having a first face and a second face a first-member length apart along the x axis, a third face and a fourth face a first-member width apart along the y axis, and a fifth face and a sixth face a first-member height apart along the z axis, wherein the origin of the first three dimensional orthogonal coordinate system is at the first face center, said first cuboid construction member comprises a first rectangular blind slot, through the first face and across the first-member width toward the positive x direction having a first depth along the x axis and a first width along the z axis, a second rectangular blind slot, through the first face and across the first-member height toward the positive x direction having a second depth along the x axis and a second width along the y axis, a third rectangular blind slot, through the second face and across the first-member width toward the negative x direction having a third depth along the x axis and a third width along the z axis, a fourth rectangular blind slot, through the second face and across the first-member height toward the negative x direction having a fourth depth along the x axis and a fourth width along the y axis, a first circular thru-hole, through the fifth face and the sixth face, along the z axis having a first-circular-thru-hole center at a first-circular-thru-hole distance from an edge of the first face and a first-circular-thru-hole diameter, and a second circular thru-hole, through the fifth face and the sixth face, along the z axis having a second-circular-thru-hole center at a second-circular-thru-hole distance from an edge of the second face and a second-circular-thru-hole diameter, wherein the first cuboid construction member receives one of the first spherical component and the second spherical component of the flexible joint element via one of the first circular thru-hole and the second circular thru-hole of the first cuboid construction member.
Preferably, the first-spherical-component diameter is equal to the second-spherical-component diameter.
Preferably, the first-spherical-component thru-hole is circular having a first-spherical-component-thru-hole diameter, wherein the second-spherical-component thru-hole is circular having a second-spherical-component-thru-hole diameter, wherein the first-spherical-component-thru-hole diameter is equal to the second-spherical-component-thru-hole diameter, and wherein the flexible-string diameter is less than or equal to the first-spherical-component-thru-hole diameter.
Preferably, the first spherical component is coupled with the flexible string at the first flexible-string-end by tying a first knot at the first flexible-string-end and the second spherical component is coupled with the flexible string at the second flexible-string-end by tying a second knot at the second flexible-string-end.
Preferably, the second rectangular blind slot, through the first face, is along a z-z axis, said z-z-axis is at a first angle from the z axis.
Preferably, the first-member width is equal to the first-member height.
Preferably, the first width is equal to the second width.
Preferably, the first depth is equal to the second depth.
Preferably, the first-circular-thru-hole distance is equal to the second-circular-thru-hole distance.
Preferably, the first-circular-thru-hole diameter is equal to the second-circular-thru-hole diameter.
Preferably, the first width, the second width, the third width, and the fourth width are equal, wherein the first depth, the second depth, the third depth, and the fourth depth are equal, wherein the first-circular-thru-hole distance and the second-circular-thru-hole distance are equal, and wherein the first-circular-thru-hole diameter and the second-circular-thru-hole diameter are equal.
Preferably, the first cuboid construction member further comprises, a third circular thru-hole, through the third face and the fourth face, along the y axis having a third-circular-thru-hole center at a third-circular-thru-hole distance from the edge of the first face and a third-circular-thru-hole diameter, and a fourth circular thru-hole, through the third face and the fourth face, along the y axis having a fourth-circular-thru-hole center at a fourth-circular-thru-hole distance from the edge of the second face and a fourth-circular-thru-hole diameter, wherein the first cuboid construction member receives one of the first spherical component and the second spherical component of the flexible joint element via one of the first circular thru-hole, the second circular thru-hole, the third circular thru-hole, and the fourth circular thru-hole of the first cuboid construction member.
Preferably, the assembly further comprises a second cuboid construction member, defined in a second three dimensional orthogonal coordinate system having orthogonal u axis, v axis, and w axis, said second cuboid construction member having a seventh face and a eighth face a second-member length apart along the u axis, a ninth face and a tenth face a second-member width apart along the v axis, and a eleventh face and a twelfth face a second-member height apart along the w axis, wherein the origin of the second three dimensional orthogonal coordinate system is at the seventh face center, said second cuboid construction member comprises a fifth rectangular blind slot, through the seventh face and across the second-member width toward the positive u direction having a fifth depth along the u axis and a fifth width along the w axis, a sixth rectangular blind slot, through the seventh face and across the second-member height toward the positive u direction having a sixth depth along the u axis and a sixth width along the v axis, a seventh rectangular blind slot, through the eighth face and across the second-member width toward the negative u direction having a seventh depth along the u axis and a seventh width along the w axis, an eighth rectangular blind slot, through the eighth face and across the second-member height toward the negative u direction having an eighth depth along the u axis and an eighth width along the v axis, a third circular thru-hole, through the eleventh face and the twelfth face, along the w axis having a third-circular-thru-hole center at a third-circular-thru-hole distance from an edge of the seventh face and a third-circular-thru-hole diameter, and a fourth circular thru-hole, through the eleventh face and the twelfth face, along the w axis having a fourth-circular-thru-hole center at a fourth-circular-thru-hole distance from an edge of the eighth face and a fourth-circular-thru-hole diameter, wherein the second cuboid construction member receives the other one of the first spherical component and the second spherical component of the flexible joint element via one of the third circular thru-hole and the fourth circular thru-hole of the second cuboid construction member.
Preferably, the second-member length is one of one half and one quarter of the first-member length.
Preferably, the first-member width, the first-member height, the second-member width, and the second-member height are equal.
Preferably, the first width, the second width, the third width, the fourth width, the fifth width, the sixth width, the seventh width, and the eighth width are equal, wherein the first depth, the second depth, the third depth, the fourth depth, the fifth depth, the sixth depth, the seventh depth, and the eighth depth are equal, wherein the first-circular-thru-hole distance, the second-circular-thru-hole distance, the third-circular-thru-hole distance, and the fourth-circular-thru-hole distance are equal, and wherein the first-circular-thru-hole diameter, the second-circular-thru-hole diameter, the third-circular-thru-hole diameter, and the fourth-circular-thru-hole diameter are equal.
In another aspect, a method of assembling a toy is disclosed wherein the method comprises providing a flexible joint element, comprising a cylindrical flexible string having a flexible-string diameter, a first flexible-string-end and a second flexible-string-end, a first spherical component having a first-spherical-component diameter, a first-spherical-component center, and a first-spherical-component thru-hole through the first-spherical-component center, and a second spherical component having a second-spherical-component diameter, a second-spherical-component center, and a second-spherical-component thru-hole through the second-spherical-component center, wherein the first spherical component receives the flexible string through the first-spherical-component thru-hole and the first spherical component is coupled with the flexible string at the first flexible-string-end and wherein the second spherical component receives the flexible string through the second-spherical-component thru-hole and the second spherical component is coupled with the flexible string at the second flexible-string-end, thereby defining a flexible-joint-element length extending between the first-spherical-component center and the second-spherical-component center, and providing a first cuboid construction member, defined in a first three dimensional orthogonal coordinate system having orthogonal x axis, y axis, and z axis, said first cuboid construction member having a first face and a second face a first-member length apart along the x axis, a third face and a fourth face a first-member width apart along the y axis, and a fifth face and a sixth face a first-member height apart along the z axis, wherein the origin of the first three dimensional orthogonal coordinate system is at the first face center, said first cuboid construction member comprises a first rectangular blind slot, through the first face and across the first-member width toward the positive x direction having a first depth along the x axis and a first width along the z axis, a second rectangular blind slot, through the first face and across the first-member height toward the positive x direction having a second depth along the x axis and a second width along the y axis, a third rectangular blind slot, through the second face and across the first-member width toward the negative x direction having a third depth along the x axis and a third width along the z axis, a fourth rectangular blind slot, through the second face and across the first-member height toward the negative x direction having a fourth depth along the x axis and a fourth width along the y axis, a first circular thru-hole, through the fifth face and the sixth face, along the z axis having a first-circular-thru-hole center at a first-circular-thru-hole distance from an edge of the first face and a first-circular-thru-hole diameter, and a second circular thru-hole, through the fifth face and the sixth face, along the z axis having a second-circular-thru-hole center at a second-circular-thru-hole distance from an edge of the second face and a second-circular-thru-hole diameter, wherein the first cuboid construction member receives one of the first spherical component and the second spherical component of the flexible joint element via one of the first circular thru-hole and the second circular thru-hole of the first cuboid construction member.
Preferably, the first cuboid construction member further comprises a third circular thru-hole, through the third face and the fourth face, along the y axis having a third-circular-thru-hole center at a third-circular-thru-hole distance from the edge of the first face and a third-circular-thru-hole diameter, and a fourth circular thru-hole, through the third face and the fourth face, along the y axis having a fourth-circular-thru-hole center at a fourth-circular-thru-hole distance from the edge of the second face and a fourth-circular-thru-hole diameter, wherein the first cuboid construction member receives one of the first spherical component and the second spherical component of the flexible joint element via one of the first circular thru-hole, the second circular thru-hole, the third circular thru-hole, and the fourth circular thru-hole of the first cuboid construction member.
Preferably, the method further comprises providing a second cuboid construction member, defined in a second three dimensional orthogonal coordinate system having orthogonal u axis, v axis, and w axis, said second cuboid construction member having a seventh face and a eighth face a second-member length apart along the u axis, a ninth face and a tenth face a second-member width apart along the v axis, and a eleventh face and a twelfth face a second-member height apart along the w axis, wherein the origin of the second three dimensional orthogonal coordinate system is at the seventh face center, said second cuboid construction member comprises a fifth rectangular blind slot, through the seventh face and across the second-member width toward the positive u direction having a fifth depth along the u axis and a fifth width along the w axis, a sixth rectangular blind slot, through the seventh face and across the second-member height toward the positive u direction having a sixth depth along the u axis and a sixth width along the v axis, a seventh rectangular blind slot, through the eighth face and across the second-member width toward the negative u direction having a seventh depth along the u axis and a seventh width along the w axis, an eighth rectangular blind slot, through the eighth face and across the second-member height toward the negative u direction having an eighth depth along the u axis and an eighth width along the v axis, a third circular thru-hole, through the eleventh face and the twelfth face, along the w axis having a third-circular-thru-hole center at a third-circular-thru-hole distance from an edge of the seventh face and a third-circular-thru-hole diameter, and a fourth circular thru-hole, through the eleventh face and the twelfth face, along the w axis having a fourth-circular-thru-hole center at a fourth-circular-thru-hole distance from an edge of the eighth face and a fourth-circular-thru-hole diameter, wherein the second cuboid construction member receives the other one of the first spherical component and the second spherical component of the flexible joint element via one of the third circular thru-hole and the fourth circular thru-hole of the second cuboid construction member.
In another aspect, a toy assembly is disclosed wherein the assembly comprises a flexible joint element, comprising a cylindrical flexible string having a flexible-string diameter, a first flexible-string-end and a second flexible-string-end, a first spherical component having a first-spherical-component diameter, a first-spherical-component center, and a first-spherical-component thru-hole through the first-spherical-component center, and a second spherical component having a second-spherical-component diameter, a second-spherical-component center, and a second-spherical-component thru-hole through the second-spherical-component center, wherein the first spherical component receives the flexible string through the first-spherical-component thru-hole and the first spherical component is coupled with the flexible string at the first flexible-string-end and wherein the second spherical component receives the flexible string through the second-spherical-component thru-hole and the second spherical component is coupled with the flexible string at the second flexible-string-end, thereby defining a flexible-joint-element length extending between the first-spherical-component center and the second-spherical-component center, and a first cylindrical construction member, defined in a first three dimensional orthogonal coordinate system having orthogonal x axis, y axis, and z axis, said first cylindrical construction member having a first circular end and a second circular end a first-member length apart along the x axis, wherein a first-diameter of the first circular end is equal to a second-diameter of the second circular end, and a cylindrical surface confined between the first circular end and the second circular end, said cylindrical surface having a first-member diameter, wherein the origin of the first three dimensional orthogonal coordinate system is at the first circular end center, said first cylindrical construction member comprises a first rectangular blind slot, through the first circular end and across the first-member diameter toward the positive x direction having a first depth along the x axis and a first width along the z axis, a second rectangular blind slot, through the first circular end and across the first-member diameter toward the positive x direction having a second depth along the x axis and a second width along the y axis, a third rectangular blind slot, through the second circular end and across the first-member diameter toward the negative x direction having a third depth along the x axis and a third width along the z axis, a fourth rectangular blind slot, through the second circular end and across the first-member diameter toward the negative x direction having a fourth depth along the x axis and a fourth width along the y axis, a first circular thru-hole, through the cylindrical surface, along the z axis having a first-circular-thru-hole center at a first-circular-thru-hole distance from an edge of the first circular end and a first-circular-thru-hole diameter, and a second circular thru-hole, through the cylindrical surface, along the z axis having a second-circular-thru-hole center at a second-circular-thru-hole distance from an edge of the second circular end and a second-circular-thru-hole diameter, wherein the first cylindrical construction member receives one of the first spherical component and the second spherical component of the flexible joint element via one of the first circular thru-hole and the second circular thru-hole of the first cylindrical construction member.
The first spherical component 208 receives the flexible string 206 through the first-spherical-component thru-hole 226 and the first spherical component 208 is coupled with the flexible string 206 at the first flexible-string-end 220. The second spherical component 202 receives the flexible string 206 through the second-spherical-component thru-hole 228 and the second spherical component 202 is coupled with the flexible string 206 at the second flexible-string-end 204. As such, the first spherical component 208, the second spherical component 202, and the flexible string 206 define a flexible-joint-element length L1 at 218 extending between the first-spherical-component center 222 and the second-spherical-component center 224. In this preferred embodiment, the first flexible-string-end 220 and the second flexible-string-end 204 comprise knots which are tied after the flexible string 206 is inserted into the first spherical component 208 and second spherical component 202 so as to keep the first spherical component 208 and the second spherical component 202 attached to the flexible string 206. Two recessed holes 230 and 232 are provided to accommodate the two knots.
In a preferred embodiment, the first spherical component 208 and the second spherical component 202 are made from polyethylene, otherwise known to artisans of ordinary skill as plastic. In particular, the material is hard plastic, such as high-density polyethylene (HDPE) having an extremely smooth surface finish so as to provide easy movements within the circular holes of construction members, discussed in more detail below.
In a preferred embodiment, the cylindrical flexible string 206 is made from an elastomeric material, such as rubber, which provides for the flexibility of the flexible joint element 200.
The cuboid construction member 300 has a first face 324 and a second face (on the opposite side which is not visible) a member length L7 at 342 apart along the x axis 316, a third face 302 and a fourth face (on the opposite side which is not visible) a member width L4 at 334 apart along the y axis 320, and a fifth face 301 and a sixth face (on the opposite side which is not visible) a member height L5 at 340 apart along the z axis 328 wherein the origin of the three dimensional orthogonal coordinate system (x,y,z) is at center of the first face 324.
The cuboid construction member 300 has four (4) rectangular blind slots and two (2) circular thru-holes which are now described further utilizing, in a non-limiting manner,
The four (4) rectangular blind slots 310, 308, 314, 312, and the two (2) circular thru-holes 306 and 304, as described above, are utilized to receive the flexible joint element 200 together making the toy assembly of the present invention. Specifically, the cuboid construction member 300 receives the first spherical component 208 or the second spherical component 202 of the flexible joint element 200 via either the first circular thru-hole 306 or the second circular thru-hole 304. A plurality of the toy assembly can be assembled to render many different shapes and configurations such as the toy horse and toy building shown in
In a preferred embodiment, the first-spherical-component diameter D1 at 210 is equal to the second-spherical-component diameter D2 at 214. According to one instance D1 is equal to D2 is equal to 10 millimeter. In a preferred embodiment, the flexible string 206 has the flexible-string diameter D3 at 216 equal to 1 millimeter. In a preferred embodiment, the lengths L1 at 218 is equal to 9 millimeter and L2 at 212 is equal to 24 millimeter.
The slot thicknesses t1 at 408, t2 at 410, t3 at 416, and t4 at 418 are as shown with respect to the y-z coordinate axes and are at right angles to each other. Specifically, the slot 414 is at 90 degrees to the slot 412, and the slot 422 is at 90 degrees to the slot 420. However, in a different preferred embodiment, the slot 412 can be machined into the cuboid construction member 400 along the Z-Z axis at 404 at an arbitrary angle at 402, for instance 15 degrees, from the z axis.
In a preferred embodiment, the slot thicknesses t1 at 408, t2 at 410, t3 at 416, and t4 at 418 are all equal to 4 millimeter. In a preferred embodiment, the first depth L3 at 338 is equal to the second depth L6 at 348 is equal to the third depth L9 at 336 is equal to the fourth depth L11 at 332 which is equal to 14 millimeter. In a preferred embodiment, the first-circular-thru-hole distance is equal to L6 at 348 and the second-circular-thru-hole distance is equal to L11 at 332 which is equal to 14 millimeter. In a preferred embodiment the first-circular-thru-hole diameter D3 at 350 is equal to the second-circular-thru-hole diameter D4 at 330 which is equal to 11 millimeter. In a preferred embodiment, the first face 324 and second face are square surfaces and thus the member width L4 at 334 and member height L5 at 340 are equal which is equal to 19 millimeter. In a preferred embodiment, the member length L7 at 342 is equal to 100 millimeter.
In practice, the flexible joint element is coupled with the cuboid construction member 504 through its aperture, i.e., the two rectangular blind slots 508 and 502 and circular through-hole 516. Specifically, the first spherical component 506 is inserted into the circular thru-hole 516 and the cylindrical flexible string 510 goes through the slot 502 providing for the second spherical component 514 to be exposed and operative to engage another cuboid construction member. The flexible joint element can be rotated in all 3 directions, such as the angles θx, θy, and θz at 318, 322, and 326, described above in connection with the cuboid construction member 300. As such, the other cuboid construction member can be placed in various different angles with respect to the cuboid construction member 504. The partial top view in
In
The foregoing explanations, descriptions, illustrations, examples, and discussions have been set forth to assist the reader with understanding this invention and further to demonstrate the utility and novelty of it and are by no means restrictive of the scope of the invention. It is the following claims, including all equivalents, which are intended to define the scope of this invention.
The present patent application is a formalization of a previously filed co-pending provisional patent application entitled “BOKAH BLOCKS” filed Sep. 29, 2014, as U.S. patent application Ser. No. 62/056,723 by the inventor(s) named in this application. This patent application claims the benefit of the filing date of the cited provisional patent application according to the statutes and rules governing provisional patent applications, particularly 35 USC §119 and 37 CFR §1.78. The specification and drawings of the cited provisional patent application are specifically incorporated herein by reference.
Number | Date | Country | |
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62056723 | Sep 2014 | US |