EP1348474A2 - Bauspielzeug, das Verbindungselemente mit geringer Einsteckkraft enthält - Google Patents
Bauspielzeug, das Verbindungselemente mit geringer Einsteckkraft enthält Download PDFInfo
- Publication number
- EP1348474A2 EP1348474A2 EP02021136A EP02021136A EP1348474A2 EP 1348474 A2 EP1348474 A2 EP 1348474A2 EP 02021136 A EP02021136 A EP 02021136A EP 02021136 A EP02021136 A EP 02021136A EP 1348474 A2 EP1348474 A2 EP 1348474A2
- Authority
- EP
- European Patent Office
- Prior art keywords
- construction toy
- connecting body
- slots
- slot
- toy set
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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Classifications
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H33/00—Other toys
- A63H33/04—Building blocks, strips, or similar building parts
- A63H33/06—Building blocks, strips, or similar building parts to be assembled without the use of additional elements
- A63H33/08—Building blocks, strips, or similar building parts to be assembled without the use of additional elements provided with complementary holes, grooves, or protuberances, e.g. dovetails
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H33/00—Other toys
- A63H33/04—Building blocks, strips, or similar building parts
- A63H33/10—Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements
- A63H33/101—Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements with clip or snap mechanism
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H33/00—Other toys
- A63H33/04—Building blocks, strips, or similar building parts
- A63H33/10—Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements
- A63H33/102—Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements using elastic deformation
Definitions
- This invention relates generally to construction toy sets and particularly to the connecting elements used therein.
- Construction toy sets are well known in the art and have been extremely popular with children of various ages for many years. Early construction toy sets were relatively primitive being fabricated of wooden elements in combinations of block, dowels, pins, pegs and panels. Through the years however, more modem and often more complex molded plastic construction toy sets have been developed. While the variety of construction toy sets produced by practitioners in the art is virtually endless, such construction toy sets all generally include a plurality of structural elements utilized in combination with various connecting mechanisms. The connecting mechanisms facilitate the assembly of the plural elements into a variety of generally larger structures, figures or other toys such as vehicles or the like.
- Construction toy sets are often endorsed and encouraged by child development experts due to the many developmental activities which they encourage. These developmental activities include the exercise of spatial relationships, geometric form recognition and manipulation, as well as structural analysis together with imagination and creativity.
- developmental activities include the exercise of spatial relationships, geometric form recognition and manipulation, as well as structural analysis together with imagination and creativity.
- the reduced web sections of the planar elements are receivable within the radial slots of the resilient connectors to provide interconnection and assembly of more complex structures.
- U.S. Patent 3,855,748 issued to Thomas sets forth a PLAYGROUND ASSEMBLY SET consisting of a plurality of planar elements of at least two different sizes. One element is substantially larger than the other element and both elements define notches in strategic locations. The cooperating notches facilitate the connection between the elements to form more complex structures.
- U.S. Patent 4,789,370 issued to Ellefson sets forth an APPARATUS FOR INTERLOCKING STRUCTURAL ELEMENTS OF TOY DISKS having a relatively thin flat structural member defining inwardly extending notches for receiving cooperating thin flat elements.
- the notches define inwardly extending bosses on either side of the notches while the thin flat body defines voids on each side of the slots. The voids facilitate the expansion of the interior portion of the slots to facilitate element insertion.
- U.S. Patent 4,334,868 issued to Levinrad sets forth CONSTRUCTIONAL KITS having elongated connectors and cooperating panels.
- the elongated connectors are incapable of mutual joining but are structured to join to the panels.
- the elongated connectors comprise elongated bodies having longitudinal groves which receive the edge portions of the interconnecting panels in a tight fit.
- U.S. Patent 5,061,219 issued to Glickman sets forth a CONSTRUCTION TOY having a plurality of hub-like connectors together with a plurality of elongated structural elements.
- the hub-like connectors define one or more gripping sockets which cooperate with the end portions of the structural members to facilitate attachment therebetween which allows the structural members to rotate about its major axis.
- U.S. Patent 5,984,756 issued to Krog sets forth a TOY CONSTRUCTION SYSTEM having a plurality of elongated building elements each having a receiving notch at the end portion thereof.
- the construction set further includes a plurality of interconnecting elements each supporting a plurality of outwardly extending head structures.
- the head structures are fabricated to be receivable within the end notches in a snap-fit attachment.
- U.S. Patent 3,687,500 issued to Silvius sets forth CONNECTING CONSTRUCTION FOR SHEET MEMBERS utilized in interconnecting mutually perpendicular materials.
- the connectors comprise small planar elements defining inwardly slots at ninety degree intervals.
- Each connector may be formed as a one piece plate of rigidly flexible and deformable material or may have one or more plates of flexible material between clamping plates of stiffer material.
- U.S. Patent 4,365,454 issued to Davis sets forth a CONSTRUCTION SYSTEM consisting of a plurality of flat main bodies having recesses formed in the edges thereof together with a centrally hinged connecting member having opposed planar portions which fit into to recesses to provide interconnection between the flat main bodies.
- U.S. Patent 6,004,182 issued to Pasin sets forth a TEMPORARY STRUCTURE formed of plurality of panels each having rod formations along certain edges thereof.
- a plurality of elongated joining devices define slots which receive the supporting rods for the panels.
- Connectors are utilized for receiving the respective end portions of the frame members in a interconnecting manner to form a combined structure of closure.
- construction toy sets remain limited by the need for balancing competing needs of simplicity and ease of assembly or disassembly on the one hand and strength and rigidity of the assembled structures on the other hand.
- construction toy sets are designed to provide characteristics which are, in effect, designed compromise between these competing needs.
- the need for ease and simplicity of assembly or disassembly is particularly acute in construction toy sets intended for use with younger children.
- a construction toy set comprising: a plurality of connecting bodies each defining a three-dimensional body having an outer surface and a plurality of slots each extending inwardly from the outer surface and each terminating within the body in an enlarged undercut portion; and a plurality of generally planar plate members each having opposed surfaces and outer edges, the edges being configured and sized to be inserted into selected ones of the slots, the bodies being formed of a resilient material such that the slots deform elastically when one of the edges is inserted into one of the slots to secure the connecting body to the plate member, combinations of the plate members being joined by the connecting bodies to form toy structures.
- a construction toy set comprising: a plurality of connecting bodies each defining a three-dimensional body having an outer surface, a passage through the three-dimensional body and a plurality of slots each extending inwardly from the outer surface and each terminating within the body in an enlarged undercut portion; a plurality of generally planar plate members each having opposed surfaces and outer edges, the edges including edge portions configured and sized to be inserted into selected ones of the slots; a head member having a face portion, a passage and an interior cavity for receiving a portion of a selected one of the connecting bodies; and an elongated rod sized to fit within the passages, the bodies being formed of a resilient material such that the slots deform elastically when one of the edge portions is inserted into one of the slots to secure the connecting body to the plate member, combinations of the plate members being joined by the connecting bodies to form portions of toy figures including appendages, the connecting bodies being stacked in a vertical array with the rod passing through the passages
- a construction toy set comprising: a plurality of connecting bodies each defining a three-dimensional body having an outer surface and a plurality of slots each extending inwardly from the outer surface and each of the slots terminating within the body in an enlarged undercut portion, the slots each further including a pair of resilient flexible ribs having interior surfaces forming interior sides of the slot and a pair of relief slots adjacent each of the flexible ribs, the relief slots providing clearance between the ribs and the surrounding portions of the body to facilitate flexing of said ribs; and a plurality of generally planar plate members each having opposed surfaces and outer edges, the edges being configured and sized to be inserted into selected ones of the slots, the body being formed of a resilient material such that the slots deform elastically by flexing of the ribs when one of the edges is inserted into one of the slots to secure the connecting body to the plate member, combinations of the plate members being joined by the connecting bodies to form toy structures.
- the present invention construction toy set includes a plurality of variously shaped somewhat resilient connecting bodies each defining one or more slots which receive generally planar elements and members.
- the connecting bodies may be fabricated in virtually any solid shape and are shown by way of example as defining spherical shapes in Figures 1 through 4 and 7 through 14. Further example is found in rectangular and cubic shaped connecting bodies shown in Figures 15 through 25 while cylindrically shaped connecting bodies are illustrated in Figures 26, 27 and 29. A generally nondescript shaped connecting body is shown by way of further example in Figure 28.
- a connecting body defining a triangular prism is shown in Figure 30 while a connecting body defining an octagonal prism is illustrated in Figure 31.
- Various examples of differently shaped connecting plates and members are shown in Figures 32 through 47 while curved members and plates are shown in Figures 48 and 49.
- the plates and members may be joined to form more elaborate structures using the connecting bodies.
- Basic assembly is provided by insertion of the edges of the plates or members into the connecting body slots.
- the novel gripping mechanisms operable within the connecting body slots upon the edge portions of the plates and planar members provide simultaneous ease of insertion and reliable secure attachment in accordance with an important aspect of the present invention. Examples of the insertion and attachment mechanisms thus provided are shown in Figures 50 through 55.
- Figure 56 sets forth an example of a somewhat elaborate fabricated constructed using the present invention construction toy set while a representative example of a toy figure structure also constructed utilizing the present invention construction toy set is shown in Figures 57 and 58.
- Figure 1 sets forth a perspective view of a spherically shaped connecting body constructed in accordance with the present invention and generally referenced by numeral 10.
- Connecting body 10 is preferably formed of a somewhat resilient material and defines an outer surface 11 together with a passage 12. Passage 12 extends entirely through connecting body 10 and defines an axis 17 of spherically shaped connecting body 10.
- Connecting body 10 further defines a slot 13 extending inwardly from surface 11 and terminating in an internal oversized undercut portion 15.
- Connecting body 10 further defines a second slot 14 positioned oppositely from slot 13 and extending inwardly from surface 11.
- An undercut 16 is formed at the interior portion of slot 14.
- slots 13 and 14 are utilized in receiving the edge portions of connecting plates such as plate 310 shown in Figure 32 in a secure insertion. Undercuts 15 and 16 cooperate during plate insertion to provide for flexing of connecting body 10 to accommodate the plate insertion.
- the fabrication method of the present invention construction set is set forth below in Figures 50 through 55 in greater detail. However, suffice it to note here, that the resilient material from which connecting body 10 is formed together with the structures of slots 13 and 14 and undercut portions 15 and 16 cooperate to facilitate secure attachment with ease of insertion and a minimum of insertion force.
- passage 12 is utilized in receiving an elongated rod such as rod 30 shown in Figure 6 to provide further structural fabrication accommodating elements such as fabricated toy figure 430 shown in Figure 57.
- Figure 2 sets forth a top view of connecting body 10 showing a spherical outer surface 11 having a passage 12 extending downwardly therethrough.
- Connecting body 10 further defines a pair of opposed inwardly extending slots 13 and 14 each terminating in interior undercut portions 15 and 16.
- Figure 3 sets forth a side elevation view of connecting body 10 showing spherical surface 11 and slot 13 having undercut 15 formed therein.
- connecting body 10 defines a generally spherical outer surface and a passage 12 extending along major axis 17 of the connecting body.
- connecting body 10 is shown of a single molded solid body of material.
- the material selected for connecting body 10 is chosen to provide sufficient rigidity and strength to support a portion of a combined structure of which connecting body 10 might form a portion such as the fabricated structure shown in Figure 56.
- the material from which connecting body 10 is fabricated is also preferably sufficiently resilient to provide the above described deformation necessary to receive an inserted plate member within the connecting body slots.
- FIG. 5 sets forth a perspective view of an alternative spherical connecting body generally referenced by numeral 20.
- Connecting body 20 differs from connecting body 10 in that it omits slots 13 and 14.
- connecting body 20 provides a generally continuous outer surface 21 together with a defined axially passage 22 extending through major axis 23.
- the functionally operation of a connecting body such as connecting body 20 is limited to the insertion of a suitable element such as rod 30 (seen in Figure 6) into or through passage 22.
- Figure 6 sets forth a perspective view of an elongated generally cylindrical rod 30 having end portions 31 and 32.
- Rod 30 may be utilized in the present invention construction toy set to fabricate portions of structures in the manner set forth below in Figure 57.
- FIG 7 sets forth a perspective view of a still further alternate fabrication of a connecting body constructed in accordance with the present invention and generally referenced by numeral 40.
- Connecting body 40 is generally similar to connecting body 10 with the primary difference being found in the provision of four radially extending slots rather than the two opposed slots shown in connecting body 10.
- connecting body 40 defines a generally spherical outer surface 41 and a passage 42 extending through the connecting body.
- a plurality of radially extending slots 43 and 44, 45 and 46 extend inwardly from spherical surface 41 and terminate in respective enlarged undercut portions 47, 48, 49 and 50.
- the fabrication of connecting body 40 is again preferably formed of a somewhat resilient material such as molded plastic or the like.
- the operation of slots 43 through 46 is also utilized in receiving one or more planar members or plates in the fabrication of more complex structures.
- Passage 42 serves the purpose of receiving all or a portion of a cylindrical member such as rod 30 (seen in Figure 6).
- Figure 8 sets forth a top view of connecting body 40 showing spherical surface 41 together with inwardly extending slots 43 through 46 each of which defines respective enlarged undercut portions 47 through 50.
- a passage 42 extends through connecting body 40.
- Figure 9 sets forth a side elevation view of connecting body 40 showing spherical outer shape 41 and inwardly extending slot 43. Slot 43 terminates in an enlarged undercut portion 47.
- Figure 10 sets forth a section view of body 40 taken along section lines 10-10 in Figure 8.
- connecting body 40 defines a generally spherical outer surface 41 together with a passage 42 extending through the entirety of the connecting body.
- Connecting body 40 further defines a plurality of inwardly extending slots such as slots 44 and 46 which in turn terminate in enlarged undercut portions 48 and 50.
- connecting body 40 and connecting body 10 are identical to connecting body 40 and connecting body 10 (seen in Figure 1) that the substantial difference found between the connecting bodies is the ability of connecting body 40 to accommodate a total of four inserted plate members while connecting body 10 is suitable for receiving a pair of plate members.
- the coupling mechanism is virtually the same and is found in the combination of the material resilience and strength characteristics together with the physical structure of the slot and undercut portions.
- FIG 11 sets forth a top view of a still further alternate fabrication of a connecting body generally referenced by numeral 60.
- Connecting body 60 is similar to connecting bodies 10 and 40 (seen in Figures 1 and 7) in that it provides a generally spherical surface 61 and an axially passage 62 extending through the entirety of the connecting body.
- Connecting body 60 differs from connecting bodies 10 and 40 described above however in the provision of a further improved slot structure.
- the slot structure provided in body 60 utilizes a novel undercut and rib combination to enhance the gripping and strength characteristics of the connecting body.
- connecting body 60 is preferably formed of a somewhat rigid and somewhat resilient material such as molded plastic or the like.
- Connecting body 60 includes a pair of opposed inwardly extending slots 63 and 69 which terminate in respective enlarged undercuts 64 and 70. Additionally, slot 63 defines a pair of relief slots 65 and 66 on either side of slot 63 which combined with slot 63 to form a pair of ribs 67 and 68. Ribs 67 and 68 together with undercut 64 cooperate with relief slots 65 and 66 to provide flexible attachment for the edge portion of a connecting plate in the manner set forth below in Figures 54 and 55. Suffice it to note here, that ribs 67 and 68 are able to flex outwardly due to the provision of relief slots 65 and 66 without deformation of the remainder of connecting body 60.
- slot 69 terminates an enlarged undercut 70 and includes relief slots 71 and 72 on each side of slot 69.
- a pair of flexible connecting ribs 73 and 74 is thereby formed.
- ribs 73 and 74 are capable of flexing due to the presence of relief slots 71 and 72 without causing substantial deformation of the remainder of connecting body 60.
- this connecting mechanism is set forth below in Figures 54 and 55 in greater detail. However, suffice it to note here, that the edge portion of a plate member may be inserted into either slot 63 or slot 69 without deforming the remainder of connecting body 60.
- Figure 12 sets forth a side view of connecting body 60.
- the connecting body is fabricated of a pair of hemispherical half portion 75 and 76 which are separately formed and thereafter joined along a seam 77.
- Hemispherical portion 75 and 76 may be joined utilizing various known manufacturing methods.
- One example of one such attachment is set forth below in Figure 14, which is illustrative of a fabrication method which utilizes sonic welding to secure the half portions.
- half portions 75 and 76 may be joined utilizing other fabrication method such as adhesive attachment or the like.
- the important aspect with respect to the present invention is the resulting formation of the generally spherical connecting body.
- connecting body 60 defines a slot 63 terminating an enlarged undercut 64.
- a pair of relief slots 65 and 66 are formed on either side of slot 63 to produce flexible ribs 67 and 68.
- Figure 13 sets forth a top view of a still further alternate connecting body constructed in accordance with the present invention and generally referenced by numeral 80.
- Connecting body 80 defines a generally spherical outer surface 81 together with a passage 85 extending downwardly through the entirety of connecting body 80.
- Connecting body 80 further defines a plurality of inwardly extending slots 86, 87, 88 and 89. Slots 86 through 89 terminate in respective enlarged undercuts 90 through 93.
- a pair of relief slots 94 and 95 are formed on either side of slot 86 to form a pair of flexible ribs 96 and 97.
- a pair of relief slots 98 and 99 are formed on each side of slot 87 to form a pair of flexible ribs 100 and 101.
- a pair of relief slots 102 and 103 are formed on each side of slot 88 to form flexible ribs 104 and 105 while a pair of relief slots 106 and 107 are formed on each side of slot 89 to form flexible ribs 108 and
- connecting body 80 As mentioned above, the connecting mechanism provided by the combination of inwardly extending slots, relief slots, and flexible ribs shown in connecting bodies such as connecting body 80 is set forth below in Figures 54 and 55 in greater detail. However, suffice it to note here that as is also mentioned above, the provision of flexible ribs on each side of the connecting slot allows the flexing of the slot to accommodate insertion of the edge portion of a plate member without causing the deformation of the remainder of the connecting body. Thus, connecting body 80 generally retains its spherical shape regardless of whether one or more plate members are inserted into one or more connecting slots in fabricating a more complex structure.
- FIG 14 sets forth a section view of connecting body 80 taken along section lines 14-14 in Figure 13.
- connecting body 80 is generally spherical in shape and thus defines a generally spherical outer surface 81.
- connecting body 80 is formed of a pair of generally symmetrical hemispherical portions 82 and 83.
- Hemispherical portions 82 and 83 meet along a seam 84 and are secured utilizing ultrasonic welding or other fabrication techniques.
- Hemispherical portion 82 defines a recess 110 while hemispherical portion 83 defines a correspondingly shaped boss 111.
- Boss 111 and recess 110 are configured and shaped to provide the nesting attachment shown in Figure 14.
- connecting body 80 includes a passage 85 extending through the entire connecting body together with inwardly extending slots 87 and 89 terminating in respective undercut portions 91 and 93.
- FIG 15 sets forth a perspective view of a still further alternate connecting body constructed in accordance with the present invention and generally referenced by numeral 120.
- Connecting body 120 defines a generally cubical body 121 having a passage 122 extending downwardly through the entirety of body 121.
- Body 121 further defines a plurality of inwardly extending slots 123, 124, 125 and 126 terminating in respective enlarged undercuts 127, 128, 129 and 130.
- Slots 123 through 126 correspond generally to slots 43 through 46 of connecting body 40 (seen in Figure 8).
- slots 123 through 126 may be utilized in receiving the edge portions of plate members in the manner set forth below in Figures 50 through 53.
- passage 122 is utilized in receiving an elongated cylindrical member such as rod 30 seen in Figure 6.
- body 121 is formed of a somewhat resilient rigid material such as molded plastic or the like. It will be noted that apart from the cubic shape of body 121, connecting body 120 functions in substantially the same manner as the spherically shaped body set forth above in greater detail. In addition, illustration of the use of connecting bodies such as connecting body 120 is set forth below in Figures 56 and 57.
- FIG 16 sets forth a top view of connecting body 120.
- connecting body 120 defines a generally cubic body 121 formed of a suitable molded plastic material or the like.
- body 121 defines inwardly extending slots 123 through 126 each terminating in enlarged undercut portions 127 through 130.
- enlarged undercuts such as undercuts 127 through 130 facilitate the insertion of the edge portions of plate members into slots 123 through 126.
- the enlarged dimension of enlarged undercuts 127 through 130 facilitates the flexing of body 121 as the surfaces of notches 123 through 126 are forced outwardly by plate member insertion.
- the enlarged dimensions of the undercut portions facilitate additional attachment security in cooperation with various edge structures of the plate members.
- FIG 17 sets forth a side elevation view of connecting body 120.
- connecting body 120 includes a cubic body 121 preferably formed of a molded plastic material or the like which defines a plurality of inwardly extending slots such as slot 123 shown in Figure 17.
- Figure 18 sets forth a section view of connecting body 120 taken along section lines 18-18 in Figure 16.
- Connecting body 120 describes a generally cubic shape and thus includes a cubic body 121 preferably formed of a molded plastic material or the like.
- Connecting body 120 includes inwardly extending slots 124 and 126 terminating in respective enlarged undercut portions 128 and 130.
- connecting body 120 includes a passage 122 extending through cubic body 121. It will be recalled that passage 122 is preferably sized to receive a portion of an elongated rod such as rod 30 seen in Figure 6.
- FIG 19 sets forth a perspective view of a still further alternate connecting body constructed in accordance with the present invention and generally referenced by numeral 140.
- Connecting body 140 is generally cubic in shape and differs from connecting body 120 (seen in Figure 15) in that the plurality of inwardly extending slots formed therein is oriented to correspond to the diagonal of the cubic body. More specifically, connecting body 140 includes a cubic body 141 preferably formed of a molded plastic material or the like which defines a downwardly extending passage 142 therein. At the corner portions of cubic body 141, a corresponding plurality of inwardly extending slots 143, 144, 145 and 146 are formed. Slots 143 through 146 terminate in enlarged undercut portions 147, 148, 149 and 150 respectively.
- connecting body 140 includes a molded plastic cubic body 141 having a downwardly extending passage 142 formed therein. Extending inwardly from each of the corners of cubic body 141 is a plurality of slots 143, 144, 145 and 146. Slots 143 through 146 terminate in enlarged undercut portions 147 through 150 respectively.
- cubic body 141 is preferably formed of a somewhat resilient molded plastic material or the like.
- Figure 21 sets forth a side elevation view of connecting body 140, having a cubic body 141 defining a slot 143 therein. Slot 143 terminates in an enlarged undercut portion 147.
- FIG 22 sets forth a section view of connecting body 140 taken along section lines 22-22 in Figure 20.
- connecting body 140 defines a cubic body 141 preferably formed of a molded plastic resilient material or the like.
- Cubic body 141 defines a passage 142 extending therethrough together with a plurality of inwardly extending slots such as slots 144 and 146. Slots 144 and 146 terminate in enlarged undercut portions 148 and 150.
- the attachment of the edge portions of plate members within the slots of connecting body 140 is illustrated in Figures 50 through 53. Suffice it to note here that the resilience of cubic body 141 together with the structure of inwardly extending slots and enlarged undercut portions facilitates this insertion and provides a securing force upon an inserted plate member.
- FIG 23 sets forth a perspective view of a still further alternate connecting body constructed in accordance with the present invention and generally referenced by numeral 160.
- Connecting body 160 is similar in its cubic shape to connecting body 120 (seen in Figure 15) with the addition of an improved slot structure.
- Connecting body 160 includes a cubic body 161 formed of half portions 162 and 163.
- a plurality of inwardly extending slots 165, 166, 167 and 168 are formed in cubic body 161.
- the structure of slots 165 through 168 is set forth below in Figure 24 in greater detail.
- slots 165 through 168 utilize an improved slot structure similar and analogous to the structure of slots 86 through 89 in the spherical embodiment of the present invention shown in Figure 13. This improved structure facilitates insertion of the edge portions of plate members into each slot without causing deformation of the remainder of cubic body 161.
- FIG 24 sets forth a top view of connecting body 160.
- Connecting body 160 is formed of half portions 162 and 163 (seen in Figure 23) secured in the manner set forth below in Figure 25.
- Connecting body 160 defines a passage 164 extending downwardly through half portions 162 and 163.
- connecting body 160 defines a plurality of inwardly extending slots 165, 166, 167 and 168. Slots 165 through 168 terminate in enlarged undercut portions 170 through 173 respectively.
- a pair of relief slots 175 and 176 are formed on each side of slot 165 to define flexible ribs 185 and 186.
- a pair of relief slots 177 and 178 are formed on each side of slot 166 to form flexible ribs 187 and 188.
- connecting body 160 functions in substantially the same manner as connecting body 80 set forth above in Figure 13 in that a plurality of edge portions of plate members such as plate member 310 seen in Figure 32 may be inserted into any or all of slots 165 through 168 without causing significant deformation of the remainder of connecting body 160.
- the operation of the flexible ribs adjacent each slot is set forth below in Figures 54 and 55 in greater detail.
- each slot the flexible rib pairs are capable of flexing outwardly to receive the edge portions of inserted plate members and to provide a maintaining force thereupon. It is important to note that this flexing the flexible rib pair adjacent each slot does not deform the remainder of connecting body 160.
- FIG. 25 sets forth a section view of connecting body 160 taken along section lines 25-25 of Figure 24.
- Connecting body 160 is formed of half portions 162 and 163 joined along a common seam 169 to form a cubic body.
- Half portion 162 defines a recess 183 while half portions 163 defines a correspondingly shaped and sized boss 184 received therein. Attachment between half portions 162 and 163 may be secured utilizing ultrasonic welding or other well known attachment apparatus such as adhesive or chemical bonding or the like.
- Connecting body 160 defines a passage 164 extending therethrough together with a plurality of inwardly extending slots such as slots 166 and 168. Slots 166 and 168 terminate in enlarged undercut portions 171 and 173 respectively.
- half portions 162 and 163 are fabricated of a resilient material such as molded plastic or the like.
- FIG 26 sets forth a perspective view of a still further alternate connecting body constructed in accordance with the present invention and generally referenced by numeral 190.
- Connecting body 190 includes a generally cylindrical body 191 defining a passage 192 extending downwardly through the entirety of body 191.
- cylindrical body 191 defines a plurality of inwardly extending slots 193, 194, 195 and 196. Slots 193 through 196 terminate in enlarged undercut portions 197 through 200 respectively.
- cylindrical body 191 is fabricated of a resilient molded plastic material or the like.
- connecting body 190 includes a generally cylindrical body 191 defining a center passage 192 extending therethrough. Cylindrical body 191 further defines a plurality of inwardly extending slots 193, 194, 195 and 196. Slots 193 through 196 terminate in enlarged undercut portions 197 though 200 respectively.
- one or more edge portions of plate members such as plate member 310 shown in Figure 32 may be inserted into slots 193 through 196. During this insertion, body 191 deforms slightly in cooperation with the enlarged undercut portions 197 through 200 to facilitate secure attachment of connecting body 190 to the plate member.
- Figure 28 sets forth a perspective view of a still further alternate fabrication of a connecting body constructed in accordance with the present invention and generally referenced by numeral 210.
- Connecting body 210 includes a body 211 having an illustrative and generally nondescript shape which defines a passage 212 extending downwardly therethrough.
- Body 211 further defines a plurality of inwardly extending slots 213, 214, 215 and 216 each defining respective enlarged undercut portions 217, 218, 219 and 220.
- Connecting body 210 functions in substantially the same manner as the above described connecting bodies and is provided to illustrate the present invention ability to accommodate virtually any shape of connecting body.
- FIG 29 sets forth a top view of still further alternate connecting body fabrication constructed in accordance with the present invention and generally referenced by numeral 230.
- Connecting body 230 defines a cylindrical body 231 having a passage 232 extending downwardly therethrough.
- Connecting body 230 is similar to connecting body 190 (seen in Figure 26) with the primary difference being found in the use of flexible rib slot structures for accommodating the edge portions of plate members or the like.
- connecting body 230 includes a plurality of inwardly extending slots 233, 234, 235 and 236 each of which terminates in a respective enlarged undercut portion 237, 238, 239 and 240.
- a pair of relief slots 241 and 242 are formed on each side of slot 233 to form flexible ribs 265 and 266.
- connecting body 230 defines relief slots 243 and 244 on either side of slot 234 to form flexible ribs 267 and 268.
- a pair of relief slots 245 and 246 are formed on each side of slot 235 to form flexible ribs 306 and 307 while a pair of relief slots 247 and 248 are formed on each side of slot 236 to form flexible ribs 308 and 309.
- Slots 233 through 236 together with their corresponding flexible ribs and relief slots function in the manner set forth below in Figures 54 and 55 to receive and secure the edge portion of one or more plate members.
- the importance of the flexible rib and relief slot structures in connecting block 230 is the provision of slot expansion during insertion of the edge portion of a plate member without deforming the remainder of connecting block 230.
- FIG 30 sets forth a top view of a still further alternate connecting block fabrication constructed in accordance with the present invention and generally referenced by numeral 250.
- Connecting block 250 includes a body 251 defining a triangular prism shape and having a passage 252 extending downwardly therethrough.
- Connecting block 250 includes inwardly extending slots 253, 254 and 255 each terminating in an enlarged undercut portion 256, 257 and 258 respectively.
- a pair of relief slots 259 and 260 are formed on each side of slot 253 to form a pair of flexible ribs.
- a pair of relief slots 261 and 262 are formed on each side of each slot 254 to provide a pair of flexible ribs.
- a pair of relief slots 263 and 264 are formed on each side of slot 255 to provide a pair of flexible ribs.
- the operation of slots 253 through 255 is substantially identical to the operation of slot 168 shown in Figures 54 and 55.
- FIG 31 sets forth a top view of a still further alternate connecting body fabrication constructed in accordance with the present invention and generally referenced by numeral 270.
- Connecting body 270 includes an octagonal body 271 having a center passage 272 extending therethrough.
- Each of the eight facets of octagonal body 271 supports a flexible rib slot structure substantially identical to the structures set forth above such as those shown in Figures 29 and 30.
- connecting body 270 includes a plurality of inwardly extending slots 273, 274, 275, 276, 277, 278, 279 and 280 each terminating in respective enlarged undercut portions 281 through 288.
- a pair of relief slots 290 and 291 are formed on each side of slot 273 to form flexible ribs 335 and 336 while a pair of relief slots 292 and 293 are formed on each side of slot 274 to form flexible ribs 337 and 338.
- a pair of relief slots 294 and 295 are formed on each side of slot 275 to form a pair of flexible ribs 339 and 349 while a pair of relief slots 296 and 297 are formed on each side of slot 276 to form a pair of flexible ribs 353 and 354.
- a pair of relief slots 298 and 299 are formed on each side of slot 277 to form flexible ribs 363 and 364 while a pair of relief slots 300 and 301 are formed on each side of slot 278 to form flexible ribs 379 and 380.
- a pair of relief slots 302 and 303 are formed on each side of slot 279 to form a pair of flexible ribs 381 and 382 while a pair of relief slots 304 and 305 are formed on each side of slot 280 to form a pair of flexible ribs 383 and 384.
- Figures 32, 34 and 36 set forth perspective views of illustrative plate members 310, 320 and 330.
- Plate members 310 and 330 define generally square shapes while plate member 320 defines a substantially circular shape.
- plate members 310, 320 and 330 provide examples of alternative edge structures each illustrative of edge structures which may readily be used in the present invention construction toy set in combination with the above described connecting bodies. It will be apparent to those skilled in the art, that each of the edge structures shown may be utilized in combination with plate members of differing shapes such as the variously shaped plate members shown in Figures 38 through 46 as well as those shown in Figures 48 and 49 without departing from the spirit and scope of the present invention.
- the variously shaped plate member shown in Figures 32, 34 and 36 as well as Figures 38 through 46 and Figures 48 and 49 should be understood to be in no manner limiting as to the possible shapes of plate members which may be utilized within the present invention construction toy set.
- Figure 32 sets forth a perspective view of a plate member constructed in accordance with the present invention and generally referenced by numeral 310.
- Plate member 310 is generally square in shape and planar in character and defines a plurality of edges 311, 312, 313 and 314.
- Figure 33 sets forth a partial section view of plate member 310 taken along section lines 33-33 in Figure 32.
- Plate member 310 includes an edge portion 313 having angled facets 314 and 316 on either side thereof.
- a bead portion 315 is formed at the intersection of angled facet 314 and the remainder of plate member 310.
- Facet 316 defines an angle 317 with the planar portion plate member 310.
- Angled facets 314 and 316 facilitate insertion of edge 313 into a connecting body slot in the manner set forth below in Figures 50 through 55.
- Particularly Figure 52 illustrates the particular characteristics of a plate member fabricated in the manner shown for plate member 310.
- Figure 34 sets forth a generally circular plate member generally referenced by numeral 320.
- Plate member 320 is generally planar in character and defines an outer edge 321.
- Figure 35 sets forth a partial section view of plate member 320 taken along section lines 35-35 in Figure 34.
- Plate member 320 defines an edge portion 321 supporting an upwardly extending bead portion 323 and an angled facet 322. Angled facet 322 facilitates insertion of edge 321 into a connecting body slot while bead 323 aides in securing edge 321 within such as connecting body slot.
- Figure 53 below sets forth an illustration of the insertion of a plate member such as plate member 320 into a connecting body slot.
- Figure 36 sets forth a perspective view of a plate member constructed in accordance with the present invention and generally referenced by numeral 330.
- Plate member 330 is generally square in shape and defines a plurality of edges 331, 332, 333 and 334.
- Figure 37 sets forth a partial section view of plate member 330 taken along section lines 37-37 in Figure 36.
- Plate member 330 defines a generally cylindrical edge 334 which provides ease of insertion and positive retention into and within a connecting body slot.
- Figures 50 and 51 set forth below illustrate the insertion of a plate member such as plate member 330 into a connecting body slot.
- Figures 38, 39 and 40 set forth further examples of variously shaped and configured plate members for use in the present invention construction toy set.
- Figure 38 shows a generally square plate member generally referenced by numeral 340 which defines an outer edge 343 and an aperture 341.
- Figure 39 shows a generally circular plate member generally referenced by numeral 344 having a center aperture 345 and an outer edge 346.
- Figure 40 shows a circular segment plate member generally referenced by numeral 347 defining an outer edge 348. While edges 343, 346 and 348 of plate members 340, 344 and 347 respectively may be shaped in accordance with any of the above described shapes shown for plate members, it has been found convenient to shape edges 343, 346 and 348 in the manner shown in Figure 47. In the anticipated use of plate members 340, 344 and 347, the overall size thereof is generally selected to be substantially smaller than the plate members set forth and described above within a given construction toy set to provide variety of structure.
- Figures 41, 42 and 43 set forth further alternate shapes for plate members constructed in accordance with the present invention and generally referenced by numerals 350, 355 and 360 respectively.
- Plate members 350, 355 and 360 are generally shaped to provide a floral shape, a leaf-like shape and a tear-drop shape for use in various aesthetic themes within a construction toy set of the type utilizing the present invention.
- plate member 350 defines a floral shaped outer edge 352 and an aperture 351.
- Plate member 355 defines a leaf-like outer edge 356 while plate member 360 defines an aperture 361 and an outer edge 362 generally resembling a tear-drop shape.
- Figure 44 sets forth a triangular shaped plate member generally referenced by numeral 365 having an outer edge 366.
- Outer edge 366 may be fabricated using any of the edge structures set forth herein.
- Figure 45 sets forth a plate member generally referenced by numeral 370 having an outer edge 371 which is multiply curved to form an arm portion 373 and a hand portion 374. An aperture 372 is formed in hand portion 374.
- Figure 46 sets forth a plate member 375 having an outer edge 376 which is multiply curved to form a leg portion 377 and a foot portion 378.
- FIG 47 sets forth a partial section view of plate member 347 taken along section lines 47-47 in Figure 40.
- Plate member 347 defines a tapered edge portion 348.
- the tapered character of edge portion 348 facilitates the insertion of edge 348 into a connecting slot. This insertion is illustrated in Figures 54 and 55.
- Figure 48 sets forth a perspective view of a curved plate member constructed in accordance with the present invention and generally referenced by numeral 480.
- Plate 480 is generally cylindrical and defines a pair of parallel straight edges 481 and 483.
- Plate 480 further defines a pair of generally curved circular edges 482 and 484.
- edges 481 through 484 of curved plate 480 remain capable of insertion into the slots of a connecting body in the manner described above.
- the curvature of plate member 480 is sufficiently large in radius of curvature to maintain attachment within a connecting body slot.
- Figure 49 sets forth a perspective view of a curved plate member generally referenced by numeral 490 and constructed in accordance with the present invention.
- Plate member 490 is generally cylindrical in shape and corresponds generally to a quarter cylinder.
- curved plate member 490 defines a pair of parallel straight edges 491 and 493 together with a pair of cylindrically curved edges 492 and 494.
- plate member 490 defines a radius of curvature which is sufficiently large to facilitate the insertion of its edge portions into the connecting slots of a connecting body in much the same manner as described above for generally planar members.
- Figure 50 sets forth a partial section view showing a typical insertion of a plate member into a typical slot in a connecting body.
- the plate member is positioned such that its edge is aligned with the entrance to the slot formed in the connecting body.
- a connecting body 120 having a generally cubic body 121 defines a slot 126 terminating in an enlarged undercut 130.
- Connecting body 120 further defines slots 123 and 125 having enlarged undercut portions 127 and 129.
- a passage 122 is formed at the approximate center of connecting body 120.
- a plate member 330 defines a generally cylindrical edge portion 334.
- edge 334 With edge 334 positioned as shown at the entrance to slot 126, the user then forces plate 330 and edge 334 into slot 126 in the direction indicated by arrow 325.
- the resilient character of the material from which body 121 is formed allows body 121 to flex outwardly as indicated by arrows 326 and 327 to the expanded position shown in phantom line drawing in Figure 50.
- the user continues to force edge 34 into slot 126 until it is received within enlarged undercut 130. It will be noted that the outward flexing of slot 126 to receive the enlarged size of edge 334 of plate member 330 is facilitated by undercut 130.
- the user continues to drive edge 334 of plate member 330 into slot 126 until cylindrical edge 334 is received within undercut 130.
- Figure 51 sets forth the partial section view shown in Figure 50 of connecting body 120 and plate member 330 following the completion of the edge insertion described above. At the point shown in Figure 51, edge 334 of plate member 330 is seated within the connecting body slot and is maintained securely.
- a connecting body 120 having a generally cubic body 121 defines a slot 126 terminating in an enlarged undercut 130.
- Connecting body 120 further defines slots 123 and 125 having enlarged undercut portions 127 and 129.
- a passage 122 is formed at the approximate center of connecting body 120.
- a plate member 330 defines a generally cylindrical edge portion 334.
- connecting body 120 causes the side portions of slot 126 to provide positive pressure against the surfaces of plate member 330. It will be further apparent to those skilled in the art that the enlarged size of cylindrical edge 334 cooperates with the enlarged size of undercut 130 to further secure plate member 330 within connecting body 120.
- the removal process for plate member 330 is substantially the reverse as the above described insertion process in that the user simply applies a drawing force upon plate member 330 with respect to connecting body 120 to overcome the resilient retaining force thereof and withdraw plate member 330.
- Figure 52 sets forth a partial section view of an alternative combination of connecting block slot and plate member edge attachment.
- Connecting body 120 includes a cubic body 121 defining a slot 126 therein. Slot 126 terminates in an enlarged undercut portion 127.
- a plate member 357 defines an edge portion 358 having tapered facets and a bead portion 359. In the inserted position shown in Figure 52, edge 358 has been forced through 126 causing cubic body 121 to flex outwardly in a similar manner to that set forth above in Figure 50 to facilitate the passage of bead 359 into undercut portion 127. Once bead 359 enters enlarged undercut portion 127, the resilience of the material forming cubic body 121 forces slot 126 against plate member 357 securing edge 358. It will be understood that a reverse action of withdrawing plate member 357 causes a corresponding outward flex of cubic body 121 as bead 359 passes through slot 126.
- FIG 53 sets forth a partial section view similar to the section view shown in Figure 52 which illustrates a still further alternative combination of connecting body fabrication and plate member.
- connecting body 120 includes a cubic body 121 defining a slot 126 terminating in an enlarged undercut portion 127.
- a plate member 320 includes an edge 321 having an angled facet 322 and an upwardly extending bead 323.
- plate member 320 is forced into slot 126 causing slot 126 to flex outwardly as bead 323 passes through slot 126 into undercut 127.
- the resilient character of connecting body 120 causes the closure of slot 126 against plate member 320.
- the frictional force upon plate member 320 by the surfaces of slot 126 together with the extension of bead 323 into undercut 127 maintains the secure attachment of plate member 320 to connecting body 120.
- Figures 54 and 55 set forth partial section views of an illustrative attachment between a plate member and a connecting body having the improved slot structure utilizing relief slots and flexible ribs such as that shown in Figures 11 through 13, 23 and 24, and 29 through 31.
- Figure 54 a shows a plate member positioned for insertion into the slot of a connecting body while
- Figure 55 shows the plate member inserted into and secured to a connecting body.
- a connecting body 160 defines a slot 168 having an enlarged undercut portion 173.
- Connecting body further includes a pair of relief slots 181 and 182 on each side of slot 168.
- the presence of relief slots 182 and 183 on each side of slot 168 forms a pair of flexible ribs 223 and 224.
- a plate member 347 defines a tapered edge 348.
- edge 348 of plate member 347 is positioned at the entrance of slot 168. Thereafter, the user forces plate member 347 into slot 168 in the direction indicated by arrow 225. The insertion of edge 248 into slot 168 forces flexible ribs 223 and 224 outwardly in the directions indicated by arrows 226 and 227. It will be noted that the outward flexing of flexible ribs 223 and 224 is accommodated by relief slots 182 and 181 respectively. As a result, the remainder of connecting body 160 is not deformed by the insertion of plate member 347.
- plate member 347 is fully inserted into connecting body 160.
- Figure 55 sets forth the partial section view of Figure 54 in which edge 348 of plate member 347 is fully inserted into connecting body 160.
- a connecting body 160 defines a slot 168 having an enlarged undercut portion 173.
- Connecting body further includes a pair of relief slots 181 and 182 on each side of slot 168.
- the presence of relief slots 182 and 183 on each side of slot 168 forms a pair of flexible ribs 223 and 224.
- a plate member 347 defines a tapered edge 348.
- edge 348 In the fully inserted position shown in Figure 55, flexible ribs 223 and 224 provide a grasping force against plate member 347 which aides in retaining plate member 347 in a secure attachment.
- an alternative edge structure for edge 348 is shown in dash-line representation 369 to demonstrate the use of an enlarged bead within the structure of edge 348. In such case, enlarged bead 369 cooperates with undercut portion 173 to further secure plate member 347 within slot 168.
- Figure 55 also provides illustration of the present invention construction toy set fabrication which allows the residence of substantial loads upon the various structures fabricated utilizing the present invention connecting bodies and plate members.
- a torch or rotational force is imparted to plate member 347 which is also directed as indicated by arrow 367.
- the flexible character of flexible ribs 223 and 224 cause rib 224 to flex downwardly in the direction indicated by arrow 368.
- relief slot 181 narrows until, under significant load, the outer end of flexible rib 224 touches the lower surface of relief slot 181.
- Figure 56 sets forth a perspective view of an illustrative complex structure produced utilizing the present invention construction toy set. It will be understood that the structure shown in Figure 56 is utilized for illustration and that various other structures of differing shapes and configurations may be fabricated utilizing the present invention construction toy set without departing from the spirit and scope of the present invention. Thus, the combined structure generally referenced by numeral 390 shown in Figure 56, may be seen to be fabricated of a plurality of generally planar plate members mutually secured by interlocking connecting bodies of the type set forth and described above. Structure 390 includes a pair of plate members 391 and 393 secured at right angles by a connecting body for ten.
- structure 390 includes a plate member 310 having edges 311, 312, 313 and 314 which is further secured to the combination of plate members 391 and 392 by connecting bodies 413 and 414.
- a triangular shape plate member 365 having an outer edge 366 is secured to edge 314 of plate member 310 by connecting bodies 415 and 416.
- Structure 390 further includes a pair of plate members 396 and 397 secured at right angles by a connecting body 412.
- plate member 397 is stabilized in its vertical position by attachment of a connecting body 411. While not seen in Figure 56 due to the perspective view thereof, it will be understood that plate member 396 is also secured to connecting body 410 to further stabilize structure 390.
- a plate member 417 is mutually secure to the upper edges of plate members 396 and 397 by connecting bodies 423 and 424 and connecting bodies 427 and 428 respectively.
- a triangular plate member 398 is further secured to plate members 417 and 397 by connecting bodies 427 and 428.
- a plate member 394 is secured to plate members 396 and 417 by connecting bodies 423 and 424. Plate member 394 further supports a triangular plate member 395 utilizing connecting bodies 425 and 426.
- a fancifully curved plate member 399 is secured to plate members 392 and 393 by connecting body 422.
- a pair of smaller plate members 400 and 401 are secured to plate member 399 by connecting bodies 420 and 421 respectively.
- the various connecting bodies shown in Figure 56 are illustrative of the various connecting bodies set forth above and may be interchangeable utilized within a structure such as structure 390 in accordance with the present invention.
- the entire structure may be further modified and revised by the child user either by adding additional connecting bodies and plate members or by removing and repositioning selected ones of the connecting bodies and plate members.
- the important aspect with respect to the present invention to be realized in Figure 56, is that the variously shaped connecting bodies set forth above may be interchangeable utilized in forming a more complex structure of plate members in which assembly is a simple plate insertion operation.
- Figure 57 sets forth a perspective assembly view of a toy figure constructed in accordance with the present invention and generally referenced by numeral 430.
- Toy figure 430 will be understood to be illustrative of the various toy figures which may be fabricated using different combinations of connecting bodies and plate members. It will be understood that the plate members and connecting bodies of the present invention are capable of fabricating a virtually endless variety of toy figures all of which fall within the spirit and scope of present invention.
- toy figure 430 includes a connecting body 140 having a plurality of inwardly extending slots 143, 144, 145 and 146. Each connecting slot terminates in an enlarged undercut 147, 148, 149 and 150 respectively.
- Connecting body 140 further defines a passage 142 extending therethrough.
- an elongated rod 30 having a lower end 31 is inserted into passage 142 to provide a vertical support.
- a pair of plate members 460 and 462 are inserted into slots 144 and 146 respectively to provide further support for toy figure 430.
- a generally cylindrical member 446 defining a passage 447 therethrough is received upon rod 30 and rests upon the upper surface of connecting body 140.
- Connecting body 440 defines a pair of inwardly extending slots 442 and 443.
- Toy figure 430 further includes a pair of arm members 450 and 453.
- Arm member 450 includes an arm portion 451 and a hand portion 452. Arm portion 451 is inserted into slot 442 of connecting body 440.
- arm member 453 includes an arm portion 454 and a hand portion 456. Arm portion 454 is inserted into slot 443.
- a cylindrical member 444 defines an aperture 445 and is assembled upon rod 30 and rests upon the upper portion of connecting body 440.
- a connecting body 431 defines a center passage 434 and a pair of inwardly extending slots 432 and 433. Connecting body 431 is assembled to end portion 32 of rod 30. End 32 extends into but not entirely through connecting body 431.
- a head unit 470 defines a generally semi-spherical member defining an interior cavity 472 (better seen in Figure 58). Head member 470 further defines a fanciful face indicia 473. Head member 470 further defines an aperture 471 in the upper portion thereof.
- the internal structure of head member 470 is set forth below in Figure 58 in greater detail. However, suffice it to note here that interior cavity 472 of head member 470 is sized and configured to allow head member 470 to rest upon and partially cover the upper surface of a spherical member such as connecting body 431.
- the combination of head member 470 and spherical connecting body 431 provides a fanciful simulation of a figures head and face.
- Toy figure 430 is completed by a crown member 496 having a downwardly extending post 497. With head member positioned upon connecting body 431 such that aperture 471 is aligned with passage 434 thereof, post 497 may be passed through aperture 471 into the upper portion of passage 434 to secure crown member 496 in place.
- the resulting toy figure is thereafter useable in virtually any play pattern designed by the child user.
- a plurality of toy figures assembled in a similar manner to toy figure 430 may be utilized in combination with a structure such as structure 390 shown in Figure 56.
- a plurality and virtually endless variety of toy figures may be fabricated utilizing the various connecting bodies and plate members provided in the present invention construction toy set.
- an alternative crown member 498 having a downwardly extending post 499 may be utilized in place of crown member 496 in the above described assembly.
- an alternative head member 500 having an aperture 501 and an interior cavity 505 may be substituted in place of head member 470 and assembled to connecting body 431 to further vary toy figure 430.
- fanciful plate members 460 and 462 may be replaced by a pair of leg members 502 and 503 which are similarly inserted into slots 144 and 146 of connecting body 140.
- the foregoing variations of figure 430 are provided for purposes of illustration. However, it will be apparent to those skilled in the art that a plurality of substantially different and varied toy figures may be fabricated utilizing the interchangeable members and connecting bodies of the present invention construction toy set without departing from the spirit and scope of the present invention.
- Figure 58 sets forth a partial section perspective view of the interior structure of head member 470.
- Head member 470 is generally semi-spherical in structure and defines a spherical internal cavity 472. Head member 470 further defines an aperture 471 and a face portion 473. The frontal portion including face portion 473 of head member 470 is shown in dash-line depiction to facilitate illustration of the interior structure of head member 470.
- head member 470 further includes a pair of inwardly extending flange portions 475 and 476.
- flanges 475 and 476 are selected to correspond with and properly fit within slots 432 and 433 of connecting body 431.
- flanges 475 and 476 are received within slots 432 and 433 of the connecting body. This cooperation of flanges 475 and 476 with slots 432 and 433 facilitates the proper alignment of head member 470 with respect to the remainder of the toy figure and provides a secure attachment between head member 470 and connecting body 431.
- FIG 59 sets forth a perspective view of a mobile constructed in accordance with the present invention construction toy set and generally referenced by numeral 510.
- Mobile 510 is fabricated utilizing a plurality of connecting bodies and plate members of different sizes, shapes and structures such as those set forth above together with an elongated flexible element 511.
- flexible element 511 comprises a string or relatively thin cord.
- element 511 may also be provided by a monofilament type material such as fishing line or the like.
- flexible element 511 may comprise a ribbon or other material.
- Structure 510 includes a connecting body 512 having a plurality of plate members 513, 514, 515 and 516 joined by inserting portions of each plate member into slots formed in connecting body 512 in the manner described above.
- flexible element 511 is passed through one of the slots of connecting body 512.
- Structure 510 further includes a connecting body 520 secured to flexible element 511 together with a connecting body 521.
- Connecting bodies 520 and 521 are spherical in shape and fabricated in accordance with any of the various structures set forth above.
- An elongated curving plate member 522 is secured within a selected slot formed in connecting body 521.
- the lower end of flexible element 511 is joined to plate member 522 and connecting body 521 using a simple tied knot or alternatively, passing the lower end of element 511 through the slot formed in connecting body 521 which receives plate member 522.
- Plate member 522 defines a general center of gravity indicated by indicia 538.
- the remaining elements of structure 510 secured to plate member 522 are evenly distributed on each side of center of gravity 538. It will be apparent to those skilled in the art that a virtually endless variety of combinations of connecting bodies and plate members may be attached to plate member 522 to provide differing appearances while satisfying this general balancing criteria.
- a cubic connecting body 523 is secured to one end of plate member 522 by insertion into a slot thereof.
- a pair of plate member 524 and 538 are received within additional slots formed in connecting body 523 for secure attachment.
- a pair of spherical connecting bodies 525 and 526 are secured to the lower portion plate member 538.
- Connecting body 525 further supports a plate member 527 while connecting body 526 further supports a plate member 528.
- a generally cubic connecting body 529 is secured to the lower edge of plate member 522 by insertion into a slot thereof.
- a trio of plate members 530, 533 and 536 are secured within additional slots formed in connecting body 529.
- Plate member 536 further supports a spherical connecting body 537 while plate member 530 further supports a connecting body 531 which in turn supports a downwardly extending plate member 532.
- Structure 510 is completed by a connecting body 534 secured to plate member 533 which in turn supports a plate member 535.
- Figure 60 sets forth a perspective view of a jewelry article constructed in accordance with the present invention and generally referenced by numeral 540.
- the various plate members and connecting bodies selected for assembly are chosen from the above described connecting bodies and plate members which define apertures therethrough.
- an elongated flexible element 511 which, as described above in Figure 59, preferably comprises a flexible cord or string or alternative flexible elements is used to secure the various plate members and connecting bodies chosen for inclusion of the article 40 by simply stringing the flexible element through the passages and apertures formed therein.
- jewelry article 540 which may for example, be a necklace or bracelet, includes a plurality of connecting bodies 543, 548 and 551 each having a passage formed therein as described above.
- a plurality of plate members 541, 544, 546 and 550 are also chosen from the above described plate members which define an aperture therethrough.
- plate member 550 defines an aperture 553 therein.
- jewelry article 540 includes a plurality of conventional beads 542, 545, 547, 549 and 552 to further enhance the general attractiveness of jewelry article 540. It will be apparent to those skilled in the art that a virtually endless variety of plate members and connecting bodies may be strung upon flexible element 511 as desired to provide the chosen combination for the desired appearance of jewelry article 540.
- a plurality of plate members may be secured to one or more of the connecting bodies strung upon flexible element 511.
- This attachment is carried forward by the insertion of an edge portion of the plate members into a convenient slot within the selected connecting body.
- This attachment is amply described above, and is shown in Figure 60 as the attachment between additional plate members 554 and 555 to connecting body 548.
- a plate member 556 is inserted partially into connecting body 543 at a convenient slot (not seen) to secure plate member 556.
- additional connecting bodies may also be secured to the various plate members strung upon flexible element 511 to further enhance the resulting jewelry article structure.
- a connecting body 557 is shown secured to plate member 544 by edge insertion into a connecting body slot.
- Figures 152 and 153 illustrate a wand structure which plays a role herein in enabling skewering interconnection between components.
- Figures 156-158 inclusive, illustrate an elongate flexible strand which is employed, among other things, to achieve tethering and stitching, both of which interconnection modalities are pictured in Figure 158. Also shown in Figure 158, in the loop formed in the strand there pictured is a suggestion of how this strand can be used for the joinery modality of snaring.
- Figures 161, 162, 170-174, inclusive, 205-208, inclusive, 221, 222, 225 and 226, provide clear illustrations of organic-form components furnished in accordance with the present invention.
- Figures 263 and 264 illustrate a thin-door structure, the non-decorated side in which possesses surface-energy characteristics (static force, for example) that cause it to cling to another surface when it is applied to that surface.
- surface-energy characteristics static force, for example
- Figures 281-283, inclusive, illustrate an amorphous, free-form component which can be assembled by a child's imagination into a host of different settings to represent something in the child's mind.
- Figures 324 and 325 illustrate building components having slots which promote interference interconnection between components.
- a construction toy set having a plurality of generally planar plate members which are connectable by a plurality of connecting bodies.
- the connecting bodies define appropriate slot structures for receiving the edge portions of the plate members in an easily assembled by secure attachment particularly suited for younger children.
- the construction toy set is flexible in use and facilitates fabrications of relatively complex and varied structures as well as fanciful toy figures.
- the entire construction toy set may be themed as desired to provide a general appearance or character consistent with the desired use.
- the entire compliment of elements of the construction toy set may be fabricated of relatively inexpensive molded plastic components and is suitable for mass production and mass marketing.
Landscapes
- Toys (AREA)
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
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EP06007968A EP1690577A3 (de) | 2002-03-26 | 2002-09-23 | Bauspielzeug, das Verbindungselemente mit geringer Einsteckkraft enthält |
DK200200382U DK200200382U3 (da) | 2002-03-26 | 2002-11-29 | Konstruktionslegetøjssæt med forbindelsesdele af lav indstikskraft |
Applications Claiming Priority (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US108149 | 2002-03-26 | ||
US108024 | 2002-03-26 | ||
PCT/US2002/009334 WO2003082424A1 (en) | 2002-03-26 | 2002-03-26 | Construction toy set having low insertion force connecting bodies |
WOPCT/US02/09334 | 2002-03-26 | ||
US10/108,149 US20030186616A1 (en) | 2002-03-26 | 2002-03-26 | Construction toy set having low insertion force connecting bodies |
US10/108,024 US6669526B2 (en) | 2002-03-26 | 2002-03-26 | Construction toy set having low insertion force connecting bodies |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP06007968A Division EP1690577A3 (de) | 2002-03-26 | 2002-09-23 | Bauspielzeug, das Verbindungselemente mit geringer Einsteckkraft enthält |
Publications (4)
Publication Number | Publication Date |
---|---|
EP1348474A2 true EP1348474A2 (de) | 2003-10-01 |
EP1348474A3 EP1348474A3 (de) | 2004-05-19 |
EP1348474B1 EP1348474B1 (de) | 2006-06-21 |
EP1348474B9 EP1348474B9 (de) | 2006-10-18 |
Family
ID=27808454
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
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EP02021136A Expired - Lifetime EP1348474B9 (de) | 2002-03-26 | 2002-09-23 | Bauspielzeug, das Verbindungselemente mit geringer Einsteckkraft enthält |
EP06007968A Withdrawn EP1690577A3 (de) | 2002-03-26 | 2002-09-23 | Bauspielzeug, das Verbindungselemente mit geringer Einsteckkraft enthält |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
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EP06007968A Withdrawn EP1690577A3 (de) | 2002-03-26 | 2002-09-23 | Bauspielzeug, das Verbindungselemente mit geringer Einsteckkraft enthält |
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---|---|
EP (2) | EP1348474B9 (de) |
DE (1) | DE60212567T2 (de) |
ES (1) | ES2267913T3 (de) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2007101290A1 (en) * | 2006-03-08 | 2007-09-13 | Toy Polloi Pty Ltd | Construction system |
WO2015189844A1 (en) * | 2014-06-10 | 2015-12-17 | Hoter-Ishay Hilla | Target games and articles associated therewith |
CN111372666A (zh) * | 2017-10-17 | 2020-07-03 | 乐高公司 | 玩具结构及这样的玩具结构套件的用途 |
CN114450075A (zh) * | 2019-10-01 | 2022-05-06 | 乐高公司 | 可变形模块化玩具元件 |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
MA45332A (fr) * | 2017-06-08 | 2019-03-27 | Fabien Philippe Fontaine | Perle pour enfant éducative et d'aide au développement de compétences multiples destinée à des enfants en bas âge et bijou-jouet comprenant une pluralité de telles perles pour enfant |
FR3112081B1 (fr) | 2020-07-01 | 2022-07-22 | Kojo | Jeu de construction |
Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US171533A (en) * | 1875-12-28 | Improvement in toy building-blocks | ||
FR688609A (fr) * | 1930-01-21 | 1930-08-27 | Jeu de construction | |
US2506328A (en) * | 1947-03-24 | 1950-05-02 | Don L Alger | Plastic figurine |
GB1094418A (en) * | 1964-10-10 | 1967-12-13 | Fischer Artur | Building component for incorporation in a constructional toy |
US3827177A (en) * | 1972-01-24 | 1974-08-06 | Memory Plastic Wengel G | Construction game |
US3891335A (en) * | 1973-10-25 | 1975-06-24 | Continental Display Corp | Retaining clip |
GB1478589A (en) * | 1974-06-27 | 1977-07-06 | Staeger Hans | Elongate structural member |
US4080742A (en) * | 1974-11-04 | 1978-03-28 | Osterried James L | Kit of parts for forming a curved member, and curved member formed thereby |
GB2031289A (en) * | 1978-09-15 | 1980-04-23 | Frederiksen P | Plate assembly |
GB2077879A (en) * | 1980-06-17 | 1981-12-23 | Williams John Douglas | Structural joint |
EP0856341A2 (de) * | 1997-01-03 | 1998-08-05 | Connector Set Limited Partnership | Gelenkige zusammensetzbare Spielfigur |
WO1999036148A1 (de) * | 1998-01-19 | 1999-07-22 | Palimondial S.A. | Bausteinsystem, insbesondere f�r spielbausteine |
-
2002
- 2002-09-23 EP EP02021136A patent/EP1348474B9/de not_active Expired - Lifetime
- 2002-09-23 DE DE60212567T patent/DE60212567T2/de not_active Expired - Fee Related
- 2002-09-23 ES ES02021136T patent/ES2267913T3/es not_active Expired - Lifetime
- 2002-09-23 EP EP06007968A patent/EP1690577A3/de not_active Withdrawn
Patent Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US171533A (en) * | 1875-12-28 | Improvement in toy building-blocks | ||
FR688609A (fr) * | 1930-01-21 | 1930-08-27 | Jeu de construction | |
US2506328A (en) * | 1947-03-24 | 1950-05-02 | Don L Alger | Plastic figurine |
GB1094418A (en) * | 1964-10-10 | 1967-12-13 | Fischer Artur | Building component for incorporation in a constructional toy |
US3827177A (en) * | 1972-01-24 | 1974-08-06 | Memory Plastic Wengel G | Construction game |
US3891335A (en) * | 1973-10-25 | 1975-06-24 | Continental Display Corp | Retaining clip |
GB1478589A (en) * | 1974-06-27 | 1977-07-06 | Staeger Hans | Elongate structural member |
US4080742A (en) * | 1974-11-04 | 1978-03-28 | Osterried James L | Kit of parts for forming a curved member, and curved member formed thereby |
GB2031289A (en) * | 1978-09-15 | 1980-04-23 | Frederiksen P | Plate assembly |
GB2077879A (en) * | 1980-06-17 | 1981-12-23 | Williams John Douglas | Structural joint |
EP0856341A2 (de) * | 1997-01-03 | 1998-08-05 | Connector Set Limited Partnership | Gelenkige zusammensetzbare Spielfigur |
WO1999036148A1 (de) * | 1998-01-19 | 1999-07-22 | Palimondial S.A. | Bausteinsystem, insbesondere f�r spielbausteine |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2007101290A1 (en) * | 2006-03-08 | 2007-09-13 | Toy Polloi Pty Ltd | Construction system |
WO2015189844A1 (en) * | 2014-06-10 | 2015-12-17 | Hoter-Ishay Hilla | Target games and articles associated therewith |
CN111372666A (zh) * | 2017-10-17 | 2020-07-03 | 乐高公司 | 玩具结构及这样的玩具结构套件的用途 |
CN111372666B (zh) * | 2017-10-17 | 2022-04-12 | 乐高公司 | 玩具结构及这样的玩具结构套件的用途 |
CN114450075A (zh) * | 2019-10-01 | 2022-05-06 | 乐高公司 | 可变形模块化玩具元件 |
Also Published As
Publication number | Publication date |
---|---|
DE60212567D1 (de) | 2006-08-03 |
EP1690577A3 (de) | 2007-07-25 |
EP1348474B9 (de) | 2006-10-18 |
ES2267913T3 (es) | 2007-03-16 |
EP1690577A2 (de) | 2006-08-16 |
DE60212567T2 (de) | 2007-05-24 |
EP1348474A3 (de) | 2004-05-19 |
EP1348474B1 (de) | 2006-06-21 |
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