The present disclosure relates to a system of connecting blocks, a method of forming an interconnected block assembly and a block for use therein.
Interconnecting blocks have many applications. Interconnecting blocks are generally configured to have male and female connecting parts for removable connection. Articles formed from such blocks have an inherent instability and can fall apart when knocked over. Still further, the articles that may be constructed therefrom are limited as the blocks are configured to have only two connecting faces.
One well known application of interconnecting blocks is for children's toys such as those sold under the LEGO trademark.
Interconnecting blocks have other structural applications such as shelving, walls, temporary barriers and the like.
It would be desirable therefore to provide an alternative connecting lock system that may allow for more stable structures to be formed and allowing for greater versatility in design.
In particular, it would be desirable to be able to provide a system that may be scaled for any suitable use such as a modular construction method including modular walls, office partitions, or external structures.
In the present specification and claims, the term “comprising” shall be understood to have a broad meaning similar to the term “including” and will be understood to imply the inclusion of a stated integer or step, or group of integers or steps, but not the exclusion of any other integer or step or group of integers or steps. This definition also applies to variations on the term “comprising” such as “comprise” and “comprises”.
The present disclosure relates to a system comprising:
The blocks are cuboid and may be a rectangular prism, a square prism or a cube.
The term cuboid as used in the specification and claims includes a solid shape; a hollow cuboid that is cuboid contained by six open sides, or a partially hollow cuboid, that is a three dimensional shape contained by one or more open sides. The cuboid may be open ended, that is opposed open ends and four closed side faces.
A preferred block is a cube.
The blocks have a connecting member extending from each corner. Thus, there are eight connecting members in total.
A connector engagement arrangement is defined between each opposing pair of connecting members.
Each face of the cuboid therefore has four connector engagement arrangements.
Each connecting member may have a base located on a corner of the cuboid and at least three walls extending away from the base. A passage may be defined between opposed walls of each pair of opposed connecting members, the passage configured to receive the longitudinal body of a connector in a snap or friction fit.
Each connecting member may have six walls, each tapering upwardly and away from the base and the outer ends of each wall may define a hexagon.
Each connector engagement arrangements are suitably configured such that, when connected to a connector, the body of the connector extends at about 90° from the block body.
The connector engagement arrangement suitably comprises a passage into which the connector body may be inserted.
The connector body and connector engagement arrangement are suitably configured such that the connector body may engage with the connector engagement arrangement by a compression or friction fit that resists removal of the connector.
Suitably the connector body has a circular cross section that may be solid or tubular.
The ends of the connector may have an enlarged head part that abuts parts of (or otherwise interacts with) the connecting member so as to resist the connector from being withdrawn from the passage along the longitudinal axis of the passage.
Suitably the respective ends of the connector may have a tapered part tapering from the enlarged head towards the body that may interact with the connection member so as to resist the connector from being disconnected by applying force in the longitudinal direction of the connector body and also optimise the contact surface area so as to resist relative movement in use.
Suitably the connector further comprises a spacer intermediate the two ends, suitably centrally between. The spacer spaces adjacently connecting blocks.
The system thereby allows a connector to connect to any one or more, and even all six faces (solid or open) of the cuboid body for connection to another block. A user is not limited by the confines of the block configuration as in conventional interlocking block systems.
In one aspect, when a first block is connected to a second block with a single connector along a first axis or with a first and a second connector that are parallel to each other along the first axis, a through hole is defined in a space between the blocks to allow at least one further connector to engage the first and/or second block at an angle transverse to the first and/or second connector (i.e. transverse to the first axis).
The system may further comprise one or more faceplates for mounting onto one or all six faces of the block.
The or each faceplate may comprise an outer surface that in use extends outwardly away from the block and an inner surface that in use faces towards the block.
The faceplate may be dimensioned so as to extend past outer edges of connecting members of a block with a clearance.
At least one faceplate may have thickness for spacing apart adjacently connected blocks and the clearance of the faceplate is half the thickness of the spacer.
The faceplate may be half the thickness of the spacer.
Suitably a faceplate has four mounts on one face thereof for mounting onto all four connecting members on one face of the block. This allows the faceplate to be accurately aligned with respect to the block.
The mounts and/or connecting members may have projections and/or recesses for holding the faceplate onto the block.
The system may be dimensioned and constructed for any suitable use.
One exemplary use is as an interlocking block toy. In this case the blocks may be constructed of a compression moulded thermoplastic. The blocks will be dimensioned to allow for manual handling. The blocks may be connected together in any desired arrangement.
The connectors may be similarly formed and dimensioned. Suitably the connecting ends of the connecting member have a finger grip part.
When used in a toy configuration, the front face of the faceplate may be configured and/or coloured for interaction with another toy or block system.
In one example, the faceplate may be configured for engagement with a block of a different system or to receive the base of toy figure or other suitable toy object. The toy figure may be an animal or other suitable character. The toy object may be any suitable figurine as known in the toy arts such as vegetation/trees, cars, planes, human figures, super-hero figures, furniture for dolls houses and the like.
Any suitable means of engagement may be used. One means of engagement comprises at least one projection on one of the faceplate of toy object and at least one complimentary recess on the other of the toy object or faceplate.
In another arrangement, the faceplate may be textured or include a textured cover so as to provide an appearance of a surface such as turf or grass.
In another arrangement the faceplate may be covered with a hook and loop type fastener for interacting with a complimentary fastener on a toy object.
In another aspect, the faceplate may be configured for the display of any other display items.
In another aspect, the faceplate the faceplate may have a peripheral lip for securely holding a wheeled article such as model cars or even toy car tracks.
In another aspect, the system may be configured for use as a modular wall, office divider, shelving or any other suitable use. The outer surface of the faceplates may be configured for use as a vertical wall configuration with colours, logos, or other surface ornamentation. When used as part of a horizontal shelf configuration, the faceplates may be configured for display purposes. The connection channels may also provide a space for LED conduits.
The blocks are light weight and the system is almost infinitely configurable as compared to conventional modular wall systems. Still further, as a result of the six way interlocking ability, a system structure may have improved dimensional stability and structural integrity.
In yet a further aspect, the system may be used for construction. In this case, the blocks may be made of more robust components and the connectors may be fixed using fasteners such as bolts, screws, or the like.
In another aspect there is disclosed a block for use in constructing an assembly of interlocking blocks, the block comprising a cuboid body and a connecting member extending away from each corner of the cuboid body, such that for each connecting member there is a first opposed connecting member, a second opposed connecting member and a third opposed connecting member, and a connector engagement arrangement is defined between a connecting member and each of the first, second and third opposed connecting members.
The block body may be a cube.
Each connecting member may have a base located on a corner of the cuboid, at least three walls extending away from the base, and a passage may be defined between a wall on each connecting member and a wall on one of the opposed connecting members, the passage configured to receive a longitudinal body of a connector in a snap or friction fit.
The base of the connecting member may be an equilateral triangle with six walls extending upwardly therefrom and the periphery of the end walls defines a hexagon.
The block may be formed from two separate parts joined together.
Also disclosed is a method of assembly of an interconnecting block assembly comprising: providing a plurality of blocks as disclosed herein; providing a plurality of connectors as disclosed herein; engaging a first end of a connector with a first block; engaging the second end of the connector with a second block so as to connect the two blocks; and (optionally) repeating the steps with one or more further blocks.
The method may further comprise providing at least one faceplate and mounting the or each faceplate onto a face or several faces of at least one block.
Also disclosed is a kit for constructing an interlocking block assembly comprising a plurality of blocks as disclosed herein and a plurality of connectors as disclosed herein.
Each connecting member 14 has a base 16 that is attached or connected to the respective corner. The base 16 is in the shape of an equilateral triangle.
Each connecting member 14 has six walls, 20,22,24,26, 28,30, each tapering upwardly and away from the base 16. The end outer ends of each wall define a hexagon shape (this is more clearly shown in
Each connecting member 14 has a rectangular recess 13 in three of the walls 20, 22, 24. The purpose of the recesses 13 will be discussed below.
Each connecting member 14 is spaced equally apart from an adjacent connecting member 14. The peripheral parts of adjacent triangular walls on respective opposed pairs of connecting members 14 define connection channels 32 therebetween. Each face 34 of the block 10 therefore has four connection channels or passages 32, each of square (or parallel-sided) cross section.
The connector 40 has a cylindrical body 42. The connector 40 has a centre spacer tab 46 extending to one side thereof. The centre spacer tab 46 divides the body 42 into a first connector body part 41 for connecting to a first block and a second connector body part 43 for connecting to a second block.
A flange 44 extends from each end of the body 42. The flange 44 has a rectangular head 48 with opposed tapered walls 50 that taper towards the body at an angle of 120°. The rectangular head 48 has a finger grip projection 52.
In use, a connector body part 43 is inserted into connection channel 32 in a direction transverse to the longitudinal body 42 as shown by arrow C in
Each connector body part 41, 43 is dimensioned to be snugly received within a connection channel 32 so as to be held therein by a friction or compression fit. That is, the diameter of the tubular body is substantially the same as the width of (or the distance between the opposed walls of) the square connector channel 32.
Rotation of the connector body 42 within the channel 32 is prevented by abutment of the rectangular head 48 against the respective face 34 of the block 10 (more clearly seen in
The centre spacer tab 46 abuts the outer side edge 17 of the walls (e.g. wall 22 in
The spacer tab 46 thus further serves as a locater when placing the connector 40 on the block as shown in
The two connectors 40 are placed into respective connection channels 32 at the top and bottom of the blocks 10a, 10b. This securely holds the blocks together in the longitudinal direction.
The connection may be secured in the lateral direction by inserting another connector in one or both, preferably both, side connection channels 32 to either side of the joined blocks as shown in
The same procedure may be repeated to add further blocks in an end-to-end manner.
In the above connection method, the connecting members are placed on an outer edge of a block to be connected to another for connecting in an “end to end” manner.
The system is also configured to allow for connecting a further block or blocks to an intermediate block in a series of end-to-end connected blocks. It will be appreciated that an intermediate block will not have a free face to allow a connecting member to be connected thereto in the manner as described above.
The keyhole space 60 is rectangular in cross-section and dimensioned to receive the rectangular end 48 of a connector 40 with clearance in a predefined orientation.
The connector 40 may only be inserted until tab is blocked by the outer part of the connecting members 14, see
The connectors 40 are then moved apart as shown in
With reference to
The system further includes a faceplate 100 as shown in
The faceplate 100 as shown in
The faceplate plate 100 has opposed faces that in use form an outer face 102 and an inner face 104. The inner face 104 has four connecting lugs 106 for connecting to the connecting members 14. The lugs 106 are right angular triangular prisms located towards each corner of the plate. The lugs 106 have a ramped rear or outwardly facing surface 110 and a perpendicular front face 112 with a recess 114 formed therein.
The edges 108 are chamfered to facilitate smooth edge corners.
The width of the faceplate 100 is wider than the width of the block so that when mounted the edges of the faceplate extend over the block with a clearance. The clearance is ½ the width of the spacer tab 46. This allows for faceplates 100 on linearly adjacent blocks to closely meet or abut, facilitated by the bevelled edges.
The faceplates 100 have a thickness that is also ½ the width of the spacer tab 46. This allows faceplates on transverse adjacent blocks to meet.
The perpendicular rectangular face 112 has a width and a height. The width and height are complimentary to that of the rectangular inner walls 20, 22, 24 of the hexagonal connecting members. Each lug 106 may be slidingly received on a rectangular wall 20, 22, 24 of the connecting members. As there are three rectangular walls of the connecting member 14, the plate 100 may be mounted in three orientations in relation to each connecting member 14.
The recess is configured so as to provide a snap fit connection with the complimentary projection 113 on the connecting member 14.
Each half 150, 151 has an open top and base such that the completed block is an open cube. The open faced construction as opposed to closed upper and lower faces further facilitates assembly and reduces amount of material required (and cost).
Part 150 is the base that receives upper part 151. Base part 150 has a projection 154 on opposed corners and a recess on opposed corners. The projections and recesses are complimentary to similar recess and projections on the upper part 151 (not shown).
Upper part 151 has a tab part 160 with a projection like 154 thereon. Base part 150 has a recess 156 located such that when the parts are connected, there is a snap fit connection between recess 160 and projection 154.
It will be appreciated that the disclosed system allows for connection of a block in all six directions.
It will be appreciated that various changes and modifications may be made to the invention as described and claimed herein without departing from the spirit and scope thereof.
Number | Date | Country | Kind |
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2020902835 | Aug 2020 | AU | national |
Filing Document | Filing Date | Country | Kind |
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PCT/AU2021/050885 | 8/11/2021 | WO |