The present disclosure relates to a magnetic system. More particularly, the present disclosure relates to a magnetic system of one or more modules which can be used to create a play area. In some examples, play area comprises a life-sized child's play area.
Known systems for building play areas include, for example, building blocks. Such building blocks can be dangerous when used by children, as the building blocks may not be securely attached to one another before a child starts to play in a play area. The play area may, in some cases, then collapse on the child and cause injury.
In systems for building a play area where blocks do have a securing mechanism, the securing mechanism may be difficult for children to understand and may be miscomprehended. As such, it may be difficult for children to safely use the securing mechanism for building a play area. Further, even if the child does manage to build a play area, the blocks may not be properly secured such that the blocks may still collapse on the child and cause injury.
In a first aspect, there is provided a system for building a play area comprising: two or more panels, each of the two or more panels comprising: a connector; and at least one magnet positioned in the connector such that the at least one magnet can rotate; wherein each of the two or more panels are configured such that when at least one edge of the first panel is brought towards at least one edge of the second panel from any direction, the at least one magnet in each panel orientate such that a magnetic connection is formed between the two or more panels; and wherein the at least one magnet comprises at least one cylindrical magnet, the at least one cylindrical magnet being diametrically magnetized. The the at least one magnet may comprise: a first magnet housed in a first end of the connector; and a second magnet housed in a second end of the connector, wherein the connector connects a first dowel and a second dowel.
According to some examples, the each of the panels are formed by connecting a plurality of connectors including the connector and a plurality of dowels including the first dowel and the second dowel; wherein each dowel of the plurality of dowels connects two of the plurality of connectors together.
According to some examples, the first magnet is held in place by a first clip that attaches to the first end of the first connector and the second magnet is held in place by a second clip that attaches to the second end of the first connector.
According to some examples, the first magnet is held in place in the first end of the first connector by the first dowel and the second magnet is held in place in the second end of the first connector by the second dowel.
According to some examples, the at least one housing portion is formed in between the first end of the first connector and the first clip.
According to some examples, the at least one housing portion is formed in between the first end of the first connector and the first dowel.
According to some examples, the at least one housing portion is formed in between the second end of the first connector and the second clip.
According to some example, the at least one housing portion is formed in between the second end of the first connector and the second dowel.
According to some examples, each housing portion of the at least one housing portion comprises a recess.
According to some examples, the system is for building a life sized children's play area.
According to some examples, the first clip comprises a first cavity for housing the first dowel and the second clip comprises a second cavity for housing the second dowel.
According to some examples, each of the two or more panels comprises at least one additional connector, wherein each connector houses two diametric cylindrical magnets, and wherein each connector connects two dowels, wherein the first dowel, the second dowel and the at least one additional dowel form the edges of each panel.
According to some examples, at least one housing portion of the connector is shaped to house an outer profile of the at least one magnet.
According to some examples, the system comprises at least one board configured to be connected to at least one panel of the two or more panels, wherein the at least one board can be used to display at least one image.
According to some examples, a face of the at least one panel comprises at least one magnet and the at least one board can be connected to the at least one magnet to position the at least one board on the at least one panel.
According to some examples, the at least one board comprises a magnet and/or a metallic section to connect to the at least one magnet of the face of the at least one panel.
According to some examples, at least one panel of the two or more panels comprises at least one of: a triangular panel; a square panel; a rectangular panel; a trapezoid panel.
According to some examples, at least one panel of the two or more panels comprises an aperture which provides a window for the play area.
According to some examples, at least one panel of the two or more panels comprises a plurality of panels and the system can be arranged to build the play area, and wherein the play area comprises at least one of: a play house; a stage; a scene; an exhibition display; a play car; a play spaceship; a box; furniture; floor tiles; a floor mat of combined panels; a toy roadway and a stage.
According to some examples, the system is configured to be secured to at least one external object in an environment surrounding the system.
According to some examples, at least one panel of the two or more panels is configured to be secured to the at least one external object.
According to some examples, when the panels are stacked on top of each other, the at least one magnet of each panel secures the panels to each other.
According to some examples, the at least one magnet is configured to provide a clicking noise when magnetically attaching to another magnet to indicate the magnetic attachment was successful.
According to some examples, the system comprises a foldable panel with pre-created foldable lines which can be folded to provide different shapes of the foldable panel, and wherein the foldable panel can be magnetically attached to the at least one magnet.
According to some examples, the foldable panel is configured to be secured to at least one external object.
According to some examples, the system comprises a panel that comprises at least one spherical magnet.
According to some examples, the foldable panel can be magnetically attached to at least one panel of the two or more panels to form a roof and/or a door for the play area.
According to some examples, a frame of each of the two or more panels is formed by connecting a plurality of connectors including the connector and a plurality of dowels including the first dowel and the second dowel; wherein each dowel of the plurality of dowels connects two of the plurality of connectors together.
In a second aspect, there is provided a panel for building a play area comprising: a connector; and at least one magnet positioned in the connector such that the at least one magnet can rotate; and wherein the at least one magnet comprises at least one cylindrical magnet, the at least one cylindrical magnet being diametrically magnetized. The at least one magnet may comprise a first magnet housed in a first end of the connector; a second magnet housed in a second end of the connector; wherein the first connector connects a first dowel of the panel and a second dowel of the panel.
According to some examples, the panel is formed by connecting a plurality of connectors including the connector and a plurality of dowels including the first dowel and the second dowel; wherein each dowel of the plurality of dowels connects two of the plurality of connectors together.
According to some examples, the panel is configured to magnetically attach to a blanket attachment using the at least one magnet.
According to some examples, at least one magnet comprises: a first magnet housed in a first end of a first connector of the panel; a second magnet housed in a second end of the first connector of the panel; wherein the first connector connects a first dowel of the panel and a second dowel of the panel.
According to some examples, the panel is configured such that the at least one magnet in the panel can orientate to align with a magnetic field of a magnet in a second panel when the panel is pushed towards the second panel.
According to some examples, the first magnet is held in place by a first clip that attaches to the first end of the first connector and the second magnet is held in place by a second clip that attaches to the second end of the first connector.
According to some examples, the at least one housing portion is formed in between the first end of the first connector and the first clip.
According to some examples, the at least one housing portion is formed in between the second end of the first connector and the second clip.
According to some examples, each housing portion of the at least one housing portion comprises a recess.
According to some examples, the panel is for building a life sized children's play area.
According to some examples, the first clip comprises a first cavity for housing the first dowel and the second clip comprises a second cavity for housing the second dowel.
According to some examples, the panel comprises at least one additional connector, wherein each connector houses two diametric cylindrical magnets and wherein each connector connects two dowels, wherein the first dowel, the second dowel and the at least one additional dowel form the edges of the panel.
According to some examples, the panel comprises a frame, the frame comprising: a plurality of connectors including the connector; a plurality of dowels including the first dowel and the second dowel; wherein each dowel of the plurality of dowels connects two of the plurality of connectors together to form the frame.
According to some examples, at least one housing portion of the connector is shaped to house an outer profile of the at least one magnet.
According to some examples, at least one board is configured to be connected to the panel, wherein the at least one board can be used to display at least one image.
According to some examples, a face of the panel comprises at least one magnet and the at least one board can be connected to the at least one magnet to position the at least one board on the panel.
According to some examples, the at least one board comprises a magnet and/or a metallic section to connect to the at least one magnet of the face of the panel.
According to some examples, the panel comprises at least one of: a triangular panel; a square panel; a rectangular panel; a trapezoid panel.
According to some examples, the panel comprises an aperture which provides a window for the play area.
According to some examples, the panel can be combined with a plurality of other panels to form a system, and the system can be arranged to build the play area, and wherein the play area comprises at least one of: a play house; a stage; a scene; an exhibition display; a play car; a play spaceship; a box; furniture; floor tiles; a floor mat of combined panels; a toy roadway and a stage.
According to some examples, the panel is configured to be secured to at least one external object in an environment surrounding the system.
According to some examples, the panel is configured to be secured to the at least one external object.
According to some examples, when the panels of the system are stacked on top of each other, the at least one magnet of each panel secures the panels to each other.
According to some examples, the at least one magnet is configured to provide a clicking noise when magnetically attaching to another magnet to indicate the magnetic attachment was successful.
According to some examples, the system comprises a foldable panel with pre-created foldable lines which can be folded to provide different shapes of the foldable panel, and wherein the foldable panel can be magnetically attached to the at least one magnet.
According to some examples, the foldable panel is configured to be secured to at least one external object.
According to some examples, the panel comprises at least one spherical magnet.
According to some examples, the foldable panel can be magnetically attached to the panel to form a roof and/or a door for the play area.
According to a third aspect, there is provided a method of manufacturing a panel, the panel for building a play area, the method comprising: providing a panel comprising at least one housing portion; and securing at least one magnet in the at least one housing portion such that the at least one magnet can rotate in the at least one recess; and wherein the at least one magnet comprises at least one cylindrical magnet, the at least one cylindrical magnet being diametrically magnetized.
In a fourth aspect there is provided a system for building a play area comprising: two or more panels, each of the two or more panels comprising: at least one recess in at least one edge of the panel; and at least one magnet positioned in the at least one recess such that the at least one magnet can rotate; and wherein each of the two or more panels are configured such that when the at least one edge of the first panel is brought towards the at least one edge of the second panel from any direction, the at least one magnet in each panel orientate such that a magnetic connection is formed between the two or more panels.
According to some examples, the at least one magnet is positioned in the at least one recess such that the at least one magnet can freely rotate.
According to some examples, the at least one magnet in each panel will orientate automatically to form a magnetic bond with at least one magnet in the other panel.
According to some examples, the at least one magnet comprises at least one spherical magnet.
According to some examples, the at least one recess is shaped to house an outer profile of the at least one magnet.
According to some examples, the system comprises at least one safety clip for encapsulating the at least one magnet, wherein when the magnet is removed from the at least one recess the magnet remains encapsulated in the safety clip.
According to some examples, the system comprises at least one board configured to be connected to the at least one panel, wherein the at least one board can be used to display at least one image.
According to some examples, a face of the at least one panel comprises at least one magnet and the at least one board can be connected to the at least one magnet to position the at least one board on the at least one panel.
According to some examples, the at least one board comprises a magnet and/or a metallic section to connect to the at least one magnet of the face of the at least one panel.
According to some examples, the at least one board can comprise a backdrop.
According to some examples, the at least one board can comprise a drawing.
According to some examples, at least one panel comprises at least one of: a triangular panel; a square panel; a rectangular panel; a trapezoid panel.
According to some examples, the at least one panel comprises an aperture which provides a window for the play area.
According to some examples, the play area comprises a structure.
According to some examples, the at least one panel comprises a plurality of panels and the system can be arranged to build the play area, and wherein the play area comprises at least one of: a play house; a stage; a scene; an exhibition display; a play car; a play spaceship; a box; furniture; floor tiles; a floor mat of combined panels; a toy roadway and a stage.
According to some examples, the system comprises layers of the panels; wherein each edge of the panels has a same thickness; and wherein the panels are configured to tesselate with each other such that the layers of panels can be stacked on top of each other for storage. According to some examples, at least one recess is covered to retain the at least one magnet in the at least one recess.
According to some examples, the at least one recess comprises two or more recesses, and wherein each recess is uniformly spaced apart along the at least one edge.
According to some examples, the system is configured to be secured to at least one external object in an environment surrounding the system.
According to some examples, the at least one panel is configured to be secured to the at least one external object.
According to some examples, the at least one panel is configured to be magnetically secured to the at least one external object.
According to some examples, when the panels are stacked on top of each other, the at least one magnet of each panel secures the panels to each other.
According to some examples, the at least one magnet is configured to provide a clicking noise when magnetically attaching to another magnet to indicate the magnetic attachment was successful.
According to some examples, the system comprises a foldable panel with pre-created foldable lines which can be folded to provide different shapes of the foldable panel, and wherein the foldable panel can be magnetically attached to the at least one magnet.
According to some examples, the foldable panel is configured to be secured to at least one external object.
According to some examples, the foldable panel can be magnetically attached to at least one panel of the two or more panels to form a roof and/or a door for the play area.
According to some examples, the foldable panel comprises a blanket attachment.
According to some examples, the system may comprise magnetic accessories that can be added to the at least one panel for decorative or functional use.
According to some examples, the magnetic accessories may include at least one of: lighting equipment; decorative toys; furniture; equipment for hanging drawings.
According to some examples, the system may be combined with a further similar system comprising magnetic panels to create a structure.
According to a fifth aspect there is provided a panel for building a play area comprising: at least one recess in at least one edge of the panel; and at least one magnet positioned in the at least one recess such that the at least one magnet can rotate.
According to some examples, the at least one magnet is positioned in the at least one recess such that the at least one magnet can freely rotate.
According to some examples, the at least one magnet in each panel will orientate automatically to form a magnetic bond with at least one magnet in the other panel.
According to some examples, the panel is configured to magnetically attach to a blanket attachment using the at least one magnet.
According to some examples, the at least one magnet comprises at least one spherical magnet.
According to some examples, the panel is configured such that the at least one magnet in the panel can orientate to align with a magnetic field of a magnet in a second panel when the panel is pushed towards the second panel.
According to some examples, the at least one recess is shaped to conform to the outer profile of the at least one magnet.
According to some examples, the panel is configured to engage with at least one safety clip for encapsulating the at least one magnet, wherein when the magnet is removed from the at least one recess the magnet remains encapsulated in the safety clip.
According to some examples, the panel is configured to be magnetically secured to the at least one external object.
According to some examples, the panel comprises a face, the face comprising at least one magnet for attaching at least one board, wherein the at least one board can be used to display at least one image.
According to some examples, a face of the panel comprises at least one magnet and the at least one board can be connected to the at least one magnet to position the at least one board on the at least one panel.
According to some examples, the at least one board comprises a magnet to connect to the at least one magnet of the face of the at least one panel.
According to some examples, the at least one board can comprise a backdrop.
According to some examples, the at least one board can comprise a drawing.
According to some examples, the panel comprises at least one of: a triangular panel; a square panel; a rectangular panel; a trapezoid panel; a hexagonal panel.
According to some examples, the panel comprises an aperture which provides a window, an entrance and/or an exit for the play area.
According to some examples, the play area comprises a structure.
According to some examples, the play area comprises at least one of: a play house; a stage; a scene; an exhibition display; a play car; a play spaceship; a box; a stage; furniture; floor tiles; a floor mat of combined panels; a toy roadway.
According to some examples, when the panel is configured to be are stacked on top of other panels other and the at least one magnet of each panel secures the panel the other panels.
According to some examples, the at least one magnet is configured to provide a clicking noise signal when magnetically attaching to another magnet to indicate the magnetically attaching was successful.
According to some examples, the at least one recess is covered to retain the magnet in the at least one recess.
According to some examples, the panel can be magnetically attached to a blanket attachment.
According to some examples, the at least one recess comprises two or more recesses and each recess is uniformly spaced apart along the at least one edge.
According to some examples, the panel can be secured to an external object.
According to some examples, the panel can be magnetically secured to the external object.
According to some examples, the panel can be stacked with other panels and the at least one magnet may secure the panel to the other panels.
According to some examples, the at least one magnet is configured to provide a clicking noise when magnetically attaching to another magnet to indicate the magnetic attachment was successful.
According to a sixth aspect there is provided a method of manufacturing a panel, the panel for building a play area, the method comprising: providing a panel comprising at least one recess in at least one edge of the panel; and securing at least one magnet in the at least one recess such that the at least one magnet can rotate in the at least one recess.
According to some examples, a panel is provided which can be used with one or more other panels to build a system comprising the panel and the one or more other panels.
According to some examples, a system is provided where a user (such as a child) can use a securing mechanism for panels for a building child's play area easily. According to some examples, a user such as a child is only required to hold two panels together to secure them together. The panels can then connect and secure to one another using a self-aligning magnet system as described below. This provides a simple mechanism for children to build play structures.
According to examples, the system comprising one or more panels may be used as a play area. The play area could be used, for example, for children to play with. Examples of a play area include, but are not limited to: a play house; a stage; a scene; a fort; an exhibition display; a play car; a play spaceship; furniture; floor tiles; a floor mat of combined panels; a toy roadway; and a box. The play area may comprise a self-standing structure. In some examples, the structure is a size in which children can enter and exit the structure and play with or within the structure. In other words, the structure may be “child-sized” and in some cases, depending on what is built using the system, may be “life-sized”. In some examples, the structure is between 0.5 m to 2.5 m tall.
In some examples, the system comprising the one or more panels may be considered to comprise a modular construction unit. The modular construction unit may comprise at least one module. The at least one module may comprise: at least one panel and/or at least one attachment.
The system may comprise panels having different shapes. As shown at 101a of
According to some examples, a panel may have a shape other than the shapes shown in
In some examples, each panel may have width and length dimensions that are substantially larger than a thickness of the panel. This is shown in
According to some examples, each panel of the system may have the same thickness. This can be useful for uniformity when stacking panels on top of each other, and also for providing uniformity when placing the stacks of panels alongside one another.
In some examples, the shapes of the panels are configured to tesselate with one another to form one larger shape comprising multiple panels. The larger shapes comprising multiple panels can then be stacked on top of each other for storage. It can be particularly useful for the panels to have a uniform thickness in this example, to provide uniformity between layers of panels.
The panels can be made of a material which is firm enough to hold the panel up such that the panel will not collapse when a child builds a structure or goes inside the structure. For example, the panel may be made of foam. The foam may be firm and/or dense. The panel may also be made of lightweight plastic or any other suitable material. In some examples, the panels may be formed by gluing foams of varying rigidity together to achieve a desired strength. In some examples, the panels may be built of foam and fabric. In other examples, the panel may be formed from an injection moulded plastic or foam. In some examples, the panel may be formed by thermo compression moulding. In some examples, the panels may be coated. For example, a panel may have a foam inner and a plastic coating. In some examples, the panel may have a fabric covering. In some examples, the panel may be formed of a foam core that is stiffened using a thermo moulding technique.
In some examples, the panel may be made of fabric having sleeves through which dowels are passed through. The dowels may be connected using connectors.
In examples, the system of panels has an ‘any way’ connection mechanism that is built on or in each panel. In some examples, the connection mechanism is considered to be internal to each panel, or at least partially internal to each panel. In some examples, the connection mechanism is considered to be integrated in to each panel. In some examples, the connection mechanism is considered to be automatic. This automatic connection mechanism is discussed further below. The system allows a user, such as a child, to easily connect any two or more panels by touching them together. In some examples, it does not matter which way the child tries to connect the panels, the panels will stick to each other. This is to make it as simple and easy as possible for children to create a play space. This provides an advantage over other connection methods in other products as the connection method is less confusing and frustrating, which can be particularly useful when a user is a child.
In some examples, the connection mechanism is incorporated inside of connectors used to connect dowels. In some examples, the connection mechanism uses cylindrical diametric magnets.
In some examples, the connection mechanism is used not only for the panels but also in other modules such as attachments, for example in a blanket attachment or foldable panel attachment or other accessories used for decoration or added utility. These attachments are discussed further below. The attachments may comprise, for example, spotlight add-ons, decoration accessories or accessories for hanging pictures (e.g. a hook). The magnetic connection mechanism can also be used so that panels from one set of panels can be combined with panels from another set and therefore form even larger structures.
It can be seen in
Although
In some examples, the connection mechanism comprises magnets positioned in the edges of the panels. The magnets can be used to form the connection mechanism. In some examples, the magnets comprise spherical magnets (ball magnets). In some examples, the magnets comprise cylindrical diametric magnets.
In some examples, where the magnet is a spherical magnet, the spherical magnet may be held in a partially spherical recess or hemispherical recess. The recess may have a radius slightly larger than the spherical magnet. As an example, the spherical magnet may have a radius of 10 mm and the recess may have a radius of 11 mm. Of course, in other examples different dimensions may be provided.
Two recesses 311 and 313 of trapezium panel 309 and two recesses 317 and 319 of triangle panel 319 are shown in
Recesses 311 and 313 may be separated by a distance 315 along an edge of panel 309. In some examples, the distance between each consecutive recess along each edge of panel 309 is the same as distance 315, such that the recesses are uniformly spaced along the edge which they are positioned on.
Recesses 317 and 319 may be separated by a distance 321 along an edge of panel 313. In some examples, the distance between each consecutive recess along each edge 313 is the same as distance 321, such that the recesses are uniformly spaced along the edge which they are positioned on.
In examples where panels 309 and 313 are in the same system, spacing 315 may be the same as spacing 321. In such examples, the magnets are positioned in recesses with a uniform spacing along an edge of a panel between each magnet (as an example for the purpose of illustration only, each magnet may be positioned 0.30 m apart and there may be several magnets along one edge of a panel). This allows the magnets of each panel to coincide with each other when two panels are placed alongside one another.
In examples, for panels which are the same shape and which are a part of the same system, the recesses may be positioned in the same position on each panel.
In some examples, each of the magnets (e.g., magnet 433) of panel 423 may comprise a diametric cylindrical magnet, and each of the recesses (e.g. recesses 427, 429) may be shaped to house a diametric cylindrical magnet. Any other suitable shape of magnet may be used. In some examples the recesses are positioned in the corners of panel 423. Each corner of panel 423 may comprise two recesses housing magnets, such that a magnet is provided on each edge at each corner. There may be provided a system of panels such as panel 423, the panels having any shape discussed herein. The panel may be made of PET, foam or any other suitable material.
Magnet 433 and the other magnets of
In some examples, each magnet of panel 423 may be positioned such that they can rotate. It will be noted that in some embodiments, one or more magnets (potentially all of the magnets of panel 423) are positioned such that they cannot rotate.
In contrast to the panel of
Recesses 427 and 429 may be separated by a distance 435. A magnet may be retained in recess 429 using a securing means similar to securing means 431. In some examples, each recess of panel 423 has a magnet retained within the recess using a securing means similar to securing means 431.
Securing means 431 may be similar to the safety clip described below with respect to
Panel 423 also shows a magnet 433 retained in a securing means 425.
Recesses 427 and 429 may be separated by a distance 435 along an edge of panel 423. In some examples, the distance between each consecutive recess along each edge of panel 423 is the same as distance 435, such that the recesses are uniformly spaced along the edge they are positioned on.
In examples where panels 309, 313 and 423 are in the same system, spacing 315, spacing 321 and spacing 435 may each be the same.
Although a securing means is shown in
In some examples, the magnets of panel 433 may not be housed in recesses as shown in
In some examples, a clip similar to 1170 shown in
In some examples, a connector such as connector 1310 may be used which is attached to e.g., the corner of a panel such as panel 101a, 103a, 105a, etc. These connectors may house one or two magnets. A recess in the panel may not be necessary when using such connectors.
In some examples, to ensure that a spherical magnet can re-orientate to align with another spherical magnet, the spherical magnet is positioned in a hole (recess) in the panel that is just bigger than the spherical magnet. In some examples, the recess is also shaped to conform to the outer profile of the spherical magnet. This allows the spherical magnet to rotate when re-orientating to align with another spherical magnet. In examples, the recesses may be hemispherical or partially spherical and have a radius only slightly larger than the radius of the spherical magnet.
As an example, if a north pole of magnet 533a is urged towards a north pole of magnet 533b, magnet 533b may rotate such that the south pole of magnet of magnet 533b is closer to magnet 533a than the north pole. Magnets 533a and 533b are then attracted towards each other, and the panels 537 and 539 are connected to each other.
It should be noted that although only one magnet is shown for each panel 539 and 537, more than one magnet may be positioned along the edges of panel 537 and 539, such that there is more than one section for magnetic connection when the two panels 537 and 539 are pushed towards each other.
Another feature of the panel connection system is an automatic and satisfying ‘click’ noise (i.e. a clicking noise) that the panels make when they connected to each other. This is caused by the magnets being attracted towards one another. This noise makes it easy to combine panels and the click signals to the child that the panels have successfully connected. This helps boost the user's confidence to continue building. This feature can be provided when using spherical magnets or cylindrical diametric magnets, for example.
In some examples, the system can optionally also connect directly to external items made of metal via the magnetic panels in order to enhance a structure e.g. a metal part of a kitchen island. The connection may be made via the magnets of the magnetic panels or the magnets of the attachments. Magnetic clips and lights can also attach to main magnetic panels.
In some examples, the system may also comprise an attachment that is a foldable panel. The foldable panel may be considered to be a “blanket-type panel”. This blanket-type panel comprises a panel that is foldable along pre-created fold lines and can therefore conform to multiple shapes. The blanket-type panel may be foldable in a similar method to origami. The blanket-type panel also has magnets as per other panels to connect to other panels and external objects. This can be used to create a roof or a wall or anything else needed to add to the construction of the structure.
As shown in
In the example of
In some examples, the system unit also has blanket attachments that attach to the magnets anywhere on the panels to enhance the built structure and can act as anything from a doorway to an awning or extra roof section. The at least one module of the system may comprise a blanket attachment. In some examples, the blanket attachments are magnetic and can be magnetically attached to one or more magnets of a panel. In some examples, the blanket is made of a more flexible material than the panels. The blanket could be made of a more lightweight foam so it could easily form a roof or door of a structure. The blanket could also be used as a tunnel between fort structures or a mat. The blanket could be used to provide a roof and/or door a child's play area.
In some examples such as the example of
In some examples, the connection points 856, 858, 860 and 862 may comprise connections made using the connection mechanism formed by spherical magnets housed inside the panels 852 and 850. In some examples, the connection points 856, 858, 860 and 862 may comprise connections made using the connection mechanism formed by cylindrical diametric magnets housed inside the panels 852 and 850. In some examples, the connection points 856, 858, 860 and 862 may comprise connections made using magnets housed inside blanket attachment 864. In some examples the magnets housed inside the blanket attachment 864 may be spherical. In some examples the magnets housed inside the blanket attachment 864 may be cylindrical, and in some examples the magnets house inside the blanket attachment may be diametric. In some examples the magnets housed inside the blanket attachment may attach to magnets housed inside the panels. The magnets housed inside the blanket attachment may have a similar spacing between one another along each edge of the blanket attachment. The magnets house inside the blanket attachment may have a similar spacing to magnets housed inside the panels.
In some examples, blanket attachment 864 may be made of a magnetic material such that the blanket attachment can be magnetically attached to magnets house inside the panels of the system, such as panel 850, 852 and/or panel 854.
According to some examples a child could assemble the structure of
According to some examples, each panel of the system may have the same thickness. In some examples, different shapes of the panels can be tessellated together to form a larger shape when put together on the same plane. Layers of planes of one or more panels can then be stacked on top of each other for storage purposes. The at least one magnet of each panel can then be used to secure the panels to each other within each plane. The at least one magnet can also be used to secure the panels from different planes to each other. According to some examples, the system comprises at least one board that can be connected to a module of the system. For example, the at least one board may be connected to at least one panel of the system. The at least one board can be used by a user to display pictures, for example to decorate a play area formed by the system.
In some examples, a board may comprise a magnet, such as a magnetic strip. Using the magnet of the board, the board can be connected to a panel of the system. The magnet of a board can be connected to one or more magnets of a panel of a system. The magnets of the panel of the system may comprise a spherical magnet of the automatic connection mechanism discussed above that can additionally be used to connect to the magnetic strip of a board. The magnets of the panel of the system may comprise a cylindrical diametric magnet of the automatic connection mechanism as discussed below that can additionally be used to connect to the magnetic strip of a board. In some examples, panels of the system may comprise a magnetic strip provided on a face of a panel, which can be used to magnetically attach a board to the panel using a magnetic strip of the board.
According to some examples, the attachable boards for the system may comprise a backdrop, for example, a scene used in a play. In other examples, the attachable board may comprise a drawing of a user, or a canvas upon which the user can draw. The attachable boards can be used to create “themes” for a play area.
In some examples, the system can also be used to provide storage for objects such as children's toys. The modular system can be rearranged from a life-size play area such as: a play house; a stage; a scene; a fort; an exhibition display; a play car; a play spaceship; and/or a box to a toy box. The toy box can then be used to store objects such as toys.
Safety clip 1070 comprises two fold lines 1064a and 1064b. When fold lines 1064a and 1064b are folded, peg 1060a is received in receptacle 1062a and peg 1060b is received in receptacle 1062b. Spherical magnet 1068 can then be stored inside the safety clip which provides a capsule around spherical magnet 1068.
In some examples, pegs 1060a and 1060b engage with any of the aforementioned panels in order to be received in the respective receptacles 1062a and 1062b. Each peg may create an aperture in a panel when safety clip 1070 is folded adjacent to an edge of a panel. In some examples, pegs 1060a and 1060b may “punch through” the material of the panel in order to be received by receptacles 1062a and 1062b. In some examples, holes may be created for the pegs 1060a and 1060b to be passed through prior to the folding of the safety clip 1070.
Further, safety clip 1070 comprises a housing that can be used to house spherical magnet 1068. The housing is formed when ridges 1066a and 1066b come into contact after the clip is folded along lines 1064a and 1064b. When spherical magnet 1068 is housed in housing formed by 1066a and 1066b, it is still able to move and orientate in the presence of magnetic fields. As such, the safety clip mechanism can be placed over recesses provided in panels of the system such that the spherical magnets are stored in capsules without affecting the operation of the magnetic connection mechanism of the system.
By housing the magnets in safety clip mechanism 1070, if a user such as a child removes a safety clip such as safety clip 1070 out of a panel, the clip 1070 remains closed and the child will not be able to get the magnet out of safety clip mechanism 1070. This prevents the child being able to directly access magnet 1068 and prevents the child from causing damage to magnet 1068 or injuring themselves by e.g. swallowing magnet 1068.
When the housing clip is applied to a magnet of the system, faces 1072 and 1076 of the safety clip 1070 may come into contact with the top and bottom faces of the panel. Face 1074 of the safety clip may come into contact with an edge of the panel. Face 1074 may be curved when in contact with an edge of the panels of the system.
Safety clip 1170 may be similar to safety clip 1070 described above. Panel 1176 may be similar to any of the panels described above.
Spherical magnet 1178 is housed within safety clip 1170 with enough room to re-orientate when influenced by an external force such as a magnetic force. The spherical magnet 1170 is also housed in a recess in the edge of panel 1176.
In some examples, more than one safety slip may be provided for connection to a panel.
At points 1180a and 1180b pegs of the safety clip 1170 punch through the material of panel 1176 and are received by receptacles within the panel.
Even if a user manages to remove safety clip 1170 from panel 1176, safety clip 1170 will be closed such that the user is prevented from accessing spherical magnet 1178. This prevents the user being able to harm themselves using spherical magnet 1178 (e.g. by swallowing spherical magnet 1178).
The edges of safety clip 1178 may be curved to conform to a curved edge of panel 1176. It will be appreciated that in some examples the edges of safety clip 1178 may have an alternative shape to conform the to the shape of a different panel.
In some examples, the panels may comprise a diametric magnet. In some examples, the diametric magnet may comprise a cylindrical magnet 1200 as shown in
Cylindrical magnet 1200 may be diametrically magnetized such that half of the curved face of magnet 1200 is magnetized north and the other half of the curved face of magnet 1200 is magnetized south. The magnetic pole of magnet 1200 may change from a north pole 1204 to a south pole 1202 along the diameter of magnet 1200.
When two diametrically cylindrical magnets such as magnet 1200 are urged towards each other, they will re-orientate to align the north pole of one magnet with the south pole of the other magnet. Each cylindrical magnet may re-orientate by rotating around an axis running through both of the flat faces of the magnet. For example, magnet 1200 may re-orientate by rotating around an axis passing through both of the flat faces of magnet 1200.
Connector 1310 may comprise two housing portions, each housing portion for housing one of cylindrical magnets 1300a and 1300b. The housing portion may be positioned at different ends of connector 1310. In some examples, each housing portion may comprise a recess in which a magnet such as cylindrical magnets 1300a or 1300b could be housed. In some examples, each housing portion may comprise a compartment in which a magnet such as cylindrical magnets 1300a or 1300b could be housed. The connector 1310 may be used to connect two dowels 1308 and 1308b together. Connector 1310 shown in
Magnet 1300a, which may be a cylindrical diametric magnet similar to magnet 1200, may be held in a first housing portion of connector 1310. Magnet 1300a may be held in place by clip 1306a. Clip 1306a may clip magnet 1300a into a first housing portion of connector 1310. Clip 1306a may securely hold magnet 1300a in the first housing portion of connector 1310. In some examples, a clip may not be provided and dowel 1308a may hold magnet 1300a in connector 1310 and dowel 1308b may hold magnet 1300b in connector 1310.
On the face opposite the clipping mechanism of clip 1306a, a hole may be provided for housing a dowel 1308a. The dowel 1308a may be held in place in the hole in a number of ways. For example, dowel 1308a may be as push-fit, glued or welded, for example. In some examples, the first housing portion of connector 1310 may be only slightly larger than magnet 1300a. In some examples, at least part of the first housing portion may be cylindrical. The cylindrical part of the first housing portion may have a diameter larger than magnet 1300a. This allows magnet 1300a to re-orientate inside the first housing portion when under the influence of an external magnetic field. In some examples the external magnetic field may be provided by a magnet in another connector of a different panel.
Magnet 1300b, which may be a cylindrical diametric magnet similar to magnet 1200, may be held in a second housing portion of connector 1310. Magnet 1300b may be held in place by clip 1306b. Clip 1306b may clip magnet 1300b into a second housing portion of connector 1310. Clip 1306b may securely hold magnet 1300b in the second housing portion of connector 1310.
On the face opposite the clipping mechanism of clip 1306b, a hole may be provided for housing a dowel 1308b. The dowel 1308b may be held in place in the hole in a number of ways, such as push-fit, glued or welded, for example.
In some examples, the second housing portion of connector 1310 may be only slightly larger than magnet 1300b. In some examples, at least part of the second housing portion may be cylindrical. The cylindrical part of the second housing portion may have a diameter larger than magnet 1300b. This allows magnet 1300b to re-orientate inside the second housing portion when under the influence of an external magnetic field. In some examples the external magnetic field may be provided by a magnet in another connector of a different panel.
Dowel 1508a is held in a hole (e.g. a cavity or a recess) in clip 1506a. Dowel 1508b is held in a hole in clip 1506b. A first housing portion inside connector 1510 holds cylindrical diametric magnet 1500a. A second housing portion inside connector 1510 holds cylindrical diametric magnet 1500b.
Magnet 1500a is held in the first housing portion by clip 1506a. Magnet 1500b is held in the second housing portion by clip 1506b. The first housing portion provides enough space for magnet 1500a to re-orientate under the presence of an external magnetic field. The second housing portion provides enough space for magnet 1500b to re-orientate under the presence of an external magnetic field. If connector 1510 is urged towards a second connector which also houses cylindrical diametric magnets in a similar way, as a cylindrical diametric magnet is urged towards magnet 1506a or magnet 1506b, the magnets will re-orientate such that they are attracted towards each other. This can be used to connect panels together.
Connector 1620 comprises a right-angle connector. This can be used to make corners of panels that are at right angles. For example, four right angle connectors could be used with dowels to make a square or rectangular panel.
Connector 1622 comprises an acute angle connector. This can be used to make corners of panels that are at angles less than 90 degrees. For example, three acute angle connectors could be used with dowels to make a triangular panel.
Connector 1624 comprises an obtuse angle connector. This can be used to make corners of panels that are at angles more than 90 degrees. For example, six obtuse angle connectors could be used to make a hexagonal panel. In other examples, two obtuse angle connectors, one straight connector and two acute angle connectors could be used with dowels to create a trapezium or half-hexagon panel.
Connector 1626 comprises a straight connector. This can be used to make connect dowels in panels that are at angles of 180 degrees. For example, a straight connector could be used to extend the length of one edge of a panel.
Each of the connectors of panel 1840 (for example connector 1810) comprises two housing portions. Each housing portion houses a diametric cylindrical magnet that has enough room to re-orientate inside the housing portion. Each housing portion may be shaped to house an outer profile of the diametric cylindrical magnet.
Each connector has a clip (similar to clips 1306a, 1306b, 1406a, 1406b, 1506a, 1506b) that clips a magnet into each housing portion. The clip also comprises a hole on the opposite side of the housing portion for housing a dowel such as dowel 1808. Dowel 1808 is housed in a clip that is clipped into connector 1810 and a clip that is clipped into connector 1842. Dowel 1808 also passes through a sleeve 1808. Sleeve 1808 is connected to the central panel material 1836.
Each of the four dowels of 1840 passes through a sleeve which is connected to central panel material 1836.
In some examples the panel material 1836 may be made of any suitable material such as foam, polyester and/or polyethylene terephthalate (PET). In some examples, the dowels 1808 may be made of any suitable material, such as wood or metal. In some examples, the dowels 1808 may be made of bamboo.
It will be understood that one or more panels having different shapes could be connected similarly to the method shown in
Magnetic blankets as described above with reference to
Panels comprising spherical magnets can be attached to panels comprising cylindrical diametric magnets.
It will of course be understood that the examples described are by way of example only and are not intended to limit the scope of the invention. It will be also understood that any of the aforementioned examples may be combined.
The Figures are schematic in nature and not necessarily drawn to scale. It will be further understood that aspects of the described examples can be combined in any way.
Number | Date | Country | Kind |
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2013279.1 | Aug 2020 | GB | national |
2101227.3 | Jan 2021 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2021/073530 | 8/25/2021 | WO |