Classifications

• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
  • E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
  • E04B2/74—Removable non-load-bearing partitions; Partitions with a free upper edge
  • E04B2/7407—Removable non-load-bearing partitions; Partitions with a free upper edge assembled using frames with infill panels or coverings only; made-up of panels and a support structure incorporating posts
  • E04B2/7416—Removable non-load-bearing partitions; Partitions with a free upper edge assembled using frames with infill panels or coverings only; made-up of panels and a support structure incorporating posts with free upper edge, e.g. for use as office space dividers
  • E04B2/7422—Removable non-load-bearing partitions; Partitions with a free upper edge assembled using frames with infill panels or coverings only; made-up of panels and a support structure incorporating posts with free upper edge, e.g. for use as office space dividers with separate framed panels without intermediary support posts
  • E04B2/7425—Details of connection of panels
• • A—HUMAN NECESSITIES
  • A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
  • A47B—TABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
  • A47B61/00—Wardrobes
• • A—HUMAN NECESSITIES
  • A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
  • A47F—SPECIAL FURNITURE, FITTINGS, OR ACCESSORIES FOR SHOPS, STOREHOUSES, BARS, RESTAURANTS OR THE LIKE; PAYING COUNTERS
  • A47F5/00—Show stands, hangers, or shelves characterised by their constructional features
  • A47F5/10—Adjustable or foldable or dismountable display stands
  • A47F5/105—Adjustable partition panels for displaying articles
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
  • E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
  • E04B2/74—Removable non-load-bearing partitions; Partitions with a free upper edge
  • E04B2/7407—Removable non-load-bearing partitions; Partitions with a free upper edge assembled using frames with infill panels or coverings only; made-up of panels and a support structure incorporating posts
• • A—HUMAN NECESSITIES
  • A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
  • A47G—HOUSEHOLD OR TABLE EQUIPMENT
  • A47G2200/00—Details not otherwise provided for in A47G
  • A47G2200/10—Magnetism
  • A47G2200/106—Permanent
• • A—HUMAN NECESSITIES
  • A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
  • A47G—HOUSEHOLD OR TABLE EQUIPMENT
  • A47G5/00—Screens; Draught-deflectors

Definitions

• the present invention relates to a modular system, of which the individual parts can be flexibly combined thanks to a magnetic joint integrated in individual parts, forming their integral part.
• the invention also relates to individual parts of the magnetic modular system.
• Various vertical structures are used for separation of larger areas or creation of private areas within larger interiors. If the structure is used as a temporary solution, it is preferable for the structure to be demountable.
• Typical examples include a number of various separation walls or screens.
• Their basic modular segments consist of a basic frame, typically made of steel or wooden materials, which holds either a fixed wail or a textile sheet, attached in a common manner.
• these segments are equipped either with a stabilizing feet ensuring stable vertical position of individual segments, or with hinges for interconnection, while individual parts must be oriented towards one another so as to ensure their spatial stability.
• Use of the stabilizing feet impairs storability and handling, while the hinges restrict the moveability of individual elements relative to each other, not allowing easy replacement of the slip-on textile sheet.
• variable magnetic modular system characterized in that it is formed by at least two parts, whereas each part consists of at least two struts and at least one separating element between them, while at least one strut in each part is equipped with at least one element of the magnetic joint to form a rotary magnetic joint between the connected parts.
• Another preferable variant consists of parts, where the struts and the separating element between them are parts of a rotary magnetic joint - elements of magnetic joint - directly integrated in the part's material.
• the rotary magnetic joint can be a rolling joint, where the relevant part of the connected parts roll on each other without being separated, or a sliding joint, where the relevant parts of the connected parts slide on each other without being separated.
• the rotary magnetic joint allows relative rotary movement of at least two connected parts in the tangential plane constituted by the entire contact area of the outer envelopes of struts or the relevant parts of envelopes of the connected parts without being separated.
• the connected parts move relative to each other or can be situated in any angle towards each other.
• the rotary magnetic joint allows a great variability, i.e. many forms and formations of the modular system, as the installation and disassembly of variable units and their transformation is done by simple apposing/drawing away of individual parts.
• the units of the variable magnetic modular system can easily be dismantled to individual parts and stored in a space- saving manner.
• the rotary magnetic joint between two parts includes two elements of the magnetic joint, while at least one of the rotary magnetic joint elements is preferably formed by at least one fragment from the group of magnetically active and magnetically reactive fragments in such a manner that at least one element of the magnetic joint contains at least one magnetically active fragment.
• the associated element of the magnetic joint in the other part preferably consists either of at least one fragment from the group of magnetically active and magnetically reactive fragments, or just of a magnetically reactive fragment.
• the relevant elements of the magnetic joint are situated in the connected parts in precisely matched positions.
• Magnetically active fragments can include e.g. a permanent magnet or solenoid, while magnetically reactive fragments include e.g. ferromagnetic steel.
• the part consists of two struts, while each of the struts is equipped with a magnetic joint element and the pair of lateral struts is separated by at least one separating element, while the struts are higher than the height of the separating element.
• each strut it is preferable for each strut to protrude over and under the separating element.
• the magnetic joint elements are preferably situated in the protruding ends of each strut.
• the separating element can be made of any material such as wood, metal or plastic.
• the strut can be made e.g. of a wooden or other rod with a magnetic joint element in a centric hole.
• One of the embodiments preferably includes one planar separating element of a tetragonal (e.g. rectangular) shape, which fills the area between two struts.
• the tetragonal separating element can be oriented either vertically to enhance the vertical separation of the space by the modular system or to be used as a hanger for various things, or horizontally, forming a shelf or seat.
• Another embodiment preferably includes multiple separating elements between two struts, arranged at certain distance from each other, forming a ladder structure.
• the parts of magnetic modular system allow outer coatings of convenient shape to be slipped-on quickly and easily.
• the sheets can be made of textile or other similar materials (e.g. plastics). These sheets can be exchanged quickly and easily, which is only possible with parts of magnetic modular system as per this invention thanks to the absence of hinges or other connection assembly elements protruding over the outer surface of the part envelope.
• the external sheets do not require any special attachment to the part's frame as they are fixed to it as they are.
• the above-mentioned solution ensures completely unique and very high pattern variability of individual parts.
• Another embodiment involves multiple separating elements in the form of cross plates, while it is convenient for at least one plate to be equipped with a suspended external accessory.
• the suspended external accessories can include slip-on shelves, seats or worktops, suspension hooks, suspended shelf with holes or flower-pot.
• the part consists of two struts, while each strut is equipped with a magnetic joint element and the pair of struts is separated by at least one separating element, while the body of this separating element of a curved or broken shape, protruding out of the plane defined by the struts in either one or both directions outwards this plane.
• the separating element as per this embodiment consists, apart from the pair of lower ends of struts, of at least one additional supporting point seating on the substrate, which makes the part a stable stand-alone structure.
• this separating element in its cross section can be of the shape of a triangular prism, polygonal prism, cylinder, ellipsoid or general surface.
• This embodiment can also preferably include at least one additional separating element in the form of a crossbar in the form of a rod or plate forming a connection plane between the struts.
• Another embodiment includes a horizontal plate (cover) installed above/underneath the separating element, which lies on the plane perpendicular to the plane defined by both struts and is attached to the separating element.
• the part consists of at least three struts, while at least two of them are equipped with at least one magnetic joint element.
• the part's struts are arranged in the vertices of a triangle or polygon.
• at least two separating elements are situated, which form an angle less than 180° between the struts and which are formed, in the cross section plane, by e.g. by a segment of envelope of a triangular prism or general prism.
• the third strut and other struts are used as additional supporting points on the substrate, which makes the part in the form of a three-legged or multi-legged unit a stand-alone structure.
• the part consists of two struts, while each of the struts is equipped with a magnetic joint element and any pair of struts is separated by at least one separating element, while the body of this separating element protrudes out of the plane defined by the struts and consists of a shaped fill in the shape of segment of the envelope of triangular prism, polygonal prism, cylinder, ellipsoid or general surface, whose upper horizontal face forms the seat, worktop or shelf.
• the part's structure is a stand-alone unit thanks to the shape of the fill, which acts as at least one additional contact point with the floor.
• This embodiment can also preferably include at least one additional separating element in the form of a crossbar in the form of a rod or a plate forming a connection plane between the struts.
• Another subject of the invention is a stand-alone part of variable magnetic modular system characterized in that it consists of at least two struts (2), while each strut (2) is equipped with at least one element (1) of the magnetic joint to form a rotary magnetic joint (8) with other parts, and of at least one separating element (3) between the struts (2).
• the part of magnetic modular system as per this invention can be further equipped with an outer coating.
• the part of magnetic modular system can also be preferably designed as a monolithic body acting as a separating element as well as struts.
• the parts of the rotary magnetic joint - magnetic joint elements - can be preferably integrated in the body of such part or its strut.
• the vertical separating elements between the struts can form any adjustable angle; this adjustment is ensured by rotary attachments installed on the strut, which is common for both separating elements.
• a separate strut can be used, consisting of e.g. a wooden rod with integrated magnetic joint element in a centric hole.
• Such a complementary element, attached to the substrate, can act as a fixing element for parts of magnetic modular system.
• Fig. 1a shows the front view of two parts of magnetic modular system, joined by a rotary magnetic joint as per the first embodiment of the invention.
• This embodiment includes a separating element of tetragonal shape.
• Fig. 1b shows the front view of the stand-alone part of the variable magnetic modular system as per the first embodiment of the invention with multiple magnetic joint elements integrated in each of the two struts.
• This embodiment includes a separating element of tetragonal shape.
• Fig. 1b shows the front view of the stand-alone part of the variable magnetic modular system according to the first embodiment of the invention with multiple magnetic joint elements directly integrated in the part's body.
• Fig. 2 shows the cross section through two parts of variable magnetic modular system, joined by a rotary magnetic joint according to the first embodiment of the invention.
• the parts form an example angle.
• Fig. 3 shows the front view of two parts of variable magnetic modular system according to the first embodiment of the invention.
• One part is equipped with separating elements in the form of cross bars forming a ladder structure (left), while the other part forms a ladder structure with slip-on outer coating (right).
• Fig. 4 shows the cross section through the parts of variable magnetic modular system shown in Fig. 3, joined by a rotary magnetic joint.
• One part includes the ladder structure of a separating element (left), while the other has a separating element in the form of a slip-on outer coating on a ladder structure (right).
• the parts form an exemplary angle.
• Fig. 5 shows the front perspective view of two parts of variable magnetic modular system according to the first embodiment of the invention. Each part is equipped with multiple separating elements and one suspended external accessory.
• Fig. 1a shows the front perspective view of two parts of magnetic modular system, joined by a rotary magnetic joint according to the second embodiment of the invention.
• One part has a broken-shape separating element (left), while the separating element of the other part is of a curved shape (right).
• the parts form an exemplary angle.
• Fig. 7 shows the cross section through four parts of variable magnetic modular system, joined by a rotary magnetic joint according to the second embodiment of the invention and equipped with curved or broken separating elements.
• the parts form exemplary angles.
• Fig. 8 shows the front perspective view of four parts of variable magnetic modular system, joined by a rotary magnetic joint according to the third embodiment of the invention, equipped either with one vertical broken separating element and at least one horizontal plate, or with one vertical curved separating element and at least one horizontal plate.
• the parts form exemplary angles and each the two of them are oriented towards each other so as to create an internal enclosed space similar to a wardrobe.
• Fig. 9 shows the cross section through six parts of variable magnetic modular system, joined by the rotary magnetic joint according to the third embodiment of the invention, equipped either with one vertical broken and one flat horizontal separating element, or with one vertical curved and one flat horizontal separating element.
• the parts form exemplary angles and two of them are oriented towards each other so as to create an internal enclosed space similar to a wardrobe.
• Fig. 10 shows the front perspective view of two parts of magnetic modular system, joined by a rotary magnetic joint according to the fourth embodiment of the invention.
• Each part is equipped with three struts arranged in the vertices of a triangle in such a manner that the vertical separating elements between the struts form a fixed angle.
• Multiple parts form various exemplary angles.
• the vertical separating elements between the struts can form any adjustable angle; this adjustment is ensured by rotary attachments installed on the strut, which is common for both separating elements.
• Fig. 11 shows the cross section through three parts of variable magnetic modular system, joined by a rotary magnetic joint according to the fourth embodiment of the invention.
• Each part is equipped with at least three struts arranged in the vertices of a triangle in such a manner that the vertical separating elements between the struts form a fixed angle. Multiple parts form various example angles.
• Fig. 12 shows the front perspective view of three parts of magnetic modular system, joined by a rotary magnetic joint according to the fourth and third embodiments of the invention.
• Each part is equipped with at least three struts arranged in the vertices of a triangle in such a manner that the vertical separating elements between the struts form either fixed or adjustable angle.
• Horizontal separating elements consist of fixed or slip-on external elements.
• Fig. 13 shows the cross section through three parts of variable magnetic modular system, joined by a rotary magnetic joint, shown in Fig. 12.
• Fig. 14 shows the front perspective view of two parts of magnetic modular system, joined by a rotary magnetic joint according to the third and first embodiments of the invention.
• Each part with at least two struts and at least one separating element protruding in a shape of segment of a cylinder (or ellipsoid or general surface) in the direction perpendicular to the plane defined by the struts.
• the protruding separating element carries another horizontal separating element forming the seat, worktop or shelf.
• Another separating element consists of two flat crossbars on the plane defined by the struts.
• One structure is a stand-alone unit. Multiple structures form various example angles.
• Fig. 15 shows the cross section through four structures according to the third and first embodiments of the invention.
• One structure includes at least two struts and at least one vertical separating element protruding in a shape of segment of a cylinder (or ellipsoid or general surface) in the direction perpendicular to the plane defined by the flat separating elements.
• the protruding separating element carries a horizontal separating element forming the seat, worktop or shelf.
• Each part is a stand-alone unit.
• the parts form exemplary angles.
• Fig. 16 shows the front perspective view of three parts of magnetic modular system, joined by a rotary magnetic joint according to the third and first embodiments of the invention.
• Each part with at least two struts and at least one separating element protruding in a shape of segment of a triangular prism (or polygonal prism) in the direction perpendicular to the plane defined by the struts.
• the protruding separating element carries a horizontal separating element forming the seat, worktop or shelf.
• Another separating element consists of two flat crossbars on the plane defined by the struts.
• Each part is a stand-alone unit.
• Fig. 17 shows the front perspective view of an example combination of various spatial embodiments of parts of variable magnetic modular system.
• Fig. 18 shows the cross section of an example combination of various spatial embodiments of parts of variable magnetic modular system.
• the part consists of two struts 2, while each of the struts 2 is equipped with two elements 1 of a magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5. Furthermore, the pair of struts 2 is separated by one flat separating element 3 of tetragonal shape, while each of the struts 2 is higher than the separating element 3, protruding above/under the separating element 3.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2. By joining two magnetic joint elements ⁇ , a rotary magnetic joint is created 8.
• the lateral strut 2 of the part is equipped with more than two magnetic joint elements 1; in Fig. 1c, these elements are directly integrated in the part's body.
• the part consists of two struts 2, while each of the struts 2 is equipped with two elements 1 of magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2.
• a rotary magnetic joint is created 8.
• the pair of struts 2 is separated by multiple separating elements 3 (rod crossbars) forming a ladder structure, while each of the struts 2 protrudes above/under the ladder structure formed by the separating elements 3.
• an exchangeable outer coating 4 is sli pped.
• the part consists of two struts 2, while each of the struts 2 is equipped with two elements ⁇ of magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2. By joining two magnetic joint elements 1, a rotary magnetic joint is created 8.
• the pair of struts 2 is separated by multiple separating elements 3 (flat plates) forming a ladder structure, while each of the struts 2 protrudes above/under the ladder structure formed by the separating elements 3.
• Individual separating elements 3 are equipped with suspended external accessories 7.
• the external accessory 7 can be any design accessory such as a slip-on shelf, suspension hook or flower-pot.
• each part consists of two struts 2, while each of the struts 2 is equipped with two elements 1 of magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2.
• a rotary magnetic joint is created 8.
• the pair of struts 2 is separated by one separating element 3, while the body of this separating element 3 is of broken (left) or curved (right) shape and protrudes out of the plane defined by struts 2 and in the direction perpendicular to the plane defined by the lateral struts 2.
• the separating element 3 is, in its cross section, has the shape of segment of the envelope of triangular prism (left) or ellipsoid (right) and forms the third supporting point on the substrate, making the part a stand-alone unit.
• Fig. 7 shows four parts consisting of two struts 2, while the pairs of struts 2 are separated by separating elements 3, whose bodies are of broken (left) or curved (right) shape and protrude out of the plane defined by the struts 2 in the direction perpendicular to the plane defined by the lateral struts 2.
• each part consists of two struts 2, while each of the struts 2 is equipped with two elements 1 of magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2.
• a rotary magnetic jo int is created 8. Furthermore, the pair of lateral struts 2 is separated by one separating element 3, while the body of this separating element 3 is of broken (left) or curved (right) shape and protrudes out of the plane defined by struts 2 and in the di rection perpendicular to the plane defined by the lateral struts 2.
• the separating element 3 in its cross section, has the shape of a segment of the envelope of triangular prism (left) or ellipsoid (right) and forms the third supporting point on the substrate, making the part a stand-alone unit.
• On the body of the separating element 3, at least one horizontal face 9 is situated on the plane perpendicular to the separating element 3.
• Fig. 9 (cross section) shows six parts already shown in Fig. 8, consisting of two struts 2, while the pairs of struts 2 are separated by separating elements 3.
• each part consists of three struts 2, while each of the struts 2 is equipped with two elements 1 of magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2.
• a rotary magnetic joint is created 8.
• two pairs of struts 2 in each part are separated by multiple separating elements 3 (flat plates or rods) forming at least two wings with a ladder structure, while each of the struts 2 protrudes above/under the ladder structure formed by the separating elements 3.
• the struts 2 are arranged in the vertices of a triangle and the resulting two wings form an angle less than 180°.
• Fig. 11 (cross section) shows three parts already shown in Fig. 10, consisting of three struts 2, while the pairs of struts 2 are separated by separating elements 3.
• each part consists of three struts 2, while each of the struts 2 is equipped with two elements 1 of magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2.
• a rotary magnetic joint is created 8.
• two pairs of struts 2 in each part are separated by multiple vertical separating elements 3 (flat plates or rods) forming at least two wings with a ladder structure, while each of the struts 2 protrudes above/under the ladder structure formed by the separating elements 3.
• the struts 2 are arranged in the vertices of a triangle and the resulting two wings form an angle less than 180°.
• the vertical separating elements 3 hold horizontal separating elements forming a horizontal face 9 in the shape of a triangular prism base, forming a shelf structure.
• each part consists of two struts 2, while each of the struts 2 is equipped with two elements ⁇ of magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2.
• a rotary magnetic joint is created 8.
• the pair of struts 2 in the lower section of the part is separated by a single separating element 3 protruding in a shape of segment of a cylinder (or ellipsoid or general surface) in the direction perpendicular to the plane defined by the struts 2.
• the protruding lower separating element 3 carries a horizontal face 9 forming the seat, worktop or shelf.
• This lower separating element 3 which represent another point of contact with the floor, makes the part a stand-alone unit.
• Fig. 15 cross section shows four parts already shown in Fig. 15, consisting of two struts 2, while the pairs of struts 2 are separated by separating elements 3.
• the part consists of two struts 2, while each of the struts 2 is equipped with two elements 1 of magnetic joint, of which at least one contains, apart from one magnetically reactive fragment 6, at least one magnetically active fragment 5.
• the magnetic joint elements 1 are situated in the protruding parts of each of the struts 2.
• a rotary magnetic joint is created 8.
• the pair of struts 2 in the lower section of the part is separated by a single separating element 3 protruding in a shape of segment of a triangular prism (or polygonal prism) in the direction perpendicular to the plane defined by the struts 2.
• the protruding separating element 3 carries a horizontal face 9 forming the seat, worktop or shelf.
• Each part is a standalone unit thanks to the lower separating element 3, which represents another point ⁇ contact with the floor.
• Fig. 17 shows the front perspective view of an exemplary combination of various spatial embodiments of parts of variable magnetic modular system.
• Fig. 18 shows the cross section of an exemplary combination of various spatial embodiments of parts of variable modular system.
• the universality and variability of the magnetic modular system, mobile and yet firm magnetic joint, quick and easy installation/disassembly/modification of assemblies without tools, magnetic compatibility of connection of all types of parts, space-saving storage of disassembled units, low weight and dimensional flexibility of parts, broad range of suitable materials for embodiment of assembly parts and original design - all of this allows the invention to be used as a functional and design spatial object both in interior and exterior.
• the modular system according to this invention not only delimits the required area in the interior or exterior but also creates a new variable area within the existing space.
• selected assemblies of the modular system resolve the need for furnishing of almost any premises.
• variable magnetic assemblies examples include: partition, delimiting and space-creating walls, screens, shelf walls, shelves, shelf cabinets, cabinets, seats and worktops, tub/shower screens or boxes, changing cabins, multifunctional screens at sports facilities, in healthcare, spas and cosmetic/wellness facilities, or as lighting, screening or soundproofing objects, mobile fills of holes in buildings, window shutters, enclosures, fencing, display/informational/advertising panels and objects, signs, notice-boards, mobile projector screens, garden pergolas, garden house walls, theatre scenographic elements and theatre properties. Possible uses also include functional equipment of commercial as well as residential premises with selectable and variable furniture assemblies.
• the magnetic modular system can be used as parts of existing traditional objects and furniture such as cabinet doors, folding boards and covers, mobile doors for garden houses and animal hutches, children's toy houses, building blocks and toys, standard/wall-mounted lamps, mobile light tubes, various attachments, holders, fixing parts and other accessories for current lifestyle, jewellery and small design objects.

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• Engineering & Computer Science (AREA)
• Architecture (AREA)
• Physics & Mathematics (AREA)
• Electromagnetism (AREA)
• Civil Engineering (AREA)
• Structural Engineering (AREA)
• Combinations Of Kitchen Furniture (AREA)
• Prostheses (AREA)
• Reciprocating, Oscillating Or Vibrating Motors (AREA)
• Dynamo-Electric Clutches, Dynamo-Electric Brakes (AREA)
• Toys (AREA)

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• 2015
  • 2015-09-22 CZ CZ2015-652A patent/CZ2015652A3/cs unknown
• 2016
  • 2016-04-14 WO PCT/CZ2016/000040 patent/WO2016146087A2/en active Application Filing
  • 2016-04-14 EP EP16747431.1A patent/EP3408463A2/de not_active Withdrawn

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