WO2019185921A1 - Spielring - Google Patents

Spielring Download PDF

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Publication number
WO2019185921A1
WO2019185921A1 PCT/EP2019/058094 EP2019058094W WO2019185921A1 WO 2019185921 A1 WO2019185921 A1 WO 2019185921A1 EP 2019058094 W EP2019058094 W EP 2019058094W WO 2019185921 A1 WO2019185921 A1 WO 2019185921A1
Authority
WO
WIPO (PCT)
Prior art keywords
shaped side
disc
centered
flywheel
ball bearing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/EP2019/058094
Other languages
German (de)
English (en)
French (fr)
Inventor
Michael Grande
Marcus Heine
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to EP19714205.2A priority Critical patent/EP3773958B1/de
Priority to US17/043,053 priority patent/US11400385B2/en
Priority to CA3095529A priority patent/CA3095529A1/en
Priority to CN201980035752.2A priority patent/CN112218694B/zh
Priority to JP2020552411A priority patent/JP7478665B2/ja
Publication of WO2019185921A1 publication Critical patent/WO2019185921A1/de
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H1/00Tops
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H1/00Tops
    • A63H1/24Tops with illuminating arrangements
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H37/00Jokes; Confetti, streamers, or other dance favours ; Cracker bonbons or the like

Definitions

  • the present invention relates to toys, in particular a rotatable toy body which is suitable for children's play, consisting of a freely rotatable flywheel body (S) arranged between two opposite disk-shaped side caps (K1) and (K2), wherein the flywheel body (S) has an outer casing (S).
  • a rotatable toy body which is suitable for children's play, consisting of a freely rotatable flywheel body (S) arranged between two opposite disk-shaped side caps (K1) and (K2), wherein the flywheel body (S) has an outer casing (S).
  • Toys are generally objects that are used for playing. Usually, children's toys are used for playing, and the use of adult toys is also not uncommon. A toy is valued for its own sake and for the joy of playing. A toy is for the enjoyment of dealing with its material, its functions and its possibilities. With the use of a toy, the play instinct can be lived out. A toy can increase the desire to move or the need for communication. Toys in general are not necessarily and primarily intended for specific learning purposes, but playing and toys may represent space and means that can encourage children in their development. In-game, physical, cognitive and social skills and competencies can be developed and trained. Playing with easy-to-use toys has the reputation that z. B. nervousness can be reduced by engaging with the toy.
  • a spinning top is one of the oldest and most well-known toys.
  • Spinners are bodies that rotate around an axis.
  • the gyro can otherwise move freely, but can also be forced with an axis in a certain direction.
  • B. is rotated on a base about a vertically held axis and then for a while approximately the axis direction is maintained, the gyroscope wandering on the surface.
  • Historically gyros were also used as toys for games of chance and fortune telling. Examples of play gyros are, for example, humming top, top rotors, whip toppers, uprising gyros or gyrotwisters.
  • Rotatable game bodies are thus ideal as toys, which can provide fun and enjoyment and with which a play instinct can be lived out excellently.
  • the employment of a rotatable game body is an ideal means to z. B. Borrowing boredom during a waiting period.
  • lightweight and portable rotatable toys provide a prime opportunity to take job opportunities, and thus the fun and enjoyment of toys, to any location.
  • Finger gyros known from the prior art often have two or three "rotor arms", such as those from DE 20 2017 103 662 U1, CN 107 754 323 A, CN 107 395 815 A or US Pat. No. 9,914,063 B1, the finger gyros being centered and centered lateral caps must be held.
  • CN 107 320 973 A discloses a finger gyroscope having a side cover with a central recess in which a second cover is used, which serves to hold the finger circle.
  • the finger gyros known from the prior art are mainly designed to bring fun and joy to the rotation of the rotating body.
  • a rotatable game body which is suitable for a child's game, consisting of a between two opposite disc-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer shell (M) and a centered ball bearing (L), the first disc-shaped side cap (K1) an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1 ), the opposing second disc-shaped side cap (K2) having an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) suitable are, in the Swing body (S) engage, wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely
  • the present invention relates to a rotatable game body suitable for a children's game consisting of a between two opposite disc-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) with a first central Recess (A1) and a centered ball bearing (L) having a second central recess (A2) and the centered ball bearing (L) is inserted in the first central recess (A1) of the outer shell (M), characterized in that the first disc-shaped side cap (K1) has an outer surface (F1) and a first centered on the inner surface (11) Extension (P1) has, the opposite second disc-shaped side cap (K2) an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), the first centered extension (P1) is suitable, in the second central recess (A2) of the centered ball bearing (L) and the second centered extension (P2) is suitable, in the second central rece
  • the present invention relates to a rotatable game body suitable for a child's game consisting of an arranged between two opposite disc-shaped side caps freely rotatable flywheel body, the flywheel body having an outer jacket with a first central recess and a centered ball bearing with a second central recess and the centered ball bearing is inserted in the first central recess of the outer shell, the two disc-shaped side caps outer surfaces and each having on the inner surface a centered extension, which is suitable in the second central recess of the centered ball bearing and / or in the centered forestry set the opposite disc-shaped Side cap intervene.
  • the anchors of the side caps are designed in the flywheel body so that the rotating flywheel body is stopped abruptly by squeezing the sidecaps preferably at the outer edge or the flywheel body is preferably fixed in its position by squeezing the sidecaps on the outer rim.
  • the present invention relates to a rotatable game body suitable for a children's game, consisting of a between two opposite disc-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer shell (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer one Edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage positively in the flywheel (S), wherein the disc-shaped Side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to fix the freely rotatable flywheel (S) in position.
  • the rotating flywheel body (S) abruptly preferably by pressing both side caps (K1) and (K2) on the outer edge (R1) and (R2) is stopped at two opposite points and thus an image was selected which is indicated by a mark on a side cap or by a finger of the user.
  • a printability of the outwardly directed surface of the shell of the flywheel body (S) is only given if the surface is curved according to the cylindrical shape in the longitudinal direction but in the transverse direction, that is flat parallel to the axis of rotation and not concave or convex.
  • the printable visible surface of the shell of the flywheel body (S) is per image at least 25mm 2 , preferably 50mm 2 , preferably 70mm 2 , preferably 80mm 2 , preferably 90mm 2 , preferably 100mm 2 , preferably 1 10mm 2 , preferably 120mm 2 , preferably 130mm 2 , preferably 140mm 2 , preferably
  • 150mm 2 preferably 160mm 2 , preferably 170mm 2 , preferably 180mm 2 , preferably
  • the first disc-shaped side cap (K1) and / or the second disc-shaped side cap (K2) are cylindrical or have a triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal or polygonal shape.
  • the triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal or polygonal shape is preferably a regular polygon.
  • the freely rotatable flywheel body (S) with the outer shell (M) is preferably cylindrical and the outer cylindrical surface of the cylindrical flywheel body (S) is flat and printable.
  • the wall thickness (W) of the cylindrical outer jacket (M) of the freely rotatable flywheel body (S) is preferably constant.
  • the outer radius of the cylindrical outer jacket (M) of the freely rotatable flywheel (S) is preferably constant.
  • the distance (B 0 ) of the inner surfaces (11, 12) of the opposite disc-shaped side caps (K1) and (K2) is greater than the width (B 3 ) of the flywheel (S). It is further preferred that the distance (B 0 ) of the inner surfaces (11, I2) of the opposite disc-shaped side caps (K1) and (K2) is greater than the width (B 3 ) of the outer shell (M) of the flywheel body (S).
  • the outer jacket and the centered ball bearing preferably each have a central recess.
  • the central recess of the outer shell is referred to herein as the first central recess
  • the central recess of the centered ball bearing is referred to herein as the second central recess.
  • the flywheel body is preferably composed of an outer jacket with a first central recess and a centered ball bearing with a second central recess.
  • the outer jacket with the first central recess and the centered ball bearing with the second central recess form a unit which is referred to as a flywheel body.
  • the recess of the outer shell referred to as the first central recess may also be referred to as the first central recess of the flywheel body, while the central recess of the centered ball bearing referred to as the second central recess may be referred to as the second central recess of the flywheel body.
  • the outer jacket surrounds the centered ball bearing in a concentric manner.
  • the distance of the outer border of the outer shell relative to the centered ball bearing and the center of the flywheel body is preferably constant depending on the shape of the outer shell.
  • the outer border of the outer shell, z. B. is cylindrical, the outer radius of the outer cylindrical shell is constant relative to the center of the flywheel body.
  • the outer jacket is cylindrical, the outer cylindrical outer jacket according to the invention has a constant outer diameter.
  • the first central recess of the outer shell or the flywheel body is also cylindrical, the first central recess according to the invention also has a constant diameter.
  • a straight circular cylinder which has a central recess along its axis, is also referred to as a hollow cylinder.
  • the determining quantities are adjacent to the height or width (B 3 ) of the outer shell of the rotatable flywheel, the outer radius of the outer shell and the inner radius of the outer shell, the inner radius as used herein also referred to as the outer radius of the first central recess.
  • the outer cylindrical surface or lateral surface is not convex, that is, that the wall thickness (W) is not greater, for example, at half the width (B 3 ) of the outer jacket of the rotary flywheel body than at the edge of the outer jacket of the outer jacket rotatable flywheel. It is also preferred that the outer cylindrical surface or surface is not concave, that is, that the wall thickness (W), for example, at half the width (B 3 ) of the outer shell of the rotary flywheel body is not smaller than at the edge of the outer shell of the rotatable flywheel.
  • a cylindrical outer shell of a rotatable flywheel in the form of a hollow cylinder with a constant wall thickness (W) is unrolled, that is, can be rolled over a surface.
  • a cylindrical outer jacket of a rotatable flywheel body in the form of a hollow cylinder with a constant wall thickness (W) is particularly suitable and advantageous for providing a printable surface on the outer cylindrical surface or lateral surface.
  • W wall thickness
  • the first disk-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1)
  • the opposite second disc-shaped Side cap (K2) has an outer edge (R2)
  • an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2)
  • the extensions (P1) and (P2) are suitable in the flywheel body (S ) intervene, wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to fix the freely rotatable flywheel (S) in position, wherein the flywheel body (S) with the outer shell (M) is cylindrical and the outer cylindrical surface of the cylindrical flywheel body (S) is flat and printable, wherein preferably the wall thickness (W) of the cylindrical outer shell of the flywheel body is constant.
  • the centered ball bearing is frictionally enclosed within the first central recess of the outer shell.
  • Form-fitting connections are created by the interaction of at least two connection partners.
  • the connection partners can not solve without or with interrupted power transmission.
  • the first central recess preferably has a diameter which corresponds to the outer diameter of the corresponds to cylindrical ball bearing or so far corresponds, so that the centered ball bearing can be positively locked in the first central recess.
  • the outer shell on the inside z. B. have a groove. Grooves serve to fix, guide or sink components as positive connections.
  • the positive engagement of the centered ball bearing with the first central recess of the outer shell, wherein the outer shell has a groove on the inside is provided herein by way of non-limiting example only.
  • the skilled person can use any suitable known from manufacturing technology or known method.
  • the Flywheel body a centered roller bearing, more preferably a centered ball bearing.
  • Rolling bearings are bearings in which between a so-called inner ring and an outer ring, in contrast to the lubrication in plain bearings, rolling body reduce the frictional resistance. They serve as a fixation of axles and shafts, wherein they absorb radial and / or axial forces, depending on the design, and at the same time enable the rotation of the shaft or of the components mounted on such a mounted axle (eg a wheel). Between the three main components inner ring, outer ring and the rolling elements occurs mainly rolling friction.
  • the material of the spheres is preferably made of glass, preferably from the group of alkali-alkaline-earth silicate glasses, such as soda-lime glass, or further preferably polypropylene (PP), polyethylene (PE), polyvinylidene fluoride (PVDF), polytetrafluoroethylene (PTFE) or polyetheretherketone (PEEK), and further preferably made of alumina (Al 2 O 3), zirconia (ZrO 2 ), silicon nitride (Si 3 N 4 ) or silicon carbide (SiC), and more preferably stainless steel such as SUS 304 or SUS 316.
  • a person skilled in the art for the present invention can fall back on any suitable known from the prior art ball bearing.
  • the average person skilled in the art is able to select a suitable ball bearing based on the present disclosure, which can be frictionally enclosed in the first central recess of the outer shell or swinging body of the rotatable game body according to the invention.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or in the first centering extension of the first disc-shaped side cap engage, wherein the centered ball bearing is a rolling bearing.
  • the present invention also relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable momentum body (S) to fix in position, the centered ball
  • the outer shell of the flywheel for example, be cylindrical on the outside or on the inside, that is, in the form of a flea cylinder.
  • the outer jacket may also preferably have other shapes.
  • the outer border or the outer side of the outer shell of the flywheel body a have triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal, or any other polygonal shape.
  • the polygonal shape is preferably a regular or regular polygon with 5 to 10 corners, preferably 6 to 8 corners.
  • a regular polygon is a flat polygon in geometry that is both equilateral and equiaxed. For a regular polygon, all pages are the same length and all interior angles are the same.
  • the corners of a regular polygon are all on a common circle, with adjacent corners appearing at the same center angle. Since the corners of a regular polygon are all located on a common circle, all corners, as preferred, are equidistant from the center of the flywheel. This means, as already described above, that the distance of the outer border of the outer shell relative to the centered ball bearing and the center of the flywheel body is constant depending on the shape of the outer shell.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or engage in the first centered extension of the first disc-shaped side cap, wherein the outer jacket or the flywheel body is cylindrical or has the shape of a regular polygon.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or engage in the first centered extension of the first disc-shaped side cap, wherein the outer shell or the flywheel body is cylindrical or a triangular, quadrangular, pentagonal, hexagonal, heptagonal,
  • the present invention relates to a rotatable game body suitable for a children's game consisting of a between two opposite disc-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) an outer jacket (M) and a centered Ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) a outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the projections (P1) and (P2) are adapted to engage the flywheel (S), wherein the disk-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable flywheel body (S) i n its position, wherein the fly
  • the outer surface of the cylinder as well as the outer surfaces of the regular polygon or the regular polygon are preferably printable with game figures, images, motifs and text.
  • the outer surface of the cylindrical outer shell as well as the outer surfaces of the outer shell in the form of a regular polygon or regular polygon are preferably printable with playing figures, pictures, motifs and text.
  • the outer shell of the flywheel body has a printable outer surface on the outer periphery of the outer shell, in another embodiment, the outer flywheel body preferably has printable outer surfaces which are preferably at least partially covered by the two opposing disk-shaped side caps and which may be referred to as the lateral outer surfaces of the first and second sides of the outer shell of the flywheel body.
  • lateral outer surfaces herein preferably refer to the lateral outer surfaces of the outer shell of the flywheel in the region between the outer diameter of the outer shell and the inner diameter of the outer shell or diameter of the first central recess.
  • only the first lateral outer surface of the outer shell is printable.
  • only the second lateral outer surface of the outer jacket is printable.
  • the first and second lateral outer surfaces of the outer jacket are printable.
  • the two lateral outer surfaces and the outer surface on the outer border of the outer shell of the flywheel body can be printed with game figures, pictures, motifs and text. It is preferred that the outer shell of the flywheel body has at least one printable outer surface.
  • the outer shell of the flywheel body has one or more printable outer surfaces.
  • the outer shell of the rotatable flywheel body is cylindrical and the outer surface on the outer border of the outer shell of the flywheel body, so the outer cylinder surface or lateral surface is flat and printable with game figures, pictures, subjects and text.
  • the outer surface on the outer edge of the cylindrical outer shell of the flywheel body is flat and printable, that is, the outer cylindrical surface or lateral surface of a cylindrical outer shell is not concave and non-convex and the outer radius or the outer diameter of the cylindrical outer Mantels over the width or height of the cylindrical outer shell and over the entire circumference of the cylindrical outer shell is constant.
  • the outer shell of the rotatable flywheel body has no dents or bumps on the outer cylinder surface or outer surface on the outer border.
  • the cylindrical outer jacket of the freely rotatable flywheel body in the form of a hollow cylinder particularly preferably has a constant wall thickness (W). It has surprisingly been found that a cylindrical outer jacket of a rotatable flywheel body in the form of a hollow cylinder with a constant wall thickness (W) is particularly suitable and advantageous for providing a printable surface on the outer cylindrical surface or lateral surface. Surprisingly, it has been found that the complete cylinder surface or lateral surface can only be printed over the entire circumference of the outer jacket of the freely rotatable flywheel body when the cylinder surface or lateral surface is flat.
  • the present invention also relates to a rotatable game body suitable for a child's game consisting of a arranged between two opposite disk-shaped side caps freely rotatable flywheel body, the flywheel body having an outer shell with a first central recess and a centered ball bearing with a second central recess and the centered ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface has a first centered extension, the opposing second disc-shaped side cap has an outer surface and on the inner surface has a second centered extension, the first centered Extension is adapted to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centr Engage the ball bearing and / or in the first centered extension of the first disc-shaped side cap, wherein the outer shell of the flywheel body has one or more printable outer surfaces and is preferably flat, ie parallel to the axis of rotation is flat
  • the present invention also relates to a rotatable game body suitable for a child's game consisting of a freely rotatable swinging body (S) arranged between two opposite disc-shaped side caps (K1) and (K2), wherein the swinging body (S) has an outer shell (M).
  • the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1)
  • the opposite second disc-shaped side cap (K1) K2) has an outer edge (R2), an outer surface (F2) and on the inner surface (I2) a second centered extension (P2)
  • the projections (P1) and (P2) are adapted to engage the flywheel (S) , wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the quinavba ren swing body (S) to fix in its position, wherein the outer shell of the flywheel body has one or more printable outer surfaces, which is preferably flat / ie parallel to the axis of rotation is flat and not convex or concave / are.
  • the present invention also relates to a rotatable game body suitable for a child's game consisting of a freely rotatable swinging body (S) arranged between two opposite disc-shaped side caps (K1) and (K2), wherein the swinging body (S) has an outer shell (M).
  • the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1)
  • the opposite second disc-shaped side cap (K1) K2) has an outer edge (R2), an outer surface (F2) and on the inner surface (I2) a second centered extension (P2)
  • the projections (P1) and (P2) are adapted to engage the flywheel (S) , wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the macnavba
  • the flywheel (S) with the outer shell (M) is cylindrical and the outer cylindrical surface of the cylindrical flywheel body (S) is fixed in its position, the outer shell of the flywheel body having one or more printable outer surfaces S) is flat and printable, wherein preferably the wall thickness (W) of the cylindrical outer jacket (M) of the freely rotatable flywheel body (
  • Print includes any suitable method or method, preferably of the prior art, that can be used, for example, to depict toy figures, pictures, motifs and / or text on a surface of a material
  • the material of a portion of the rotatable gaming device having a printable exterior surface may be printed directly with, for example, characters, images, motifs, and / or text.
  • the average person skilled in the art can use a method or method known from the prior art which is suitable for printing a specific material can.
  • plastics or metals may be directly printed by a screen, offset, or pad printing process.
  • Printable also means that the material of a portion of the rotatable gaming device can be adhered to a printable exterior surface with, for example, playing figures, images, motifs, and text.
  • the printing of a printable outer surface may use self-adhesive films printed with tokens, images, motifs, and text.
  • a printable magnetic sheet may be used that can support a magnetic material having a magnetic outer surface.
  • the material of the portion of the rotatable gaming device having a printable outer surface comprises engravings having characters, images, motifs, and / or text.
  • the material such as a metal or plastic, for example, can be processed by means of a laser engraving.
  • the foregoing methods and methods for printing exterior surfaces are merely exemplary methods and methods herein, and those of ordinary skill in the art may further utilize other suitable prior art methods and methods of printing an exterior surface with playing figures, motifs, pictures, and text can be. So that a surface can be printed with game figures, motifs, pictures and text, it is preferred that the surface being printed is flat.
  • the outer jacket may preferably have different outer or inner shapes. That is, not only the outer periphery of the outer shell of the flywheel body may be cylindrical or may have a triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal or any other preferably regular polygonal shape, but may also be on the inside of the outer Mantels be cylindrical or even have a triangular, square, pentagonal, hexagonal or any other preferably regular, polygonal shape. It is preferred that the outer shell is cylindrical on the inside, that is, that the first central recess is circular, so that preferably a cylindrical centered ball bearing can be enclosed.
  • the outer shell of the flywheel body according to the invention can be made of different materials such. B.
  • the outer shell of the flywheel made of polypropylene (PP) and further preferably made of polyvinyl chloride (PVC) and more preferably made of polyoxymethylene (POM) is.
  • PP polypropylene
  • PVC polyvinyl chloride
  • POM polyoxymethylene
  • the outer shell of the flywheel may preferably also be a combination of different parts, which may also be made of different materials.
  • the outer shell may comprise a cylindrical outer ring of a plastic and a cylindrical inner ring of metal.
  • an outer jacket which consists of a cylindrical outer ring made of a plastic, a cylindrical middle ring made of metal and a cylindrical inner ring made of plastic.
  • the outer jacket may consist of an outer ring which has the shape of a regular hexagon on the outside and is cylindrical on the inside and consist of an inner ring, wherein the outer side of the inner ring is cylindrical, so that the outer ring and the inner ring form-fitting bordered each other can be.
  • Another example is an outer shell consisting of an outer ring having the shape of a regular hexagon on the outside and on the inside, and further consisting of an inner ring whose outside has the shape of a regular hexagon but whose inside is cylindrical.
  • the above examples are only exemplary embodiments of the outer shell of the invention and are not limited to these examples. It is particularly preferred, however, that the various parts of the various embodiments of the outer shell of the flywheel body can be frictionally bordered with each other.
  • the outer jacket for example in a further embodiment, preferably consists of an outer ring, which has the shape of a regular hexagon on the outside and on the inside, that the inner ring, which consequently on the outside of the Inner ring also has the shape of a regular hexagon, that the size and shape of the regular hexagon of the inner side of the outer ring, the size and shape of the regular hexagon of the outer side of the inner ring corresponds so far that the outer ring and the inner ring can be positively locked together.
  • the second central recess which is the inside of the centered ball bearing, may be cylindrical.
  • the outer border or outside of the first centered extension is also cylindrical, for example.
  • the first centered extension of the first disc-shaped side cap can engage, for example, a form-fitting in the second central recess, it is particularly preferred if the diameter of the cylindrical second central recess of the centered ball bearing corresponds to the outer diameter of the first centered extension so far that a positive engagement possible is.
  • Another example of a preferred embodiment is a second central recess having the shape of a regular quadrangle, and it is then preferred that the outer shape of the first centered extension of the first disc-shaped side cap is also a regular quadrangle, for example. It is particularly preferred that, for example, after the intervention of the first centered extension of the first disc-shaped side cap in the second central recess of the flywheel or the centered ball bearing, the flywheel body and the first disc-shaped side cap with the first centered extension not without effort or not only by the Detach gravity from each other.
  • the flywheel body is "freely rotatable", and can be set in rotation mechanically, wherein the flywheel preferably rotates freely at a high speed and at least 5-10 s and more preferably at least 30 s can rotate freely.
  • the rotatable game body according to the invention is in this case preferably held by a user with a Fland on the non-rotating opposite disk-shaped side caps, while the other country of the flywheel body is mechanically rotated, z.
  • free-wheeling means that the flywheel continues to rotate after it has been rotated. This means that the rotation of the flywheel does not end at the moment when the force which is exerted on the flywheel body in order to set this in rotation, no longer acts on the flywheel body.
  • freely rotatable therefore designates a rotation of the flywheel at a speed of at least one revolution per second over a period of at least 5 seconds after termination of the force, preferably of at least one revolution per second over a period of at least 10 with a sufficiently large force transmission Seconds after termination of the force, and more preferably of at least one revolution per second over a period of at least 30 seconds after termination of the force.
  • the flywheel body may preferably have different overall diameters.
  • the overall diameter here represents the outer diameter of the outer shell of the flywheel body and thus the outer diameter of the flywheel body.
  • the outer shell of the flywheel body is cylindrical, the distance of the outer side of the outer shell to the center of the flywheel body is constant. This distance is the outer radius of the cylindrical outer shell.
  • the outer radius of a cylindrical outer shell of a rotatable flywheel body is preferably constant. That is, the cylindrical outer shell of the rotary flywheel body preferably has a constant outer radius.
  • the cylindrical outer shell of the rotatable flywheel body preferably has a constant outer radius over the entire width or height of the cylindrical outer shell and thus on the outer cylindrical surface or lateral surface is flat.
  • the outer radius of a cylindrical outer shell of a freely rotatable flywheel in the form of a hollow cylinder is constant, and thus also the wall thickness of the cylindrical outer shell of the freely rotatable flywheel is constant. It is understood that the total diameter of the flywheel body according to the invention is thus twice the outer radius of the cylindrical outer jacket.
  • the flywheel body has an outer diameter of 2.0 cm to 10.0 cm. Preferred is an outer diameter of 2.5 cm to 8.0 cm, more preferably from 3.0 cm to 6.0 cm. Particularly preferably, the flywheel body has an outer diameter of 3.5 to 4.0 cm. Particularly preferably, the flywheel body has an outer diameter of at least 3.0 cm. Particularly preferably, the flywheel has an outer diameter of 3.5 cm.
  • the flywheel may preferably be of different widths.
  • the width of the flywheel corresponds to the width of the outer shell of the flywheel.
  • the width of the outer shell of the flywheel may also be referred to as the height of the outer shell of the flywheel or as the thickness of the outer shell of the flywheel.
  • the width of the centered ball bearing can be different than the width of the outer shell.
  • the width of the centered ball bearing is preferably less than or equal to the width of the outer shell of the flywheel body.
  • the width of the centered ball bearing corresponds at most to the width of the outer shell of the flywheel body. In some embodiments, however, it may also be preferred if the width of the centered ball bearing is greater than the width of the outer shell of the flywheel body.
  • the centered ball bearing is preferably composed of a so-called inner ring and an outer ring with rolling bodies interposed therebetween which reduce frictional resistance.
  • the width of the centered ball bearing may be preferred in some embodiments, when the so-called inner ring and the outer ring of the centered ball bearing have different widths.
  • the outer ring of the centered ball bearing and the rolling body between the outer and inner ring of the centered ball bearing have a smaller width than the outer shell of the flywheel and wherein the inner ring of the centered ball bearing, for example, a greater width than the outer shell having the flywheel ring.
  • the inner ring of the centered ball bearing also have a width which corresponds to the width of the outer shell of the flywheel ring.
  • the width of the centered ball bearing can also be referred to as the height of the centered ball bearing or thickness of the centered ball bearing. If, for example, the outer shell of the flywheel body is cylindrical in a preferred embodiment, the width of the outer shell of the flywheel body thus corresponds to the height of the cylinder.
  • the outer jacket preferably has a width of 0.4 cm to 5.0 cm, preferably a width of 0.5 cm to 3.0 cm, more preferably a width of 0.7 cm to 3, 0 cm and more preferably a width of 0.8 cm to 2.0 cm.
  • the centered ball bearing for example, at most the width of the outer shell of the flywheel ring. It is particularly preferred that the width of the centered ball bearing corresponds to 0.50 times to 0.95 times the width of the flywheel body. It is particularly preferred if at least the width of the outer ring of the centered ball bearing and the width of the rolling body between the outer and inner ring of the centered ball bearing from 0.50 times to 0.95 times the width of the flywheel.
  • the present invention also relates to a rotatable game body suitable for a child's game consisting of a freely rotatable swinging body (S) arranged between two opposite disc-shaped side caps (K1) and (K2), wherein the swinging body (S) has an outer shell (M).
  • the outer shell of the flywheel body in preferred embodiments is cylindrical, so that the distance of the outer side of the outer shell to the center of the flywheel body is constant.
  • the outer radius of the cylindrical outer shell is constant.
  • the outer radius of a cylindrical outer shell of a rotatable flywheel body is preferably constant.
  • the cylindrical outer shell of the rotatable flywheel body preferably has a constant outer radius over the entire width or fleas of the cylindrical outer shell and thus is flat on the outer cylindrical surface or lateral surface.
  • the outer radius of a cylindrical outer shell of a freely rotatable flywheel in the form of a Flohlzylinders is constant, and thus also the wall thickness of the cylindrical outer shell of the freely rotatable flywheel is constant.
  • the outer shell of the freely rotatable flywheel body is cylindrical and preferably has the shape of a Flohlzylinders, wherein the outer shell of the flywheel or the flywheel at the edge has a chamfer in various sizes and shapes, particularly preferably at both edges a chamfer in various sizes and shapes
  • the wall thickness (W) of the Cylindrical outer shell of the flywheel in the form of a hollow cylinder, as well as the outer radius of the outer shell of the flywheel body at least over 90% of the width (B 3 ) of the outer shell, more preferably at least over 92% of the width (B 3 ) of the outer shell, more preferably at least over 94% of the width (B 3 ) of the outer jacket, more preferably at least over 96% of the width (B 3 ) of the outer jacket at least over 98% of the width (B 3 ) of the outer jacket, and most preferably at least above 99% of the width (B 3 ) of the
  • the size of the chamfer on the edge of the outer shell or preferably the total size of the chamfers on both edges of the outer shell preferably makes up a total of 1 to 10% of the width of a cylindrical outer shell of the flywheel, so that at least 90% to 99% of the cylinder surface or lateral surface of the cylindrical outer shell is flat and printable.
  • the outer shell of the flywheel body can also have one or more recesses in circular or triangular, quadrangular, pentagonal, hexagonal or any other polygonal shape. It is preferred that the shape of the polygon is a regular polygon. In a further preferred embodiment, the outer shell of the flywheel body may also have one or more recesses in any desired shape.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge Llagers and / or engage in the first centered extension of the first disc-shaped side cap, wherein the mass of the flywheel body is at least 15 times the mass of the two disc-shaped side caps.
  • the rotatable game body comprises two opposite disc-shaped side caps between which a freely rotatable flywheel body is arranged.
  • the first disc-shaped side cap has an outer edge, an outer surface, and a first centered extension on the inner surface
  • the second disc-shaped side cap has an outer edge, an outer surface, and a second centered extension on the inner surface.
  • the projections are adapted to engage in the flywheel body, preferably suitably engage positively in the flywheel body, wherein the disk-shaped side caps are preferably movable on the outer edge against the freely rotatable flywheel body to fix the freely rotatable flywheel in position.
  • the opposite disc-shaped side caps are arranged at a distance B 0 to each other between which a freely rotatable flywheel is arranged with a width B 3 .
  • the first disk-shaped side cap preferably has a distance B 4 between the flywheel body (S) and the inner surface of the first disc-shaped side cap (K1) and the second disk-shaped side cap preferably has a distance B 5 between the flywheel body (S) and the inner surface of the second disk-shaped Side cap (K2) on.
  • the rotatable game body of the present invention thus preferably has a flywheel with the width B 3 and two opposite disc-shaped side caps which are arranged at a distance B 0 to each other.
  • the distance B 0 between the opposite Side caps is greater than the width B 3 of the flywheel body. It is therefore particularly preferred if the distance B 0 of the inner surfaces of the opposite disk-shaped side caps (K1) and (K2) is greater than the width B 3 of the flywheel body (S).
  • the distance (B 0 ) of the inner surfaces of the opposite disc-shaped side caps (K1) and (K2) is the sum of the width (B 3 ) of the flywheel body (S), the distance (B 4 ) of the Flywheel body to the inner surface of the first disc-shaped side cap (K1) and the distance (B 5 ) of the flywheel body to the inner surface of the second disc-shaped side cap (K2).
  • the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension and the opposite second disc-shaped side cap an outer surface and on the inner surface a second centered extension.
  • the opposite disc-shaped side caps are arranged parallel to each other.
  • the disc-shaped side caps preferably have different outer shapes.
  • the disc-shaped side caps may have an outer shape which is cylindrical or which is a triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal, or any other polygonal shape.
  • the polygonal shape is preferably a regular or regular polygon with 3 to 10, preferably 6 to 8 corners.
  • the first disk-shaped side cap preferably has the same shape as the second disk-shaped side cap.
  • the side caps can also have different shapes.
  • the first side cap may be cylindrical and the second side cap may be a regular hexagon. Any conceivable combination of the different outer shapes for the first and the second disk-shaped side cap can be considered according to the invention. It is particularly preferred if the first disc-shaped side cap and the second disc-shaped side cap are cylindrical.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is adapted to engage in the second central recess of the centered ball bearing and / or in the first centered extension of the first disc-shaped side cap, wherein the first disc-shaped side cap is cylindrical or has a triangular, quadrangular, pentagonal, hexagonal, heptagonal, oc
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or in the first centered extension of the first disc-shaped side cap, wherein the second disc-shaped side cap is cylindrical or has a triangular, quadrangular, pentagonal, hexagonal, heptagonal,
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge
  • the first disc-shaped side cap and / or the second disc-shaped side cap is / are cylindrical or have the shape of a regular polygon / /.
  • the present invention also relates to a rotatable game body suitable for a children's game consisting of a arranged between two opposite disc-shaped side caps freely rotatable flywheel body, wherein the flywheel body has an outer shell with a first central recess and a centered ball bearing having a second central recess and the centered ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension is adapted to engage the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered ball bearing and / or in the first centered extension of the first disc-shaped side cap engage, wherein the first disc-shaped side cap and / or the second disc-shaped side cap is / are cylindrical or a triangular, rectangular, pentagonal hexagonal,
  • the present invention therefore preferably relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable swing
  • the two outer surfaces of the first and the second disc-shaped side caps printable.
  • the two outer surfaces of the two disc-shaped side caps and the outer border of the disk-shaped side caps are printable with game figures, pictures, subjects and text. It is preferred that the first and / or the second disk-shaped side cap has / have at least one printable surface. It is further preferred that the first and / or the second disc-shaped side cap has / have one or more printable outer surfaces.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or engage in the first centered extension of the first disc-shaped side cap, wherein the opposite disc-shaped side caps have one or more printable outer surfaces.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or engage in the first centered extension of the first disc-shaped side cap, wherein the outer shell of the flywheel, as well as the opposite disc-shaped side caps have one or more printable outer surfaces.
  • the present invention also relates to a rotatable game body suitable for a child's game consisting of a freely rotatable swinging body (S) arranged between two opposite disc-shaped side caps (K1) and (K2), wherein the swinging body (S) has an outer shell (M).
  • the disc-shaped side caps may preferably have different diameters. It is preferred that the first disc-shaped side cap has the same diameter as the second disc-shaped side cap. It is particularly preferred if the first and the second disk-shaped side cap each have a diameter which corresponds at least to the outer diameter of the centered ball bearing or the diameter of the first central recess. However, the disk-shaped side caps can also each have different diameters. For example, the first disc-shaped side cap may have a diameter that corresponds to the outer diameter of the centered ball bearing of the flywheel body, while the second side cap may have a diameter corresponding to the outer diameter of the outer shell of the flywheel body. Any conceivable combination of different diameters for the first and the second disk-shaped side cap can be considered according to the invention.
  • the disk-shaped side caps have a smaller or larger diameter than the outer diameter of the flywheel body. In a further preferred embodiment, the disk-shaped side caps have a smaller diameter than the outer diameter of the flywheel body. In a further preferred embodiment, the disk-shaped side caps have a larger diameter than the outer diameter of the flywheel body. In a particularly preferred embodiment, both disc-shaped side caps both have the same diameter, which further corresponds to the outer diameter of the flywheel body.
  • the opposite disk-shaped side caps (K1) as well as (K2) may have a diameter in the range of 0.3 times to 1.5 times the outer diameter of the flywheel body (S).
  • the disc-shaped side caps (K1) and (K2) have a diameter in the range of 0.5 to 1.5 times, more preferably 0.5 to 1.2 times, more preferably 0 , 7-fold to 1, 4-fold, more preferably from 0.7 times to 1, 3 times, more preferably from 0.8 times to 1, 4 times, more preferably from 0.8 times to 1.3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1.1 times , more preferably the 0.8- to 1, 1 times, more preferably from 0.9 times to 1, 1 times, more preferably from 0.95 times to 1, 1 times, more preferably from 0.95 times to 1, 05 times have times of the outer diameter of the flywheel body (S).
  • first and the second disk-shaped side cap each have a diameter which corresponds at least to the outer diameter of the centered ball bearing or the diameter of the first central recess.
  • first and the second disc-shaped side cap each have a diameter which corresponds at least to the outer diameter of the first central recess.
  • the diameter of the opposite side caps is larger than the outer diameter of the first central recess of the outer shell of the flywheel body and larger than the outer diameter of the centered ball bearing.
  • the disk-shaped side caps (K1) and (K2) have a diameter in the range of 0.5 times to 1.5 times, more preferably 0.5 times to 1.2 times, further preferably from 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1.4 times, more preferably from 0.8 up to 1, 3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1, 1 times, more preferably from 0.8 times to 1, 1 times, more preferably from 0.9 times to 1, 1 times, more preferably from 0.95 times to 1, 1 times preferably from 0.95 times to 1, 05 times the outer diameter of the freely rotatable flywheel body (S), wherein the diameter of the disc-shaped side caps ent at least the outer diameter of the first central recess of the outer shell of the flywheel ent speaks.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or engage in the first centered extension of the first disc-shaped side cap, wherein the disc-shaped side caps have a diameter in the range of 0.5 to 1, 2 times the outer diameter of the flywheel body.
  • the present invention also relates to a rotatable game body suitable for a child's game consisting of a freely rotatable swinging body (S) arranged between two opposite disc-shaped side caps (K1) and (K2), wherein the swinging body (S) has an outer shell (M).
  • the opposite second disc-shaped side cap (K2) has an outer edge (R2)
  • an outer surface (F2) and the inner surface (I2) has a second centered extension (P2)
  • the projections (P1) and (P2) are adapted to engage the flywheel (S)
  • the disk-shaped side caps (K1) and (K2) at the outer edge ( R1) and (R2) are movable against the freely rotatable flywheel (S) in order to fix the freely rotatable flywheel (S) in its position, the disk-shaped side caps having a diameter in the range 0.5 times to 1.5.
  • the present invention also relates to a rotatable toy body suitable for a children's game
  • a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, the flywheel body having an outer casing with a first central recess and a centered ball bearing with a second central recess and the centered ball bearing is inserted in the first central recess of the outer shell
  • the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension
  • the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension
  • the first centered extension is suitable to engage in the second central recess of the centered ball bearing
  • the second centered extension is adapted to engage in the second central recess of the centered ball bearing and / or or engage in the first centered extension of the first disc-shaped side cap
  • the diameter of the first and second disc-shaped side caps being in the range 0.5 times to 1.5 times, more preferably 0.5 times to 1.2.
  • the outer diameter of the outer shell of the flywheel body is and the first and the second disc-shaped side cap are cylindrical or the shape of a regelffleßi Have polygon and the outer shell of the flywheel is cylindrical or has the shape of a regular polygon.
  • the present invention also relates to a rotatable toy body suitable for a children's game
  • a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, the flywheel body having an outer casing with a first central recess and a centered ball bearing with a second central recess and the centered ball bearing is inserted in the first central recess of the outer shell
  • the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension
  • the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension
  • the first centered extension is suitable to engage in the second central recess of the centered ball bearing
  • the second centered extension is adapted to engage in the second central recess of the centered ball bearing and / or or engage in the first centered extension of the first disc-shaped side cap
  • the diameter of the first and second disc-shaped side caps being in the range 0.5 times to 1.5 times, more preferably 0.5 times to 1.2.
  • the two opposite side caps are preferably opposite disk-shaped side caps.
  • Disc-shaped refers to a body having the shape of a disc or a body having a planar surface.
  • a disk is a geometric body, preferably in the form of a cylinder whose radius is many times higher than its thickness.
  • a disc-shaped side cap as used herein does not mean exclusively a disc-shaped side cap having the shape of a cylinder.
  • Disk-shaped as used herein also refers to disk-shaped side caps which also have other external shapes, such as the shape of a regular polygon.
  • the first and the second disc-shaped side cap of the game body according to the invention may preferably have different widths.
  • the width of the disc-shaped side caps may also be referred to as fleas of the disc-shaped side caps or thickness of the disc-shaped side caps.
  • the disk-shaped side caps preferably have a width of 0.2 mm to 5.0 mm, preferably 0.3 mm to 3.0 mm. Particularly preferred is a width of 1 mm.
  • the side caps have a width ranging from 0.05 times to 0.5 times, preferably from 0.07 times to 0.3 times, and more preferably from 0.1 times to 0.2 times the width of the flywheel or of the outer jacket.
  • the disc-shaped side caps may also have a greater width than previously described.
  • the disk-shaped side caps may also have a width which corresponds to the width of the flywheel body or of the outer jacket of the flywheel body.
  • the disk-shaped side caps have a width in the range of 0.05 times to 1.0 times the width of the flywheel body.
  • the disk-shaped side caps each have a width which corresponds to the width of the flywheel body.
  • the width of the first disc-shaped side cap can correspond to the width of the second disc-shaped side cap. It is particularly preferred if the first and the second disk-shaped side cap have the same width. In further preferred embodiments, the first disc-shaped side cap may have a different width than the second disc-shaped side cap.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or engage in the first centered extension of the first disc-shaped side cap, wherein the disc-shaped side caps have a width in the range of 0.05 times to 0.5 times the width of the flywheel.
  • the present invention also relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped Side cap (K2) has an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are suitable in the flywheel body (S ), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to fix the freely rotatable flywheel (S) in position, wherein the disk-
  • the present invention also relates to a rotatable toy body suitable for a children's game
  • a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, the flywheel body having an outer casing with a first central recess and a centered ball bearing with a second central recess and the centered ball bearing is inserted in the first central recess of the outer shell
  • the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension
  • the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension
  • the first centered extension is suitable to engage in the second central recess of the centered ball bearing
  • the second centered extension is suitable, in the second central recess of the centered ball bearing and / o engaging the first centered extension of the first disc-shaped side cap
  • the diameter of the first and second disc-shaped side caps is in the range of 0.5 to 1.2 times the outer diameter of the outer shell of the flywheel, and the first
  • the present invention also relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable momentum to fix the body (S) in its position, the disc
  • the disc-shaped side caps can each have a chamfer in various sizes and shapes, particularly preferably at both edges, ie on the inside at the edge of the inner surfaces and on the outside at the edge of the outer surfaces a chamfer in different Have sizes and shapes.
  • first and / or the second disc-shaped side cap have one or more outer and / or inner recesses in a radius which is within the range of the outer diameter of the outer shell of the flywheel and the inner diameter of the outer shell of the flywheel or the diameter of the first central recess lie. It is preferable that one or more inner recesses of the first disc-shaped side cap and / or the second disc-shaped side cap not within the range of the outer diameter of the centered ball bearing or the inner diameter of the outer shell and the diameter of the first central recess and the inner diameter centered ball bearing or the diameter of the second central recess of the flywheel body lie.
  • the outer shell of the flywheel z. B.
  • the first disc-shaped side cap in a defined radius between the outer diameter of the outer shell of the flywheel and the inner diameter of the outer shell of the flywheel body, for example, with numbers or figures with a defined size on the surface, which of z. B. the first disc-shaped side cap is covered, so the first lateral outer surface, to be printed and at the same time, according to the first disc-shaped side cap z. B. have a recess also in the defined radius between the outer diameter of the outer shell of the flywheel body and the inner diameter of the outer shell of the flywheel body and which has a diameter or a shape corresponding to the defined size of a number or a figure.
  • the exemplary recess in this exemplary embodiment on the first disc-shaped side cap is a "window" through which the numbers or figures shown on the outer shell of the flywheel body are visible, preferably this recess, so the "window” so large that only one of the numbers or one of the figures is visible.
  • the second disc-shaped side cap may also have a recess as previously described for the first disc-shaped side cap, wherein the flywheel corresponding to the surface which is covered by the second disc-shaped side cap, so the second lateral outer surface, as well described above can be printed with numbers or figures.
  • This additional part may be, for example, a grip for the fingers.
  • this additional part can be in the form of a finger ring into which a user's finger can be inserted, so that the rotatable game body can be worn on the user's flank like a finger ring.
  • this additional part may have the form of a ring or eyelet, so that, for example, a cord can be threaded into this ring, so that the game body can be worn around the neck of a user, for example, like a chain of flats or attached to a keychain ,
  • the additional part may represent a clip-on figure.
  • the distance between the flywheel body and the opposing disk-shaped side caps is in each case in the range between 0.1 mm and 3.0 mm. In a particularly preferred embodiment, the distance between the flywheel body and the opposite disc-shaped side caps is between 0.1 to 0.3 mm. In further preferred embodiments, the distance between the flywheel body and the opposing disk-shaped side caps is preferably 0.1-3.0 mm, 0.3 mm-2.0 mm, more preferably 0.5 mm-1.5 mm, and most preferably 0.8 mm - 1, 2 mm. In a preferred embodiment, the distance between the flywheel body and the first disk-shaped side cap and between the flywheel body and the second disk-shaped side cap is the same.
  • the distance between the flywheel body and the first disk-shaped side caps is preferably the distance between the flywheel body and the inner surface of the first disk-shaped side cap, and the distance between the flywheel body and the second disk-shaped side cap is preferably the distance between the flywheel body and the inner surface of the second disk-shaped side cap.
  • the distance (B 0 ) between the two opposite disk-shaped side caps thus results preferably from the distance B 4 between the flywheel body (S) and the inner surface of the first disc-shaped side cap (K1) plus the distance B 5 between the flywheel body (S) and the Inner surface of the second disk-shaped side cap (K2) plus the width (B 3 ) of the flywheel body (S).
  • the distance B 0 between the two opposite disc-shaped side caps is preferably the sum of B 4 + B 5 + B 3 . It is preferred, when the distance B 4 and the distance B 5 is between 0.1 mm and 3.0 mm, more preferably between 0.1 to 0.3 mm. It is therefore preferable if the distance B 4 and the distance B 5 between the flywheel body and the opposite disk-shaped side caps are preferably 0.1-3.0 mm, 0.3 mm-2.0 mm, more preferably 0.5 mm-1 , 5 mm and most preferably 0.8 mm - 1, 2 mm.
  • the present invention therefore also relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped Side cap (K2) has an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are suitable in the flywheel body (S ), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to fix the freely rotatable flywheel (S) in position, wherein the disc-shaped
  • the rotatable game body of the present invention is preferably retained by a user with a flange on the non-rotating opposite disc-shaped side caps, while with the other country of the swing body is mechanically rotated, z. B. by abutment with a finger of the other Fland.
  • finger gyros from the prior art such as the finger gyros from DE 20 2017 103 662 U1, CN 107 754 323 A, CN 107 395 815 A or US 9,914,063 B1
  • the lateral cover caps having a diameter corresponding to the ball bearing used or minimal is greater than the diameter of the first central recess, the finger gyro must be held on these side caps, so that the rotating body can rotate freely.
  • the finger gyroscope of the prior art often have two or three "rotor arms", wherein the diameter of the rotating body including the rotor arms is more than twice as large as the diameter of the ball bearing used of the respective finger gyro, that is more than twice as large is, than the diameter of the side covers.
  • the rotatable body of the finger gyro is not touched with the flange, so that it can be set in rotation and rotate freely.
  • the overall diameter of the prior art finger gyroscope is therefore limited to a maximum diameter that depends on the size of the user's area.
  • the disc-shaped side caps (K1) and (K2) have a diameter in the range of 0.5 to 1.5 times, more preferably 0.5 to 1.2 times, more preferably from 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1.4 times, more preferably from 0.8 times 1 to 3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1.1 times -fold, more preferably from 0.8 to 1, 1-fold, more preferably from 0.9 to 1, 1-fold, more preferably from 0.95 to 1, 1-fold, more preferably from 0.95 times to 1.05 times the outer diameter of the flywheel body (S).
  • the rotatable game body of the present invention therefore offers the considerable advantage that it does not have to be held in such a limited predetermined place as is the case with the finger gyros of the prior art, so that the swing body can rotate freely when the finger gyroscope is held.
  • the disk-shaped side caps (K1) and (K2) have a diameter in the range of 0.5 times to 1.5 times, more preferably 0.5 times to 1.2 times, more preferably of the From 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1.4 times, more preferably 0.8 times up to 1.3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1.1 times times, more preferably from 0.8 times to 1, 1 times, more preferably from 0.9 times to 1, 1 times, more preferably from 0.95 times to 1, 1 times, more preferably from 0.95 times 0.95 times to 1, 05 times the outer diameter of the flywheel body (S), since this offers the advantage that the rotatable game body can be held comfortably and easily at any point of the disc-shaped side caps, wherein the rotatable flywheel u can freely rotate freely.
  • the rotatable toy body of the present invention offers significant advantages over the prior art finger gyros, as it is easier to handle, independent of the size of a user's area, and also for motorized or clumsy users or, in particular, for Children of all ages are easy to use. Due to these advantageous properties of the rotatable game body of the present invention is particularly suitable for children in kindergarten or primary school age.
  • the opposite disk-shaped side caps preferably have a distance (B 0 ) between the two opposite disc-shaped side caps, which is the distance B 4 between the flywheel (S) and the inner surface of the first disc-shaped side cap (K1) plus the distance B 5 between the flywheel (S) and the inner surface of the second disc-shaped side cap (K2) plus the width (B 3 ) of the flywheel body (S) composed.
  • the opposite side caps preferably have a distance (B 0 ) between the opposite disc-shaped side caps on which is greater than the width (B 3 ) of the flywheel body (S).
  • the opposing disc-shaped side caps have a diameter in the range of 0.5 to 1.5 times, more preferably 0.5 to 1.2 times, more preferably 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1.4 times, more preferably from 0.8 times to 1.3 times more preferably from 0.7 times to 1, 2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1, 1 times, more preferably from 0.7 times 0.8 times to 1, 1 times, more preferably from 0.9 times to 1, 1 times, more preferably from 0.95 times to 1, 1 times, more preferably from 0.95 times to 1, 05 times the outer diameter of the flywheel body (S).
  • the rotatable toy body of the present invention has the advantageous feature over the prior art finger gyros that with opposed disc-shaped side caps preferably having a diameter in the range of 0.5 to 1.5 times, more preferably 0.5 up to 1, 2 times, more preferably from 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1, 4 times, more preferably from 0.8 times to 1, 3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times preferably from 0.7 times to 1, 1 times, more preferably from 0.8 times to 1, 1 times, more preferably from 0.8 times to 1, 1 times, more preferably from 0.9 times to 1, 1 times, more preferably from 0.95 -fold to 1, 1-fold, more preferably from 0.95 to 1, 05 times the outer diameter of the flywheel body (S) easier handling is achieved because it is not necessary, the rotatable game body as in the finger circuits of the prior art, only in a small area in relation to the total diameter
  • the opposite disc-shaped side caps have a distance B 4 or B 5 to the flywheel, so as to ensure that the disc-shaped side caps also on the outermost edge, the outer edge (R1) of the first disc-shaped side cap, as well the outer edge (R2) of the second disk-shaped side cap can be held without the flywheel body will touch unintentionally and the free rotation of the flywheel body is thereby prevented.
  • a side cover having a central recess which has a larger diameter than the ball bearing used. In the central recess of this cover, a second cap is used with centered extensions.
  • the side covers are embedded in the outer shell of the flywheel body, therefore, in this finger gyro, the distance between the inner surfaces of the covers is smaller than the width of the rotating body. Therefore, this finger gyro has the disadvantage that it can not be held on the outer edge of the covers, as the covers and the rotatable flywheel merge into one another without height difference. Farther Care must also be taken here that the finger gyro is held in the middle of the finger gyroscope, since the covers disclosed in CN 107 320 973 A are covers which are rotatably connected to the rotating housing. Therefore, the covers in CN 107 320 973 A also have a central recess in which a second cover is used, which serves to hold the finger circle.
  • the covers according to CN 107 320 973 A are not the non-rotating disk-shaped side caps of the rotary game body of the present invention. Furthermore, the cover according to CN 107 320 973 A is not disc-shaped side caps with flat surfaces which are particularly suitable for printing.
  • the disc-shaped side caps of the rotatable game body of the present invention may be made of a plastic, glass, Flolz or metals, such as aluminum, is preferred, if the disc-shaped side caps made of polypropylene (PP) and further preferably made of polyvinyl chloride (PVC), and more preferably Polyoxymethylene (POM) are made.
  • PP polypropylene
  • PVC polyvinyl chloride
  • POM Polyoxymethylene
  • suitable materials include metals such as cast iron, steel, stainless steel, aluminum alloys, copper alloys, magnesium alloys, titanium alloys, zinc alloys; Ceramics, such as glasses such as borosilicate glass, glass ceramic, quartz glass, soda lime glass, or technical ceramics such as silicon, silicon carbide, silicon nitride, tungsten carbide, composites such as aluminum silicon carbide, carbon fiber reinforced plastic (CFRP), glass fiber reinforced plastic (GRP), natural materials such as wood or bamboo , Polymers or plastics such as elastomers such as natural rubber, thermoplastics such as acrylonitrile-butadiene-styrene copolymer (ABS), cellulose acetate (CA), ionomers, polyamides such as nylon, polycarbonates (PC), polyetheretherketone (PEEK), polyethylene (PE), polyethylene terephthalate (PET), polymethyl methacrylate (PMMA), polyoxymethylene (POM), polypropylene (PP), polystylene (PP), polyst
  • the disc-shaped side caps may be made of different materials. In some embodiments, the disc-shaped side caps may be made of the same material. It is preferred if the disc-shaped side caps are made of the same material. In preferred embodiments, the disc-shaped side caps have a diameter greater than the diameter of the centered ball bearing, in some preferred embodiments, the disc-shaped side caps have a diameter in the range of 0.5 to 1.5 times, more preferably from 0.5 times to 1.2 times, more preferably from 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times times up to 1.4 times, more preferably from 0.8 times to 1.3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times more preferably from 0.7 times to 1, 1 times, more preferably from 0.8 times to 1, 1 times, more preferably from 0.9 times to 1, 1 times, more preferably of 0.95 times to 1, 1 times, more preferably 0.95 times to 1, 05 times the outer diameter of
  • the material from which the disc-shaped side caps are made is not plastically deformed or breaks when a small compressive force engages or is applied perpendicularly to the disk-shaped side caps, particularly at the outer edges (R1 and R2) of the disc-shaped side caps, that is at the maximum distance from the center the disc-shaped side caps, that is, at a distance of the outer radius of the disc-shaped side caps is exercised.
  • At least one compressive force of 50 N, more preferably at least 60 N, more preferably at least 70 N, more preferably at least 80 N, more preferably at least 90 N, even more preferably at least 100 N is necessary, around the first or second disc-shaped side cap at the outer edge (R1 or R2) of the corresponding disk-shaped side cap to bend in the direction of the flywheel, wherein the disc-shaped side caps are plastically deformed or break. It is therefore particularly preferred that the disk-shaped side caps are not plastically deformed by an applied compressive force or by an applied compressive force at the outer edge of the disc-shaped side caps below 100 N and / or not break.
  • the disc-shaped side caps are made of a material in which bending of one or both disk-shaped side caps by a deflection f, which preferably maximally the distance B 4 between the flywheel (S) and the inner surface of the first disk-shaped side cap (K1) and / or the distance B 5 between the flywheel body (S) and the inner surface of the second disc-shaped side cap (K2) corresponds, in particular when the diameter of the disc-shaped side caps is less than or equal to the diameter of the flywheel body (S), no plastic Deformation or breakage of the material occurs.
  • a deflection f which preferably maximally the distance B 4 between the flywheel (S) and the inner surface of the first disk-shaped side cap (K1) and / or the distance B 5 between the flywheel body (S) and the inner surface of the second disc-shaped side cap (K2) corresponds, in particular when the diameter of the disc-shaped side caps is less than or equal to the diameter of the flywheel body (S), no plastic Deformation or breakage of the material occurs.
  • Such materials include, but are not limited to, glasses or even plastics such as PMMA or amorphous and brittle plastics or glass fiber reinforced plastics or wood which will crack under heavy use and less permanent plastic deformation as with some soft plastics or plastics Metals or metal alloys.
  • Force is a directed physical quantity that can be represented by a vector.
  • a force not only its amount but also the indication of the direction in which the force acts is necessary.
  • its point of application also determines the force effect.
  • the term “compressive force” refers to a force that acts perpendicular to the disc-shaped side caps toward the freely rotatable swing body so that the disc-shaped side caps are movable against the freely rotatable swing body.
  • compressive force preferably refers to the force necessary to compress the disc-shaped side caps, ie to press in each case in the direction of the freely rotatable swing body, so that the freely rotatable swing body is fixed in position, wherein the fixation of The free rotating flywheel in position herein also means that a flywheel previously set in rotation is decelerated.
  • the "pressure force” prefers on the outer edge of the disc-shaped side caps, since the amount of compressive force at the outer edge of the disc-shaped side caps to fix the freely rotatable swing body in position, is the lowest.
  • the term "engaging compressive force” refers to the amount of force that preferably engages the outer edge of the disc-shaped side caps, with the “engaging compressive force” preferably having a minimum amount to move the disc-shaped side caps against the freely rotatable swing body. If the amount of the applied pressure force is less than the minimum required amount to move the disk-shaped side caps against the freely rotatable flywheel body, the disk-shaped side caps are not moved against the freely rotatable flywheel body. If the amount of pressure force steadily increased until the applied pressure force reaches the minimum amount, the disk-shaped side caps are moved on the outer edge against the freely rotatable flywheel, so that the freely rotatable flywheel is fixed in position.
  • the term "applied compressive force” refers to the force acting in retaining the disc-shaped side caps or compressing the disc-shaped side caps, such as when the disc-shaped side caps have been moved against the freely rotatable swing body, so that the freely rotatable swing body is fixed in position and the free rotatable flywheel remains fixed in position over a period of time. If the disk-shaped side caps are moved on the outer edge against the freely rotatable flywheel by an engaging pressure force on the outer edge of the disk-shaped side caps, so that the freely rotatable flywheel is fixed in position, the freely rotatable flywheel remains fixed in position as long as the applied Compressive force is kept constant.
  • the disk-shaped side caps When the amount of applied compressive force is reduced, that is, as the applied compressive force decays, the disk-shaped side caps preferably return to the position as before application of the compressive force or, in other words, the disc-shaped side caps again move away from the freely rotatable swinging body as before application of the compressive force engaging compressive force. Therefore, the applied compressive force preferably corresponds to the force on the outer edge of the disk-shaped side caps which must be exerted to hold the side caps in the compressed position so that the freely rotatable swing body remains fixed in position. The decay of the applied compressive force therefore also corresponds to a release of the disc-shaped side caps, so that they return to their original starting position.
  • a low deflection f that is, at a deflection of the disc-shaped side caps, which preferably maximally the distance B 4 between the flywheel body (S) and the inner surface of the first disc-shaped side cap (K1) and / or the distance B. 5 between the flywheel body (S) and the inner surface of the second disk-shaped side cap (K2) corresponds, in particular when the diameter of the disk-shaped side caps is less than or equal to the diameter of the flywheel body (S), an in Substantial elastic deformation takes place, so that after the loss of force, the disk-shaped side caps return to their original state.
  • the rotatable game body of the present invention preferably has opposed disk-shaped side caps, which preferably have a diameter in the range of 0.5 to 1.5 times, more preferably 0.5 to 1.2 times, more preferably des 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1.4 times, more preferably 0.8 times to 1, 3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1.1 times more preferably from 0.8 to 1, 1-fold, more preferably from 0.9 to 1, 1-fold, more preferably from 0.95 to 1, 1-fold, more preferably from 0.95 times to 1.05 times the diameter of the flywheel body as well as preferably equal to the diameter of the flywheel body, so that the rotatable game body not exclusively in the center of the rotatable game body s must be held, but also on the outer edge (R1 or R2) of the side-shaped side caps (K1 or K2) can be held without hinder
  • the applied compressive force or the applied compressive force which is necessary for bending the disk-shaped side caps by a deflection f wherein the deflection f preferably maximally the distance B 4 between the flywheel body (S) and the inner surface of the first disk-shaped side cap (K1) and / or the distance B.
  • the present invention preferably relates to a rotatable game body suitable for a children's game consisting of between two opposite disc-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer shell (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable swing (S) to fix in its position, wherein the disc-shaped disc
  • Another advantage of the rotatable game body of the present invention over the prior art finger gyros is that the disk-shaped side caps of the rotatable game body of the present invention provide a larger surface area for printing.
  • the finger gyroscope of the prior art according to DE 20 2017 103 662 U1, CN 107 754 323 A, CN 107 395 815 A or US 9,914,063 B1 have cover caps which are largely completely concealed by the fingers when they are held.
  • the disc-shaped side caps have a diameter larger than the diameter of the centered ball bearing, preferably in the range of 0.5 times to 1.5 times, more preferably 0.5 times to 1.2 times, further preferably from 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1.4 times, more preferably from 0.8 up to 1, 3 times, more preferably from 0.7 times to 1, 2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1, 1-fold, more preferably from 0.8 to 1, 1-fold, more preferably from 0.9 to 1, 1-fold, more preferably from 0.95-fold to 1, 1-fold, on Preferably, the 0.95 times to 1, 05 times the flywheel, the outer surfaces of the disc-shaped side caps can be printed preferably, so that the printed figures, motifs, shapes and text are not completely covered by the fingers who the.
  • the advantage of printing the disc-shaped side caps over the printing of the lateral outer surfaces of a flywheel body is that the disc-shaped side caps do not rotate, that is not freely rotatable, so that the figures, motifs, images and text even during the rotation of the flywheel clear and are clearly visible.
  • the finger gyroscopes of the prior art do not provide comparable surfaces that can be printed in which, during the use of these finger gyroscopes, ie while playing, the figures, motifs, images and text can be clearly seen during the rotation of the rotating body , Even with the finger gyroscope of the prior art according to CN 107 320 973 A, the covers are rotatable and rotatably connected to the rotating body covers, which therefore rotate with the rotating body.
  • a rotatable game body of the present invention which has individually printed outer surfaces of the disk-shaped side caps which do not rotate during use of the rotatable game body and thus provide pleasure during rotation of the rotatable game body, which many users especially kids have fun.
  • the disk-shaped side caps can be printed with figures, motifs, images, shapes and text in the form of one or more markers, which after printing and stopping the rotation of the freely rotatable swing body on a printed Field on the outer edge of the rotatable game body, in the case of a cylindrical outer shell on the cylinder surface or lateral surface, or can indicate.
  • a mark is inevitably covered when holding with his fingers, or the user has to cumbersome raise his finger to detect which field could be selected.
  • the opposing disk-shaped side caps may preferably have a diameter in the range of 0.5 times to 1.5 times, more preferably 0.5 times to 1.2 times, more preferably from 0.7 times to 1.4 times, more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1.4 times, more preferably from 0.8 times to 1, 3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1.1 times -fold, more preferably from 0.8 to 1, 1-fold, more preferably from 0.9 to 1, 1-fold, more preferably from 0.95 to 1, 1-fold, more preferably from 0.95 times to 1.05 times the diameter of the rotatable flywheel body, a rotatable game body can be provided, with which easy and convenient fun-enhancing additional functions with the provision ung of disc-shaped side caps with larger surface areas which are preferably printable can be integrated into a game.
  • the rotatable game body further has the advantage that the disc-shaped side caps are preferably movable against the freely rotatable flywheel body at the outer edge to fix the freely rotatable flywheel in its position, so that in contrast to finger gyros from the prior art, an unintentional rotation or movement of the freely rotatable flywheel body can be prevented because the fixed freely rotatable flywheel body can not rotate freely.
  • the disadvantages of the prior art finger gyros are, inter alia, that they are exclusively designed to bring about fun and enjoyment of the rotation of the rotating body. For this reason, the focus in providing the prior art finger gyroscopes is to provide rotating bodies which, upon rotation, provide additional effects, e.g. Show lighting effects with built-in LEDs.
  • the visual effect obtained with the prior art finger gyros is that the two or three or more "gyros" in the gyros have the two or three or more "gyros" during rotation more clearly and clearly distinguishable from each other and are delimited, so that for the user's eye, the rotating body with the two or three or more "gyros" appears circular and round.
  • the rotatable game body of the present invention has advantageous properties, since the disk-shaped side caps can be printed on the outer surfaces and the diameter of the disc-shaped side caps is preferably so large that figures, motifs, images and text are not completely hidden, but also that the outer Mantle of the flywheel body has one or more printable surfaces, as preferably on the outer edge of the outer shell, so the lateral surface, or the cylinder surface in the case of a cylindrical outer shell, so that the visual effects of the finger gyroscope of the prior art in the rotatable Game body of the present invention can be integrated.
  • the rotatable toy body of the present invention it is preferable to provide the representation of figures, images, motifs and text during rotation, as well as visual effects by the rotation of the rotatable swing body simultaneously with a rotatable game body according to the invention.
  • a combination of printable non-rotating surfaces and printable rotating surfaces provides an enhanced and positive effect on the fun and enjoyment of playing with the rotatable gaming machine of the present invention.
  • a freely rotatable flywheel body between two non-rotating opposing side caps having a diameter in the range 0.5 times to 1.5 times, more preferably 0.5 times to 1.2 times, more preferably 0 , 7-fold to 1, 4-fold, more preferably from 0.7 times to 1, 3 times, more preferably from 0.8 times to 1, 4 times, more preferably from 0.8 times to 1.3 times, more preferably 0.7 times to 1.2 times, more preferably 0.8.
  • the present invention therefore provides a rotatable game body with which, in particular, the fun of playing is maintained over a long period of time and the motivation and interest in playing with the rotatable game body is maintained over a long period of time or even increased. Furthermore, due to the advantageous technical properties of the rotatable game object according to the invention, pedagogically valuable functions can also be integrated into the game sequence with the rotatable game body, which bring about a positive and positive learning effect in addition to the joy of the game, especially in children.
  • the material from which the disc-shaped side caps are made may be a metal or a metal alloy, eg, steel, stainless steel having a high modulus of elasticity E.
  • the minimum amount of pressure applied to move the disc-shaped side caps against the freely rotatable swing body to fix the freely rotatable swing body in position depends on the diameter of the disc-shaped side cap, the diameter of the centered extension on the inner surface of a disc-shaped side cap, the mold the centered extension on the inner surface of a disc-shaped side cap, the thickness or width or fleas of the disc-shaped side cap as well as the material constants of the material is made from the disc-shaped side cap from.
  • the pressure force that must be applied is the higher, the thicker or wider or higher the side cap is, the smaller the radius of the side cap and the stiffer the material is, for. B. has a high modulus of elasticity.
  • the diameter of the disc-shaped side caps is preferably in the range of 0.5 times to 1.5 times, more preferably 0.5 times to 1.2 times, more preferably 0.7 times to 1.4 more preferably from 0.7 times to 1.3 times, more preferably from 0.8 times to 1.4 times, more preferably from 0.8 times to 1.3 times, more preferably from 0.7 times to 1.2 times, more preferably from 0.8 times to 1.2 times, more preferably from 0.7 times to 1.1 times, more preferably from 0.8 times to 1, 1 times, more preferably from 0.9 times to 1, 1 times, more preferably from 0.95 times to 1, 1 times, more preferably from 0.95 times to 1, 05 times -fold the diameter of the flywheel.
  • the disk-shaped side caps and the flywheel body at a suitable distance so that for example a perpendicular to the disk-shaped side caps inwardly directed force can preferably be exerted on the outer edge of the disc-shaped side caps, so that a braking effect of the rotation of the flywheel body becomes after the flywheel has previously been rotated.
  • the above-described force can be applied by compressing the game body at the outer edge of the side caps with two fingers.
  • the rotationally offset freely rotating flywheel body is preferably decelerated by compressing the disk-shaped side caps on the outer edge of the disk-shaped side caps. It is preferred if at least a pressure force of 20 N must be exerted on the outer edges of the disc-shaped side caps, so that the rotating, freely rotating flywheel body is braked.
  • the rotation of the flywheel body can be braked or fixed by squeezing the side caps on the outer edge of the side caps
  • the side caps are made of a material under a certain force, the one bending of the material and thus a bending of the disc-shaped side caps causes, that is, a deflection f causes the outer edge of the disc-shaped side caps, which are made of this material disc-shaped side caps are deformed substantially elastic and assume after termination or elimination of the force back to the original state.
  • the side caps are not plastically or permanently deformed by the compression, that is, by the applied compressive force.
  • the material from which the disc-shaped side caps are made upon compression of the side caps on the outer edge of the disc-shaped side caps to brake the rotation of the flywheel or to fix the flywheel, is elastically deformed and thus the disc-shaped Side caps are elastically deformed.
  • the disc-shaped side caps by a perpendicular to the disk-shaped side caps inwardly directed force preferably acts on the outer edge of the disc-shaped side caps pressing force to the distance B 4 and B 5 bent inward, that is to be moved, that is to be bent in the direction of the flywheel or bent towards each other, that is movable against the freely rotatable flywheel, so that the disc-shaped side caps and the momentum body come into contact, that is, that the disc-shaped side caps are bent or moved so far in the direction of the flywheel that touch the disc-shaped side caps and the flywheel, so that a braking of the rotation of the flywheel is caused by frictional forces occurring after the flywheel body was previously set in rotation, and so that flywheel body is fixed in its position, whereby the disk-shaped end caps after completion or discontinuation of the force, that is, after the decay of the applied compressive force again assume the original state, in
  • the present invention therefore particularly preferably relates to a rotatable toy body suitable for a children's game consisting of a freely rotatable flywheel body (S) arranged between two opposite disc-shaped side caps (K1) and (K2), wherein the flywheel body (S) has an outer casing (M) and a centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2 ) has an outer edge (R2), an outer surface (F2) and on the inner surface (I2) a second centered extension (P2), and the projections (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable To fix swinging body (S)
  • a force on the outer edge of the disc-shaped side caps herein means that the force acting on the disc-shaped side caps perpendicular to the disc-shaped side caps acts on a point which is the maximum distance to the center the disc-shaped side caps, so corresponds to the outer radius of the disc-shaped side cap. If the disc-shaped side caps are cylindrical, the force at the outer edge of the disc-shaped side caps, so at a distance of the outer radius of the disc-shaped side caps can advantageously attack at each point of the outer periphery on the outer edge of the disc-shaped side caps.
  • the compressive force acting on the outer edge of the disc-shaped side caps can advantageously engage at any point on the outer circumference of the disc-shaped side caps in the case of a cylindrical outer shell of the freely rotatable flywheel, preferably in the form of a flash cylinder with a constant wall thickness (W) and a constant outer radius, is a cylindrical outer jacket, preferably in the form of a flea cylinder, particularly preferred.
  • the present invention therefore preferably relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the projections (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable swing k
  • first and second disc-shaped side caps have a triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal or polygonal shape, preferably in the form of a regular polygon, then it is preferred that the corners of the regular polygon of the first and second disc-shaped side caps are superimposed so that the applied compressive force on both sides of the rotatable flywheel body can engage at opposite locations.
  • a stress-strain diagram may be made for a given material.
  • the strength of a material describes its resistance to mechanical stress before failure, and is given as the stress s (force per cross-sectional area).
  • the failure may be an impermissible deformation, in particular a plastic or permanent deformation or a fracture.
  • material condition, temperature, load and load speed different strengths can be achieved.
  • the strength of a material thus depends on the material itself, on the time course of the stress and on the type of stress.
  • the stiffness of a material describes the relationship between strain and mechanical stress and thus the resistance of a body to elastic deformation by a force or moment (bending moment or torsional moment).
  • the rigidity of a component depends not only on the elastic properties of the material (the modulus of elasticity), but also on the geometry of the component.
  • the Bending stiffness is the product of the modulus of elasticity (E) of the material and the area moment of inertia (I) of the cross section.
  • the curvature of the body is proportional to the applied bending moment and inversely proportional to the bending stiffness.
  • the term bending moment refers to a moment that loads a thin (eg bar) or thin component, eg a plate, and consequently bends it.
  • the course of the bending moment is considered, for example in the case of a beam, the beam longitudinal orientation.
  • the deformation or bending line of the component and the existing mechanical stresses or bending stresses are determined so that they can be compared with the maximum permissible stresses or strengths of the material.
  • a beam clamped on one side can be loaded at the free end at a distance L by a force F as a point load P.
  • Cross-section and material properties are preferably constant along the beam.
  • the elasticity is the property of a body or material to change its shape under force and to go back to its original form when the acting force ceases.
  • the modulus of elasticity is a material characteristic value from material technology which describes the proportional relationship between stress and strain in the deformation of a solid body in linear-elastic behavior.
  • the modulus of elasticity is the proportionality constant in Flookeschen's law. The amount of elastic modulus is greater, the more resistance a material opposes its elastic deformation.
  • a high modulus (e.g., steel) material component is stiffer than a component of the same construction made of a low modulus material (e.g., rubber).
  • the modulus of elasticity is defined as the slope of the graph in the stress-strain diagram for uniaxial stress at infinitesimal distortion change at dielectric strength.
  • Most materials have at least a small linear elastic range, this is also referred to as Flookescher range.
  • Real materials have a limit of elasticity within which they elastically deform and beyond which dissipative processes such as fractures occur.
  • the Flookesche law describes the elastic deformation of solids, if their deformation is proportional to the applied load (linear-elastic behavior). This process is typical of metals, if the load is not too large, and for hard, brittle materials such as glass, ceramics, silicon often to breakage.
  • the elastic limit of a material is the magnitude of the mechanical stress below which the material is elastic, i. it returns to its original shape when the load is removed (reversible deformation). When the elastic limit is exceeded, irreversible stretching or compression or plastic deformation occurs.
  • the elastic limit values are used in addition to other material parameters for the calculation and determination of the strength and stability of mechanical constructions.
  • an important role therefore also plays the diameter of the centered extensions on the inside of the disc-shaped side caps.
  • the diameter of the centered extensions is assumed to be punctiform
  • the distance between this point and the point of application of the applied compressive force which in this approach corresponds to the outer radius of the disc-shaped side caps, will be used to calculate the applied force at the outer edge of a disc-shaped side cap a given material. That is, at an applied compressive force at the outer edge of the disc-shaped side cap between the center and the distance at which the force acts as the attacking point force, is referred to as a length.
  • the maximum length to the point of application of the applied compressive force is the length of the outer radius, ie half the diameter of the disc-shaped side caps.
  • the diameter of the centered extension is larger and, for example, an outer diameter has, for example, which corresponds to half the diameter of the disc-shaped side caps, so the disc-shaped side caps have a 50% larger diameter, or have a 2 times larger diameter than the centered extensions, then the length corresponds to the point of attack of the compressive pressure force half the outer radius the disc-shaped side caps.
  • the disk-shaped side caps on the inner surfaces each have a centered extension, which are each suitable to engage in the flywheel body, preferably engage positively in the flywheel body.
  • the disk-shaped side caps are thus centered clamped over the centered extensions and can be loaded on the non-clamped outer edges with an attacking compressive force, so that a bending takes place.
  • the bending stress generated in contrast to tensile and compressive tests in the body cross section a variable stress and strain.
  • On the upper side of the disc-shaped side caps thus creates a tensile stress and on the underside of a compressive stress to which the disk-shaped side cap reacts with a compression or elongation of the edge fiber.
  • the maximum elongation is also called edge fiber elongation. Therefore, the marginal fiber strain e at the deflection f of the disc-shaped side caps on the outer edge of the disc-shaped side caps must be calculated. It is preferred that the marginal fiber strain e is below the maximum allowable strain s zui .
  • the greater the outer radius or diameter of the centered extensions the greater is the applied compressive force that must be applied to the outer edge of the disc-shaped side caps to allow a disc-shaped side cap to wrap around the outer edge given deflection f can be moved or can be bent. That is, the smaller the length, the greater the amount of the applied compressive force, and the greater the applied compressive force, the sooner plastic deformation or breakage of material occurs.
  • the disc-shaped side caps on the outer edge reversibly or elastically to a deflection f can be moved or deformed, so the diameter of the disc-shaped side caps and the diameter of the centered extensions and thus the diameter of the second central recess must be observed.
  • the diameter of the disk-shaped side caps is at least twice as large as the outer diameter of the centered extensions of the disk-shaped side caps. It is also preferred that the diameter of the disk-shaped side caps is at least one third larger than the diameter of the centered extensions of the disk-shaped side caps. It is also preferred that the diameter of the disc-shaped side caps at least one third larger than the diameter of the second central recess of the flywheel body. Therefore, it is preferred that the diameter of the disc-shaped side caps be at least 50%, more preferably at least 40%, and most preferably at least 30% greater than the diameter of the centered extensions of the disc-shaped side caps.
  • the diameter of the disc-shaped side caps is at least 50%, more preferably at least 40%, and most preferably at least 30% greater than the diameter of the second central recess of the flywheel body. Therefore, it is preferred that the disc-shaped side caps have at least 1.5x, more preferably at least 1.4x, and most preferably at least 1.3x greater diameter than the diameter of the centered extensions of the disc-shaped side caps. It is also preferred that the disc-shaped side caps have at least 1.5 times, more preferably at least 1.4 times, and most preferably at least 1.3 times larger diameter than the diameter of the second central recess of the flywheel body.
  • Table 1 Overview of Young's modulus, yield stress and tensile strength of some materials
  • thermoplastics Due to their structure, thermoplastics are divided into amorphous and semi-crystalline polymers. Plastics with an amorphous structure are usually transparent and tend to be susceptible to stress cracking. Semi-crystalline plastics are opaque and usually tough.
  • the thermoplastic materials are further subdivided due to their temperature resistance: high-temperature plastics are suitable for a continuous service temperature of over 150 ° C, engineering plastics are durable at temperatures between 100 ° C and 150 ° C and have good mechanical properties, standard plastics such as polypropylene or polyethylene can be used permanently at temperatures below 100 ° C. Through a targeted incorporation of fillers, the properties of the plastics can be adapted to the desired field of application, such as e.g.
  • reinforcing fibers such as glass fibers
  • reinforcing fibers such as glass fibers
  • Carbon fibers can be used as an alternative to glass fibers to increase strength.
  • the tensile stress s is the tensile force related to the smallest measured initial cross-section of the specimen at any point in the experiment.
  • the tensile strength O B is the tensile stress at maximum force.
  • the tensile strength O R is the tensile stress at the moment of tearing.
  • the yield stress Os is the tensile stress at which the slope of the force-length change curve becomes zero for the first time.
  • the elongation e is the change in length AL related to the original measuring length L 0 of the specimen at any time during the experiment.
  • the elongation at maximum force is denoted by E B , the elongation at break by E R and the yield strain by Es.
  • E B The elongation at maximum force
  • E R the elongation at break
  • Es the yield strain
  • I area moment of inertia
  • b diameter of the cantilevered plate
  • h width or height of the cantilevered plate.
  • the exemplary illustrated calculated applied compressive forces necessary to move a disc-shaped side cap at the outer edge against a freely rotatable flywheel to fix the freely rotating flywheel in position clearly demonstrate how sensitive the applied compressive force is to the technical proportions of the rotatable game body, such as the diameter, width, fleas and distances, as well as on the material characteristics depends.
  • These example calculations clearly illustrate how the amount of force required to apply a compressive force increases to move a disk-shaped side cap against a freely rotatable swing body when the outer radius of the centered extensions is increased or the outer radius of the disk-shaped side caps is reduced. It is obvious that the amount of the applied compressive force increases with a material having a higher modulus of elasticity used. The amount of the applied compressive force also increases significantly as the distance between the disk-shaped side caps and the flywheel increases, that is, when the deflection is increased.
  • the permissible deflection f can be calculated as a function of the permissible strain e to i of the material used. It is preferable that this allowable deflection f is not exceeded upon compression of the disc-shaped side caps.
  • the permissible strain e to i or stress o ZUi at a single short-term deflection at 23 ° C can be estimated using the following rule: almost the yield strain in semi-crystalline thermoplastics, about 70% of the yield strain in amorphous thermoplastics and about 50% of the elongation at break in glass fiber reinforced Thermoplastics. With frequent short-term operation, it is recommended that approximately 60% of the once-permissible values be assumed. For long-term or continuous loads, there is a risk of stress crack formation in amorphous materials. For amorphous materials it is known that at strains below about 0.5%, the risk of stress cracking is significantly lower. The maximum marginal fiber strain e to i can also be roughly calculated.
  • the maximum deflection preferably a deflection in the region of the distance B 4 or B 5 between the inner surfaces of the disk-shaped side caps and the freely rotatable flywheel, is less than or equal to 1, 3 mm or a maximum of 2 , 7 mm is.
  • the present invention preferably relates to a rotatable game body suitable for a children's game consisting of between two opposite disc-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer shell (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable swing (S) to fix in position, wherein the disc-shaped side
  • the disk-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) are reversibly movable against the freely rotatable flywheel (S) by an exerting pressure force in the range from 5N to 100N, in order to release it rotatable flywheel (S) to fix in position.
  • the distance (B 0 ) of the inner surfaces (11, 12) of the opposite disk-shaped side caps (K1) and (K2) is greater than the width (B 3 ) of the flywheel body (S).
  • the width of the centered ball bearing (L) corresponds to 0.50 times to 0.95 times the width of the flywheel body (S).
  • the disk-shaped side caps (K1) and (K2) both have the same width. It is furthermore preferred that the disc-shaped side caps (K1) and (K2) each have a width in the range of 0.1 times to 0.2 times the width of the flywheel body (S). It is furthermore preferred that the flywheel (S) or the outer jacket (M) of the flywheel (S), as well as the opposite disc-shaped side caps (K1 and K2) have one or more printable outer surface (s). It is further preferred that the first centered extension is adapted to engage the second central recess of the centered ball bearing and the second extension is adapted to engage the second central recess of the centered ball bearing and / or the first centered extension of the first disc shaped side cap intervene.
  • the disk-shaped side caps each have a centered extension on the respective inner side or inner surface.
  • the first disc-shaped side cap has on the inner surface a first centered extension and the opposite second disc-shaped side cap has on the inner surface a second centered extension.
  • the first centered extension is adapted to engage the second central recess of the centered ball bearing and the second extension is adapted to engage the second central recess of the centered ball bearing and / or the first centered extension of the first disc-shaped side cap.
  • the first centered extension of the first disc-shaped side cap can engage positively in the second central recess of the centered ball bearing and the second centered extension of the second disc-shaped side cap can positively into the first centered extension located in the second central recess of the centered ball bearing engage first disc-shaped side cap.
  • the first centered extension of the first disc-shaped side cap has a central recess with a maximum depth B 0 and a certain diameter such that the second centered extension has an outer diameter equal to the diameter of the central recess corresponds to the first centered extension and a maximum length B 0 can positively engage up to the corresponding depth B 0 in the central recess of the first centered extension.
  • the distance B 0 is preferably made of the width B 3 of the flywheel body or of the width B 3 of the outer shell of the flywheel body and the sum of the respective distances B 4 and B 5 between the flywheel body and the corresponding inner surfaces the corresponding disc-shaped side caps together.
  • the centered ball bearing has a width which corresponds to the width of the outer shell of the flywheel body.
  • the first centered extension of the first disc-shaped side cap preferably has a length Bi, which is at least the sum of the distance B 4 of the inner surface of the first disc-shaped side cap to the flywheel body and the width of the flywheel B 3 composed.
  • the length Bi of the first centered extension lies between (B 3 + B 4 ) and B 0 .
  • the width of the centered ball bearing may also be smaller or larger than the width of the outer shell of the flywheel body.
  • the centered ball bearing is centered in the first central recess of the flywheel ring, that is, if the centered ball bearing, for example, has a smaller width than the outer shell of the flywheel body, that the width difference between the outer shell the flywheel ring and the centered ball bearing is preferably the same on both sides.
  • the width difference U that this results from the difference of half the width of the flywheel and half the width of the centered ball bearing.
  • the width of the centered ball bearing B is 6
  • the centered ball bearing has a smaller width B 6 than the width B 3 of the outer shell of the flywheel body and the first centered extension of the first disc-shaped side cap positively engages the second central recess of the centered ball bearing and the second centered extension of the second disc-shaped side cap can engage positively in the located in the second central recess of the centered ball bearing first centered extension of the first disc-shaped side cap, it is preferred in these embodiments that the length Bi of the first centered extension preferably between (B 4 + B 6 + Ui) and B 0 and that the first centered extension can preferably engage at least to a depth Ti in the second central recess of the ball bearing, which corresponds to the width B 6 of the centered ball bearing.
  • the width B 6 of the centered ball bearing can correspond to the distance B 0 of the opposite disc-shaped side caps, so that Bi ⁇ B 6 + B 4 is preferably.
  • the width B 6 of the centered ball bearing may preferably be in the range between the distance B 0 and the width B 3 of the outer shell of the flywheel body.
  • the length Bi of the first centered extension is at least as long as the distance B 4 between the inner surface of the first disc-shaped side cap and the centered ball bearing. In some other embodiments, as described for the first centered extension, the same applies to the second centered extension of the second disc-shaped side cap.
  • the first centered extension of the first disk-shaped side cap preferably has a central recess into which the second centered extension of the second disk-shaped side cap can engage in a form-fitting manner.
  • the central recess of the first centered extension has a depth T 2 , in which the second centered extension can engage at most up to a depth T 2 .
  • the central recess of the first centered extension has a maximum depth T 2 which corresponds to the length Bi of the first centered extension of the first disc-shaped side cap.
  • the first centered extension further has a central recess with a depth T 2 , in which the second centered extension can engage positively.
  • the depth T 2 of the central recess of the first centered extension is preferably equal to the depth T 3 , to which the second centered extension can engage in the central recess of the first centered extension, which is also preferably the width B 3 of the swing body equivalent.
  • the second centered extension has in this preferred exemplary embodiment at least a length B 2 , which corresponds to the width B 3 of the flywheel, so that the second centered extension preferably form fit in the located in the second central recess of the centered ball bearing first centered extension of the first disc-shaped side cap to a depth T 3 , which corresponds to the width B 3 of the flywheel body, can intervene.
  • the flywheel body in this exemplary embodiment also has a distance B 5 to the inner surface of the second disc-shaped side cap.
  • the embodiment described above represents herein only an exemplary embodiment.
  • the central recess of the first centered extension of the first disc-shaped side cap may also have different depths than that of the depth Ti, which corresponds to the width B 3 of the flywheel body.
  • the first centered extension may have a central recess with, for example, a depth T 2 which corresponds to the length Bi corresponds to the first centered extension, have.
  • the length of the second centered extension which can be engaged in the central recess of the first centered extension, is preferably composed of the length B 5 , which corresponds to the distance B 5 of the flywheel to the inner surface of the second disc-shaped side cap and the part of the second centered An extension, which can be framed in a form-fitting manner in the central recess of the first centered extension of the first disc-shaped side cap to a depth T 3 .
  • the depth T 2 of the central recess of the first centered extension of the first disc-shaped side cap may also be deeper than the length T 3 of the portion of the second centered extension positively locking into the central recess of the first centered extension of the first disc-shaped side cap can be enclosed to a depth T 3 .
  • the depth T 2 of the central recess of the first centered extension particularly preferably has at least the length T 3 of the portion of the second centered extension, which can be framed in a form-fitting manner into the central recess of the first centered extension up to a depth T 3 .
  • the width of the centered ball bearing as described above may preferably be equal to, less than or greater than the width of the outer shell of the flywheel body.
  • the first centered extension of the first disk-shaped side cap has a central recess with the depth T 2 , wherein preferably the depth T 2 corresponds at most to the length Bi of the first centered extension.
  • the second centered extension in the length T 3 has an outer diameter which corresponds to the diameter of the central recess of the first centered extension, so that this part of the second centered extension form-fit in the central Recess of the first centered extension can engage.
  • the portion of the second centered extension of length B 7 may in some preferred embodiments have the same outer diameter as the portion of length T 3 , in some further embodiments, the portion of the second centered extension of length B 7 may also have different outer diameters , In these embodiments, it is particularly preferred if the part of the second centered extension of length B 7 bears against the inner surface of the second centered extension.
  • the second centered extension of the second disc-shaped side cap engage positively in the first centered extension of the first disc-shaped side cap located in the second central recess of the centered ball bearing, and preferably not in the second central recess the centered ball bearing positively engages, it is particularly preferred that the outer diameter of the part of the second centered extension of length B 7 is smaller than the diameter of the second central recess of the centered ball bearing.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or engage in the first centered extension of the first disc-shaped side cap, wherein the first centered extension of the first disc-shaped side cap engages positively in the second central recess of the centered ball bearing and the second centered centered
  • the present invention also relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the free rotatable flywheel (S) to fix in its position, wherein the
  • the centered extensions of the two opposite side caps previously described in the exemplary embodiments may also have different outer shapes.
  • the first centered extension of the first disc-shaped side cap or the second centered extension of the second disc-shaped side cap may be cylindrical or have a triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal or polygonal shape, wherein the triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal or polygonal shape preferably has the shape of a regular polygon having 5 to 10 corners, more preferably having 6 to 8 corners.
  • the central recess of the first centered extension of the first disc-shaped side cap preferably have different shapes.
  • the central recess of the first centered extension of the first disc-shaped side cap may be cylindrical or triangular, quadrangular, pentagonal, hexagonal, pentagonal, octagonal or polygonal in shape triangular, quadrangular, pentagonal, hexagonal, heptagonal, octagonal or polygonal shape preferably has the shape of a regular polygon having 5 to 10 corners, more preferably having 6 to 8 corners. It is preferred if the outer shape of the first centered extension of the first disc-shaped side cap corresponds to the shape of the second central recess of the ball bearing.
  • the second central recess of the ball bearing may be cylindrical.
  • the outer shape of the first centered extension of the first disc-shaped side cap is also cylindrical.
  • the exemplary cylindrical first centered extension of the first disc-shaped side cap further preferably has an outer diameter which corresponds to the diameter of the cylindrical second central recess of the centered ball bearing, so that the cylindrical first centered extension are positively locked in the cylindrical second central recess of the centered ball bearing can.
  • the first centered extension for example, a cylindrical central recess with a depth T 2
  • the second centered extension of the second disc-shaped side cap is also cylindrical, so that this form-fitting manner in the central recess of the first centered extension can be bordered to a depth T 3 and which preferably has an outer diameter which corresponds to the diameter of the central recess of the first centered extension.
  • the first centered extension of the first disc-shaped side cap, the second centered extension of the second disc-shaped side cap, as well as the central recess of the first centered extension may have different shapes.
  • the second central recess of the ball bearing for example, be cylindrical
  • the first centered extension of the first disc-shaped side caps may preferably have the shape of a regular hexagon, preferably the outer diameter of the first centered extension, so twice the radius of the on Corners of the regular hexagon circle preferably corresponds to the diameter of the second central recess of the centered ball bearing, so that a positive engagement of the first centered extension of the first disc-shaped side cap in the second central recess of the centered ball bearing is possible.
  • the first centered extension of the first disc-shaped side cap can engage positively in the second central recess of the centered ball bearing and the second centered extension of the second disc-shaped side cap can positively into the second central recess of the centered ball bearing as well as in the second engage the central recess of the centered ball bearing located first centered extension of the first disc-shaped side cap.
  • the inner surfaces of the disc-shaped side caps have a distance B 0 to each other and preferably an outer shell having a width B 3 and a centered ball bearing having a width B 6 .
  • the width B 3 of the outer shell of the flywheel corresponds to the width B 6 of the centered ball bearing, and further preferred that the length Bi of the first centered extension of the first disc-shaped side cap is smaller than the sum of the length of the distance B 4 of the swing body to the inner surface of the first disc-shaped side cap and the width B 3 of the flywheel body and thus preferably Bi ⁇ B 3 + B.
  • the length Bi of the first centered extension of the first disk-shaped side cap is greater than the distance B 4 of the flywheel body to the inner surface of the first disk-shaped side cap and thus preferably Bi> B 4 . Accordingly, it is further preferred that B 4 ⁇ Bi ⁇ B 3 + B 4 . It is further preferred that the first centered extension of the first disk-shaped side cap does not engage in the overall length Bi in the second central recess of the centered ball bearing.
  • the first centered extension preferably further has a central recess with a depth T 2 .
  • the depth T 2 corresponds at most to the length Bi of the first centered extension.
  • the depth T 2 can also be smaller than the length Bi of the first centered extension and the length of the depth T 2 is preferably greater than zero and lies between zero and the length Bi of the first centered extension.
  • the length B 2 of the second side cap is composed of a part which can be framed in a form-fitting manner in the central recess of the first centered extension of the first disc-shaped side cap to a depth T 3 and a part of length B 7 , which can engage positively in the second central recess of the centered ball bearing to a depth T 4 .
  • the length B 7 of the second centered extension of the second disc-shaped side cap is smaller than the sum of the length of the distance B 5 of the flywheel to the inner surface of the second disc-shaped side cap and the width B 3 of the flywheel body and thus preferably B 7 ⁇ B 3 + B 5 .
  • the part with the length B 7 of the first centered extension of the first disc-shaped side cap is greater than the distance B 5 of the flywheel body to the inner surface of the second disc-shaped side cap and thus preferably B 7 > B 5 . Accordingly, it is further preferred that B 5 ⁇ B 7 ⁇ B 3 + B 5 .
  • the second centered extension of the second disk-shaped side cap can positively engage up to a depth T 4 , which corresponds to half the width of the flywheel body, in the second central recess of the centered ball bearing.
  • the first centered extension of the first disc-shaped side cap for example, up to a depth Ti, which is greater than half the width of the flywheel, positively in the second centered recess of the centered ball bearing be edged.
  • the first centered extension of the first disc-shaped side cap engages the second center recess of the centered ball bearing to a depth Ti smaller than half the width of the flywheel, and the second centered extension of the second disk-shaped side cap engages, for example , up to a depth T 4 which is also smaller than the half width of the swing body, into the second central recess of the centered ball bearing.
  • the width B 6 of the centered ball bearing is less than or greater than the width B 3 of the flywheel body or outer shell of the flywheel body. In some preferred Embodiments, the width B 6 of the centered ball bearing is smaller than the width B 3 of the flywheel or the outer shell of the flywheel body.
  • the centered ball bearing has a smaller width B 6 than the width B 3 of the outer shell of the flywheel body and the first centered extension of the first disc-shaped side cap engage positively in the second central recess of the centered ball bearing and the second centered extension of the second disc-shaped side cap can engage positively in the second central recess of the centered ball bearing and in the first centered extension of the first disc-shaped side cap
  • the length Bi of the first centered extension preferably between the distance B 4 + Ui and the sum of B 4 + B 6 + Ui, where Ui is the first width difference of the width of the outer shell of the flywheel and the width of the centered ball bearing
  • the first centered extension is preferably at least to a depth Ti in the second central recess of the ball bearing, which is smaller than the width B 6 of the centered ball bearing, so that in these embodiments is preferably that B 4 + Ui ⁇ Bi ⁇ B 6 + B 4 + Ui and Ti ⁇ B 6 is
  • the length B 7 of the part of the second extension which can engage in a form-fitting manner in the second central recess to a depth T 4 and which is preferably smaller than the width B 6 of the centered ball bearing, preferably between the Distance B 5 + U 2 and the sum of B 5 + B 6 + U 2 is, where U 2 is the second width difference of the width B 3 of the outer shell of the flywheel body and the width B 6 of the centered ball bearing.
  • the width B 6 of the centered ball bearing is greater than the width B 3 of the outer shell of the flywheel body.
  • the centered ball bearings B 6 as having a width greater the width B 3 of the outer sheath of the flywheel body and the first centered projection of the first disc-shaped side cap positively engage the second central recess of the centered ball bearing and the second centered projection of the second disc-shaped side cap can engage positively in the second central recess of the centered ball bearing and in the first centered extension of the first disc-shaped side cap
  • the first centered projection having a depth of Ti, which corresponds at most to the length of Bi and the second centered projection to a depth T 4, which corresponds to the maximum length B 2 in the second central recess of the centered ball bearing can be enclosed in a form-fitting manner.
  • the width B 6 of the centered ball bearing corresponds to the distance B 0 of the opposite disk-shaped side caps.
  • the inner ring of the centered ball bearing has the width B 0 , wherein the outer ring of the centered ball bearing preferably a smaller Has width as B 0 , so that the free rotation of the flywheel body can not be limited or prevented.
  • the part with the length T 3 which can be framed in the central recess of the first centered extension of the first disc-shaped side cap to a depth T 3 , preferably has an outer diameter which corresponds to the diameter of the central recess of the first centered extension , so that this part with the length T 3 of the second centered extension can be positively interlocked in the central recess of the first centered extension.
  • the first centered extension of the first disk-shaped side cap for example, a length Bi, so that it can positively intervene in the second central recess of the centered ball bearing to a depth Ti, which corresponds to half the width of the flywheel body, furthermore, the second centered projection of the second disc-shaped side cap, for example, a portion as described above, with the length B 7 on which up to a depth T 4, which corresponds to half the width of the swing body, form-locking in the second central recess of the centered ball bearing on the opposite side of the flywheel body can be intervened.
  • the first centered extension, as well as the second centered extension both engage to a depth T, which corresponds to half the width of the flywheel each in the second central recess of the centered ball bearing.
  • the first centered extension of the first disc-shaped side cap may have a central recess which has a depth T 2 which corresponds at most to the length Bi of the first centered extension.
  • the second centered extension of the second disc-shaped side cap on a portion of the length T 3 which can be positively engaged in the central recess of the first centered extension, wherein the maximum length T 3 of this part of the second centered extension preferably maximally the depth T 2 corresponds to the central recess of the first centered extension.
  • the length T 3 of this part of the second centered extension can also be smaller than the length of the depth T 2 of the central recess of the first centered extension.
  • the first centered extension of the first disc-shaped side cap may engage the second central recess of the centered ball bearing to a depth Ti less than half the width of the swing body and the second centered extension of the second disk-shaped side cap, for example up to a depth T 4 , which is also smaller than half the width of the flywheel, engage in the second central recess of the centered ball bearing.
  • the centered extensions enclosed in the second central recess of the centered ball bearing have a difference D 3 relative to one another.
  • the first centered extension of the first disc-shaped side cap preferably engages positively to the depth Ti of half the width of the flywheel body in the second central recess of the centered ball bearing and the second centered extension of the second disk-shaped side cap preferably engages positively up to a depth T 4 , which corresponds to half the width of the flywheel body, into the second central recess of the centered ball bearing, as well as into the first centered extension of the first disc-shaped side cap located in the second central recess of the centered ball bearing.
  • the first centered extension of the first disc-shaped side cap, the second centered extension of the second disc-shaped side cover, as well as the central recess of the first centered extension of the first disc-shaped side cover may preferably have different shapes, which as already described above for the centered projections and the central recess of the first centered extension have been described may be.
  • the present invention also relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable momentum To fix the body (S) in its position, wherein
  • the first and / or the second centered extension has a defined length B, which corresponds to half the distance or half the distance of the first and the second disc-shaped side cap to each other.
  • the half distance B for the first centered extension of the first disc-shaped side cap is the length Bi and half the distance B for the second centered extension of the second disk-shaped side cap is the length B 2 .
  • the lengths Bi and B 2 of the centered extensions of the opposite side caps may preferably be of different lengths.
  • the first centered extension of the first disc-shaped side cap at least the length of the distance B 4 of the flywheel body to the inner surface of the first disc-shaped side cap and preferably, the second centered extension of the second disc-shaped side cap at least the length of the distance B 5 of the flywheel body to the inner surface the second disk-shaped side cap, so that preferably B 4 ⁇ Bi and B 5 ⁇ B 2 .
  • the length of Bi of the first centered projection is smaller than the sum of the length of the distance B 4 and the width B 3 of the inertia body, and that the length B 2 of the second centered projection is smaller than the sum of the length of the distance B 5 and the width B 3 of the flywheel body, so that preferably Bi ⁇ B 4 + B 3 and B 2 ⁇ B 5 + B 3 .
  • B 4 ⁇ Bi ⁇ B 4 + B 3 and B 5 ⁇ B 2 ⁇ B 5 + B 3 is particularly preferred.
  • the first centered extension of the first disk-shaped side cap may engage the second central recess of the centered ball bearing to a depth Ti less than half the width of the swing body, and the second centered extension of the second disk-shaped side cap may be, for example to a depth T 4 , which is also smaller than half the width of the flywheel, engage in the second central recess of the centered ball bearing.
  • the first centered extension of the first disc-shaped side cap preferably engages positively to a depth Ti, which corresponds to half the width of the flywheel body in the second central recess of the centered ball bearing and the second centered extension preferably engages in the second central Recess of the centered ball bearing to a depth T 4 , which corresponds to half the width of the flywheel, without the centered extensions interlock.
  • the centered ball bearing has a smaller width B 6 than the width B 3 of the outer shell of the flywheel body and the first centered extension of the first disc-shaped side cap engage positively in the second central recess of the centered ball bearing and the second centered Extension of the second disc-shaped side cap can engage positively in the second central recess of the centered ball bearing, without the centered extensions mesh
  • the length Bi of the first centered extension of at least the sum of the distance B 4 and the width difference Ui and at most the previously said sum and in addition corresponds to the width B 6 of the centered ball bearing and thus preferably applies that B 4 + Ui ⁇ Bi ⁇ B 6 + B 4 + Ui.
  • the length B 2 of the second centered extension corresponds to at least the sum of the distance B 5 and the width difference U 2 and at most the aforementioned sum and additionally the width B 6 of the centered ball bearing, and thus preferably B 5 + U 2 ⁇ B 2 ⁇ B 6 + B 5 + U 2 .
  • the width B 6 of the centered ball bearing is greater than the width B 3 of the outer shell of the flywheel body.
  • the centered ball bearing has a greater width B 6 than the width B 3 of the outer shell of the flywheel body and the first centered extension of the first disc-shaped side cap engage positively in the second central recess of the centered ball bearing and the second centered extension of the second disc-shaped side cap can engage positively in the second central recess of the centered ball bearing, without the centered extensions mesh
  • the length Bi of the first centered extension and the length B 2 of the second centered extension are preferably at least as large as difference of half the distance B 0 between the two opposed disc caps and the half-width of the centered ball bearing, particularly preferred if the centered ball bearings each having the same distance to the two disc-shaped side caps ,
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge llagers and / or to intervene in the first centered extension of the first disk-shaped side cap, wherein the first centered extension of the first disc-shaped side cap engages positively in the second central recess of the centered ball bearing and the second
  • the present invention also relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable momentum To fix the body (S) in its position, wherein
  • the present invention also relates to a rotatable game body suitable for a child's game consisting of a arranged between two opposite disk-shaped side caps freely rotatable flywheel body, the flywheel body having an outer shell with a first central recess and a centered ball bearing with a second central recess and the centered ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface has a first centered extension, the opposing second disc-shaped side cap has an outer surface and on the inner surface has a second centered extension, the first centered Extension is adapted to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centr Engage the ball bearing and / or in the first centered extension of the first disc-shaped side cap, the first centered extension of the first disc-shaped side cap positively engages up to a depth T, which corresponds to half the width of the flywheel body in
  • the first and the second disc-shaped side cap on a defined distance B 4 and B 5 to the flywheel body so that the The flywheel can rotate freely and is not slowed down by the side caps during rotation.
  • the flywheel body to the inner surface of the first disc-shaped side cap on a defined distance B 4 , for example, by the first centered extension has two regions of different diameters in the form of a two-stage extension and the voltage applied to the inner surface portion of the first centered extension,
  • the first stage of the two-stage extension has a diameter which is greater than the diameter of the second central recess of the centered ball bearing and smaller than the diameter of the first central recess of the flywheel and has a width which is at least half the width of the flywheel minus half the width of the centered ball bearing, or more preferably at least B 4 , and the second portion of the first centered extension abutting the first portion of the first centered extension, that is, the second stage of the two-stage extension Atze
  • the swing body to the inner surface of the second disc-shaped side cap at a defined distance B 5 on by, for example, the second centered projection has two areas of different diameter in the form of a two-step extension and the voltage applied to the inner surface portion of the second centered projection
  • the first stage of the two-stage extension has a diameter which is greater than the diameter of the second central recess of the centered ball bearing and smaller than the diameter of the first central recess of the flywheel and has a width which is at least half the width of the flywheel minus half the width of the centered ball bearing and more preferably at least B 5 corresponds and the second region of the second centered extension, which abuts the first region of the second centered extension, so the second stage of the two-stage F ortsatzes, has a diameter corresponding to the diameter of the second central recess of the centered ball bearing.
  • the centered projections each on the inside of one of the disc-shaped side caps preferably in the length of the distance between the inner surface of the disk-shaped side cap and the flywheel (B 4 or B 5 ) has an outer diameter which is greater than the diameter the second central recess of the centered ball bearing and which is smaller than the diameter of the first central recess of the flywheel body.
  • the centered extensions each on the inside of one of the disc-shaped side caps in the length of the distance between the inner surface of the disk-shaped side cap and the flywheel (B 4 or B 5 ) an outer diameter in the range between the diameter of the second central recess of the centered Ball bearing and the diameter of the first central recess of the flywheel.
  • the centered extensions each on the inside of one of the disc-shaped side caps preferably in the length of the distance between the inner surface of the disc-shaped side cap and the Flywheel (B 4 or B 5 ) has an outer diameter which is smaller than the diameter of the first central recess, so that the outer shell of this inner part of the inner surface of the centered extensions during rotation or while this rotates freely, can not be braked by the respective abutting on the inner surface parts, so the two first stages of the two-stage extension.
  • the flywheel body may also comprise a centered ball bearing having a smaller width B 6 than the width B 3 of the outer shell of the flywheel body.
  • the centered projections of the disk-shaped end caps in the length of the distance between the inner surfaces of the discoidal end caps and the flywheel body (B 4 and B 5) and additionally in the length of the distance from the difference in width of the centered ball bearing, and the swing body (Ui or U 2 ) results or from half the width of the flywheel minus half the width of the centered ball bearing results in the sum of an outer diameter, which is preferably greater than the diameter of the second central recess of the centered ball bearing and preferred is smaller than the diameter of the first center recess of the flywheel body, further preferably has an outer diameter in the region between the diameter of the second central recess of the centered ball bearing and the diameter of the first central recess of the flywheel body.
  • the first and second centered extensions are preferably configured to extend from the inner surface of the disc-shaped side caps to the distance between the centered ball bearing and the disc-shaped side caps (B 4 + Ui and B 5 + U 2 ).
  • an outer diameter which is preferably larger than the outer diameter of the second central recess and preferably smaller than the diameter of the first central recess and further preferably in the region between the diameter of the second central recess of the centered ball bearing and the diameter of the first central one Recess of the flywheel body is located.
  • the first and second centered extensions are preferably configured to have an outer diameter, preferably greater than the outer, starting from the inner surface of the disc-shaped side caps to the distance between the centered ball bearing and the disc-shaped side caps Diameter of the second central recess and preferably smaller than the diameter of the first central recess and further preferably in the range between the diameter of the second central recess of the centered ball bearing and the diameter of the first central recess of the flywheel body.
  • the inner ring of the centered ball bearing has a width B 0
  • the outer ring of the centered ball bearing preferably has a smaller width than B 0 , so that the free rotation of the flywheel body can not be hindered or prevented ,
  • the first and second centered extensions can engage the second central recess only half the width of the centered ball bearing because of the greater outer diameter of the centered extensions in the space between the inner surface of the respective disk-shaped side cap and the second Centered ball bearing (B 4 + Ui and B 5 + U 2 ) a positive engagement of the projections in the second central recess within this distance length is not possible because the second central recess has a smaller diameter.
  • the flywheel body in each case to the inner surfaces of the disc-shaped side caps on a distance B 4 and B 5 , which preferably in the range between 0.1 - 3.0 mm, 0.3 mm - 2.0 mm, more preferably 0.5 mm - 1, 5 mm and most preferably 0.8 mm - 1, 2 mm.
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension is adapted to engage the second central recess of the centered ball bearing and the second centered extension is adapted to engage in the second central recess of the centered ball bearing and / or in the first centered extension of the first disc-shaped side cap, the first centered extension having two regions of different diameters and the part of the first centered extension abutting the inner surface Diameter which is smaller than the diameter of the first
  • the present invention also relates to a rotatable game body suitable for a child's game consisting of one between two opposite disk-shaped side caps arranged freely rotatable flywheel body, wherein the flywheel body has an outer shell with a first central recess and a centered ball bearing with a second central recess and the centered ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap an outer surface and on the inner surface has a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension is adapted to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, to engage in the second central recess of the centered ball bearing and / or in the first centered extension of the first disc-shaped side cap, wherein the second centered extension under two areas has a different diameter and the voltage applied to the inner surface portion of the second centered extension has a diameter which is smaller than the flywheel
  • the present invention also relates to a rotatable toy body suitable for a child's play comprising a freely rotatable flywheel body arranged between two opposite disc-shaped side caps, wherein the flywheel body has an outer casing with a first central recess and a centered ball bearing with a second central recess and centered Ball bearing is inserted in the first central recess of the outer shell, the first disc-shaped side cap has an outer surface and on the inner surface a first centered extension, the opposite second disc-shaped side cap has an outer surface and on the inner surface a second centered extension, the first centered extension suitable is to engage in the second central recess of the centered ball bearing and the second centered extension is suitable, in the second central recess of the centered Kuge Bearing and / or engage in the first centered extension of the first disc-shaped side cap, wherein the second centered extension has two regions of different diameters and the voltage applied to the inner surface portion of the second centered extension has a diameter which is smaller than the diameter
  • the present invention also relates to a rotatable game body suitable for a children's game consisting of a between two opposite disk-shaped side caps (K1) and (K2) arranged freely rotatable flywheel body (S), wherein the flywheel body (S) has an outer jacket (M) and a Centered ball bearing (L), the first disc-shaped side cap (K1) has an outer edge (R1), an outer surface (F1) and on the inner surface (11) has a first centered extension (P1), the opposite second disc-shaped side cap (K2) an outer edge (R2), an outer surface (F2) and on the inner surface (I2) has a second centered extension (P2), and the extensions (P1) and (P2) are adapted to engage the flywheel (S), wherein the disc-shaped side caps (K1) and (K2) on the outer edge (R1) and (R2) against the freely rotatable flywheel (S) are movable to the freely rotatable momentum body (S) to fix in position, wherein the first
  • first and / or the second extension also each have an overall length which is shorter than half the distance or half the distance length of the side caps to each other.
  • first and second extensions may have different overall lengths. It is preferred that the part of the first extension of the first side cap, which has an outer diameter which corresponds to the outer diameter of the second central recess of the ball bearing, so that this part of the first extension can be positively locked in the second central recess of the centered ball bearing, together with the part of the second extension of the second side cap which has an outer diameter corresponding to the outer diameter of the second central recess of the ball bearing, so that this Part of the second extension in the second central recess of the centered ball bearing can be positively locked, in the sum maximum of the width of the flywheel or at most the width of the outer shell of the flywheel or maximally correspond to the width of the centered ball bearing.
  • the length of the parts of the first as well as the second extension which have an outer diameter corresponding to the outer diameter of the second central recess of the centered ball bearing and which can be positively locked in the second central recess of the centered ball bearing, a length have, so that the side caps after the positive engagement in the second central recess of the centered ball bearing not without a force z. B. not solve by gravity alone again from the second central recess of the centered ball bearing.
  • the first and second extensions on the inner surfaces of the disc-shaped side caps may preferably also have different shapes.
  • a centered extension on the inner surface of a disc-shaped side cap for example, be cylindrical or in the form of a triangle, quadrangle, pentagon or a regular polygon.
  • the portion of the centered extension on the inner surface of a disc-shaped side cap in the distance of the inner surface of the disc-shaped side cap and the flywheel, so for example, the first stage of a two-stage extension may have a different outer shape, as the part of the extension, which has an outer diameter , which corresponds to the outer diameter of the second central recess of the centered ball bearing, that is, the second stage of a two-stage extension, so that this part of the centered extension can engage positively in the second central recess of the centered ball bearing.
  • the form-engageable part of a centered extension of a disc-shaped side cap is cylindrical, it is preferred that this part has an outer diameter which corresponds to the outer diameter of the second central recess.
  • the second central recess is also cylindrical. If the form-fitting engageable part of a centered extension of a disk-shaped side cap, for example, has the shape of a regular hexagon, it is preferred that twice the distance between a corner of the regular hexagon and the center of the regular hexagon, so twice the radius or the diameter of the corners of the regular hexagon going circle corresponds to the outer diameter of the second central recess of the centered ball bearing, so that the present in the form of a regular hexagon part of the extension of a side cap can be positively locked in the second central recess of the centered ball bearing.
  • the preferred embodiments described above, wherein the centered extensions have two stages as two-stage extensions represent here only one way to realize a defined distance between the flywheel body and the inner surfaces of the side caps.
  • spacers may also be present on the inner surface of the disc-shaped side caps in a defined diameter. These spacers preferably have a length which corresponds to the lengths of the first stages of the two-stage extensions as described above.
  • the first centered extension has spacers on the inner surface that are within a range of the diameter of the disk-shaped side cap that corresponds to the diameter of, for example, the inner ring of the centered ball bearing.
  • the above-described embodiments wherein the two-step centered projections are in the form of two-step extensions or the disk-shaped side caps may have spacers for all the above-described embodiments of the centered extensions such that the first centered extension engages the second central recess of the ball bearing and the second Centered extension engages in the located in the second central recess of the centered ball bearing first extension, as well as that the first centered extension engages the second central recess of the centered ball bearing and the second centered extension in the second central recess of the centered ball bearing as well as in located in the second central recess of the centered ball bearing located first centered extension and as well as that the first and the second centered extension each in the second central recess of the centered Kugella intervene without interlocking.
  • a locking mechanism provided in the form of a plug connection with resistance which requires a certain compressive force to push the second centered extension in the first centered extension and requires a certain tensile force to this connector to solve again.
  • a connector can be easily achieved by a material thickening and appropriate dilution of material.
  • a material thickening or punctiform or circular elevations may be centrally provided on the outer surface of the second centered extension which engage fittingly in a corresponding recess on the inner surface of the first centered extension.
  • a minimum pressure force of 20 N is required to insert the second centered extension firmly seated in the first centered extension.
  • a tensile force of at least 20 N is needed.
  • the connector described above is only one way to realize a locking mechanism.
  • other methods known from the prior art can be used, so that the flywheel body, the first disc-shaped side cap, as well as the second disc-shaped side cap do not fall apart after they have been assembled to the rotatable game body according to the invention.
  • this connection can be realized by a frictional assembly, for example when the central recess of the first centered extension has a thread, in that the second centered extension can be screwed in like a screw.
  • the mated parts of the rotatable toy body can no longer be disengaged, for example, one of the two disk-shaped side caps may be so assembled with the flywheel, for example, glued with a suitable adhesive, that these two parts of the rotatable toy body are no longer to be solved, in particular no longer solve with a tensile force of 20 N.
  • the first centered extension may engage the second central recess of the centered ball bearing, the first centered extension of the first disc-shaped side cap having a central recess into which the second centered extension of the second disc-shaped side cap can engage positively and wherein the first disk-shaped side cap and the centered ball bearings can no longer be separated from each other and wherein the second extension can engage positively in the central recess of the first extension.
  • the composite disk-shaped side caps can be released again from one another and also from the flywheel body under the action of force.
  • flywheel body or one or both of the disk-shaped side caps of the rotatable game body are to be exchanged.
  • various flywheels and various disc-shaped side caps are provided which may be assembled together by a user in any combination.
  • the second centered extension (P2) of the second disc-shaped side cap (K2) engages in the first centered extension (P1) of the first disc-shaped side cap (K1) or the second centered extension (P2) of the second disc-shaped side cap (K2).
  • K2) in engagement with the first centered extension (P1) of the first disc-shaped side cap (K1), such that it requires a compressive force of at least 20 N to make the connection and requires a tensile force of at least 20 N to make that connection to separate again.
  • the side caps can be replaced independently, it is preferred that the first centered extension is adapted to engage in the second central recess of the centered ball bearing and the second centered extension is adapted to engage in the second central recess of the centered ball bearing, wherein the centered extensions do not mesh with each other. It is preferred if the first centered extension engages the second central recess on the first side of the centered ball bearing and the second centered extension engages the second central recess on the second side of the centered ball bearing.
  • the outer shell of the swing body has the shape of a regular hexagon.
  • the six outer fields z. B. printed with different characters or the numbers from 1 to 6.
  • this exemplary embodiment of a rotary game body when printed with the numbers from 1 to 6, can be used like a cube.
  • the flywheel is rotated by a user in rotation and z. B.
  • further components which generate, for example, acoustic and / or visual signals can be integrated into the flywheel body or into the two disk-shaped side caps.
  • Suitable components which are suitable for a visual signal generation are, for example, light-emitting diodes (LEDs) which can be integrated, for example, in one or more recesses of the outer shell of the flywheel body, of the flywheel body or of the disk-shaped side caps.
  • LEDs light-emitting diodes
  • a plurality of LEDs with different luminous colors can be incorporated in the outer shell of the flywheel body.
  • Suitable components suitable for acoustic signal generation may be components which have acoustic signals rather than visually perceptible illumination, or are integrated, for example, such that an airflow flows through the component during rotation, with an audible signal is produced.
  • Such components which generate acoustic or visual signals, more preferably generate them only upon rotation of the flywheel body are known in the art and those of ordinary skill in the art, having the benefit of the present disclosure, are capable of producing acoustic and / or visual Select signals to integrate this in the rotatable game body.
  • Figure 1 Shows a preferred embodiment of the rotatable game body according to the invention.
  • the flywheel body (S) Centered between the two disk-shaped side caps (K1) and (K2), the flywheel body (S) is arranged, which is cylindrical and has a printable surface.
  • the first disk-shaped side cap (K1) can be seen as a round cylindrical disk with the planar printable circular outer surface (F1).
  • the second disc-shaped side cap (K2) is indicated on the left only by its outer edge.
  • the diameter of the first disc-shaped side cap (K1) corresponds to the diameter of the second disc-shaped side cap (K2) and this corresponds to the diameter of the flywheel body (S).
  • the width of the flywheel (S) corresponds to 10 times to 12 times the width of a disc-shaped side cap, wherein the width of the first disc-shaped side cap (K1) corresponds to the width of the second disc-shaped side cap (K2).
  • Figure 2A shows an image of the flywheel body (S) consisting of the outer shell (M) and the centered and positively inserted centered ball bearing (L).
  • the centered ball bearing (L) has the second central recess (A2).
  • Figure 2B shows the centered arrangement of outer jacket (M) and inner centered ball bearing (L).
  • the cylindrical centered ball bearing (L) with the centered second central recess (A2) is concentrically surrounded by the cylindrical outer shell (M). Perpendicular through the center of the flywheel (S) extends the axis of rotation about which the flywheel body (S) is freely rotatable.
  • FIG. 3 Shows the assembled disc-shaped side caps (K1) and
  • the cylinder arranged around the axis of rotation between the disk-shaped side caps (K1) and (K2) is the first centered extension (P1) centered on the inner surface (11) of the first disk-shaped side cap (K1), into which the one not visible in FIG second centered extension (P2) arranged centrally on the inner surface (I2) of the side cap (K2) engages.
  • Figure 4 Shows the game body with flywheel (S) with a cylindrical outer shell (M), cylindrical centered ball bearing (L) and the cylindrical central recess of the centered ball bearing (L).
  • To the right of the flywheel (S) is the cylindrical second disk-shaped side cap (K2) with the outer surface (F2) and the centered cylindrical second centered extension (P2).
  • On the left is the cylindrical first disk-shaped side cap (K1) with the inner surface (11) and centered arranged cylindrical first centered extension (P1) shown.
  • FIG. 5 Shows an exemplary cylindrical second centered extension
  • (P1) in the form of a cylinder or cylinder barrel from above (left) and from the side (right).
  • Figure 8A shows the engagement of the second centered extension (P2) of length B 2 of the second disc-shaped side cap (K2) in the first centered extension (P1) of length Bi of the first disc-shaped side cap (K1) without interposed therebetween Flywheel (S) on.
  • the disk-shaped side caps (K1) and (K2) have a distance B 0 to each other.
  • Fig. 8B shows the engagement of the second centered extension (P2) of the second disc-shaped side cap (K2) with a length B 2 in the first centered extension (P1) of the first disc-shaped side cap (K1) with a length Bi with the flywheel body (S ) on.
  • the first centered extension (P1) of the first disc-shaped side cap (K1) engages positively in the second central recess (A2) of the ball bearing (I) and the second centered extension (P2) of the second disc-shaped side cap (K2) engages positively in the in the second central recess (A2) of the centered ball bearing (L) located first centered extension (P1) of the first disc-shaped side cap (K1).
  • FIG. 9 shows a preferred embodiment of a rotatable game body according to the invention with a flywheel (S) with the outer jacket (M) with a width B 3 , with a centered ball bearing (L) with a width B 6 and the second central recess (A2) centered ball bearing (L).
  • S flywheel
  • M outer jacket
  • L centered ball bearing
  • A2 second central recess
  • Left is the second disc-shaped side cap (K2) with the centered arranged second centered extension (P2) shown with a length B 2 .
  • Figure 10A shows the assembly of the second centered extension
  • the outer shell (M) has a width B 3 and the centered ball bearing (L) has a width B 6 and a second central recess (A2) of the ball bearing (L).
  • the distance between the flywheel body (S) and the first disk-shaped side cap (K1) corresponds to the length B 4 and the distance between the flywheel body (S) and the second disk-shaped side cap (K2) corresponds to the length B 5 .
  • the first centered extension (P1) of the first disc-shaped side cap (K1) engages positively in the second central recess (A2) of the ball bearing (I) to a depth Ti and the second centered extension (P2) of the second disc-shaped Side cap (K2) engages positively in the second central recess (A2) of the centered ball bearing (L) to a depth T 4 , without the centered extensions (P1) and (P2) interlock.
  • FIG. 11 shows a preferred embodiment of a rotatable game body according to the invention with a flywheel (S) with the outer jacket (M) with a width B 3 , with a centered ball bearing (L) with a width B 6 and the second central recess (A2) centered ball bearing (L).
  • S flywheel
  • M outer jacket
  • L centered ball bearing
  • A2 second central recess
  • the first centered extension (P1) has a central recess with a depth T 2 .
  • the second centered extension has a portion of the length B 7 adjacent the inner surface (I2) and having a diameter corresponding to the diameter of the second central recess (A2) of the ball bearing (L) and a portion of the length T 3 to a depth T 3 in the central recess of the first centered extension (P1) of the first disc-shaped side cap (K1) can engage.
  • Figure 12A shows the engagement of the second centered extension
  • the part of the second centered extension (P2) of length T 3 engages in the central recess of the first centered extension (P1) to a depth T 3 .
  • the part of the second centered extension (P2) with the length T 3 in this embodiment corresponds to the depth T 2 of the central recess of the first centered extension.
  • the lengths T 2 and T 3 are the same, so that a complete meshing is possible.
  • the disk-shaped side caps (K1) and (K2) have a distance B 0 to each other.
  • Fig. 12B shows the engagement of the second centered extension (P2) of the second disc-shaped side cap (K2) with a length B 2 in the second central recess (A2) of the centered ball bearing (L) and in the central recess of the first centered extension (P1 ) and the first centered extension (P1) of the first disc-shaped side cap (K1) with a length Bi in the second central recess (A2) of the centered ball bearing (L) with the flywheel body (S) arranged therebetween.
  • the disk-shaped side caps (K1) and (K2) have a distance B 0 to each other.
  • the outer shell (M) has a width B 3 and the centered ball bearing (L) has a width B 6 and a second central recess (A2) of the ball bearing (L).
  • the distance between the flywheel body (S) and the first disk-shaped side cap (K1) corresponds to the length B 4 and the distance between the flywheel body (S) and the second disk-shaped side cap (K2) corresponds to the length B 5 .
  • the first centered extension (P1) of the first disc-shaped side cap (K1) engages positively in the second central recess (A2) of the ball bearing (L) to a depth Ti and the second centered extension (P2) of the second disc-shaped Side cap (K2) engages positively in the second central recess (A2) of the centered ball bearing (L) to a depth T 4 and in the in the second central recess (A2) of the centered ball bearing (L) located first centered extension ( P1) of the first disk-shaped side cap (K1).
  • FIG. 13 shows a preferred embodiment of a rotatable game body according to the invention with a flywheel (S) with the outer jacket (M) with a width B 3 , with a centered ball bearing (L) with a width B 6 and the second central recess (A2) centered ball bearing (L).
  • S flywheel
  • M outer jacket
  • L centered ball bearing
  • A2 second central recess
  • the second centered extension has a portion of the length B 7 resting against the inner surface (12) and the first centered extension comprising a portion of the length B 8 abutting the inner surface (11), the portions having the length B 7 and B 8 forming a length Diameter smaller than the diameter of the first central recess (A1) of the outer shell (M) and is greater than the diameter of the second central recess (A2) of the centered ball bearing (L).
  • the first centered extension (P1) has a part of the length T 5 , which can engage to a depth T 5 in the second central recess (A2) of the centered ball bearing (L) and that of the second centered extension (P2) has a Part of the length T 3 , which can engage to a depth T 3 in the second central recess (A2) of the ball bearing (L), without the centered extensions (P1) and (P2) interlock.
  • FIG. 14B shows the engagement of the second centered extension (P2) of the second disc-shaped side cap (K2) of length B 2 in the second central recess (A2) of the centered ball bearing (L) and the first centered extension (P1) of the first disc-shaped Side cap (K1) with a length Bi in the second central recess (A2) of the centered ball bearing (L) with interposed flywheel (S) on.
  • the disk-shaped side caps (K1) and (K2) have a distance B 0 to each other.
  • the outer shell (M) has a width B 3 and the centered ball bearing (L) has a width B 6 and a second central recess (A2) of the ball bearing (L).
  • the distance between the flywheel body (S) and the first disk-shaped side cap (K1) corresponds to the length B 4 and the distance between the flywheel body (S) and the second disk-shaped side cap (K2) corresponds to the length B 5 .
  • Figure 15A shows the rotatable flywheel body shown in Figure 14B rotated 90 ° with a flywheel body (S) with the outer jacket (M) of width B 3 , with a centered ball bearing (L) and the second central recess (A2) of the centered ball bearing (L).
  • the first disc-shaped side cap (K1) with an exemplary centrally arranged first centered two-step extension (P1).
  • Shown below is the second disk-shaped side cap (K2) with an exemplary centered second-centered two-stage extension (P2) centered.
  • the first disc-shaped side cap has an outer edge (R1) and the second disc-shaped side cap has an outer edge (R2).
  • the disc-shaped side caps (K1) and (K2) are movable against the freely rotatable flywheel (S) at the outer edge (R1) and (R2) in order to fix the freely rotatable flywheel (S) in its position. Shown is the Attack point of the applied compressive force (AF) on the outer edge (R1) and (R2) of the opposite disc-shaped side caps to move the disc-shaped side caps (K1) and (K2) against the flywheel to the freely rotatable flywheel (S) in position to fix. 15B shows the rotatable flywheel body of FIG.
  • disc-shaped side caps (K1, K2) on the outer edge (R1, R2) are moved against the freely rotatable flywheel (S) by the inwardly directed compressive force (AF), FIG. so that the freely rotatable flywheel (S) is fixed in position.
  • the illustrated disc-shaped side caps (K1) and (K2) and the flywheel (S) have a suitable distance, so that the perpendicular to the disc-shaped side caps inwardly directed force (AF) preferably at the outer edge (R1, R2) of the disc-shaped side caps can be exercised, so that a slowing down of the rotation of the flywheel body is effected after the flywheel body was previously set in rotation.
  • FIG. 1 shows an example of a composite rotatable game body according to the invention.
  • This consists of a cylindrical flywheel (S) and cylindrical disc-shaped side caps (K1) with an outer edge (R1) and (K2) with an outer edge (R2).
  • the cylindrical flywheel ring (S) is made of polyoxymethylene (POM).
  • POM polyoxymethylene
  • the flywheel ring (S) or the outer jacket (M) of the flywheel ring (S) has an outer diameter of 3.5 cm and a width of 1, 0 cm.
  • the outer coat (M) is printed in two dimensions with 10 motifs.
  • the cylindrical outer shell (M) of the flywheel body (S) is positively and centered a centered ball bearing (L) is inserted, which is made of polyoxymethylene (POM) and wherein the balls of the ball bearing (L) are made of stainless steel.
  • the first central recess (A1) has a diameter of 1, 6 cm.
  • the cylindrical centered ball bearing (L) has an outer diameter of 1, 6 cm, a width of 0.8 cm and a cylindrical second central recess (A2) with a diameter of 1, 0 cm.
  • the composite rotatable game body has, on the one hand, the disk-shaped side cap (K1) as a round disk with a planar printable circular outer surface (F1) and, on the other hand, the planar printable circular disk-shaped side cap (K2).
  • the second stage of the two-stage extensions (P1) and (P2) has a length of 3.0 mm and a diameter of 1, 0 cm.
  • the first centered extension (P1) thus engages the second central recess (A2) of the centered ball bearing (L) to a depth of 3.0 mm and the second centered extension (P2) engages to a depth of 3.0 mm in the second central recess (A2) of the centered ball bearing, without the centered extensions (P1) and (P2) interlock.
  • an inventive rotatable game body wherein the distance of the flywheel body (S) to the inner surfaces (11) and (I2) of the disc-shaped side caps (K1) and (K2) is 0.1 mm, so that the flywheel body (S ) is freely rotatable between the two disc-shaped side caps (K1) and (K2), so that it can be taken to the left fland and rotated with the right fland of the flywheel (S), which after 10 seconds still free at a speed rotated by 2 revolutions per second.

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  • Toys (AREA)
  • Engineering & Computer Science (AREA)
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PCT/EP2019/058094 2018-03-29 2019-03-29 Spielring Ceased WO2019185921A1 (de)

Priority Applications (5)

Application Number Priority Date Filing Date Title
EP19714205.2A EP3773958B1 (de) 2018-03-29 2019-03-29 Spielring
US17/043,053 US11400385B2 (en) 2018-03-29 2019-03-29 Play ring
CA3095529A CA3095529A1 (en) 2018-03-29 2019-03-29 Play ring
CN201980035752.2A CN112218694B (zh) 2018-03-29 2019-03-29 游戏环
JP2020552411A JP7478665B2 (ja) 2018-03-29 2019-03-29 リング状遊具

Applications Claiming Priority (2)

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EP18165196.9 2018-03-29
EP18165196.9A EP3546041A1 (de) 2018-03-29 2018-03-29 Spielring

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JP (1) JP7478665B2 (https=)
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Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107443956B (zh) * 2017-08-30 2023-05-16 广东智高文化创意股份有限公司 一种转笔
US12201916B2 (en) * 2021-09-07 2025-01-21 Awagama, LLC Finger mounted spinning toy
US20230302377A1 (en) * 2022-03-24 2023-09-28 Nicholas DeStefano Fidget spinner
CN116337029A (zh) * 2023-02-16 2023-06-27 西安冠华电子科技有限公司 一种用于燃气陀螺仪的万向支架
US20250186896A1 (en) * 2023-12-09 2025-06-12 Karen Woojung Han Liao Attachable Handheld Fidget Spinner

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20070205554A1 (en) * 2006-03-06 2007-09-06 Michael Elliott Jousting toy
US20090075553A1 (en) * 2005-11-07 2009-03-19 Van Dan Elzen Hans W Motorized yo-yo
DE202017103662U1 (de) 2017-06-20 2017-09-21 JAST Gifts (Shenzhen) Company Limited Fingerkreisel mit Licht und Ton
CN107320973A (zh) 2017-08-25 2017-11-07 深圳市迈科特塑胶制品有限公司 一种自发电指尖陀螺
CN107395815A (zh) 2017-08-24 2017-11-24 安徽酷米智能科技有限公司 一种指尖陀螺手机
CN107754323A (zh) 2017-12-14 2018-03-06 威海光威复合材料股份有限公司 复合材料指尖陀螺
US9914063B1 (en) 2016-05-11 2018-03-13 Md Intellectual Holdings Llc Toy designed to spin in a user's hand

Family Cites Families (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5738224Y2 (https=) * 1979-11-02 1982-08-23
JPS56166088U (https=) * 1980-05-12 1981-12-09
JPH02243186A (ja) * 1989-03-17 1990-09-27 Keyence Corp 車輪玩具
JP2000093660A (ja) * 1998-07-22 2000-04-04 Hirotada Ikeda ベアリング入りヨ―ヨ―ゴマ並びに回転コマの構造
JP2001232071A (ja) * 2000-02-24 2001-08-28 Oopakku Kk 電動コマ
KR200364076Y1 (ko) 2004-04-16 2004-10-08 허석진 요요 완구
CN204093025U (zh) * 2014-10-09 2015-01-14 武汉漫迪文化科技有限公司 一种具有多种玩法的悠悠球
US20180200638A1 (en) * 2017-01-16 2018-07-19 Nicole Chin Multilayered Fidget Device
CN206881115U (zh) * 2017-04-24 2018-01-16 宁波三泰轴承有限公司 指尖陀螺
US20180345155A1 (en) * 2017-06-01 2018-12-06 Hantover, Inc. Fidget toy
CN206823165U (zh) * 2017-06-06 2018-01-02 白鑫 旋转玩具
CN206823166U (zh) * 2017-06-26 2018-01-02 深圳市迈瑞莱科技有限公司 一种球形指尖陀螺
HK1232387A2 (zh) * 2017-07-14 2018-01-05 大皇蜂工作室有限公司 旋转式玩具
US10537819B2 (en) * 2017-07-28 2020-01-21 Selene S. Waddell Tactile orbiting concentration device

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090075553A1 (en) * 2005-11-07 2009-03-19 Van Dan Elzen Hans W Motorized yo-yo
US20070205554A1 (en) * 2006-03-06 2007-09-06 Michael Elliott Jousting toy
US9914063B1 (en) 2016-05-11 2018-03-13 Md Intellectual Holdings Llc Toy designed to spin in a user's hand
DE202017103662U1 (de) 2017-06-20 2017-09-21 JAST Gifts (Shenzhen) Company Limited Fingerkreisel mit Licht und Ton
CN107395815A (zh) 2017-08-24 2017-11-24 安徽酷米智能科技有限公司 一种指尖陀螺手机
CN107320973A (zh) 2017-08-25 2017-11-07 深圳市迈科特塑胶制品有限公司 一种自发电指尖陀螺
CN107754323A (zh) 2017-12-14 2018-03-06 威海光威复合材料股份有限公司 复合材料指尖陀螺

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Publication number Publication date
JP7478665B2 (ja) 2024-05-07
EP3773958B1 (de) 2025-12-31
CA3095529A1 (en) 2019-10-03
US11400385B2 (en) 2022-08-02
EP3773958C0 (de) 2025-12-31
EP3546041A1 (de) 2019-10-02
US20210016193A1 (en) 2021-01-21
EP3773958A1 (de) 2021-02-17
CN112218694A (zh) 2021-01-12
CN112218694B (zh) 2022-09-27
JP2021519634A (ja) 2021-08-12

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