DE10104521A1 - Toy gyroscope - Google Patents

Abstract

Toy gyroscope with a housing (4), with a game object (11) rotatably mounted in the housing (4) and with an unbalance drive element (8) rotatably mounted in the housing (4), wherein between the unbalance drive -Element (8) and the game object (11) there is a freewheel connection with a rotary drive direction (21).

Description

With conventional toy spinning tops, there is a rotatably mounted play object jekt provided on which a torque must be given from the outside. With classic spinning tops, this can be done with the string of a whip Schehen. In other gyroscopes, a rod with a thread is provided hen whose linear displacement translates into a rotary movement of the gyroscope will. All these spinning tops have in common that they are for toddlers, their motor skills are not yet fully developed, are unsuitable.

The invention has for its object to a toy spinning top create that can be handled as easily as possible.

The object is achieved by the features of claim 1. The core the invention consists in a rotatably mounted Un balancing drive element and a rotatably mounted play object hen. Both are connected by a freewheel connection, so that after movement of the unbalance drive element and its A further movement of the game object takes place.

Further refinements of the invention result from the subclaims chen.

Additional features and details of the invention emerge from the Description of an embodiment with reference to the drawing. Show it  

Fig. 1 is a side view of an inventive toy gyroscope

Fig. 2 shows a cross-section of the toy gyroscope according to Fig. 1,

Fig. 3 is a view of a jack and

Fig. 4 is a view of an unbalance drive element.

A toy spinning top 1 has a housing 4 consisting of a housing base 2 and a transparent housing cover 3 . The hous se bottom 2 is curved outward, that is, convex. In the Ge housing 4 is centrally and vertically extending a symmetrically arranged with respect to an axis of rotation 5 shaft 6 is provided, which is fixed and fixed relative to the hous se-floor 2 in a one-piece with this, centrally arranged th base 7 . The shaft 6 extends from the housing base 2 approximately over half the height of the housing 4 . An unbalance drive element 8 is rotatably mounted on the shaft 6 . Above this, a counter-drive element 9 is rotatably mounted on the shaft 6 and is connected to the unbalance drive element 8 via a planet gear connection 10 . Above the counter-drive element 9 , a play object 11 is rotatably mounted on the shaft 6 , which has a carrier plate 12 and a figure carrier 13 arranged centrally thereon and fastened with it. On the figure carrier 13 several, in the lying case four, game figures 14 are attached. Between the support plate 12 and the unbalance drive element 8 there is a first free-wheeling connection 15 consisting of a toothed ring 16 formed in one piece with the support plate 12 and a pawl 17 pivotably connected to the unbalance drive element 8 , which is connected to the toothed ring 16 can be brought into engagement. Between the support plate 12 and the counter-drive element 9 there is a second free-wheel connection 18 , which is formed by a ring gear 19 formed in one piece with the support plate 12 and a pawl 20 pivotally connected to the counter-drive element 9 , the Pawl 20 can be brought into engagement with the ring gear 19 . The freewheel connections 15 and 18 have a common rotary drive direction 21 , ie the game object 11 is always driven in the direction 21 .

The unbalance drive element 8 has a radially extending arm 22 , at one end of which a bore 23 is provided, in which the shaft 6 is received. At the outer end of the arm 20 an upwardly open pocket 24 is provided in which an unbalance weight 25 , in particular made of a heavier metal, such as. B. lead, is attached by a provided at the upper edge of the pocket 24 latch 26 . On the wall 27 of the pocket 24 facing the shaft 6 , a radially inwardly projecting pin 28 is provided, which has a longitudinal slot 29 in the center as well as a projecting latching edge 30 at its free end. On the pin 28, the pawl is snapped 17 so that they can be pivoted about the pin 28th The pawl 17 has a bore 31 for this purpose, which receives the pin 28 . At one end of the pawl 17 , an upwardly projecting web 32 is provided, which is delimited by a steeply descending flank 33 and a flatly descending flank 34 . On the other side of the bore 23 , two of the flat ke ke 17 up and down projecting stop elements 35 are provided. In the lower region of the wall 27 , a recess 36 is provided, in which the stop element 35 can be pivoted. The recess 36 limits the pivotability of the pawl 17 between a vertical position of the flank 33 on the one hand and an approximately 45 ° to this pivoted second position on the other hand.

Between the bore 23 and the pocket 24 , a wide re, parallel to the bore 23 extending bore 37 larger diam sers is provided in the arm 22 . In the bore 37 , a vertically extending planet wheel shaft 38 is mounted, at the upper end of a first planet gear 39 and at the lower end of a second planet gear 40 is attached. The shaft 38 is rotatably supported in the bore 37 . On the outer side of the base 7 is a one-piece with this formed ring gear 41 is provided, which is in engagement with the gear 40 . The moment of inertia of the unbalance drive element 8 is, in a particularly preferred embodiment, greater than the moment of inertia of the game object 11 .

The counter-drive element 9 has an arm 42 , at one end of which a bearing sleeve 43 is provided with a central bore 44 in which shaft 6 is mounted. At the opposite end of the arm 42 there is provided a support 45 which extends perpendicularly to the arm 42 and projects downwards, at the outer end of which a pin 46 is provided which extends radially outwards. The structure of the pin 46 corresponds to the structure of the pin 28 . The pawl 20 , which is plugged onto the pin 46 , corresponds in terms of the construction of the pawl 17th In the carrier 45 egg ne corresponding recess 36 is provided. The flanks 33 of the pawls 17 and 20 point in the same direction. The lower region of the bearing sleeve 43 is surrounded by a ring gear 47 which is in engagement with the gear 39 . The pitch circle diameter of the ring gear 41 is 24 mm in one example. The pitch circle diameter of the gear 40 is 12 mm in one example. The ratio of the pitch circle diameter of the ring gear 41 to the gear 40 is 2: 1. The pitch circle diameter of the ring gear 47 and the pitch circle diameter of the gear 39 are 18 mm in one example. The ratio of the pitch circle diameters of ring gear 47 to gear 39 is 1: 1.

The toothed rings 16 and 19 of the carrier plate 12 have teeth 48 which are each defined by a steeply falling flank 49 and a flatly falling flank 50 . The flank 49 can be brought into engagement with the flank 33 of the pawls 17 or 20 . The carrier plate 12 has in the middle an upwardly projecting, closed bearing bush 51 , in which the shaft 6 is rotatably mounted. Between the inner upper end 52 of the bearing bush 51 and the upper end 53 of the shaft 6 , a ball 54 is angeord net, which forms a ball bearing and thus reduces the friction between the carrier plate 12 and the shaft 6 . The figure carrier 13 , which tapers conically towards the top, is fastened via latch arms 55 provided at its lower end, which engage plate 12 in corresponding latch recesses 56 in the carrier. At the upper end of the Figu rträger 13 has a central recess 57 in which engages from the inside of the cover 3 down pin 58 and thus forms a white teres bearing to stabilize the object 11 . The figure carrier 13 has four radially outwardly projecting support arms 59 , each of which carries at their free ends approximately two circumferentially pointing projections 60 . The game figures 14 have 61 openings at the end of the figure arms, which can be locked with the projections 60 . Accordingly, 14 projections 63 are provided in the support plate 12 under the feet 62 of the game characters, which can be locked with corresponding recesses in the feet 62 . In this way, four game figures 14 looking in different directions can be connected on the carrier plate 12 with the Fi gurträger 13 .

In the edge region of the housing base 2 , an annular space 66 is provided which is delimited by an inner wall 64 and an outer wall 65 and which is delimited at the top by a corresponding projection 67 in the cover 3 . An annular intermediate web 68 is provided in the annular space 66 between the inner wall 64 and the outer wall 65 . Balls 69 are freely rotatable and displaceable in the annular space 66 .

The function of the toy top 1 is explained below. If a player hits the gyroscope 1 and tilts the gyroscope 1 to the left in FIG. 2, the unbalance drive element 8 will pivot either in the direction of rotation 21 or counter to the direction of rotation 21 in FIG. 2 to the left and possibly even exceed the low point of the movement on the left. If the unbalance drive element 8 swivels in the direction 21 , the flank 33 of the pawl 17 comes into engagement with the flank 49 of a tooth 50 of the ring gear 16 , so that the carrier plate 12 is accelerated in the direction 21 . By pivoting the unbalance drive element 8 , the gear 40 is rolled on the ring gear 41 , whereby the gear 39 is set in rotation and in turn sets the ring gear 47 with the counter-drive element 9 in a counter-rotating movement. The translation ratios of the planetary gear connection are selected so that with a 360 ° rotation of the unbalance drive element 8, the counter-drive element 9 is pivoted through 360 ° in the opposite direction. There is thus a pivoting of the counter-drive element 9 against the direction 21 , so that the freewheel connection 18 switches to freewheel. As soon as the unbalance drive element 8 comes to rest and the game object 11 wants to continue rotating due to the conservation of angular momentum, the freewheel connection 15 is switched to freewheel.

Should the unbalance drive element 8 move in the opposite direction 21 from the right half shown in FIG. 2 to the left half, the freewheel connection 15 is released so that there is no drive connection between the pawl 17 and the ring gear 16 , As explained above, the movement of the unbalance drive element 8 in the opposite direction 21 leads to an opposite movement of the counter-drive element 9 in the direction 21 . During this movement, the pawl 20 comes into engagement with the ring gear 19 , so that the game object 11 is also driven in the direction 21 in this case. As soon as the unbalance drive element 8 has reached its rest position, the game object 11 also rotates in this case as a result of the conservation of angular momentum and the low-friction mounting, since both free-wheeling connections 15 and 18 are switched to free-wheeling. A simple, uncoordinated pushing of the top 1 always leads to the game object 11 rotating in the direction 21 . Each tilting movement of the housing 4 leads, regardless of the direction of the tilting movement, to an acceleration of the rotation of the game object 11 , so that the spinning top 1 is also suitable for small children for whom the operation of a conventional spinning top would be too complicated. The balls 69 arranged in the annular space 66 , which can be designed in multiple colors, increase the play value, since they move even with small shocks and can thus arouse the interest of the play child. Another advantage of the gyroscope 1 is that the access required from the outside for the application of the rotary movement is missing in the case of gyroscopic gyros. In this way, the housing 4 can be closed watertight, so that the top 1 can also be used in the bathtub.

Claims (10)

1. Toy spinning top

• a) with a housing ( 4 ),
• b) with a game object ( 11 ) rotatably mounted in the housing ( 4 ) and
• c) with an unbalance drive element ( 8 ) rotatably mounted in the housing ( 4 ),
• d) a first free-wheeling connection ( 15 ) with a rotary drive direction ( 21 ) exists between the unbalance drive element ( 8 ) and the game object ( 11 ).

2. Toy gyroscope according to claim 1, characterized in that a rotatably mounted counter-drive element ( 9 ) is provided which is connected to the unbalance drive element ( 8 ) in such a way that it rotates in the opposite direction to this. 3. Toy gyroscope according to claim 2, characterized in that between the counter-drive element ( 9 ) and the game object ( 11 ) a second free-wheel connection ( 18 ) with the same rotary drive direction ( 21 ) is provided. 4. Toy gyroscope according to one of the preceding claims, characterized in that the moment of inertia of the unbalance drive element ( 8 ) is greater than the moment of inertia of the game object ( 11 ). 5. Toy gyroscope according to claim 2 or 3, characterized in that the unbalance drive element ( 8 ) and the counter-drive element ( 9 ) via a planet gear connection ( 10 ) are connected to each other. 6. Toy gyroscope according to claim 2 or 3, characterized in that the unbalance drive element ( 8 ) and the counter-drive element ( 9 ) are interconnected such that the counter-drive element ( 9 ) with a full revolution of the unbalance drive element ( 8 ) performs an opposite full revolution. 7. Toy gyroscope according to claim 2 or 3, characterized in that the game object ( 11 ) and the unbalance drive element ( 8 ) are rotatably mounted about a common axis of rotation ( 5 ). 8. Toy gyroscope according to claim 7, characterized in that the counter-drive element ( 9 ) about the same axis of rotation ( 5 ) is rotatably mounted. 9. Toy spinning top according to one of the preceding claims, characterized in that the housing ( 4 ) has a housing base ( 2 ) which is substantially convexly curved. 10. Toy gyroscope according to one of the preceding claims, characterized in that the first freewheel connection ( 15 ) has a toothed ring ( 16 ) connected to the game object ( 11 ), which with a with the unbalance drive element ( 8 ) connected pawl ( 17 ) interacts.