WO2004056439A1 - Floating toy - Google Patents

Abstract

A floating toy is provided with a plurality of control coils, and a control device controls the passage of electricity through the plurality of control coils, thereby actuating a floating body equipped with a magnet.

Description

 Memorable book floating toys

Technical field

 The present invention relates to a floating toy, and more particularly, to a floating toy operated by magnetic force. Background art

 Conventionally, as a floating toy using magnetic force, a magnet was attached to the tip of each of two operation plates extending to the lower side of the field plate, while a doll (a floating body) with a magnet attached on the field plate ) Is put on and the operation board is operated, so that the dolls perform sumo wrestling with each other on the field board (for example, Japanese Utility Model No. 52-1486086) Gazette). However, it is troublesome to operate the doll on the field board by operating the magnet below the field board, and also to operate the magnet below the field board by yourself, There was a problem in that the doll was only operated by following it, which was not very interesting. The present invention has been made in view of such a problem, and has as its main object to provide an entertaining toy that is rich in interest. Disclosure of the invention

 According to the first aspect of the present invention, a floating toy is provided with a plurality of control coils, and controls the energization of the plurality of control coils by a control device to operate a floating body provided with a magnet. Let it.

According to this floating toy, the control device controls energization of a plurality of control coils, and the floating body provided with the magnet operates. Therefore, in order to operate the floating body, There is no need to operate a magnet or the like. According to the second aspect of the present invention, in the floating toy, a plurality of control coils are provided below the field plate, and a control device controls the energization of the plurality of control coils, so that the floating toy is provided with a magnet. Move the body.

 According to this floating toy, the control device controls the energization of the plurality of control coils, and the floating body provided with the magnet operates on the field plate, so that the floating plate is moved to operate the floating body. There is no need to artificially operate a magnet or the like below. Preferably, the moving object is a creature, a vehicle, a work, or a scene. Here, creatures, vehicles, structures, and scenes include not only real things but also virtual things. According to this floating toy, the object can be operated by controlling the energization of the plurality of control coils by the control device. Preferably, a coil and a light emitting diode are attached to the floating body, and an induced electromotive force is generated in the coil by energization control of the control coil by the control device to light the light emitting diode.

 According to this floating toy, the light emitting diode incorporated in the floating body can be turned on by controlling the energization of the plurality of control coils by the control device. Preferably, a coil is attached to the floating body, and an induced electromotive force is generated in the coil by energization control of the control coil by the control device, and a new magnetic flux is generated in the coil. Exercise part of the body.

According to this floating toy, a part of the floating body can be operated by controlling the energization of the plurality of control coils by the control device. Preferably, a coil and a light emitting diode are attached to the floating body, and an induced electromotive force is generated in the coil by energization control of the control coil by the control device, so that the light emitting diode is turned on. The coil by electromotive force A new magnetic flux is generated, and a part of the floating body is operated by the magnetic flux. According to this floating toy, by controlling the energization of the plurality of control coils by the control device, the light emitting diode incorporated in the floating body can be turned on, and a part of the floating body can be operated.

Preferably, a plurality of the floating bodies are provided.

 According to this floating toy, several floating toys can be operated by controlling the energization of the plurality of control coils by the control device. Preferably, at least one of the moving bodies is provided with a coil and a light emitting diode, and the control device controls the energization of the control coil to generate an induced electromotive force in the coil to turn on the light emitting diode. Let it.

 According to this floating toy, the light emitting diode incorporated in the floating body can be turned on by controlling the energization of the plurality of control coils by the control device. Preferably, a coil is attached to at least one of the floating bodies, and an induced electromotive force is generated in the coil by the control of energization of the control coil by the control device, and a new magnetic flux is generated in the coil. Then, a part of the floating body is operated by the magnetic flux.

 According to this floating toy, a part of the floating body can be operated by controlling the energization of the plurality of control coils by the control device.

Preferably, at least one of the moving bodies is provided with a coil and a light emitting diode, and the control device controls the coil to generate an induced electromotive force by controlling the energization of the control coil. And a new magnetic flux is generated in the coil by the induced electromotive force, and a part of the floating body is operated by the magnetic flux.

According to this floating toy, the light emitting diode incorporated in the floating body can be turned on by controlling the energization of the plurality of control coils by the control device. Part of the body can work. BRIEF DESCRIPTION OF THE FIGURES

 1A, 1B, and 1C are perspective views of a floating toy according to an embodiment of the present invention.

 FIG. 2 is a plan view showing the arrangement of the control coils of the floating toy according to the embodiment of the present invention.

 FIG. 3 is a block diagram showing a circuit of the floating toy according to the embodiment of the present invention. FIG. 4 is a diagram showing a state in which a magnet and a light emitting diode are attached to a play body of the play toy according to the embodiment of the present invention.

 FIG. 5 is a diagram showing another example of the floating toy according to the embodiment of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION

 I. First Embodiment

1. Overall configuration and operation

 This floating toy 1 includes a base 2 and a floating body 3 as shown in FIGS. 1A, 1B and 1C. The base body 2 is provided with a field plate 4 forming a play space. The floating body 3 is placed on the field plate 4. Further, the base body 2 is provided with a power switch 5 and a mode switching switch 6.

 In the floating toy 1, when the power switch 5 is turned ON and a mode is selected by the mode switching switch 6, the floating body 3 operates in a pattern corresponding to the selected mode. For example, the floating body 3 moves around on the field plate 4 in a predetermined pattern.

 The details are described below.

2. Details

 (1) Base body 2

Below the field plate 4 of the base body 2, a plurality of control coils 7 are provided as shown in FIG. The control coil 7 is installed in such a manner that the magnetic flux reaches the field plate 4. FIG. 3 shows a driving circuit for driving the control coil 7. A block diagram of the road is shown. A control device 21 is incorporated in the drive circuit 20. The control device 21 controls the control coil 7 according to a control program stored in the storage device 22. The energization control includes, but is not limited to, energization / non-energization control, energization order control, direction control of the current flowing through the control coil 7, and control of the magnitude of the current.

 (2) Idling body 3

 A ring-shaped magnet 10 is provided inside the floating body 3 as shown in FIG. Further, inside the floating body 3, a coil 11 arranged at the center of the ring-shaped magnet 10 and a light emitting diode 12 connected in series to the coil 11 are provided. The light emitting diode 12 is incorporated in, for example, the eye of the floating body 3.

 3. Action and operation.

 When the power switch 5 is turned on and the mode is selected by the mode switching switch 6, the control program corresponding to the selected mode is read out from the storage device 22 by the control device 21 and is read by the control program. The control coil 7 is energized in the following order. That is, energization control of the control coil 7 is performed so that the movable body 3 receives the attraction force by the control coil 7 ahead of the movable body 3 in the traveling direction, and on the other hand, the control coil 7 immediately below the movable body 3 receives the repulsive force. I do. Thereby, the floating body 3 moves in a direction to receive the suction force. At that time, an induced electromotive force is generated in the coil 11, so that the light emitting diode 12 is turned on.

 It is needless to say that the power supply to the control coil 7 can be stopped and the floating body 3 can be stopped.However, after the floating body 3 is stopped, the magnitude and direction of the current flowing through the control coil 7 are changed, and The light emitting diode 12 can be turned on while the body 3 is stopped.

 4. Effect

 Since the floating body 3 is caused to move by controlling the energization of the control coil 7, the moving body 3 can be operated in a complicated and unexpected manner.

II. Variations of the present invention

Although the embodiment of the present invention has been described above, the present invention is not limited to the embodiment, and various modifications can be made without departing from the gist of the present invention. Needless to say.

 For example, the moving body 3 may be a car or a train. In this case, for example, a magnet may be provided on the vehicle body, and the wheels may roll by applying an attractive force or a repulsive force to the vehicle body by controlling the energization of the control coil 7. In this case, it is preferable to provide a road, a work related to an automobile (for example, a garage), a gas stand, or the like on the field plate 2. Further, a light emitting diode may be incorporated in a headlight portion of a car toy.

 Also, a seesaw (workpiece) may be used as the floating body 3. In this case, a magnet is incorporated under at least one of the seats, and the magnet is actuated by attraction or repulsion to operate the seesaw.

 Further, as shown in FIG. 5, a coil 11 is attached to the floating body 3, and an induced electromotive force is generated in the coil 11 by controlling the energization of the control coil 7 by the control device 21. A magnetic flux may be generated, and the magnetic flux may be used to move a part of the floating body 3, for example, the ear 30 around the axis 31 via the magnet 32. Industrial applicability

 To explain the effect of a typical example of the present invention, a plurality of control coils are provided, and by controlling the energization of the plurality of control coils by a control device, a floating body provided with a magnet is operated. As a result, complicated and surprising movements can be performed, and an interesting toy can be realized.

Claims

The scope of the claims 1. A floating toy in which a plurality of control coils are provided, and a control device controls the conduction of the plurality of control coils to operate a floating body provided with a magnet. 2. A floating toy in which a plurality of control coils are provided below the field plate, and a control device controls energization of the plurality of control coils to operate a floating body provided with a magnet. 3. The floating toy according to claim 1, wherein the floating body is a creature, a vehicle, a work, or a figure of a scene. 4. A coil and a light emitting diode are attached to the floating body, and an induced electromotive force is generated in the coil by energization control of the control coil by the control device to turn on the light emitting diode. Item 4. The floating toy according to any one of Items 3 to 3. 5. A coil is attached to the floating body, an induced electromotive force is generated in the coil by the control of the control coil by the control device, and a new magnetic flux is generated in the coil. The floating toy according to any one of claims 1 to 3, which operates a part of the toy. 6. A coil and a light emitting diode are attached to the floating body, and an induced electromotive force is generated in the coil by controlling the energization of the control coil by the control device to light the light emitting diode, and the induced electromotive force is also applied. The floating toy according to any one of claims 1 to 3, wherein a new magnetic flux is generated in the coil by the coil, and a part of the floating body is operated by the magnetic flux. 7. The play toy according to any one of claims 1 to 3, comprising a plurality of the play bodies. 8. At least one of the floating bodies is provided with a coil and a light emitting diode, and the control unit controls the control coil to generate an induced electromotive force in the coil so that the light emitting diode emits an induced electromotive force. The floating toy according to claim 7, wherein the light is turned on. 9. At least one of the floating bodies is provided with a coil, and the control device controls the energization of the control coil to generate an induced electromotive force in the coil and generate a new magnetic flux in the coil. 8. The floating toy according to claim 7, wherein a part of said floating body is operated by said magnetic flux. 10. A coil and a light emitting diode are attached to at least one of the moving bodies, and an induced electromotive force is generated in the coil by energization control of the control coil by the control device to generate the light emitting diode. 8. The floating toy according to claim 7, wherein the toy is turned on, a new magnetic flux is generated in the coil by the induced electromotive force, and a part of the floating body is operated by the magnetic flux.