JP3169682U - Working toy - Google Patents

Abstract

An operating toy that can easily apply a rotational force to a flywheel is provided. A flywheel 12 is disposed inside a toy body 11 and a tip 15 of a rotating shaft 13 of the flywheel 12 protrudes downward from a lower end of the toy body 11 and the toy body 11 includes the flywheel 12. A rotational force applying mechanism for applying a rotational force to the flywheel 12 is provided. The rotational force applying mechanism includes a motor 21 connected to the rotary shaft 13 of the flywheel 12, a motor holder 22 for fixing the motor 21 to the toy body 11, and a capacitor 23 for supplying electric power to the motor 21. And a terminal 24 for charging the capacitor 23. As a result, when electric power is supplied from the outside through the terminal 24, the capacitor 23 connected to the terminal 24 is charged, and the motor 21 is rotated using the charged electric power as a drive source. Rotate. [Selection] Figure 2

Description

  The present invention relates to an operating toy in which a flywheel is disposed inside a toy body.

  Conventionally, many top toys have been proposed as toys that use a flywheel as a driving force, and are actually used for play.

  As a technology related to this, for example, Patent Document 1 discloses an operating toy in which a flywheel is arranged inside a toy body, and the tip of the rotation shaft of the flywheel protrudes downward from the lower end of the toy body. Has been.

Registered Utility Model No. 3042826

  However, the above-described working toy described in Patent Document 1 has a disadvantage that it is troublesome to handle because the rotating toy is applied to the flywheel by a separate mounting table.

  Then, this invention makes it a subject to provide the action | operation toy which can provide rotational force to a flywheel easily.

  The present invention has been made to solve the above-described problems, and is characterized by the following.

(Claim 1)
The device described in claim 1 is characterized by the following points.

  In other words, the actuating toy according to claim 1 has a flywheel disposed inside the toy body, the tip of the rotary shaft of the flywheel projects downward from the lower end of the toy body, and the inside of the toy body. A rotation force applying mechanism for applying a rotation force to the flywheel is provided.

(Claim 2)
The device described in claim 2 is characterized by the following points in addition to the features of the device described in claim 1 described above.

  That is, the rotational force applying mechanism includes a motor connected to the rotation shaft of the flywheel.

(Claim 3)
The device described in claim 3 is characterized by the following points in addition to the features of the device described in claim 2 described above.

  That is, the rotational force applying mechanism includes a capacitor for supplying electric power to the motor and a terminal for charging the capacitor.

(Claim 4)
The invention described in claim 4 is characterized by the following points in addition to the characteristics of the invention described in claim 2 described above.

  That is, the rotational force applying mechanism includes a battery for supplying electric power to the motor.

(Claim 5)
The device described in claim 5 has the following features in addition to the features of the device described in claim 1 described above.

  That is, the rotational force applying mechanism includes a gear capable of applying a rotational force by pulling out a rack belt inserted from the outside.

(Claim 6)
The device described in claim 6 is characterized by the following points in addition to the features of the device described in any of claims 1 to 5 described above.

  That is, a part of the rotating shaft of the flywheel is formed of a worm gear, and the worm gear is exposed to the outside so that power can be transmitted to other toys.

(Claim 7)
The device described in claim 7 has the following features in addition to the features of the device described in any one of claims 1 to 6.

  That is, an arm member swingable in the opening direction is provided on the peripheral side surface of the toy body.

(Claim 8)
The device described in claim 8 is characterized by the following points in addition to the features of the device described in claim 7.

  In other words, a magnet is provided near the tip of the arm member so that it can be connected to another working toy.

(Claim 9)
The device described in claim 9 is characterized by the following points in addition to the features of the device described in any one of claims 1-8.

  In other words, the lower end of the toy body is provided with a protrusion that can come into contact with the grounding surface, and the protrusion can be moved to a retracted position away from the grounding surface.

  The invention according to claim 1 is as described above, and includes a rotational force imparting mechanism for imparting rotational force to the flywheel inside the toy body, so that rotational force can be easily imparted to the flywheel. It is possible to provide an operational toy that is easy to handle.

  Further, the invention according to claim 2 is as described above, and the rotational force applying mechanism includes a motor connected to a rotation shaft of the flywheel. For this reason, since the flywheel can be rotated by the motor, the rotational force is maintained, and the playing time can be lengthened.

  The invention according to claim 3 is as described above, and the rotational force applying mechanism includes a capacitor for supplying electric power to the motor and a terminal for charging the capacitor. . For this reason, it can charge easily only by connecting with a charger etc., and the preparation for playing can be completed.

  The invention described in claim 4 is as described above, and the rotational force applying mechanism includes a battery for supplying electric power to the motor. For this reason, you can play until the battery runs out.

  The invention according to claim 5 is as described above, and the rotational force applying mechanism includes a gear capable of applying a rotational force by pulling out a rack belt inserted from the outside. For this reason, even when the motor is not provided, the rotational force can be directly applied by the rack belt.

  The invention according to claim 6 is as described above, and a part of the rotary shaft of the flywheel is formed of a worm gear, and the worm gear is exposed to the outside so as to be able to transmit power to other toys. . For this reason, by preparing another toy having a gear meshing with the worm gear, the rotational force of the flywheel can be transmitted to the other toy and the other toy can be operated.

  The invention described in claim 7 is as described above, and an arm member that can swing in the opening direction is provided on the peripheral side surface of the toy body. For this reason, an arm member can be rock | fluctuated with the centrifugal force when an action | operation toy operates, and an operation | movement toy with interestingness can be provided.

  The invention described in claim 8 is as described above, and a magnet is provided in the vicinity of the tip of the arm member so that it can be connected to another working toy. For this reason, it is possible to play by connecting a plurality of operating toys. In addition, since the connection is made by a magnet, the operation toy can be connected to each other and the connection can be released during the operation of the operation toy, and an operation toy that performs a characteristic movement can be provided.

  Further, the invention according to claim 9 is as described above, and a protrusion capable of contacting the grounding surface is provided at a lower end of the toy body, and the protrusion is movable to a retracted position away from the grounding surface. . For this reason, the projection can be moved irregularly by contacting the grounding surface during operation of the working toy, and when the irregular movement is not desired, the projection is moved to the retracted position so as to be on the grounding surface. It is also possible to prevent contact. For example, if the movement is irregular when connecting a plurality of actuated toys, the connection will be immediately released, so in such a case, it is possible to play such as moving the protrusion to the retracted position. it can.

It is an external view of an action | operation toy. It is an exploded view of an action | operation toy. It is the external view which looked at the action toy from the bottom face side. It is a figure which shows a mode that an action toy is set to a charger, Comprising: (a) The figure before a setting, (b) The figure after a setting. It is explanatory drawing which shows a mode that a working toy rotates. It is explanatory drawing which shows a mode that several operation toys connect and rotate. It is the external view which looked at the action toy from the back side. It is explanatory drawing which shows a mode that an action toy is attached to a car toy. It is an exploded view of the action toy concerning the 1st modification. It is an external view of the action | operation toy which concerns on a 1st modification. It is an exploded view of the action toy concerning a 2nd modification.

  Embodiments of the present invention will be described with reference to the drawings.

  As shown in FIG. 1, the working toy 10 according to the present embodiment is a toy shaped like a doll, and is in an upright posture due to a gyro effect when the flywheel 12 disposed inside the toy body 11 rotates. It can be operated.

  This working toy 10 includes the above-described toy body 11, flywheel 12, rotational force applying mechanism 20 that is disposed inside the toy body 11 and applies a rotational force to the flywheel 12, and left and right arms of the toy body 11. And an arm member 30 attached so as to be swingable via a pin 31.

  As shown in FIG. 2, the flywheel 12 is stored around the waist position of the toy body 11, and is externally stored at a position constituting the skirt portion 11a. The rotating shaft 13 of the flywheel 12 protrudes downward from the lower end of the toy body 11, and the tip 15 of the protruding rotating shaft 13 is grounded to rotate.

  As shown in FIG. 2, the rotational force imparting mechanism 20 that imparts rotational force to the flywheel 12 is configured to fix a motor 21 connected to the rotary shaft 13 of the flywheel 12 and the motor 21 to the toy body 11. Motor holder 22, a capacitor 23 for supplying electric power to the motor 21, and a terminal 24 for charging the capacitor 23.

  Thereby, when electric power is supplied from the outside through the terminal 24, the capacitor 23 connected to the terminal 24 is charged, and the motor 21 rotates using the electric power charged in the capacitor 23 as a drive source, It is formed so that the flywheel 12 can be rotated.

  The capacitor 23 is charged by a charger 40 as shown in FIG. The charger 40 is configured such that the leg 11c of the working toy 10 is inserted into the central insertion groove 41 so that the working toy 10 can be set and charged. The positive electrode and the negative electrode 42 are exposed upward. The electrode 42 is connected to a battery stored inside the charger 40, and the capacitor 24 of the working toy 10 can be charged by contacting the terminal 24 of the working toy 10.

  As shown in FIG. 3, the terminal 24 of the working toy 10 is exposed on the back side of the skirt portion 11 a of the toy body 11. Therefore, as shown in FIG. 4, when the working toy 10 is inserted into the charger 40 so that the skirt portion 11 a spreading on the heel is hooked on the edge of the insertion groove 41, the electrode 42 of the charger 40 and the working toy 10 The terminal 24 comes into contact and charging is started.

  In order to ensure contact between the electrode 42 and the terminal 24, an engaging portion 11b (see FIG. 3) is formed in the vicinity of the terminal 24 of the working toy 10, and the electrode 42 of the charger 40 is also formed. A depression 43 (see FIG. 4) is recessed in the vicinity. Thus, by engaging the engaging portion 11b with the recess 43, the electrode 42 and the terminal 24 can be positioned and reliably brought into contact with each other.

  When the working toy 10 is charged in this way, the motor 21 rotates the flywheel 12 until the discharging of the capacitor 23 is completed, and the working toy 10 can be operated.

  By the way, the lower end of the toy body 11 is provided with a protrusion 11e that can contact the grounding surface. Since this protrusion 11e protrudes downward substantially equally with the lower end of the rotating shaft 13, when the operation toy 10 is operating upright by the gyro effect, it sometimes comes into contact with the ground plane. By providing the projection 11e, when the projection 11e comes into contact with the grounding surface during the operation of the working toy 10, the working toy 10 revolves around the projection 11e, becomes irregular, and performs an interesting operation. It is formed as follows.

  In addition, when the operation toy 10 operates while revolving around the projection 11e as described above, the arm member 30 swings in the opening direction by centrifugal force, and the arm is spread as shown in FIG. .

  Further, a magnet 32 is embedded in the vicinity of the tip of the arm member 30, and when the magnet 32 is attracted, the operating toy A can be connected to another operating toy B as shown in FIG. 6. ing. When two actuated toys 10 are operated in a state where the two actuated toys 10 are connected as described above, the two actuated toys 10 revolve around the midpoint of the two actuated toys 10.

  1, the vicinity of the tip of the arm member 30 protrudes in the outer peripheral direction of the toy body 11 (hand portion), and a magnet 32 is built in the vicinity of the tip of the arm member 30 protruding in the outer peripheral direction. Yes. That is, the magnet 32 is provided at a position where the magnet 32 can easily come into contact with other operating toys 10. For this reason, even if the player does not connect, the connection by the magnet 32 is automatically connected when the operation | working toy 10 in operation approaches arbitrarily and the front-end | tip of the arm member 30 touches. Also, the connected toy 10 may be disconnected due to movement during operation. For this reason, when the several action | operation toy 10 is act | operated simultaneously, it will operate | move while repeating connection and separation | separation, and it will move interestingly.

  In addition, this actuated toy 10 can be played in combination with other toys by transmitting power to the other toys. That is, as shown in FIG. 2, a part of the rotating shaft 13 of the flywheel 12 is formed by a worm gear 14, and this worm gear 14 is arranged on the back side of the leg portion 11 c of the toy body 11 as shown in FIG. 7. Since the worm gear window 11d is exposed to the outside, the worm gear 14 exposed from the worm gear window 11d is engaged with the gears of the other toys so that power can be transmitted to the other toys.

  For example, a car toy 50 as shown in FIG. 8 is conceivable as another toy that plays in combination with the operating toy 10.

  The vehicle toy 50 has an insertion portion 52 that opens upward in the center and is formed so that the leg portion 11c of the working toy 10 can be inserted. When the leg portion 11 c is inserted into the insertion portion 52, the skirt portion 11 a is hooked on the edge of the insertion portion 52, and the working toy 10 gets into the car toy 50.

  An intermeshing gear 51 is provided on the inner side of the insertion portion 52, and meshes with the worm gear 14 when the leg portion 11 c of the working toy 10 is inserted. For this reason, when the flywheel 12 of the working toy 10 rotates and the worm gear 14 rotates, the rotational force is transmitted to the meshed gear 51. Although not shown in particular, when the meshed gear 51 rotates, the car toy 50 is operated in conjunction with this, and the car toy 50 can be operated by the driving force of the operating toy 10.

  As described above, according to the present embodiment, the rotational force imparting mechanism 20 for imparting the rotational force to the flywheel 12 is provided inside the toy body 11, so the rotational force can be easily applied to the flywheel 12. It is possible to provide an operational toy 10 that can be provided and is easy to handle.

  Further, the rotational force applying mechanism 20 includes a motor 21 connected to the rotary shaft 13 of the flywheel 12. For this reason, since the flywheel 12 can be rotated by the motor 21, the rotational force is maintained, and the playing time can be lengthened.

  Further, the rotational force applying mechanism 20 includes a capacitor 23 for supplying electric power to the motor 21 and a terminal 24 for charging the capacitor 23. For this reason, it can charge easily only by connecting to the charger 40 etc., and the preparation for playing can be completed.

  A part of the rotary shaft 13 of the flywheel 12 is formed by a worm gear 14, and the worm gear 14 is exposed to the outside so that power can be transmitted to other toys 50. Therefore, by preparing another toy 50 having the gear 51 that meshes with the worm gear 14, the rotational force of the flywheel 12 can be transmitted to the other toy 50 and the other toy 50 can be operated.

  An arm member 30 that can swing in the opening direction is provided on the peripheral side surface of the toy body 11. For this reason, the arm member 30 can be swung by the centrifugal force when the actuating toy 10 is actuated, and the actuating toy 10 having fun can be provided.

  Further, a magnet 32 is provided in the vicinity of the tip of the arm member 30 so that it can be connected to another working toy 10. For this reason, it is possible to play by connecting a plurality of working toys 10. In addition, since the connection is made by the magnet 32, the operation toy 10 can move in such a manner that the operation toy 10 can be connected to each other or the connection can be released during the operation of the operation toy 10, and the operation toy 10 can be provided.

  Although not particularly described in the above description, the protrusion 11e provided at the lower end of the toy body 11 may be movable to a retracted position away from the ground contact surface. That is, the protrusion 11e can be moved back and forth in the vertical direction, and can be moved downward to a position where it can contact the grounding surface during operation, and can be moved upward to a position where it cannot contact the grounding surface during operation. You may be able to do it. If formed in this way, the projection 11e can be moved irregularly by contacting the grounding surface during the operation of the working toy 10, and when the irregular movement is not desired, the projection 11e is retracted. It can also be moved to prevent contact with the ground plane. For example, if an irregular movement is made when playing with a plurality of actuated toys 10 being connected, the connection is immediately released, and in such a case, the protrusion 11e is moved to the retracted position. be able to.

(First modification)
Next, a first modification according to this embodiment will be described.

  This first modification is characterized in that a battery 25 is provided instead of the capacitor 23 of the rotational force applying mechanism 20 according to the above-described embodiment.

  That is, as shown in FIG. 9, the rotational force applying mechanism 20 according to this modification does not include the capacitor 23, but instead includes a battery 25 and a battery housing portion 26 for storing the battery 25. . Thereby, even if it does not charge with the charger 40, the motor 21 rotates with the electric power supplied from the battery 25, and the action | operation toy 10 can be operated.

  Thus, if the battery 25 for supplying electric power to the motor 21 is provided as the rotational force applying mechanism 20, it is possible to play until the capacity of the battery 25 runs out.

  Although not particularly illustrated, it is desirable to provide a switch for turning on / off the power supply from the battery 25 to the motor 21.

(Second modification)
Next, a second modification according to this embodiment will be described.

  As shown in FIG. 10, the second modification is characterized in that a rotational force is applied by an operation of pulling out the rack belt 60 inserted from the outside.

  That is, as shown in FIG. 11, the rotational force applying mechanism 20 according to this modification does not include the motor 21 or the capacitor 23, but instead includes a gear 27 that can mesh with the rack gear 61 of the rack belt 60. . The gear 27 is provided coaxially with the rotary shaft 13 of the flywheel 12. The rotary shaft 13 of the flywheel 12 is rotatably supported at its upper portion by a shaft support member 28 and is configured to rotate integrally with the gear 27 when a rotational force is applied to the gear 27 by the rack belt 60. Has been. For this reason, when the rack belt 60 inserted from the outside is pulled out, the flywheel 12 rotates and the working toy 10 can be operated.

  As described above, if the rotational force applying mechanism 20 includes the gear 27 that can apply the rotational force by the pulling-out operation of the rack belt 60 inserted from the outside, the rack belt 60 directly performs the operation even when the motor 21 is not provided. A rotational force can be applied to the.

DESCRIPTION OF SYMBOLS 10 Acting toy 11 Toy body 11a Skirt part 11b Engagement part 11c Leg part 11d Worm gear window 11e Protrusion 12 Flywheel 13 Rotating shaft 14 Worm gear 15 Tip 20 Rotation force giving mechanism 21 Motor 22 Motor holder 23 Capacitor 24 Terminal 25 Battery 26 Battery 26 Housing part 27 Gear 28 Shaft support member 30 Arm member 31 Pin 32 Magnet 40 Charger 41 Insertion groove 42 Electrode 43 Dent 50 Car toy 51 Engaged gear 52 Insertion part 60 Rack belt 61 Rack gear

Claims (9)

  Rotation for disposing a flywheel inside the toy body, causing the tip of the rotary shaft of the flywheel to protrude downward from the lower end of the toy body, and applying rotational force to the flywheel inside the toy body An actuating toy comprising a force imparting mechanism.   The working toy according to claim 1, wherein the rotational force applying mechanism includes a motor connected to a rotation shaft of the flywheel.   The working toy according to claim 2, wherein the rotational force applying mechanism includes a capacitor for supplying electric power to the motor and a terminal for charging the capacitor.   The working toy according to claim 2, wherein the rotational force applying mechanism includes a battery for supplying electric power to the motor.   The working toy according to claim 1, wherein the rotational force applying mechanism includes a gear capable of applying a rotational force by a pulling operation of a rack belt inserted from the outside.   The rotary shaft of the flywheel is partly formed of a worm gear, and the worm gear is exposed to the outside so as to be able to transmit power to another toy. Working toy.   The working toy according to any one of claims 1 to 6, wherein an arm member swingable in an opening direction is provided on a peripheral side surface of the toy body.   The actuating toy according to claim 7, wherein a magnet is provided near the tip of the arm member so as to be connectable to another actuating toy.   9. The protrusion according to claim 1, wherein a protrusion that can contact a grounding surface is provided at a lower end of the toy body, and the protrusion is movable to a retracted position that is separated from the grounding surface. Working toy.

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