Gear changing mechanism for toy vehicle driving devices

Information

  • Patent Grant
  • 4422263
  • Patent Number
    4,422,263
  • Date Filed
    Thursday, September 14, 1978
    46 years ago
  • Date Issued
    Tuesday, December 27, 1983
    41 years ago
Abstract
A toy vehicle is disclosed including a gear changing mechanism for use in conjunction with a flywheel driving device. The mechanism comprises a gear changing lever pivotally mounted to a frame by means of a pin. The lever is biased in one direction by means of a first spring member to hold the axle of an idle gear in engagement with one end of an elongated opening formed in the frame. The gear changing lever is adapted to pivot by a depressing action against the force of the first spring member to disengage the idle gear axle from the one end of the elongated opening so as to allow a second spring member to urge the idle gear axle against the other end of the elongated opening.
Description

BACKGROUND OF THE INVENTION
The present invention relates to a built-in power source or flywheel driving device for use in toy vehicles such as trains and cars and, more particularly, to a gear changing mechanism for use in such a driving device.
The present invention provides a gear changing mechanism in which gear changing can be effected simply by depressing a lever.





IN THE DRAWINGS
FIG. 1 is a side view showing the present invention before the gear changing lever is depressed;
FIG. 2 is a side view after the gear changing lever is depressed; and
FIG. 3 is a plan view of the present invention.





DETAILED DESCRIPTION OF THE PRESENT INVENTION
One embodiment of a gear changing mechanism made in accordance with the present invention will now be described in detail with reference to the accompanying drawings. The built-in flywheel driving device is first described. The gear changing mechanism of the present invention is then described. In the figures, the reference numeral 1 designates the frame of the driving device or power source. An axle 2 is rotatably mounted in the frame 1. The axle 2 has wheels 9 on its opposite ends. A toothed wheel 3 is secured on the axle 2. A first idler gear 4 is secured on its axle 4c. The axle 4c is supported in elongated holes 1a formed in the frame 1. The first idler gear 4 includes small and large diameter toothed wheels 4a and 4b. The small diameter toothed wheel 4a is held in mesh with the toothed wheel 3. A second idler gear 5 is secured on its axle 5c which is received in elongated holes 1b formed in the frame 1. The second idler gear 5 includes small and large diameter toothed wheels 5a and 5b. The small diameter toothed wheel 5a meshes with the large diameter toothed wheel 4b of the first idler gear 4 when the axle 4c of the first idler gear 4 is held in engagement with the lower end of the elongated hole 1a and comes out of mesh with the large diameter toothed wheel 4b when the axle 4c of the first idler gear 4 is urged against the upper end (the other end) of the elongated hole 1a. A gear 6 is drivingly connected through toothed wheels 6.sub.1 and 6.sub.2 to the large diameter toothed wheel 5b of the second idler gear 5. The gear 6 directly meshes with the large diameter toothed wheel 4b of the first idler gear 4 when the axle 4c of the idler gear 4 is urged to the upper end of the elongated hole 1a formed in the frame 1. A flywheel 7 is secured on the axle 6a.
Explanation is next made of the gear changing mechanism in accordance with the present invention. A gear changing lever 11 is pivotally mounted to the frame 1 by a pin 11a. The gear lever 11 has a stopper portion 11c formed in its lower end with a groove 11c', and an operating portion 11d. A spring member 11b biases the lever 11 in the direction indicated by the arrow a to place the stopper portion 11c in the position of holding the axle 4c of the first idler gear 4 in the lower end of the elongated hole 1a. Depressing of the operating portion 11d causes the lever 11 to rotate against the force of the spring member 11b in the direction opposite to the arrow a direction, whereby the groove 11c' is disengaged from the axle 4c. A spring member 12 biases the axle 4c of the idler gear 4 toward the upper end of the elongated hole 1a.
The operation of the gear changing mechanism of the present invention will now be described. When the wheels 9 are rotated in the direction of the arrow b such as by rubbing them against the floor, the axle 4c of the first idler gear 4 is urged against the lower end of the elongated hole 1a and locked there by the stopper portion 11c with its groove 11c fitting on the axle 4c. The rotation of the wheels 9 is transmitted through the second idler gear 5 and the gears 6.sub.1 and 6.sub.2 to the gear 6 so as to rotate the flywheel 7 at a high speed. Thereafter, the axle 5c of the idler gear 5 falls down by its weight on the lower end of the elongated holes 1b so that the connection between the gear 5 and the gear 6.sub.1 is released. After the rotation of the wheels 9 stops, the operating portion 11d is depressed to rotate the gear changing lever 11 in the direction opposite to the arrow a direction and against the force of the spring member 11b, whereby the groove 11c' comes out of engagement from the axle 4c. The axle 4c is pushed against the upper end of the elongated holes 1a by the force of the spring member 12. The gear 6 meshes with the idler gear 4 so that rotation of the flywheel is transmitted to the wheels 9 thereby driving them at a high speed.
As described above, the present invention provides a gear changing mechanism for use in a built-in flywheel driving device. The mechanism comprises a gear changing lever 11 pivotally mounted to a frame 1 by means of a pin 11a and biased in one direction by means of a first spring member 11b to hold the axle 4c of an idler gear 4 in engagement with one end of an elongated hole 1a formed in the frame 1. The gear changing lever 11 is adapted to rotate by a depressing action against the force of the first spring member 11b to disengage the idler gear axle 4c from the one end of the elongated hole 1a so as to allow a second spring member 12 to urge the idler gear axle 4c against the other end of the elongated hole 1a. In this arrangement, the toy vehicle can be started or speed-changed by depressing of the operating portion of the gear changing lever to change the gear. That is, depressing of the operating portion of the gear changing lever will cause the wheels held stopped to start rotating (in case the idler gear 5 is used as described in the illustrated embodiment), or the wheels rotating at a low speed to rotate at a high speed (in case a normal gear is used in place of the idler gear 5).
Claims
  • 1. A toy vehicle power source including a flywheel secured on an axle; gear means interconnecting said flywheel to toy vehicle wheels, said gear means including a first gear path to interconnect said flywheel to wheels at one gear ratio when said vehicle is moved in one direction and a second gear path when said flywheel drives said wheels; and shifting means for changing said gear means from one path to the other path, said shifting means including an idler gear, said idler gear being shiftable from a position of non-engagement to a position of engagement in said first gear path, said idler gear being shiftable from a position of engagement in said first gear path to a position of non-engagement, said idler gear being shiftable from said position of non-engagement to a position of engagement in said second gear path and said idler gear being shiftable from a position of engagement in said second gear path to a position of non-engagement, said shifting means further including a second idler gear, said second idler gear being engagable in said first gear path by the lifting action of said first-mentioned idler gear when said first idler gear is being driven.
  • 2. The toy vehicle power source of claim 1 wherein said shifting means comprise a gear changing lever.
  • 3. The toy vehicle power source of claim 1 wherein said second idler is disengaged by gravity whenever said first idler gear is not being driven.
  • 4. The toy vehicle power source of claim 3 wherein said shifting means include a gear changing lever, said lever shifts said first idler gear from said non-engaged position to engagement in said second gear path thereby being adapted to drive wheels of a toy vehicle.
  • 5. A toy vehicle comprising a vehicle body supported on a plurality of wheels, said body including a power source for driving certain of said wheels, said power source including a flywheel and gear means, said gear means including a first gear path and a second gear path, said first gear path providing a driving relationship between said wheels and said flywheel in one mode of operation and said second gear path being capable of providing a driving relationship between said flywheel and said wheels in another mode of operation;
  • said gear means including:
  • a first gear and axle combination, said axle being rotatably locked with respect to said driven wheels;
  • a second gear and axle combination, said axle being rotatably supported in a pair of arcuate slots, said second gear and axle combination being movable in said slots from a first operating position for function in said one mode of operation to a second operating position for function in said other mode of operation;
  • shifting means for moving said second gear and axle combination from said first operating position to said second operating position and from said second operating position to said first operating position; and
  • a third gear and axle combination, said third gear and axle combination being rotatably supported in a pair of arcuate slots, said third gear and axle combination being movable in said slots from a first neutral position to a second operative position, wherein said third gear while in the first position engages only said first gear thereby providing said gear means with a neutral position in said one mode of operation and wherein said third gear in the second position provides a driving relationship between said wheels and said flywheel whereby said wheels may rotatably drive said flywheel, said third gear and axle combination being lifted into said second operative position by the increasing rotational force of said second gear and axle combination and falling by gravitational force into the neutral position when said second gear and axle combination is not imparting increasing rotational force.
  • 6. The vehicle of claim 5 wherein said shifting means comprise spring means for urging said second gear and axle combination from said first operating position to said second operating position, said shifting means further including a shifting lever for holding said second gear and axle combination in said first position until said second gear and axle combination is released by manual movement of said shifting lever.
  • 7. The vehicle of claim 6 wherein said shifting lever includes a groove in which said second axle lies when held in said first position.
  • 8. The vehicle of claim 7 wherein shifting lever includes spring means for urging said shifting lever into the position of holding said second gear and axle combination in said first position when said flywheel is not driving said wheels.
Priority Claims (1)
Number Date Country Kind
52-138565 Oct 1977 JPX
US Referenced Citations (8)
Number Name Date Kind
806977 Kingsbury Dec 1905
3546809 Nielsen Dec 1970
3798831 Higashi Mar 1974
3812933 Darda May 1974
4059918 Matsushiro Nov 1977
4116084 Masuda Sep 1978
4130963 Ohashi Dec 1978
4141256 Wilson et al. Feb 1979
Foreign Referenced Citations (5)
Number Date Country
563929 Sep 1958 CAX
913510 Jun 1954 DEX
791118 Dec 1935 FRX
1394867 Mar 1965 FRX
487524 Jun 1938 GBX