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Toy galloping car and orbit thereof

A track and flying car technology, applied in the field of toy cars, can solve problems such as affecting the racing effect, flying out of the track, and stopping the racing car, so as to improve the speed and viewing effect of the racing car, reduce the volume and air resistance, and ensure the balance of the car body.

Inactive Publication Date: 2008-07-30
ALPHA GRP CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Existing toy racing cars for children's games are generally four-wheel drive models. A pair of guide wheels are fixedly installed on the front of the toy racing car. The wheel walks along the track. Since the guide wheel is only in contact with the track, it is only constrained by the left and right directions and not by the up and down directions. Therefore, the speed of the car is too fast or it is easy to detach from the track or fly out of the track at the corner. It will cause the car to stop and affect the effect of the car
At the same time, because the toy car runs in the track, the track width is wider and the area is larger. Generally, the track can only be changed in height, and it is difficult to make complex and changeable shapes, and the ornamental value is relatively poor.
Furthermore, due to the erected side panels on both sides of the track, the toy car is blocked, which affects the sight of the observer and reduces the fun of playing.

Method used

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  • Toy galloping car and orbit thereof
  • Toy galloping car and orbit thereof
  • Toy galloping car and orbit thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0045] Embodiment 1: As shown in Figures 1, 6, and 10, the holding wheels of the toy rail speed car of the present invention include two wheel rails arranged on both sides of the bottom of the chassis 1 that are respectively held on both sides of the toy speed car track 5. The holding wheel 21,22 that travels along the wheel rail. The guide wheels include an auxiliary guide wheel 23 arranged at the front part of the bottom of the chassis 1 and a power guide wheel 24 arranged at the rear of the chassis 1 and traveling along the same track line with the auxiliary guide wheel 23 . The wheel rails include two groove rails 51a, 51b symmetrically arranged on both sides of the track 5 for the left and right rows of the toy car to hold and run, and a groove rail 51c arranged in the middle of the upper part of the track 5 for the guide wheels to travel. The clamping wheels 21, 22 of the toy rail car of this example are locked in the groove rails 51a, 51b of the track 5 and travel along...

Embodiment 2

[0046] Embodiment 2: As shown in Figures 11 and 12, the holding wheels of the toy rail speed car include two wheel rails arranged on both sides of the bottom of the chassis 1, respectively, to hold the toy speed car track 5 on both sides and along the wheel. The card holding wheel 21,22 that rail travels. The guide wheels include an auxiliary guide wheel 29a and a power guide wheel 29b which are respectively arranged on the front and rear ends of the bottom of the chassis 1 and can run on the surface of the track 5. groove. The wheel rails include two groove rails 51a, 51b symmetrically arranged on both sides of the track 5 for the left and right rows of locking wheels to hold and drive. The locking wheels 21, 22 provided on both sides of the lower part of the toy rail car in this example are locked in the groove rails 51a, 51b of the track 5 and run along the groove rails 51a, 51b. The auxiliary guide wheel 29a and the power guide wheel 29b pass through the The groove that ...

Embodiment 3

[0047] Embodiment 3: As shown in Figures 13 and 14, the holding wheels of the toy track speed car include two wheel rails arranged on both sides of the rear of the bottom of the chassis 1, which are respectively held on both sides of the toy speed car track 5, and along the The card holding wheel 21,22 that wheel rail travels. The guide wheels include the auxiliary guide wheels 25, 26 which are arranged on the front sides of the bottom of the chassis 1 and are respectively in line with the rear locking wheels and run on the same track line. The rim surfaces of the holding wheels 21, 22 and the auxiliary guide wheels 25, 26 are arranged as grooves 21a, 22a, 25a, 26a matching the track surfaces. The holding wheels 21, 22 and auxiliary guide wheels 25, 26 hold the wheel rails through grooves and travel on the wheel rails. The wheel rails include two groove rails 51a, 51b symmetrically arranged on both sides of the track 5 for the left and right rows of locking wheels to hold and...

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PUM

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Abstract

The invention relates to a toy track run away which comprises a chassis, a bonnet, wheels, a drive electric motor and a transmission mechanism. A battery chamber and an electric motor chamber are arranged on the chassis; the wheels comprises at least a guide wheel and at least a pair of enclasped wheels which can drive along the track; at least one of the guide wheel and the enclasped wheels is a drive wheel; meanwhile, a strip shape track and a supporting mechanism are also provided; the track is equipped with a wheel track along an axial direction for the enclasped wheels of the toy track run away to drive in a locking way. The toy run away can stably enclasp the track and drive at a high speed without digression, which can completely expose outside, thus promoting racing speed and watching effect; the chassis is arranged by segmenting and connected in an interlaced way, thus being convenient for upgrading of the toy run away and promoting recreation ability. The middle part of the chassis is provided with the electric motor chamber and the battery chamber is arranged at two sides of the drive electric motor, thus causing the weight of the toy run away distributes evenly and guaranteeing the balance of a body. The bottom of the chassis is provided with a concave surface that causes the toy run away to be closely matched with the tubulous track, thus decreasing the volume and air resistance.

Description

technical field [0001] The invention relates to the field of toy cars, in particular to a toy racing car running on a track and its track. Background technique [0002] Existing toy racing cars for children's games are generally four-wheel drive models. A pair of guide wheels are also fixedly installed on the front of the toy racing car. The wheel walks along the track. Since the guide wheel is only in contact with the track, it is only constrained by the left and right directions and not by the up and down directions. Therefore, the speed of the car is too fast or it is easy to get off the track or fly out of the track at the corner. It will cause the suspension of the car and affect the effect of the car. Simultaneously because toy car travels in track, makes track width wider, area is bigger, and track generally can only change height, and is difficult to make complex and changeable molding, and appreciation is relatively poor. Furthermore, due to the erected side panel...

Claims

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Application Information

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IPC IPC(8): A63H21/04
CPCA63H17/14A63H18/028A63H21/04
Inventor 蔡东青
Owner ALPHA GRP CO LTD