WO2013018727A1

WO2013018727A1 - Turning and travelling toy

Info

Publication number: WO2013018727A1
Application number: PCT/JP2012/069231
Authority: WO
Inventors: 治雄古明地
Original assignee: 株式会社ケイ・エム・ジェイ
Priority date: 2011-07-29
Filing date: 2012-07-27
Publication date: 2013-02-07
Also published as: JPWO2013018727A1; JP5763196B2

Abstract

In the present invention, travelling modes rich in variations are possible, such as travelling in a straight line, travelling in curves and travelling while spinning in circles, and these travelling modes can be freely selected. A travelling toy that is caused to travel by a drive device built into the toy main body is provided with the following: a pair of left and right drive wheels (13, 14) that are rotated by a drive device (12); a travel support-point (17) for travelling that along with the pair of left and right drive wheels supports the toy main body at three points; and a support-point position movement mechanism (20) that places the travel support-point at a position on the center line of the toy main body (11) that passes between the pair of left and right drive wheels, or a position that is offset from the center line to the left or right.

Description

Slewing toy

The present invention relates to a turning traveling toy that travels by a drive device incorporated in a toy body.

There is a toy that can be driven using a so-called pull-back spring as a drive device, which belongs to a car toy. Toys incorporating pull-back springs can travel long distances with a slight backward operation, and are inexpensive and have good performance, so they are popular and many attractive products are offered at low cost. In this type of traveling toy, there are several types such as those that perform general traveling and those that perform so-called wheelie traveling.

However, a traveling toy that uses a pull-back spring as a driving device is basically only capable of linear traveling. Therefore, for example, there is a mechanism that incorporates a mechanism that changes its direction when it comes into contact with an obstacle, or changes its direction without falling when it moves to the edge of the table. Examining the prior art, there is a devise of Japanese Utility Model Publication No. Hei 6-21698, which aims to simplify the structure by eliminating the front wheels. This device has an effect that a projection is provided instead of the front wheel, and the rotary motion can be performed around the projection, but the projection is provided at a fixed position on the bottom of the toy main body and is given at the time of manufacture. It can only perform rotational movement under conditions.

As described above, the conventional toy only travels freely up to the obstacle or the edge of the table, that is, goes straight, and this is the same as the above-described wheeling toy and the same as the traveling toy described above. It is. If it is possible not only to go straight but also to change the direction during travel, it is possible to provide a more attractive travel toy.

Actual Kaihei 6-21698

The present invention has been made paying attention to the above points, and the problem is that it is possible to have a variety of travel modes, such as straight travel, curved travel, and traveling while turning, and such travel. The form is to be arbitrarily selected. Moreover, the other subject of this invention is providing a more attractive turning traveling toy by providing a new function to the traveling toy which uses what is called a pull back spring as a drive device.

In order to solve the above-mentioned problems, the present invention relates to a traveling toy that travels with a driving device incorporated in a toy body, and a toy body with a pair of left and right driving wheels rotated by the driving device and a pair of left and right driving wheels. And a fulcrum position moving mechanism for disposing the travel fulcrum at a position on the center line of the toy main body that passes between the pair of left and right drive wheels or a position shifted to the left and right from the center line. It is a measure to prepare and configure.

The turning traveling toy of the present invention is basically a traveling toy that travels straight, and its traveling direction is given resistance by a traveling fulcrum to cause a change in the traveling route. Therefore, the traveling toy of the present invention includes a pair of left and right drive wheels, a traveling fulcrum for traveling at three points, and a fulcrum position moving mechanism.

If the traveling fulcrum is located on the center line of the toy main body that passes between the pair of left and right drive wheels, the traveling fulcrum goes straight because the original straightness is not hindered. However, when the travel fulcrum is at a position shifted left and right from the center line, it can be turned in the direction of the travel fulcrum at the shifted position. As means for changing the position of the travel fulcrum, a fulcrum position moving mechanism is provided.

The fulcrum position moving mechanism includes a shaft hole provided in front of the drive wheel on the center line of the toy body, a rotating shaft rotatably fitted in the shaft hole, a rotating member having the rotating shaft, and the rotating member. And a travel fulcrum provided on the vehicle. The fitting of the shaft hole and the rotating shaft may be tight or loose, but when loosened, it is desirable to provide a positioning mechanism.

For the positioning, the rotating member is formed of a disk, has regular unevenness provided on the circumference of the disk, and can be engaged with the unevenness by elastically contacting the disk. A mechanism having an engagement shaft provided on the toy main body side so as to be detachable is suitable. When the fitting between the shaft hole and the rotating shaft is tight, the position of the travel fulcrum is fixed by the frictional force.

Since the present invention is configured and operates as described above, by changing the position of the travel fulcrum, the travel mode is rich in changes such as linear travel, curved travel, and traveling while turning It is possible to achieve this, and such a traveling mode can be arbitrarily selected. Further, according to the present invention, a more attractive turning traveling toy can be provided by adding a new function to the traveling toy using the pull back spring as a driving device. In particular, in the traveling toy of the present invention, like a driving wheel using a pull back spring as a driving device, a condition in which the torque is large immediately after being entrained and the torque is decreased as the traveling distance is extended is added. Reflecting the situation, it is possible to realize a variety of driving that cannot be predicted.

Hereinafter, the present invention will be described in more detail with reference to the illustrated embodiments. FIG. 1 shows an example of a turning toy 10 according to the present invention, 11 is a toy body applied to a model car, 12 is a drive device, and the drive device in the illustrated example is a so-called pullback spring.

Reference numerals

13 and 14 denote drive-side rear wheels, that is, a pair of left and right drive wheels, which are attached to both ends of the output shaft of the drive device 12 (see FIG. 2). Therefore, the illustrated turning traveling toy 10 is a rear wheel drive vehicle.

The left and right

front wheels

15 and 16 are also rotatably attached to the toy main body 11, but are not involved in the objective effect of the turning toy 10 according to the present invention. That is, the left and right

front wheels

15 and 16 are not grounded by a travel fulcrum 17, which will be described later, and are arranged in a floating state (see FIG. 3). Therefore, when the turning traveling device is removed, it is not impossible to travel with four front and rear wheels like an old type traveling toy.

For the turning traveling function, the traveling fulcrum 17 described above that travels while supporting the toy body at three points together with the pair of left and

right drive wheels

13 and 14 is provided. The travel fulcrum 17 is moved by the fulcrum position moving mechanism 20 at a position 17 (S) on the center line CL of the toy main body that passes between the pair of left and

right drive wheels

13, 14, or any position shifted from the center line CL to the left or right. It arrange | positions in the position 17 (L) or 17 (R) (FIG. 2).

In the illustrated example, the fulcrum position moving mechanism 20 includes a shaft hole 18 provided in front of the drive wheel on the center line CL of the toy main body 11, a rotating shaft 19 rotatably fitted in the shaft hole 18, and the rotation. The rotary member 21 has a shaft 19 and the travel fulcrum 17 provided on the rotary member 21 (see FIGS. 2 to 5).

In the illustrated embodiment, three types of fulcrum moving mechanisms 20 are illustrated. An example in which the position of the travel fulcrum 17 is fixed by a frictional force is shown in FIGS. 2 to 4, and the shaft hole 18 and the rotary shaft 19 are in a tightly fitted state, such as a press fit in mechanical engineering. is there. Therefore, the traveling fulcrum 17 can be arranged at an arbitrary position by turning the disc-shaped rotating member 21 while holding the edge.

FIG. 5 shows an example 2 in which the fitting of the shaft hole 18 and the rotating shaft 19 is slightly loosened and the positioning mechanism 22 is provided. The rotating member 23 is made of a disc, and is provided with regular irregularities 23a on the circumference of the disc, and elastically contacts the disc so that it can be engaged with the irregularities 23a and can be removed from the engagement. It has an engagement shaft 24 provided on the side. The illustrated engagement shaft 24 is urged in the direction of engagement with the projections and depressions 23a by a spring piece 25 formed by cutting away a part on the toy body side.

FIG. 6 shows a third example of the fulcrum moving mechanism 20. The rotating member 26 is composed of a member in which a rotating arm 27 and a rotating shaft 28 are combined in a substantially T shape, and the lower surface of the rotating arm 27 away from the rotating shaft 28. The travel fulcrum 29 is provided in the configuration. The rotating member 26 can be rotated by being inserted into a shaft hole 30 provided in front of the drive wheel, whereby the position of the traveling fulcrum 29 is changed, and the position of the traveling fulcrum 29 is changed between the rotating shaft 28 and the shaft hole. It can be fixed by fitting friction.

According to the turning traveling toy 10 of the present invention configured as described above, the position of the

rotary members

21 and 23 is adjusted by the fulcrum position moving mechanism 20 in advance, the drive device 12 is wound up, and the change is made by releasing the hand. A rich driving mode can be obtained. When the traveling fulcrum 17 is arranged in the forefront on the center line CL, the turning traveling toy 10 goes straight (see FIG. 7). Next, when the traveling fulcrum 17 is arranged at an arbitrary position 17 (L) or 17 (R) shifted left and right from the center line CL, the vehicle travels in a curved line.

For example, when it is arranged at the position 17 (L) shifted to the left, the turning toy 10 runs while curving to the left, and in particular, the torque immediately after being caught is used as in the case where the so-called pullback spring is used as the drive device 12. In a large run, the car spins (SP) while running for a short distance and repeats the spin many times to run unpredictably. The torque decreases as the travel distance increases, but the travel surface GL is not uniform. Accordingly, conditions such as the resistance received by the travel fulcrum 17, the unevenness of the travel surface, and the magnitude of the torque are added and interacting with each other is reflected in the turning radius, the turning speed, etc., and a very varied traveling state is obtained. be able to.

It is a perspective view which shows an example of the turning toy which concerns on this invention. It is a bottom view which shows a turning traveling toy same as the above. It is a side view similarly. It is sectional drawing which similarly shows the example 1 of a fulcrum position movement mechanism. Similarly, FIG. 5 shows a second example of the fulcrum position moving mechanism, in which A is a bottom view and B is a cross-sectional view taken along line VB-VB in FIG. 5A. Similarly, it relates to the third example of the fulcrum position moving mechanism, A is a perspective view showing when assembled and B is a disassembled state. It is explanatory drawing which shows the example of the traveling path of the turning traveling toy which concerns on this invention.

DESCRIPTION OF SYMBOLS 10 Turning traveling apparatus 11 Toy main body 12

Drive apparatus

13, 14

Driving wheel

15, 16

Front wheel

17, 29 Traveling

fulcrum

18, 30

Shaft hole

19, 28 Rotating shaft 20 fulcrum

position moving mechanism

21, 23, 26 Rotating member 22 Positioning mechanism 24 Engagement shaft 25 Spring piece 27 Rotating arm

Claims

A traveling toy that travels by a driving device incorporated in the toy body,
A pair of left and right drive wheels rotated by a drive device;
A traveling fulcrum for traveling while supporting the toy body at three points with a pair of left and right drive wheels;
A turning traveling toy configured to include a fulcrum position moving mechanism that arranges the traveling fulcrum at a position on the center line of the toy main body that passes between the pair of left and right drive wheels or a position shifted to the left and right from the center line.
The fulcrum position moving mechanism includes a shaft hole provided in front of the drive wheel on the center line of the toy main body,
A rotating shaft fitted rotatably in the shaft hole and a disk-shaped rotating member having the rotating shaft;
The turning traveling toy according to claim 1, further comprising a traveling fulcrum provided on the rotating member.
The rotating member is made of a disc, and the disc has regular irregularities provided on the circumference, and is elastically contacted with the disc so that it can be engaged with the irregularities and can be detached from the engagement. The turning traveling toy according to claim 2, further comprising an engaging shaft provided on the side.
The turning traveling toy according to claim 1, wherein the rotating member is composed of a member in which the rotating arm and the rotating shaft are combined in a T shape, and has a configuration in which a traveling fulcrum is provided on the lower surface of the rotating arm away from the rotating shaft.