JP2559022B2 - Traveling toys - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a traveling toy that travels using a motor as a drive source.

[0002]

2. Description of the Related Art Some toys run by using a motor as a drive source, for example, have a car body. This running toy is interesting because it mainly attracts children because of its running motion.

Such a traveling toy has wheels for traveling,
It is configured to have a main body having a motor for transmitting power to the wheels, and the wheels are rotationally driven by exciting the motor so that the main body travels in a predetermined manner.

[0004]

However, most of the running toys of this kind run at a predetermined speed in advance, and they are not toys that make the child think about the phenomenon of running, and they are not interesting. Met.

The present invention has been made in view of the above circumstances, and an object of the present invention is to change it into three driving modes so that a child can think of a physical phenomenon of running. It is to provide a traveling toy with high performance.

[0006]

In order to solve the above-mentioned problems, the traveling toy according to claim 1 has a main body, a drive wheel rotatably supported by the main body, and a main body. Driven wheels that are axially supported and support the main body together with the drive wheels so that they can travel freely; a motor provided in the main body; and a power supply means that is provided in the main body and supplies electric power to the motor.
It is rotatably provided penetrating the inside and outside of the main body, and the tip part protrudes outside from the portion corresponding to the moving direction of the main body,
It has a transmission shaft whose base end is connected to the output shaft of the motor, a transmission mechanism that transmits the rotation of the transmission shaft to the axle of the drive side wheel, and a switching knob on the outer surface of the main body. It has an on-off part that turns on and off the power transmitted to the axle according to the switching operation, and a power interrupting mechanism that allows the main body to travel in a predetermined direction by transmitting power to the drive side wheels, and the tip of the transmission shaft is detachable in, by attaching to the distal end of the transmission shaft, rotating follow the power output from the transmission shaft
The main body travels when it is driven to rotate and driven by the driving wheels.
And a rotating blade that blows air so that the main body travels in a direction opposite to the direction .

In addition to the above object, the traveling toy according to claim 2 has a main body and wheels on both sides in the width direction of the main body in order to be able to change to three different traveling modes with a simple structure. Drive wheels that are arranged and connected to each other by an axle that is slidably supported in the width direction of the main body, and a driven wheel that is rotatably supported by the main body and that supports the main body together with the drive wheels so that the main body can travel. Side wheels, a motor provided in the main body, a power supply means provided in the main body for supplying electric power to the motor, and extending in the direction intersecting with the axle to rotatably penetrate the inside and outside of the main body, A transmission shaft is connected to the output shaft of the motor with the tip protruding outward from the portion corresponding to the moving direction of the main body, and the drive side gear is provided on the transmission shaft of the intersecting shafts, and the drive shaft is mounted on the axle. Slave meshing with side gear It is equipped with a side gear and has a transmission mechanism that transmits the rotation output from the transmission shaft to the axle, and an operator that is provided on the outer surface of the main body and moves the driven gear. Operates to a position where it meshes with the gear and a position where it disengages from the gear on the same drive side, and is detachable with the switching knob that moves the main body in the specified direction according to the power transmitted to the axle, and the tip of the transmission shaft. in, by attaching to the distal end of the transmission shaft, is driven to rotate following the power output from the transmission shaft, the drive of the drive-side wheel
Run the machine in the direction opposite to the running direction of the machine.
It has a rotary blade that blows air so that it can be blown .

In addition to the above-mentioned object, the traveling toy according to claim 3 further comprises a main body according to claim 1 or 2 for traveling in order to make a child think of a traveling object suitable for each mode. The purpose is to be able to replace multiple types of bodies with an external shape that mimics things.

In addition to the above object, the traveling toy according to claim 4 is further provided with the power supply means according to claim 1 or 2 in the main body so that the traveling toy can be freely moved anywhere. The battery box, the conduction circuit for electrically connecting the battery housed in the battery box to the motor, and the power switch for switching the conduction circuit on and off.

In addition to the above-mentioned object, the traveling toy according to a fifth aspect of the invention has the transmission mechanism according to the second aspect of the invention, which has a simple structure and can be set to an appropriate traveling condition. This is because the gear is a worm gear and the driven gear is a worm wheel.

[0011]

According to the traveling toy of claim 1, for example, after operating the switching knob to set the power connecting / disconnecting mechanism to the "contact" side,
Energize the motor. Then, the power from the motor is transmitted to the axle of the drive side wheel via the transmission shaft and the transmission mechanism to rotate the drive side wheel.

From this state, if the main body is placed on a traveling surface such as a desk, table, or floor, the traveling toy travels in a predetermined direction due to friction between the driving wheels and the traveling surface. It will be different.

Further, for example, after the power disconnecting mechanism is set to the "disconnect" side by operating the switching knob, the rotary blade is attached to the tip of the transmission shaft protruding from the main body. After this, the motor is excited.

Then, the power from the motor is transmitted to the rotary blades via the transmission shaft to rotate the rotary blades. At this time, the rotary blades are set so that air is blown in a direction opposite to the direction in which the wheels travel.

Therefore, from this state, the main body is
When mounted on a surface to be run such as a desk, table, or floor, the running toy should run in the direction opposite to that when the wheels are driven due to the phenomenon obtained by the wind force generated by the rotor blades. Becomes

Further, when the mode for traveling with wind power is set and the power connection / disconnection mechanism is set to the "contact" side by operating the switching knob, the driving force for traveling the main body with wind power causes the motor to drive the wheels on the drive side. If the driving force that cancels out the driving force is stronger and the driving force is stronger, for example, the driving system that drives the driving wheels is stronger, the traveling toy moves at a low speed in the predetermined direction determined by the wheel driving. It will be.

The running toy, however, has three different running modes so that the child can think about the physical phenomenon of running.
Can be changed to According to the traveling toy according to claim 2,
For example, the switching knob is operated to slide the axle to engage the driving-side gear and the driven-side gear of the transmission mechanism, and then the motor is excited.

Then, the power from the motor is transmitted to the axle of the driving side wheel via the transmission shaft, the driving side gear and the driven side gear, and the driving side wheel is rotated. From this state, if the main body is placed on a traveling surface such as a desk, table, or floor, the traveling toy will travel in a predetermined direction due to friction between the driving wheels and the traveling surface.

Further, for example, the driving side gear and the driven side gear of the transmission mechanism are disengaged from each other by operating the switching knob, and the rotary blade is attached to the tip of the transmission shaft protruding from the main body. After this, the motor is excited.

Then, the power from the motor is transmitted to the rotary blade via the transmission shaft to rotate the rotary blade. At this time, the rotary blades are set so that air is blown in a direction opposite to the traveling direction.

Therefore, from this state, the body is likewise
When mounted on a surface to be run such as a desk, table, or floor, the running toy should run in the direction opposite to that when the wheels are driven due to the phenomenon obtained by the wind force generated by the rotor blades. Becomes

When the driving side gear and the driven side gear are engaged with each other by operating the switching knob while keeping the mode for traveling by wind power, the driving force for traveling the main body by wind force is changed.
If the driving force that cancels the driving force to drive the driving wheels is stronger and the driving force is stronger, for example, the driving method that drives the driving wheels is stronger, the traveling toy will move in the predetermined direction determined by the wheel driving. , It will proceed at a low speed.

However, the traveling toy can be easily changed into three different traveling modes by adopting the switching of the power transmission system of sliding the axle. According to the traveling toy according to the third aspect, a traveling object suitable for each mode is assembled while considering each mode.

According to the traveling toy according to the fourth aspect, the traveling toy can be independently traveled, so that the traveling toy can freely travel anywhere. According to the traveling toy according to the fifth aspect, the traveling condition at the time of driving the drive side wheels can be properly set by the simple structure of the worm mechanism.

[0025]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below based on an embodiment shown in FIGS. FIG. 4 shows an entire traveling toy system to which the present invention is applied, and FIG. 1 shows a traveling base which is a main body of the traveling toy.

This traveling base 1 is shown in FIGS. 1, 2 and 3.
As shown in FIG. 3, for example, it is composed of a box-shaped housing extending in the front-rear direction, and the lower surface is open. This running platform 1
A pair of axles 2a and 2b extending in the same width direction are slidably pierced at the front and rear ends of the side walls 1a and 1b on both sides in the width direction. The axles 2a and 2b are rotatably supported on the traveling frame 1 by utilizing this penetration.

The axles 2a and 2b are arranged substantially parallel to each other, and the wheels 3 are connected to both ends of the axle 2a which extends to both sides of the traveling frame 1. This constitutes the drive-side wheels 4.

Similarly, the wheels 3 are attached to both ends of the axle 2b.
The same wheels 5 are connected to the driven wheels 6
Is composed. The driving base 4 and the driven wheels 6 are configured to support the traveling platform 1 so as to be movable in the front-rear direction.

The wheels 3 and the wheels 5 each have a plurality of, for example, four protrusions 7 provided on the outer surface thereof evenly around the axis. However, a disc-shaped stop plate 8 having a small hole 8a that can be inserted into and removed from the protrusion 7 is attached to the protrusion 7 of the wheel 3 on the drive side.

As shown in FIGS. 2 and 3, a motor 9 is provided in the central portion of the traveling frame 1 between the axles 2a and 2b toward the axle 2a, for example, at a portion on the left side. There is.

The motor 9 is arranged obliquely upward so that an extension line extending the output shaft 9a intersects above the axle 2a. In this direction, the motor 9 supports the motor position restricting plates 10a to 10d protruding from the inner surface of the upper wall of the traveling base 1 around the motor 9 and the motor 9 from below. It is held by the holding plate 11.

A transmission shaft 13 is connected to the tip of the output shaft 9a of the motor 9 via a cylindrical joint 12. Both the joint 12 and the transmission shaft 13 extend along the extension line. The tip end side of the transmission shaft 13 penetrates a through hole 17 provided in the end wall 1c of the traveling mount 1 and projects from the inside of the traveling mount 1 to the outside.

Of the intersecting shafts 2a, 13 of the transmission shaft 13, a worm gear 15, which serves as a transmission side gear, is provided at the transmission shaft 13 site. Similarly, a worm wheel 18 that meshes with the worm gear 15 is provided on the axle 2a.
A transmission mechanism 18 for transmitting the rotation of the motor 9 output from the transmission shaft 13 to the axle 2a by the worm mechanism 14 including the worm gear 15 and the worm wheel 18. Are configured.

A slide knob 19 as a switching knob is provided at the lower end edge of the end wall 1c corresponding to the worm wheel 18.
Are slidably supported along the same edge direction. A gear moving body 20 as an operator is connected to an inner portion of the slide knob 19.

The gear moving body 20 includes a pair of pushers 20a, 20a which sandwich the worm wheel 18 on both sides.
It has a fork end shape (only one of which is not shown) so that the worm wheel 18 can be moved in the width direction of the traveling frame 1 together with the axle 2a according to the slide operation of the slide knob 19. I am doing it.

The distance between the pressing elements 20a, 20a is greater than the thickness of the worm wheel 18.
Further, the rail portion 19a supporting the slide knob 19 slides in a range between two points, a meshing position A where the worm wheel 16 and the worm gear 15 mesh with each other and a release position B where the meshing gear is disengaged. The length is set so that the slide knob 19 is moved to the meshing position A and the releasing position B so that the power transmitted to the axle 2a can be turned on and off.

That is, the worm wheel 16 moving between the meshing position A and the releasing position B is used as the on / off portion 21 to transmit the rotation of the motor 9 to the drive side wheel 4 or release the transmission. It constitutes a power connection / disconnection mechanism 21a.

By switching the slide knob 19, the traveling pedestal 1 can be driven by the driving wheels 4 in a predetermined direction, for example, in the front direction of the traveling pedestal 1 indicated by reference numeral F ₁ in FIG. 1 at a high speed (high speed). Is done.

On the other hand, the rotary blade 22 is detachably attached to the tip of the transmission shaft 13. The rotary blade 22 has, for example, a boss portion 23 and a plurality of blades 24 provided on the outer peripheral surface of the boss portion 23. At the center of the boss portion 23, a cylindrical joint portion 25 that can be fitted and inserted into the tip portion of the transmission shaft 13 is projected. By inserting the joint portion 25 into the tip portion of the transmission shaft 13, The rotary blade 22 can be mounted on the transmission shaft 13. Reference numeral 26 denotes a ring-shaped support member that supports the outer peripheral end of each blade 24.

Further, the blade 24 of the rotary blade 22 has the transmission shaft 13
When it is driven to rotate by the power transmitted from the drive side wheels 4
The blade shape is such that the air is blown in a direction opposite to the traveling direction of the traveling gantry 1 traveling in.

As a result, the rotary blades 22 are connected to the transmission shaft 1 without engaging the worm wheel 16 with the worm gear 15.
3 to drive the rotary blade 22 to rotate, the gantry body 1 is moved by F _{1 in} FIG. 1 by the wind force generated by the rotary blade 22.
It is as be caused to travel backward direction of the running gantry 1 indicated by reference numeral F ₂ on the opposite direction to.

The driving force for traveling the traveling pedestal 1 by using the wind force of the rotor blades 22 is set to be smaller than the driving force for driving the driving wheels 4 to cause the traveling pedestal 1 to travel. The traveling platform 1 is made to travel at a speed (low speed).

From the state in which the worm wheel 16 is meshed with the worm gear 15, the rotary blades 22 are connected to the transmission shaft 13.
When the rotary blade 22 is mounted on the rotary blade 22 and is driven to rotate, the driving force in the F ₁ direction obtained by driving the driving side wheel 2a and the rotary blade 2 are obtained.
The driving force in the F ₂ direction obtained by driving the vehicle ₂ cancels each other out (cancellation), and the traveling platform 1 is driven by the remaining driving force in the forward direction to drive the wheels 4 on the driving side and the wind force. The vehicle is made to travel in the forward direction, which is the F ₁ direction in FIG. 1, at a speed intermediate to the speed when it is driven by.

The traveling pedestal 1 is adapted to obtain three different traveling modes from these three driving modes. On the other hand, as shown in FIGS. 2 and 3, a battery, for example, a cylindrical dry battery 27, is housed in the traveling base 1 at a portion adjacent to the motor 9 on the right side.

The area around the dry battery will be described with reference to FIG.
As shown in FIG. 3, a side wall 1a and a battery regulating plate 2 provided in parallel with the side wall 1a are provided in the right side portion adjacent to the motor 9.
8a to 28c and the end wall 1c are used to form a battery box 29 extending in the front-rear direction of the traveling pedestal 1, and a dry battery 27 is housed in the battery box 29. A claw portion 30 for holding the dry battery 27 in the battery box 29 is provided at the tip of the electric regulation plate 28b at the center.

A contact seat 31 made of a spring is provided at the front end of the battery box 29, and a leaf spring-like contact piece 32 is provided at the rear end at a position apart from the battery end.

By fixing the other end of the contact piece 32 to the rib 33 provided on the upper wall of the traveling pedestal 1, the one end facing the battery end is brought into contact with and separated from the dry battery 27 by the spring property. It will be arranged.

The contact seat 31 and the contact piece 32 are connected to respective terminals of the motor 9 via lead wires 34 and 35a, respectively, and are connected to the dry battery 27 in the battery box 29 and the motor.
There is electrical continuity with the switch 9. That is, the conduction circuit 36 is configured.

On the rear side of the contact piece 31, a rotary knob 38 as a power switch is provided. The rotation knob 32 is rotatably supported on the upper wall of the traveling base 1, and has a boss 39 vertically arranged at a position adjacent to one end of the contact piece 31. This boss 39 has an outer peripheral surface
A protrusion 40 protruding toward the contact piece 32 is provided.

Further, on the outer peripheral surface of the boss 33 facing the side wall 1b, a knob 41 for operation is projected, and the knob 41 penetrates a square notch 42 provided on the side wall 1b. , Protruding to the outside of the traveling mount 1.

The notch 42 regulates the knob position of the rotary knob 38 to the ON position X and the OFF position Y. That is, the ON position X is a position where the projection 40 presses one end of the contact piece 32 according to the turning operation of the knob 32 on the ON position X side to bring the one end into contact with the battery end. At position Y, the protrusion 40 retracts from one end of the contact piece 32 in accordance with the turning operation of the knob 32 toward the off position Y,
It is a position where one end of the end is returned to the original separated state by the spring property.

In accordance with the turning operation of the turning knob 39, the energizing circuit 36 is turned on / off to supply or stop the power supply to the motor 9 (power supply means). On the other hand, on the upper surface of the traveling pedestal 1, three traveling modes (high speed, medium speed, low speed) which change depending on the driving form as shown in FIG.
A plurality of types of running objects suitable for the vehicle, for example, a truck body 45 that is a combination of a used milk pack 43 and a used foaming tray 44 and is similar to the outer shape of a truck, for example, a used milk pack 46 is made into an outer shape of an automobile. The passenger car body 47 imitated in FIG. 1, for example, the used milk pack 48 is worked, and the body 50 imitated to the outer shape of the special traveling vehicle using, for example, the used paper cups 49, 49 is attached by, for example, an adhesive tape. Therefore, it can be mounted so as to be replaceable.

Next, the operation of the traveling toy constructed as above will be described. For example, it is assumed that the traveling platform 1 is made to have an outer shape like a truck and the traveling frame 1 is driven at high speed. At this time, first, the various bodies 45, 4 shown in FIG.
A track body 45 is selected from 7, 50, and this body 45 is placed on the upper surface of the traveling pedestal 1 in alignment with the front and rear portions of the traveling pedestal 1, and the truck body 45 is attached using an adhesive tape (not shown). , Fixed to the traveling base 1.

As a result, a traveling toy imitating a truck as shown in FIG. 5 is assembled. Then, considering the most suitable mode for running the same truck,
Each part of the traveling pedestal 1 is operated so as to be turned off.

That is, in this example, the mode for running at high speed is used.
Must be configured. In this case, first, for example, the slide knob 19 of the traveling frame 1 is slid to the meshing position A to start the operation.

Then, the worm wheel 16 is displaced in the width direction of the traveling frame 1 and meshes with the worm gear 15 on the transmission shaft 13. At this time, the axle 2a is slid in the width direction of the traveling platform 1 according to the displacement of the worm wheel 16.

As a result, the transmission mechanism 18 becomes "contact", and the motor 9 and the drive side wheel 4 are mechanically connected. Next, the knob 41 of the rotation knob 38 protruding from the side wall 1b is rotated to the ON position X.

Then, one end of the contact piece 32 is rotated by the turning knob 3.
It is pushed by the protrusion 40 of 8 and comes into contact with the plus of the dry battery 27. As a result, the conduction circuit 36 is turned on, and the motor 9 is excited by the electric power supplied from the dry cell 27.

Then, according to the connected power transmission system, the rotational force (power) generated in the motor 9 is
It is transmitted to the worm wheel 16 via a, the joint 12, and the worm gear 15.

As a result, the drive-side wheels 4 are rotationally driven by the rotation reduced by the worm mechanism 14. And
From this state, as shown in FIG. 5, if the driving side wheels 4 and the driven side wheels 6 of the traveling pedestal 1 are placed on a driven surface 51 such as a desk, a table, or a floor, the traveling toy is driven. Due to the friction between the wheels 4 and the driven surface 51, the vehicle travels in the F ₁ direction (forward) at a high speed.

As a result, the traveling toy is set in the traveling mode in which the driving wheels 4 are driven and travels. Further, it is assumed that the outer shape of a passenger car is used instead of a truck, and the traveling platform 1 is run at a low speed.

At this time, the truck body 45 is removed from the traveling mount 1. Then, from among the remaining bodies 47, 50, select a passenger car body 47, mount the passenger car body 47 with the body 47 turned upside down on the upper surface of the traveling pedestal 1, and attach the passenger car body 47 using an adhesive tape (not shown). , Fixed to the traveling base 1.

By exchanging the body, a traveling toy imitating a passenger car as shown in FIG. 6 is assembled. Next, considering the most suitable mode for traveling the passenger car, each part of the traveling gantry 1 is operated so as to achieve the same mode.

Here, since a mode for traveling at a low speed must be constructed, first, for example, the slide knob 19 of the traveling frame 1 is slid from the meshing position A to the releasing position B.

Then, the engagement between the worm wheel 16 and the worm gear 15 is released, and the motive power from the motor 9 is transmitted to the transmission shaft 13 only.
Next, the rotary blade 22 is attached to the tip of the transmission shaft 13 protruding from the traveling mount 1.

Thereafter, the knob 41 of the rotary knob 38 is rotated to the ON position X to activate (excite) the motor 9. Then, the rotational force (power) from the motor 9 is transmitted only to the rotary blade 22 via the transmission shaft 13. This allows
The rotary blade 22 is rotated.

At this time, the rotary blades 22 are blown with air in the F ₂ direction (the direction opposite to the direction in which the driving wheels 4 travel). Drive side wheels 4 and driven side wheels 6 of the desk, table,
When the traveling toy is placed on the driven surface 51 such as the floor, the wind force generated by the rotor 22 causes the traveling toy to move in the F ₂ direction (the driving side wheel 4).
In the direction opposite to the direction you are traveling in), drive at a slower speed.

As a result, the traveling toy is set in a traveling mode in which only the rotary wing 22 is driven and travels. Further, it is assumed that the outer shape of the special traveling vehicle is used instead of the passenger vehicle and the traveling platform 1 is driven at a medium speed.

At this time, the passenger car body 47 is removed from the traveling mount 1. Next, the body 50 and the traveling base 1
It is placed on the upper surface of the traveling pedestal 1 according to the front-back direction, and the body 50 is fixed to the traveling pedestal 1 using an adhesive tape (not shown).

Next, a paper cup 49 is attached to each wheel 3. For this, a paper cup 49 having small holes 49a formed in the bottom thereof in the same arrangement as the projections 7 is used. Then, the projection 7 of each wheel 3 is inserted into these small holes 49a, the stopper plate 8 is inserted and inserted into the insertion end, and the bottom portion of the paper cup 49 is sandwiched between the wheel 3 and the stopper plate 8. 49 for each wheel 3
It is mounted in a direction extending in the axial direction of.

Next, considering the most suitable mode for traveling the special traveling vehicle, each part of the traveling gantry 1 is operated so as to be in the same mode. Here, the mode to drive at medium speed
Must be configured.

For this purpose, the slide knob 19 is slid from the release position B to the meshing position A while the rotary blade 22 is mounted on the transmission shaft 13, and the worm wheel 16 and the worm gear 15 are moved. Mesh with.

Then, not only the rotary vanes 22 are driven, but also the drive side wheels 4 are driven. That is, the motor 9
Power is transmitted to both the rotary blades 22 and the drive-side wheels 4 in a power transmission mode.

In this state, if the traveling platform 1 is placed on the traveling surface 51 such as a desk, table, or floor, the traveling toy travels in the F ₁ direction at medium speed. That is, the driving force for driving the traveling pedestal 1 by wind force and the driving force for driving the driving wheels 4 by the motor 9 to drive the traveling pedestal 1 are opposite in direction. Moreover, the driving force for driving the vehicle by wind force is smaller than the driving force for driving the driving wheels 4.

This is due to the driving force for traveling by wind power,
The driving force to be caused to travel by the driving wheels 4 cancels each other, and the traveling platform 1 is determined by the driving force of the remaining driving wheels 4, F ₁
This is because it moves at a medium speed in the direction.

These three running modes (how to run)
Therefore, the child himself can think about physical phenomena related to traveling, that is, traveling by wheel driving, traveling by wind force, and a relationship between the two forces.

As a result, it is possible to realize a running toy with a high degree of interest that has never been seen before. Further, by adopting the switching of the power transmission system of sliding the axle 4, it becomes possible to change the three running modes with a simple structure.

In addition, by adopting a configuration in which the bodies 45, 47, and 50 having outer shapes imitating a plurality of types of traveling objects are exchangeably mounted on the traveling base 1, each mode is considered while considering each mode. There is also the fun of assembling a moving object suitable for.

In addition, since the traveling platform 1 is configured to be able to travel independently by using the dry battery 27 as a power source, the traveling toy can be freely moved at any place. In addition, by adopting the worm mechanism 14 as the transmission mechanism 18, it is possible to properly set the traveling condition when traveling with the drive-side wheels 4 with a simple configuration.

Although the present invention is applied to a structure in which various bodies are exchangeably provided on the traveling pedestal, the present invention is not limited to this and may be applied to a body to which the traveling pedestal is fixed in advance.

[0081]

As described above, according to the first aspect of the present invention, the running mode can be changed to three modes so that the child can consider the physical phenomenon of running. Moreover, since it can be changed to three driving modes, it is very interesting.

According to the invention of claim 2, claim 1
In addition to the effect of (3), it is possible to change to three running modes with a simple structure. According to the invention of claim 3, in addition to the effect of claim 1 or claim 2, the child can be made to think of a traveling object suitable for each mode,
Bring a high degree of interest.

According to the invention of claim 4, claim 1
Alternatively, in addition to the effect of claim 2, since the vehicle can travel independently, the vehicle can travel freely anywhere. According to the invention of claim 5, claim 2
In addition to the above effect, there is an effect that it can be set to an appropriate running condition with a simple configuration.

[Brief description of drawings]

FIG. 1 is an exploded perspective view for explaining a main structure of a traveling toy according to an embodiment of the present invention.

FIG. 2 is a perspective view for explaining a drive system and a power supply system of the same embodiment.

FIG. 3 is a perspective view for explaining a motor holding structure and a battery housing structure of the embodiment.

FIG. 4 is a perspective view for explaining various bodies mounted in the embodiment.

FIG. 5 is a perspective view for explaining a mode in which the driving wheels of the embodiment are driven to travel.

FIG. 6 is a perspective view for explaining a mode in which the rotary vanes of the embodiment are driven and run by wind power.

FIG. 7 is a perspective view for explaining a mode in which the driving wheels and the rotary vanes are driven in the same embodiment.

[Explanation of symbols]

1 ... Running platform (main body) 2a, 2b ... Axle 3, 5 ...
Wheel 4 ... Drive side wheel 6 ... Driven side wheel 9 ...
Motor 14 ... Worm mechanism 15 ... Worm gear 16
... Warm wheel 18 ... Transmission mechanism 19 ... Slide knob (switching knob) 21 ... On / off part 21a ... Power interruption mechanism 22
... Rotary blade 27 ... Dry battery 29 ... Battery box 36
... Conductive circuit 38 ... Rotating knob (battery switch) 45, 47, 50
…body.

Claims (5)

(57) [Claims] 1. A main body, a drive-side wheel rotatably supported by the main body, and a driven-side wheel rotatably supported by the main body and rotatably supporting the main body together with the drive-side wheel. A motor provided in the main body, a power supply unit provided in the main body for supplying electric power to the motor, and rotatably provided inside and outside the main body,
A transmission shaft having a distal end projecting outward from a portion corresponding to the moving direction of the main body and a proximal end connected to the output shaft of the motor; and a transmission mechanism for transmitting rotation of the transmission shaft to an axle of the drive-side wheel. A switch knob is provided on the outer surface of the main body, and an on / off section is provided in the middle of the transmission mechanism for turning on / off the power transmitted to the axle according to the switching operation of the switch knob. a power interrupting mechanism for running the body to a predetermined direction by the power transmission, removable and distal end portion of the transmission shaft, by attaching to the distal end of the transmission shaft, follow the power output from the transmission shaft It is driven to rotate and driven by the drive wheels.
The main body in a direction opposite to the traveling direction of the main body
A running toy, comprising: a rotary blade that blows air to run. 2. A main body; drive-side wheels in which wheels are arranged on both sides of the main body in a width direction, and the wheels are connected by an axle slidably supported in the width direction of the main body; A driven wheel that is rotatably supported by the vehicle and that supports the main body together with the drive wheel so that the main body can travel; a motor provided in the main body; and a power supply provided in the main body and supplying electric power to the motor. A supply means, extending in a direction intersecting with the axle, rotatably penetrating the inside and outside of the main body, a tip portion protruding outward from a portion corresponding to a moving direction of the main body, and a base end portion of the motor. A transmission shaft connected to the output shaft, and a drive-side gear is provided on the transmission shaft of the intersecting shafts, and a driven-side gear that meshes with the drive-side gear is provided on the axle, and is output from the transmission shaft. Rotation A transmission mechanism for transmitting to the axle, and an operating element provided on the outer surface of the main body for moving the driven gear, a position where the driven gear meshes with the driving gear, and a driving gear. And a switch knob for moving the main body in a predetermined direction according to the power transmitted to the axle, and a detachable attachment to the tip of the transmission shaft, which is attached to the tip of the transmission shaft. by rotatably driven follow the power output from the transmission shaft, run by driving of the drive-side wheel
The main body in a direction opposite to the traveling direction of the main body
A running toy, comprising: a rotary blade that blows air to run. 3. The traveling toy according to claim 1, wherein a plurality of types of bodies having an outer shape simulating a traveling object are mounted on the main body in a replaceable manner. 4. The power supply means includes a battery box formed in the main body, a conduction circuit for electrically connecting the battery housed in the battery box and the motor, and the conduction circuit. The running toy according to claim 1 or 2, further comprising a power switch. 5. The transmission mechanism according to claim 1, wherein the driving side gear is a worm gear and the driven side gear is a worm wheel. The traveling toy according to 2.