JPS58167263A - Travel gear - Google Patents

Abstract

PURPOSE:To enhance traversability in going up and down an obstacle ahead as well as a flight or steps, while keeping its ability to run at high speed on a flat road, by attaching a shaft to the side of a rotary disc and supporting a vane fitted with a lever in a fulcrum manner, while coupling the tip of the lever with an annular groove of an eccentric guide plate. CONSTITUTION:A disc 7 is attached to an axle 25 while shafts 9 are installed thereat. A train of vanes 8 each fitted with a lever 10 are supported on these shafts 9, and the tip of the lever 10 is coupled with a guide groove 13 of a guide wheel 12. When this guide wheel 12 is made to be out of center, the tip of each vane 8 can be extruded outward. With this projection that can catch a road surface, traversability in going up and down an obstacle ahead as well as a flight of steps can be highly improved.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a traveling device for transportation, and more particularly to a traveling device suitable for traveling on rough roads that requires overcoming obstacles, running on stairs, and the like.

Generally, wheels having approximately the same radius are used as a means of transportation. This wheel is suitable for high-speed driving on flat roads,
Although it is possible to drive on some slopes, it is difficult to drive on steep slopes or high steps.

Further, as a means of traveling on rough roads, there is a claw (claw) (endless track) often used in civil engineering machines and the like. This crawler is suitable for running on soft ground and also suitable for running on steep slopes, but it has a large resistance when changing direction and is difficult to run at high speeds.
There are many problems with moving buildings, such as easily damaging the road surface and excessive weight.

SUMMARY OF THE INVENTION An object of the present invention is to provide a traveling device that can travel at high speed on a flat road and can reliably traverse obstacles and climb stairs.

In order to achieve the above object, the present invention provides a traveling device capable of traveling on rough roads, in which a plurality of shafts are installed on the side surface of a disc to which rotational force is transmitted, parallel to the rotational axis of the disc. Attached,
A plate-like blade with a lever fixed thereon is rotatably mounted on the shaft, and the tip of the lever is connected to an annular groove cut into the side surface of a guide ring arranged parallel to the disc, and the guide The guide wheel is provided with an adjusting means for making the wheel eccentric with respect to the disk.

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

1 and 2 show the principle structure of the traveling device of the present invention. In these figures, a large number of shafts 2 are provided on one circumference 1. , a tube 2' comprising a long plate 3 and a short arm 4 is fitted. At the tip of this arm 4, put up a screw 15. This beam 15 is placed on the other circumference 6. When the centers of the circumference 1 and the circumference 6 coincide, the plate 3 is housed inside the circumference 1 as shown in FIG. Now, as shown in Figure 2, if we shift the circumference 6 to the left side of the drawing with respect to the circumference 1,
is pulled to the left, and by the action of the arm 4, the plate 3 rotates around the rotation axis 20, and the plate 3 on the right side of the center of the circumference 10 extends outside of the circumference 1. If the circumference 1 is rotated in such a state, the plate 3 will move out of the circumference 1 and retract while going around the center rotation of the circumference 1. However, the circumference 1
If the eccentric distance between and the circumference 6 is constant, the trajectory drawn by the tip of the plate 3 is constant.

With this configuration, when driving on flat ground, as shown in Figure 1, by aligning the centers of circumference 1 and circumference 6, the device can be used as a wheel for smooth driving, and when driving on rough roads. As shown in Fig. 2, by making the circumferences 1 and 6 eccentric, the board 3 is extended outward, and the tip of the board 3 is hooked on the road surface when driving, thereby significantly improving the treading performance. can be increased.

An embodiment of the traveling device of the present invention will be described with reference to FIG. 3 based on the principle of the present invention described above.

A shaft 9 of a blade 8 is rotatably attached to the disk 7. A pin 11 is provided at the tip of a lever 10 provided at the other end of the shaft 9. This pin 11 is fitted into a guide groove 13 provided in a guide ring 12. 1 shows a state in which the blade 8 comes out due to the eccentricity of the guide wheel 12. The disk 7 is rotated by an axle 25.

The operation of the traveling device of the present invention shown in FIG. 3 is explained in FIGS.
The diagram will be explained. In these figures, the axle 25 and disc 7 are indicated by broken lines. FIG. 4 shows a state in which the amount of eccentricity between the guide wheel 12 and the axle 25 is O, and the outer side of the blade 8 is arcuate and forms the tread surface of the wheel together with the disc 7. FIGS. 5 and 6 show the situation when the guide wheel 12 is eccentric to the left side of the figure by e and el, respectively. The distance t1°t between the tips of adjacent blades 8 changes depending on the amount of eccentricity and the angular position of the shaft 9 with respect to the eccentric direction. Therefore, the distance between the tips of the blades 8 can be controlled by adjusting the amount of eccentricity and the direction of eccentricity.

Figures 7 to 9 show the situation in which the device of the present invention is ascending a flight of stairs. By appropriately adjusting the amount of eccentricity and the direction of eccentricity with respect to the vehicle body 14, the blade spacing can be matched to the pitch of the stairs, so it is possible to climb stairs of different dimensions without missing a step.

10 and 11 show an embodiment of a traveling vehicle equipped with a traveling device according to the present invention. In the figures, four sets of the aforementioned traveling devices are used, and the vehicle body 14 is divided into two parts for steering purposes.
They are joined at a hinge 15. Steering is performed by making a difference between the rotation angles of the left and right wheels, causing the vehicle to oscillate, and by bending the vehicle body using the hinge 15. A support arm 1 is provided on the side of the vehicle body in order to make the guide wheel 12 eccentric in the position direction.
6 drives are provided. That is, the support arm 16 is slidably supported by the guide block 17, and is moved back and forth by rotating the screw 18 by the motor 19. Further, the guide block 17 is fixed to the crosshead 20. This cross head 2
0 is slidably supported by a frame 21, and can be moved up and down by rotating a screw 22 with a motor 23. Therefore, the motors 19 and 23 can make the guide wheel 12 eccentric in any direction by a required length. Inside the vehicle body 14 there is a motor 24 and a disc 7.
Rotate. By rotating this disk 70 times, forward force can be obtained.

As described above, according to the present invention, smooth high-speed movement using the wheels is possible when driving on flat land, and the blades can be taken out from the wheels with a simple operation when driving on rough roads. It also has the effect of significantly increasing traversal ability, such as being able to overcome obstacles and go up and down stairs.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram showing the principle of the traveling device of the present invention, FIG. 2 is an explanatory diagram showing its operation, FIG. 3 is an external view of an embodiment of the traveling device of the present invention, and FIGS. 4 to 6 The figures are explanatory diagrams showing the operation of an example of the traveling device of the present invention shown in Fig. 3, and Figs. 7 to 9.
The figures are an explanatory view showing the stair movement operation of an example of the traveling device of the present invention shown in FIG. 3, FIG. 10 is a front view showing an example of a traveling vehicle equipped with an embodiment of the traveling device of the present invention, The figure is the first
FIG. 2 is a plan view, partially in cross section, of the vehicle shown in FIG. 7...Disk, 8...Blade, 9...Shaft, 10...
Lever, 11... Bin, 12... Guide wheel, 13...
・Guide groove, 14...Car body, 15...Hinge, 1i・
...Support arm, 17...Guide block, 18...
・Screw, 19...Motor, 20...Crosshead,
21... Frame, 22... Screw, 23... Motor, 24... Motor, 25... Axle. ′! J 1 Figure 2 Figure 7 Figure B Figure 'fJ q Figure

Claims (1)

[Scope of Claims] 1. In a traveling device capable of traveling on rough roads, a plurality of shafts are attached to the side surface of a disc to which rotational force is transmitted parallel to the rotational axis of the disc, and A plate-shaped blade with a lever fixed to the shaft is rotatably attached, and the tip of the lever is connected to an annular groove cut into the side surface of a guide wheel arranged parallel to the disk, and the guide wheel is A traveling device characterized in that the guide wheel is provided with an adjusting means for making the guide wheel eccentric with respect to the disk. 2. The traveling device according to claim 1, wherein the guide wheel adjusting means is a sliding mechanism using a threaded rod and a slide block.