KR200405975Y1 - A Vehicle with a Caterpillar System stepping on the water surface - Google Patents

Abstract

The present invention relates to a water-moving belt track vehicle, which is a repulsive force generated by applying a principle that the lizard walks on the water to make the micro area collide at a freezing distance from the water, such as the lizard's foot and the falcon effect Staying on the water and giving enough momentum to the small area within that moment, proceeding by the distance of the small area, and then moving the next small area to the same water again by hitting the water continuously so that you can run on the water continuously. It is.

That is, according to the present invention, when the linear velocity of the belt track made of a small area crosses a certain threshold value, the water continuously comes out, and the critical speed can be expressed as a function of the height of the belt track.

Therefore, the present invention is a critical velocity as long as the area distance of the track plate before the next track track hits the water while remaining on the water as a repulsion force generated when the track plate of the small area hit the water. You're actually running on the surface of the water by letting you progress continuously.

Floating vehicle

Description

A Vehicle with a Caterpillar System stepping on the water surface}

1 is a conceptual perspective view illustrating the principle of the present invention.

Figure 2 is a belt track constituting the principle of the present invention.

3 is an embodiment using a belt track of the present invention.

Figure 4 is an exemplary cross-sectional view according to an embodiment of the present invention.

5 is an exemplary view of a side according to an embodiment of the present invention.

6 is an embodiment according to the external power system of the present invention.

<Explanation of symbols for main parts of drawing>

10 belt track 11: track plate

21: front tire 22: rear tire 23: idle tire

30: vehicle 31: buoyancy buoyancy beads

41: internal engine 42: external engine

The present invention relates to a water-moving belt tracked vehicle, and more particularly, before the next track track hits the water while remaining on the water as a repulsive force generated when the track plate of the small area hits the water. In order to be able to run on the water as in the ground by continuously stepping on the water by proceeding at a critical speed as much as the area distance of the track plate.

Most of the conventional water vehicle design has been made to proceed at a faster speed with less power, and sometimes to form a wing on the outer circumferential surface of the link belt, it is trying to stay in place because of the water resistance of the wing, At this time, there is a design that is described as proceeding by pushing the driving force to the propulsion device, and it is not known whether such a design is possible, even if possible, it will be obvious that it will cause a tremendous loss of power.

On the other hand, there are animals that walk on the water like the Basilisk (aka Jesus) lizard in the natural state, and how the animal can walk without falling into water, and recently analyzed the amazing ability of the lizard at Harvard University in the United States. The research results were as follows.

The team sprinkled tiny beads of sparkling beads in a laboratory's tanks, using high-speed cameras to capture the light reflected by the lizard as it walked on the water, analyzing the movement of the feet and the flow of water. The lizard walks on the water with only its hind legs, and the analysis shows that once it has been lowered, it pushes the water backwards to move forward as if swimming with that foot. After that, get your feet up and ready to sleep again. The air bubbles that form when you hit the surface prevent you from falling into the water until you push it back with your feet. Thus, the lizard's principle of walking on water was found to result in a repulsion against the "gravity" of a fast paw moving 20 times a second as it walks on the water and then falls down.

Another natural phenomenon, which is often played by the water, is to put round and flat pebbles on the surface of the water, so that the pebbles may bounce off the water several times and then sink into the water.

Here, it should be noted why the gravel bounces off the surface of the water rather than sinking directly into the water. First of all, making a stone slab as gravel gives the gravel its momentum or energy. When a pebble with such momentum hits the surface, a pressure or force that momentarily supports the weight (gravity) of the pebble is generated between the surface underneath the gravel and the surface of the gravel. As you progress, you will eventually see a bounce.

Thus, the present invention applies the principle that the lizard walks on the water to the present invention, such that the lizard's foot and the slashing medium effect such that the micro area hits the freezing distance from the water and gives sufficient momentum to the micro area. As a result, they stayed on the water and progressed by the distance of the micro area within the moment so that the next micro area could be run on the water as if on the ground again by successively stepping on the water.

That is, the present invention remains on the water as a repulsive force generated when the small-area track plate hits the water, and at a speed as large as the area distance of the track plate before the track plate following it within the moment hits the water. As you progress, you will actually run on your surface.

Therefore, the present invention is to be able to run substantially on the surface at the critical speed according to the height of the belt track while rolling on the water surface through the continuous movement of the track plate forming a small area.

Hereinafter, described in detail by the accompanying drawings as follows.

In other words, the present invention allows the vehicle to run on the water, such as the lizard running on the surface of the lizard and the bouncing stones in the process of smashing the water. In; Momentum required orbit plate 11 made of a micro-area, such as a lizard to both sides of the vehicle 30 are continuously connected to one another so that the vehicle can move from the surface of the water within the retention time △ T of the track plate 11 V _b and a front tire 21 having a belt track 10 configured to have π R / ΔT and being axially coupled to both front and rear sides of the vehicle 30 to wind and support the front and rear ends of the belt track 10. A rear tire 22 and one or more idle tires 23 for supporting a lower surface of the belt track 10 between the front tire 21 and the rear tire 22, the interior of the vehicle 30 It can be carried out by having an internal engine 41 in or provided with an external engine 42 attached to the outside rear.

On the other hand, in the practice of the present invention is to have the buoyancy value of the substructure so that the odd line, which is the submerged line at rest, is located lower than the tire axis in the belt track 10.

In addition, the front of the vehicle 30 can be carried out by forming an additional buoyancy bead 31 inclined toward the lower surface to generate a moving buoyancy.

In addition, the front tire 21, the rear tire 22 and the idle tire 23 is preferably carried out by a pneumatic tire filled with high pressure air to form a buoyancy.

As described above, the present invention allows the lizard, which occurs in nature, to run continuously on the water by the principle of walking on the water and the smash effect on the surface of the water, and the repelling force generated when the track plate continuously flushes the water. While staying at the track plate will be able to run on the water while moving fast.

In other words, the moment of staying on the water with the repulsive force while hitting the water at the required distance is obtained experimentally or engineering, and then the internal and external power advances the speed that should proceed at that moment. The required speed is, for example, if the speed is induced by external power, and the moving speed of the external power system matches the moving speed of the small area of the track plate, that is, the critical speed according to the height of the belt track. When it arrives, a system is established that naturally sums up the small area and proceeds on the water while watching the system.

Here, it is known that the lizard stays at sleep for 1/20 seconds and stays for about 10 ^-1 seconds in the case of the stone channel effect to sleep.

Then, when the technical expression of the present invention is developed in terms of engineering with reference to FIG. The continuous feed to position B must also be ΔT. Therefore, when V _b = π R / ΔT, for example, ΔT = 10 ⁻¹ seconds, and the radius of the belt orbit as 0.3 meters as shown in FIG. 2 is Vb = 3π m / sec, Converted, V _b = 33.9 km / hr, or about 18.3 knots.

Here, as in the embodiment of Figure 4, the water moving belt track vehicle of the present invention is filled with water up to the odd line located below the tire axis of the vehicle at the time of stopping, by driving the screw driven by two water engine motors When the speed reaches the critical speed of the present invention, that is, the speed of stepping on the water, the belt tracks surrounding the front wheels and the rear tires supporting the entire vehicle can run on the water. At this time, in the case of the belt track in the idling state composed of the connecting shaft as shown in Figure 5, when the speed of the system as Vs as shown in Figure 1, the belt track only when the speed V _b is equal to Vs, the belt It can be said that the orbit is on the water. That is, again, even if the belt track is in an idling state or driven, the linear speed of the belt track must meet the critical speed condition of Vs = V _b = π R / ΔT as described above. It is established as a belt track. When the number of revolutions of the tire in this belt track at the time of stepping on the water is calculated, it is 30 / ΔT RPM and the required power reaches ^1/2 MV _b ² / (746 × ΔT) horsepower. If ΔT = 10 ⁻¹ seconds and the belt track height is 0.6 meters as in the above example, the horsepower per system ton is about 60 horsepower.

Therefore, the present invention can be called a water revolution because it can proceed on the water at high speed as if on the ground. If all existing water vehicles have continued the war with the water, the present invention will continue to cooperate with water. It can be said to be the same as building a highway on the water.

In addition, in the case of a large water vehicle, a capper filler is designed and manufactured to have a series of pneumatic tires embedded in a belt track that can run on water as described in the present invention, and designed and manufactured to transmit to an external power source or to idle by itself. Considering the weight and size of the weight-bearing load, the required number of capillary modules can be installed.

According to the present invention, in a belt track water mobile vehicle, an additional buoyancy bead provided at the front of the vehicle helps the odd line be positioned below the tire axis of the vehicle when the vehicle is stopped, and reaches a critical speed of the vehicle of the present invention at the start or Minimize the resistance of the water in front of the vehicle until it causes additional buoyancy, and even if a large wave comes in front of the vehicle will be able to move through it.

Claims (4)

In a vehicle having a float therein so that it can be injured on the water surface; Momentum required orbit plate 11 made of a micro-area, such as a lizard to both sides of the vehicle 30 are continuously connected to one another so that the vehicle can move from the surface of the water within the retention time △ T of the track plate 11 V _b and a front tire 21 having a belt track 10 configured to have π R / ΔT and being axially coupled to both front and rear sides of the vehicle 30 to wind and support the front and rear ends of the belt track 10. A rear tire 22 and one or more idle tires 23 for supporting a lower surface of the belt track 10 between the front tire 21 and the rear tire 22, the interior of the vehicle 30 The water moving belt track vehicle, characterized in that provided with an internal engine (41) or provided with an external engine (42) attached to the outside rear. The method of claim 1, A waterborne belt tracked vehicle characterized by having a buoyancy value of a float so that an odd line, which is a submerged line, is positioned lower than a tire axis in the belt track. The method of claim 1; The waterborne belt track vehicle, characterized in that the front side of the vehicle is inclined toward the lower surface to form an additional buoyancy bead to generate a moving buoyancy. The method of claim 1; And the front tire, the rear tire and the idle tire are formed of pneumatic tires filled with high-pressure air to form buoyancy.

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