KR101701944B1 - Apparatus of Rotating Device using freefall for weights - Google Patents

Abstract

According to the present invention, a rotating apparatus using a free fall principle and a buoyancy member comprises: a first shaft; a second shaft; a main wheel; a first wire; and a second wire. The present invention provides the rotating apparatus using a free fall principle and a buoyancy member, which can enable the main wheel to idle.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotating device using a falling principle and a buoyancy member,

More specifically, the weight of the first weight member is larger than the weight of the second weight member and the force when the first weight member is located at the lowest point of the first buoyancy member, And a rotating device using the buoyancy member and a falling principle for inducing a falling at a very slow speed while idling the main wheel while receiving the resistance of the falling weight.

The present invention relates to a rotating device.

Recently, there has been an explosion of interest in securing environmentally friendly and highly efficient energy in the era of energy crisis such as high oil prices.

The fossil fuels and nuclear power generation methods are costly to produce energy, so they are not efficient and there are side effects of causing environmental pollution problems due to carbon emissions.

So-called renewable energy generation systems using solar energy, wind power, tidal power, wave power, and so-called 'natural energy' have been developed as complementary measures.

However, the conventional natural energy generation method has a limitation in that the efficiency of generated electric power is lower than that of the invested facility, and the natural energy is not continuously supplied uniformly, and thus the electric power production is not secured.

Therefore, there is an urgent need for an environmentally friendly clean energy conversion facility that utilizes an energy source that can be easily obtained from nature, not a depleting resource, but can be secured all the time regardless of time and place.

Further, there is a need for a power generating device capable of generating electricity more efficiently by continuously using a compact installation site and providing a plurality of power generating facilities.

The technology of the background of the present invention is as disclosed in Korean Patent No. 10-1097655.

However, Korean Patent No. 10-1097655 does not provide any solution to the above-mentioned problems.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems described above and to solve the above problems in the prior art. And a rotating device using the buoyancy member and a falling principle for inducing a drop at a very slow speed while idling the main wheel while receiving a resistance of water when the drop has a larger drop weight with a slight difference in weight.

Another object of the present invention is to provide a rotation device using a buoyancy member and a falling principle capable of maintaining at a constant speed the rotation of a shaft axis by sequentially forming a plurality of buoyancy members by forming at least one main wheel on a shaft axis .

It is a further object of the present invention to provide a method and a system for connecting a first weight member and a second buoyant member to a second weight member by lowering the second weight member when the second weight member reaches a maximum point, The first buoyant member and the second buoyant member connected to the second weight member are detached to induce a free fall of the first weight member and a rotating device using the buoyancy member.

Another object of the present invention is to provide a rotating device using a dropping principle and a buoyancy member that can be conveniently used by automating the movement of the buoyancy device through the link portion.

It is a further object of the present invention to provide a gear shifting device in which a large gear connected to a first shaft shaft by a buoyant force of a buoyancy member is lowered through a first buoyancy member and a second buoyancy member, And a rotating device using the buoyancy member.

It is still another object of the present invention to provide a method of driving a motor vehicle in which a second weight member connected to a main wheel of a shaft shaft is dropped through a first buoyancy member and a second buoyancy member to rotate a shaft axis, The second buoyancy member connected to the second weight member and the second buoyancy member are removed and the second weight member lifted to the highest point after raising the second weight member through the fall of the first weight member is moved to the first buoyancy member The present invention provides a rotating device using a buoyancy member that re-drops through a buoyancy member and rotates a shaft axis by the force of buoyancy.

According to an aspect of the present invention for achieving the above-mentioned object, the present invention provides a gear shifting device comprising: a first shaft shaft having a first gear formed on one side; A second shaft having one side formed to rotate through rotation of the first gear and a second gear formed with a smaller diameter than the first gear; A main wheel which is formed on the other side of the first shaft shaft and includes a first wire winding portion and a second wire winding portion and idles when rotated to one side and rotates the first shaft axis when rotated to the other side; A first wire connected to a first weight formed on one side of the second weight and a second wire fixed on the first wire on the other side of the main wheel; And a second wire connected to a second weight member having one side smaller than the first weight member and the other end fixed to a second wire winding portion of the main wheel, The rotation speed of the second shaft shaft is changed by the rotation speed of the first shaft shaft through the difference of the diameters, and the first wire and the second wire are arranged such that, when the main wheel rotates to one side, Wherein the first wire is wound and the second wire is loosened when the main wheel rotates to the other side, wherein the first weight body comprises a case in which the first weight body is freely dropped in the air, Wherein the case includes at least one first rail connecting the first weight and the inner wall of the case, the first weight fixing the position of the first weight when the first weight moves up and down; And at least one first direction switching member for seating the first wire and switching the feeding direction, wherein the second weight body moves up and down in a water filled tank, At least one second direction switching member for seating the second wire and switching the feeding direction; A third wire connected to one side of the second weight member and connected to the first buoyancy member; At least one third direction switching member for seating the third wire and switching the feeding direction; A first buoyancy member connected to the other side of the third wire so that the other side of the third wire is always positioned in the water surface in the water tank; And a second buoyancy member that includes a first piston to be separated from the first buoyancy member when the second weight has reached a lowest point and drops the second weight through a buoyancy in engagement with the first buoyancy member, ; The second buoyancy member is formed to have a larger size than the outer diameter of the second buoyancy member, and the second buoyancy member is in close contact with the wall surface and the falling speed is adjusted by the air pressure The second buoyant member is provided in a form of a hoist which is formed to be able to move the second buoyant member to the inlet pipe when the second buoyant member rises above the water surface and is separated from the first buoyant member, A discharge pipe for discharging the second buoyant member moved to the charging pipe by the moving member to the water surface by engaging with the first buoyant member located below the water tank, And a link portion including a second piston for moving the second buoyant member to the discharge port and engaging with the first buoyant member when the member is located in the discharge pipe, A third stopper formed on the inner wall and defining a position of the second weight when the first weight drops to the lowest point, and a second stopper formed on the inner wall of the third weight to detect the position of the second weight when the first weight is lifted to the highest point, Wherein the first stopper and the fourth stopper are provided with adjusting portions for adjusting the up and down elevation and the first buoyancy member and the second buoyancy member are arranged such that the first weight drops down to the lowest point Wherein the first buoyant member and the second buoyant member are coupled to each other and the first buoyant member and the second buoyant member are engaged with each other when the first weight is lifted up to a maximum point, Wherein at least one ball bearing is formed on the inner wall and the discharge port includes an opening and closing member for opening and closing the upper portion, The second buoyancy member is opened when the second buoyancy member is engaged with each other, and is closed when the first buoyancy member is completely lowered.

Further, the first weight member may have a larger weight than the second weight member and, when the second buoyancy member is detached from the first buoyancy member due to a larger dropping weight than the first buoyancy member, Wherein the first weight member is dropped and the second weight member connected to the second wire is raised and the first buoyancy member is dropped to make the main wheel idle, When the buoyancy member and the second buoyancy member are engaged, the second weight connected to the second wire drops, and simultaneously raises the first weight connected to the first wire and rotates the main wheel .

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The weight shaft may further include a weight wheel fixed to the second shaft shaft, and the second shaft shaft may be weighted in a rotational direction during rotation to facilitate rotation.

Further, the first weight member has a weight greater than a sum of the weight of the second weight member and the buoyancy force at the lowest point of the first buoyancy member.

The injection pipe may further include: a first sealing member for sealing the injection pipe; And a control valve for controlling the air pressure of the closed inlet pipe due to the descent of the second buoyant member.

In addition, the discharge pipe may include a second piston which moves the second buoyant member to the discharge port and engages with the first buoyant member when the second buoyant member moved through the inlet pipe is located in the discharge pipe .

The discharge tube may further include: a second sealing member for sealing the discharge tube; And a water discharge pipe for discharging water in the water tank introduced from the discharge port to the outside.

The first buoyant member may include a male engaging portion formed on an upper surface thereof, and the second buoyant member may include an arm engaging portion formed on a lower surface thereof. The first buoyant member and the second buoyant member may be engaged with each other, 2 weight body is dropped.

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According to the present invention as described above, since the weight of the first weight body is larger than the weight of the second weight body and the force when the first weight body is located at the lowest point of the first buoyancy member, And a falling device for rotating the main wheel and a rotating device using the buoyancy member can be provided.

In addition, according to the present invention, it is possible to provide a rotating device using a buoyancy member and a falling principle capable of maintaining at a constant speed the rotation of a shaft shaft by sequentially forming a plurality of buoyancy members by forming at least one main wheel on a shaft shaft have.

According to the present invention, when the first weight reaches the lowest point, the buoyancy device is connected to the second weight to raise the first weight, and when the first weight reaches the highest point, it is connected to the second weight It is possible to provide a principle of descent and a rotating device using the buoyancy member to detach the buoyancy device to induce a free fall of the first weight.

Further, according to the present invention, there is provided a falling device that can be conveniently used by automating the movement of a buoyancy device through a link portion, and a rotating device using the buoyancy member.

According to the present invention, a large gear connected to the first shaft shaft accelerates and rotates a small gear connected to the second shaft shaft while the second weight body is lifted through the buoyancy member, And a rotating device using the principle and the buoyancy member can be provided.

According to the present invention, the second weight connected to the main wheel of the shaft shaft is dropped through the first buoyancy member and the second buoyancy member to rotate the shaft shaft, and the second weight connected to the main wheel and the second weight The first buoyant member and the second buoyant member connected to the sieve body are removed and the second weight member lifted to the highest point after raising the second weight member through the fall of the first weight member is called the first buoyancy member and the second buoyancy member, It is possible to provide a descent principle for rotating the shaft shaft by re-falling through the member and a rotating device using the buoyancy member.

FIG. 1 is a perspective view of a rotating device using a buoyancy member according to an embodiment of the present invention. FIG.
FIGS. 3 to 4 are schematic views illustrating a principle of falling and a rotating device using a buoyancy member according to an embodiment of the present invention.
5 to 6 are schematic views illustrating a case according to an embodiment of the present invention.
7 to 8 are schematic views showing a water tub according to an embodiment of the present invention.
9 to 13 are schematic views showing a link portion according to an embodiment of the present invention.
14 to 16 are sectional views of a discharge pipe according to an embodiment of the present invention,
17 is a perspective view of a second buoyant member according to an embodiment of the present invention.
FIG. 18 is a perspective view showing the state of engagement between the second buoyancy member and the first buoyancy member according to the embodiment of the present invention.
FIG. 19 is a flowchart showing a descending principle according to the embodiment of the present invention and a flowchart showing a sequence of a rotating device using a buoyancy member
FIG. 20 is a flowchart showing the principle of the dropping according to the embodiment of the present invention and the movement of the second buoyant member in the rotating apparatus using the buoyancy member.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the drawings for explaining a principle of a drop and a rotating device using a buoyancy member according to embodiments of the present invention.

FIG. 1 is a perspective view of a rotating device using a buoyancy member according to an embodiment of the present invention. FIGS. 3 and 4 are views showing a principle of a drop and a rotating device using a buoyancy member according to an embodiment of the present invention. Fig.

Referring to FIGS. 1 to 4, a rotating device using a falling principle and a buoyancy member according to the present invention includes a first shaft shaft 120a, a second shaft shaft 120b, a first gear 122a, a second gear 122b A main wheel 130, a first wire 210, a second wire 310, a weight wheel 125, a case 200, a water tank 300, and a link unit 400.

The first shaft 120a having the first gear on one side is formed with the first gear 122a and one or more main wheels 130 is formed on the other side.

One or more main wheels 130 may be provided and one or more main wheels 130 may be connected to each of the main wheels 130 in consideration of a drop time and a rise time of the first weight 220 connected to the main wheels 130. [ And the number of the wheels 130 is adjusted so as to be always dropped.

The second shaft shaft 120b is formed to rotate with one side engaged with the first gear 122a and becomes a second gear 122b having a smaller diameter than the first gear 122a.

Here, the first gear 122a and the second gear 122b vary the rotation speed of the second shaft shaft 120b by the rotation speed of the first shaft shaft 120a through the difference in diameter.

However, to change the speed ratio of rotation is not limited to the gear ratio.

That is, the rotational force and the rotational speed can be adjusted through the difference in the sizes of the first gear 122a and the second gear 122b, and the rotational force can be changed depending on how much rotational force is required.

The first gear 122a and the second gear 122b may be connected to each other by a fan belt and rotated in the same direction.

Here, the weight wheel 125 rotates only one side, and is fixed to the second shaft shaft 120b, and the second shaft shaft 120b weights in the rotational direction during rotation to facilitate rotation.

On the other side of the second shaft shaft 120b, it is possible to mount all articles that can be constructed using rotation such as a spinning wheel, a generator, and the like.

That is, it is possible to generate power or rotate the article through the rotation of the second shaft shaft 120b.

The main wheel 130 is connected to the first shaft shaft 120a and includes a first wire winding portion and a second wire winding portion. The main wheel 130 idles when rotated to one side, Thereby rotating the shaft shaft 120a.

Here, the main wheel 130 has an anti-reverse bearing formed therein to rotate the shaft shaft 120a when rotated to the other side. When the main wheel 130 rotates to one side, only the main wheel 130 idles to rotate the first shaft shaft 120a. It does not affect the power.

A plurality of main wheels 130 are formed on the first shaft shaft 120a and a plurality of main wheels 130 are sequentially rotated to rotate the first shaft shaft 120a at a constant speed.

The first wire 210 has one end connected to the first weight 220 and the other end fixed to the first wire winding portion of the main wheel 130.

The second wire 310 has one end connected to the second weight 320 and the other end fixed to the second wire winding portion of the main wheel 130.

When the first weight 220 connected to the first wire 210 drops, the second weight 320 connected to the second wire 310 rises and the main wheel 130 idles, When the second weight 320 connected to the second wire 310 drops, the first weight 220 connected to the first wire 210 rises and the main wheel 130 moves to the first shaft 210. [ And rotates the shaft 120a.

That is, when the first weight 220 connected to the first wire 210 drops, the second weight 320 connected to the second wire 310 rises and the main wheel 130 rotates When the second weight 320 connected to the second wire 310 drops, the first weight 220 connected to the first wire rises and the first shaft 120a ).

When the main wire rotates to one side, the first wire is loosened and the second wire is wound. When the main wheel rotates to the other side, the first wire is wound and the second wire is loosened.

The second weight 320 starts dropping when the first weight 220 falls to the lowest point and the first weight 220 moves to the lowest point of the second weight 320 Start to fall when dropped.

At least one first direction switching member 140a, b is formed, and the first wire 210 and the second wire 310 are seated to switch the feeding direction.

Since the first weight 220 has a greater weight than the second weight 320 and the first weight 220 has a greater weight than the second weight 320, 320 are connected to each other.

The second weight member 320 has a weight smaller than that of the first weight member 220 and the first and second buoyancy members 350 and 360 are connected and fall and the second weight member 320 The first weight 220 is lifted up.

5 to 6 are structural views showing a case 200 according to an embodiment of the present invention.

5 to 6, the case 200 includes a first rail and a first direction switching member.

Here, the first weight 220 moves up and down in a case where the first weight 220 falls freely in the air.

The first rail 240 is fixed to the case 200 such that the first weight 220 is vertically conveyed only up and down. The first rail 240 is formed on the inner wall of the case 200, (220) moves up and down.

A first stopper 245a is formed on the upper side of the first rail 240 and a second stopper 245b is formed on the lower side of the first rail 240 to adjust the degree of the upward and downward movement of the first weight 220 Do

It is preferable that at least one first direction switching member is formed on the inner wall surface of the case, and the first wire is seated to switch the feeding direction.

7 to 8 are structural diagrams showing a water tank 300 according to an embodiment of the present invention.

7 to 8, the second weight 320 includes a third wire 330, a first buoyancy member 350, and a second buoyancy member 360.

In addition, the second weight 320 moves up and down in the water tank 300 filled with water.

The first buoyancy member 350 is connected to the other side of the third wire 330 so that the other side of the third wire 330 is always positioned in the water surface in the water tank.

In addition, the first buoyant member 350 includes a male engaging portion 355 formed on the upper surface thereof.

The second buoyancy member (360) is engaged with the first buoyancy member to drop the second weight body (320) through buoyancy

The second buoyancy member 360 includes an arm engagement portion 365 formed on a lower surface thereof.

The first buoyancy member (350) and the second buoyancy member (360) are engaged to drop the second weight body (320).

The second buoyancy member 360 may include a first piston 366 to separate the first buoyancy member 350 and the second buoyancy member 360 when the second weight 320 reaches the lowest point, And a first driving unit 364 for driving the first piston 366.

Here, the water tub 300 includes a third wire 330, a third direction switching member 340a, b, a link unit 400, a third stopper 370b, and a fourth stopper 370b.

A third wire 330 connected at one end to the second weight 320 and connected to the first buoyancy member 350;

At least one or more third direction changing members 340a, b are formed, and the third wire 330 is seated to switch the feeding direction.

The link unit 400 allows the first buoyancy member 350 and the second buoyancy member 360 to be engaged when the second weight member 320 reaches the peak.

The first buoyancy member 350 and the second buoyancy member 360 may be formed in the same manner as the first buoyancy member 350 when the first weight member 220 is dropped to the lowest point. And the arm engagement portion 365 formed on the second buoyancy member are engaged with each other. When the first weight 220 is lifted to the highest point, it is detached.

The third stopper 370a is formed on the inner wall and defines the position of the second weight 320 when the first weight 220 falls to the lowest point.

The fourth stopper 370b is formed on the inner wall and limits the position of the second weight 320 when the first weight 220 is lifted to the highest point.

Here, the first stopper 370a and the second stopper 370b may be provided with an adjusting unit (not shown) for adjusting the up and down elevation.

FIGS. 9 to 13 are structural views showing a link part 400 according to an embodiment of the present invention, FIGS. 14 to 16 are transmission perspective views showing a discharge tube 415 according to an embodiment of the present invention, 18 is a transparent perspective view showing a state in which the second buoyant member 360 and the first buoyant member according to the embodiment of the present invention are engaged with each other, according to an embodiment of the present invention .

9 to 18, the link unit 400 includes an inlet 412, an inlet pipe 410, a moving member, a discharge pipe 415, a discharge port 417, a first sealing member 425, 2 piston 445 and a second sealing member 455.

In the inlet port 412, the second buoyancy member 360 is inserted.

The inlet pipe 410 extends downward from the inlet port 412 and is formed to have a larger size than the outer diameter of the second buoyancy member 360. The second buoyancy member 360 closely contacts the wall surface, So that the falling speed can be adjusted.

The shifting member moves the second buoyancy member (360) to the injection pipe (410) when the second buoyancy member (360) rises above the water surface.

Here, the moving member (not shown) may be used in various forms such as a hoist, but is not limited to a specific method.

The discharge pipe 415 is formed by coupling the second buoyant member 360 moved to the injection pipe 410 by the moving member with the first buoyant member 350 located below the water tank 300 Discharge to the surface.

Here, one or more ball bearings are formed on the inner wall of the inlet pipe 410 and the discharge pipe 415 to facilitate the conveyance of the second buoyancy member 360.

That is, because of the ball bearing, it is desirable that the drop in the inlet pipe 410 and the transfer of the inside of the discharge pipe 415 due to the second piston 445 are minimized so that the consumption of the force is minimized.

In addition, the charging pipe 410 includes a first sealing member 425 for sealing the charging pipe 410; A second driving unit 420 for driving the first sealing member 425; And an adjusting valve 435 for adjusting the air pressure in the closing pipe 410 sealed by the first sealing member 425.

When the second buoyant member 360 moved through the inlet pipe 410 is positioned in the discharge pipe 415, the second buoyant member 360 is discharged from the discharge port 417 A second piston 445 which moves to the first buoyancy member 350 and engages with the first buoyancy member 350; And a third driving unit 440 for driving the piston.

In addition, the discharge pipe (415) includes a second sealing member (455a) for sealing the discharge pipe (415); A fourth driving unit 450a for driving the second sealing member 455a; And a water discharge pipe (460) for discharging the water in the water tank (300) introduced from the discharge port (417) to the outside.

Here, the discharge pipe 415 includes a third sealing member 455b which closes the discharge pipe 415 and is formed in the vicinity of the second sealing member; And a sixth driving unit 450b for driving the third sealing member 455b, which is configured to be driven when the sealing of the second sealing member 455a becomes impossible due to a failure of the second sealing member 455a.

The first and second buoyant members 350 and 360 may be coupled to each other so that the first buoyant member 350 and the second buoyant member 360 are coupled to each other, When the first buoyant member 350 is completely lowered, it is closed.

Here, it is preferable that the opening and closing member 418b opens and closes the discharge port through the fifth driving unit 418a.

19 is a flowchart showing a descending principle according to an embodiment of the present invention and a procedure of a rotating device using a buoyancy member.

Referring to FIG. 19, first, the first weight 220 falls and the main wheel idles to raise the second weight 320 (s110).

Then, when the first weight 220 drops to the lowest point, the second buoyant member 360 inserted into the link portion 400 is connected to the first buoyant member 350 (s120).

The second weight 320 is then dropped by the first buoyancy member 350 and the second buoyancy member 360 to rotate the shaft axis 120 to raise the first weight 220 s130).

Then, the second buoyant member 360 raised above the water surface of the water tank 300 is removed (S140) with the first buoyant member 350.

Finally, the second buoyancy member 360 is inserted into the inlet 412 of the link unit 400 (s150).

Then, steps from S110 to S150 are repeated.

FIG. 20 is a flowchart showing the principle of the dropping according to the embodiment of the present invention and the movement of the second buoyancy member 360 in the rotating apparatus using the buoyancy member.

Referring to FIG. 20, first, the second buoyancy member 360 raised above the water surface of the water tank 300 is introduced into the inlet 412 through the moving member (s210).

Then, when the second buoyant member 360 drops in the injection pipe 410, the air pressure is adjusted through the control valve 435 to adjust the falling speed (s220).

Then, the first hermetic member 425, which is hermetically closed through the second driving unit 420, is opened to move the second buoyant member 360 to the discharge pipe 415. When the movement is completed, (425) to close the inlet pipe (410) (s230).

Then, the second buoyant member 360 is moved to the second piston 445 through the third driving unit 440 in front of the second sealing member 455 being closed (s240).

Then the second sealing member 455 which has been closed through the fourth driving unit 450 is opened and the second buoyancy member 360 is moved to the discharge port 417 by the second piston 445, After coupling with the buoyancy member 350, the second piston 445 is returned to its original position and the second sealing member 455 is closed (s 250).

Then, the opening / closing device 218b is opened (s260).

Then, the second buoyancy member 360 is discharged through the open discharge port 417 (s270).

Finally, when the second buoyancy member 360 rises above the water surface of the water tank 300, the first buoyancy member 350 drives the first piston 366 through the first drive unit 364, 360 are removed (s280).

Then, steps from step s210 to step s280 are repeated.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

120a: first shaft shaft 120b: second shaft shaft
122a: first gear 122b: second gear
125: weight wheel 130: main wheel
132: anti-reverse bearing 140a, b: first direction switching member
200: Case 210: First wire
220: first weight 240: first rail
245a: first stopper 245b: second stopper
300: water tank 310: second wire
320: second weight 330: third wire
340a, b: third direction switching member 350: first buoyancy member
355: male coupler 360: second buoyancy member
365: female coupling portion 364: first drive portion
366: first piston 370a: third stopper
370b: fourth stopper 400: link portion
410: input pipe 412: input port
415: discharge pipe 417: discharge port
418a: fifth driving part 418b:
420: second driving part 425: first sealing member
430: air pressure adjusting pipe 435: adjusting valve
440: third driving part 445: second piston
450a: fourth driving part 450b: sixth driving part
455a: second sealing member 455b: third sealing member
460: Leakage pipe

Claims (12)

A first shaft shaft having a first gear formed on one side thereof;
A second shaft having one side formed to rotate through rotation of the first gear and a second gear formed with a smaller diameter than the first gear;
A main wheel which is formed on the other side of the first shaft shaft and includes a first wire winding portion and a second wire winding portion and idles when rotated to one side and rotates the first shaft axis when rotated to the other side;
A first wire connected to a first weight formed on one side of the second weight and a second wire fixed on the first wire on the other side of the main wheel;
And a second wire connected to a second weight body having one side formed to a weight smaller than the first weight body and the other side fixed to a second wire winding portion of the main wheel,
Wherein the first gear and the second gear,
The rotation speed of the second shaft shaft is changed by the rotation speed of the first shaft shaft through the difference in diameter,
The first wire and the second wire are electrically connected to each other,
Wherein when the main wheel rotates to one side, the first wire is loosened and the second wire is wound, and when the main wheel rotates to the other side, the first wire is wound and the second wire is loosened,
The first weight body may be formed,
Characterized in that the first weight moves up and down in a case in which the first weight moves freely in the air,
In this case,
At least one first rail connecting the first weight and the inner wall of the case, the first weight fixing the position of the first weight in vertical movement; And
And at least one first direction switching member for seating the first wire and switching a feeding direction,
Characterized in that the second weight body is vertically moved in a water tank filled with water,
In the water tank,
At least one second direction switching member for seating the second wire and switching the feeding direction;
A third wire connected to one side of the second weight member and connected to the first buoyancy member;
At least one third direction switching member for seating the third wire and switching the feeding direction;
A first buoyancy member connected to the other side of the third wire so that the other side of the third wire is always positioned in the water surface in the water tank;
And a second buoyancy member that includes a first piston to be separated from the first buoyancy member when the second weight has reached a lowest point and drops the second weight through a buoyancy in engagement with the first buoyancy member, ;
The second buoyancy member is formed to have a larger size than the outer diameter of the second buoyancy member, and the second buoyancy member is in close contact with the wall surface and the falling speed is adjusted by the air pressure The second buoyant member is provided in a form of a hoist which is formed to be able to move the second buoyant member to the inlet pipe when the second buoyant member rises above the water surface and is separated from the first buoyant member, A discharge pipe for discharging the second buoyant member moved to the charging pipe by the moving member to the water surface by engaging with the first buoyant member located below the water tank, And a second piston which moves the second buoyant member to the discharge port and engages with the first buoyant member when the member is located in the discharge pipe,
Wherein the water tank is formed on an inner wall and has a third stopper for defining a position of the second weight when the first weight drops to the lowest point and a second stopper formed on an inner wall of the third weight for weighting the second weight Wherein the third stopper and the fourth stopper are formed with adjusting portions for adjusting the up and down height,
Wherein the first buoyancy member and the second buoyancy member are configured such that when the first weight member is dropped to the lowest point, the male engaging portion formed on the first buoyancy member and the female engaging portion formed on the second buoyancy member are engaged, Characterized in that it is removed when the body is raised to its peak,
Wherein at least one ball bearing is formed on the inner wall of the discharge pipe and the discharge pipe,
The discharge port includes an opening and closing member for opening and closing the upper portion,
Wherein the opening / closing member is opened when the first buoyant member and the second buoyant member are engaged with each other, and is closed when the first buoyant member is completely lowered, and the rotating apparatus using the buoyancy member.
The method according to claim 1,
When the second buoyancy member is detached from the first buoyancy member due to a larger dropping weight than the first buoyancy member with a larger weight than the second weight member, the first weight connected to the first wire drops, The second weight member connected to the two wires is raised, the first buoyancy member is dropped, and the main wheel idles.
And the second weight body comprises:
When the first buoyancy member and the second buoyancy member are engaged, the second weight connected to the second wire drops, and simultaneously raises the first weight connected to the first wire and rotates the main wheel Features of a falling device and a rotating device using a buoyancy member.
delete The method according to claim 1,
Further comprising a weight wheel fixed to the second shaft shaft and configured to increase the weight of the second shaft shaft in the rotational direction when the second shaft shaft rotates. The method according to claim 1,
And a weight greater than a sum of the weight of the second weight member and the buoyancy force at the lowest point of the first buoyancy member.
The apparatus according to claim 1,
A first sealing member for sealing the injection pipe; And a regulating valve for regulating the air pressure of the closed inlet pipe due to the descent of the second buoyant member, and a rotating device using the buoyancy member.
The discharge tube according to claim 1,
And a second piston for moving the second buoyant member to the discharge port and engaging the second buoyant member with the first buoyant member when the second buoyant member moved through the inlet pipe is located in the discharge pipe. Principle and rotating device using buoyancy member.
8. The apparatus according to claim 7,
A second sealing member for sealing the discharge pipe; And a water leakage pipe for discharging the water in the water tank introduced from the discharge port to the outside.
The hydraulic excavator according to claim 1,
And a male engaging portion formed on the upper surface,
Wherein the second buoyancy member comprises:
And a female coupling portion formed on the lower surface,
Wherein the first buoyancy member and the second buoyancy member are engaged with each other to drop the second weight member, and the rotating apparatus using the buoyancy member. delete delete delete

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