WO2007061336A1 - Water engine - Google Patents

Abstract

The invention relates to engines, in particular, to engines in which a working medium is embodied in the form of an aqueous phase, and can be used for energy engineering. Said invention makes it possible to produce an operating movement of a flexible working member in such a way that it enables to convert said movement into a required power by reducing a pressure action produced on a hollow element which is arranged on said flexible working member and placed in an aqueous phase and by simultaneously producing a force directed tangentially to the circle thereof. The inventive water engine comprises a hollow body (1) provided with a unit (2) which is arranged therein in such a way that it enables a torque to be transmitted, a closing device embodied in the form of a rotatable ball (3) or cylinder (4) is arranged in the lower part in an axial alignment manner with the unit axis. The unit (2) and the closing device (3) or (4) are encompassed by the flexible working member (5) to which hollow elements are fastened at a fixed pitch. Said closing devices (3, 4) are provided with cavities (7) comprising membranes (8) in the form of closing elements. The closing device can comprise channels (9) communicating with the membranes (8). A spring-loaded roller (10) is mounted on the axis of the closing device, wherein said roller is shaped in such a way that the top part of the surface thereof copies the ball surface line.

Description

 WATER ENGINE

FIELD OF TECHNOLOGY

The invention relates to engines, in particular to engines in which the working medium is the aqueous phase and can be used in energy.

BACKGROUND OF THE INVENTION Various constructions of water engines in which the working phase is the aqueous phase are widely known in the literature. There are various designs of water engines, the principle of which is based on the use of the force of Archimedes. For example, a water engine in the form of a wooden drum, mounted on an axis and placed in water, is known (Ya. I. Perelman, “Attractive Physics. Book Two.”, Moscow, Hayka, 1979). In the known device, the acting forces are distributed so that the applied force is directed along the radius of the wheel, i.e. the wheel does not have the possibility of rotational motion, because according to the known laws of physics, in order to cause rotation, it is necessary to apply a force perpendicular to the radius, i.e., along the tangent to the circumference of the wheel. Also known is the design of a water engine for generating energy using the Archimedes law (see, for example, http://4egeca.com), which contains a hollow vertically oriented body 20 m high, in the upper and lower parts of which are installed blocks, the latter are rigidly fixed to a flexible the working body at a certain distance from each other 14 hollow tanks. According to the author, in conditions of filling the body with water, hollow tanks in the water tend to float up. This should happen because the tanks are driven into motion by a force equal to the weight of the water displaced by the hollow tanks. So, if each tank is made with a volume of 1 m ³ , then the buoyancy force is a multiple of the number of tanks, submerged in water. Since there should always be 6 boxes in the water, the force that carries the loaded boxes up is equal to six cubic meters of water, i.e. six tons. They are pulled down by the own weight of the boxes, which, however, is balanced by a load of six boxes hanging freely on the loaded side of the rope. So, the rope thrown in this way will always be subject to a draft of 6 tons applied to one side of it and directed upwards. The author assumed that it was this force that would cause the rope to rotate non-stop, sliding along the pulleys, and at each revolution to do work equal to 6000 * 20 = 120,000 kgm. However, the known device is inoperative, because the expected movement of the rope does not occur due to the fact that in order for the rope to begin to rotate, the boxes must enter the tower’s water basin from below and leave it from above. Entering the pool, the box must overcome the pressure of a column of water at 20 m high. This pressure per square meter of the box’s area is equal to twenty tons (weight 20 cubic meters of water), while the upward thrust is only 6 tons, i.e. clearly insufficient to impart mechanical movement. Thus, the disadvantage of this design is that it is inoperative due to the fact that when the hollow element enters the pool with water, it is affected by the pressure force of the liquid, which is much greater than the ejection force of the hollow elements immersed in water.

Disclosure of invention

The objective of the invention is to develop a workable water engine by reducing the effect of pressure on the hollow element in the water, and creating a force directed along the tangent to its circumference.

The problem is solved in that the proposed device comprises a hollow vertically oriented housing, in the upper part of which an axis is mounted on the axis through which a flexible working a body on which hollow elements are rigidly fixed, arranged relative to each other with a certain step, moreover, in the lower part of the housing along one axis with the block there is a locking device made with the possibility of rotational movement in the form of a ball or cylinder or ellipse, the locking device is covered by a flexible worker body and made with cavities, the shape and pitch of which corresponds to the shape and pitch of the hollow elements, the locking device is equipped with locking elements made with the possibility of their movement inside the cavities on n rule to the surface of the locking device, the connection with the housing of the locking device holds tight.

The casing is a space-limited volume, the upper part of which is open on the unit placement side and communicates with atmospheric air. The form of execution of the body is a cylinder or half cylinder or hemisphere or box. The housing may be made of any hydrophobic material, for example, metal or a polymeric material or glass.

The unit is configured to transmit torque and hold a flexible working body. As a block, a cylinder with a rolling bearing or a shaft or ball or other similar device that allows the rotational movement of a flexible working body can be used.

Flexible working body is made endless in the form of a chain or tape or thread and can be made of metal or plastic material or any other known hydrophobic material. Hollow elements are placed on a flexible working body evenly in an amount of at least 2 pieces, made in the form of a ball or cylinder or ellipse and filled with air or gas with a density equal to or lower than air density, for example, argon or nitrogen or gas mixtures, or hollow elements to be evacuated. The tight connection of the locking element with the housing is made along the axis of the locking device at the lower and upper points of interaction of the surface of the locking device and the side wall of the housing.

The locking elements can be made in the form of membranes with a spring-loaded pinch roller, while the locking device can be provided with channels that are connected to the membranes. The locking elements can be made in the form of a crank mechanism or an eccentric.

The inventive device does not exclude the possibility of applying external force by any known means, as well as the ability to remove the received energy, for example, by connecting a water motor to a shaft or other similar devices through a block or through a locking device for converting the received energy into the desired type of energy. The inventive device differs from the prototype in that it further comprises a locking device, which is located on the same axis with the block, made with the possibility of rotational movement and prevents the passage of water into the air compartment; the locking device is made in the form of a ball or cylinder or ellipse and has cavities inside which are installed locking elements made with the possibility of their movement towards the surface of the locking device; the cavity of the locking device alternate in accordance with the step of the location of the hollow elements on a flexible working body; flexible working body covers the locking device in the lower part of the housing; the connection of the locking device with the housing is sealed.

As noted above, in previously known designs it was not possible to create movement as such, including due to the fact that the force of fluid pressure on the hollow element that enters the water in the lower part of the body is greater than the total buoyant force acting on the hollow elements located on a flexible working organ. The author of the invention, a shut-off device is introduced into the design of the water engine, a part of the proposed structure being in the aqueous phase, and the other part in the air phase. A certain part of the area of the locking device perceives the pressure of the liquid. Due to the fact that the locking device is equipped with cavities with locking elements, at the time the hollow element is in the cavity of the locking device, the surface geometry of the locking device is maintained. The design of the locking device proposed by the Author reduces the pressure of the liquid on the hollow element when it enters the liquid phase, and the flexible working body is able to move due to the fact that the buoyancy force becomes greater than the pressure force of the liquid on the hollow element, and a supporting force also arises. At the same time, the implementation of hollow elements on a flexible working body of a spherical or cylindrical or ellipsoidal shape provides the possibility of creating a force directed along the tangent to its circumference, i.e. known physical forces do not interfere with the expulsion of the hollow element.

The author made a working model of the proposed engine, which allows to obtain the claimed technical result - the movement of a flexible working body for a sufficiently long period of time. However, it should be noted that the uptime of the proposed device can be significantly increased by improving the tightness of the connection between the housing and the locking device. The inventive design is performed by the Author in laboratory conditions, i.e. without attracting industrial opportunities to create a tight joint and antifriction properties of the joint, the housing is a locking device. Improving the tightness will create conditions for the complete elimination of fluid leakage between the housing and the locking device, and, therefore, eliminates the possibility of the liquid phase entering the housing during work. BEST MODES FOR CARRYING OUT THE INVENTION A specific embodiment of the claimed engine and its elements is described below with reference to the accompanying drawings.

Figure 1 schematically shows the design of the inventive water engine.

Figure 2 shows a locking device made in the form of a cylinder.

Fig. 3 shows a locking device with channels and membranes. Figure 4 schematically shows a locking device with a squeeze roller.

The engine comprises a housing 1, in the upper part of which a block 2 is located, and in the lower part on the axis there is a locking device in the form of a ball 3 or in the form of a cylinder 4. Block 2 and a locking device 3 or 4 are covered by a flexible working body 5, on which hollow elements are fixed in steps 6. The locking devices 3 or 4 have cavities 7 with locking elements in the form of membranes 8. The locking device can have channels 9, the cavities 7 are overlapped by membranes 8. A spring-loaded roller 10 is mounted on the axis of the locking device 3, the roller being made oh shape that the outer part of the surface of the ball follows the surface line.

The engine operates as follows. The housing 1 with the installed block 2, the locking device 3 or 4 and the flexible working body 5 with hollow elements 6 goes into the liquid phase. Part of the hollow elements 6 is located in the locking device (in Fig. 1, three hollow elements b are located in the locking device 3), and due to the shape and design of the locking device 3, the hollow elements 6 are arranged so that the shape of the locking device is completely spherical. Due to this, the liquid exerts pressure on a part of the surface of the locking device 3 of the ball and on part of the surface of the hollow element 6. With this distribution of forces on the structural elements, the pressure of the liquid column is less than the buoyant force acting on the hollow elements 6 of the flexible working body 5 (Fig. 1 shows 5 hollow elements). Under the action of these forces, the working body 5 is set in motion, while the movement of the flexible working body 5 allows the simultaneous exit of one hollow element 6 from the locking device 3 or 4 and the entrance of the next hollow element 6 to the locking device 3 or 4. The membrane 8 bends and receives the shape of the part of the hollow element b that enters the locking device 3 or 4 during the movement of the flexible organ 5. When the locking device is rotated, the release roller 10 extrudes the membrane 8, preventing liquid from entering through the locking device molar device into the housing.

The operation of the locking device with channels 9 is characterized in that when the hollow element 6 is installed in the locking device 3 or 4, the membrane 8 bends and creates air pressure, which presses on the membrane of the opposite hole, from which another hollow element 6 exits.

Industrial applicability

The inventive water engine allows for the movement of a flexible working body, which previously could not be achieved. The resulting movement can be used in industry to convert it into the required energy by any known methods. The efficiency of the inventive water engine can be increased by using the properties of the gas that fill the hollow elements, or by evacuating them, varying the number of hollow elements and the distribution step of the hollow elements on a flexible working body, the volume of the hollow element, and varying the density of the aqueous phase.

Claims

CLAIM

1. A water engine containing a hollow vertically oriented housing, in the upper part of which there is a block through which a flexible working element is thrown, made endless, hollow elements are rigidly fixed to the working body, placed relative to each other with a certain step, characterized in that, in the lower part of the housing, on the same axis with the block, a locking device is installed, mounted with the possibility of rotational movement and made in the form of a ball or cylinder or an ellipse with cavities, the shape and pitch of which corresponds to the shape and pitch of the hollow elements, the locking device is covered by a flexible working body and is equipped with locking elements made with the possibility of their movement inside the cavities towards the surface of the locking device, the connection of the locking device to the housing is sealed along the axis of the locking device at the lower and upper points of interaction of the surface locking device and side wall of the housing.

2. The water engine under item 1, characterized in that the flexible working body is made in the form of a chain or tape or thread.

3. The water engine according to claim 1, characterized in that the hollow elements are installed in an amount of at least 2 pieces.

4. The water engine according to claim 1, characterized in that the hollow elements are made in the form of a ball.

5. The water engine according to claim 1, characterized in that the hollow elements are made in the form of a cylinder.

6. The water engine according to claim 1, characterized in that the hollow elements are made in the form of an ellipse.

7. The water engine according to claim 1, characterized in that the hollow elements are filled with air.

8. The water engine according to claim 1, characterized in that the hollow elements are filled with gas with a density equal to or lower than the density of air.

9. The water engine according to claim 1, characterized in that the hollow elements are evacuated.

10. The water engine according to claim 1, characterized in that the locking elements can be made in the form of membranes with spring-loaded release rollers.

11. The water engine according to claim 10, characterized in that the locking device is provided with channels.

12. The water engine according to claim 1, characterized in that the locking elements are made in the form of a crank mechanism.

13. The water engine according to claim 1, characterized in that the locking elements are made in the form of an eccentric.