FR2801077A1 - Gravity powered motion energy generator has float tube rising in tank and falling under gravity in air, mounted around pulleys - Google Patents

Abstract

The gravity powered energy generator (10) has a tank (11) containing a liquid such as water. A sealed float is positioned in the tank to rise from the bottom of the tank and is removed from the tank to fall under gravity through air. The float can be a tube (12) supported on two pulleys (13,15), one of which is connected to a generator. The tank has an opening (17) with a sealed joint (18) to passage of the tube.

Description

The present invention relates to a gravity drive and / or thrust drive device. The present invention relates to a gravity drive and / or thrust drive device. Archimedes, comprising at least one tank containing a liquid, for example water and at least one closed chamber containing a fluid, alternately immersed in the tank and subjected to the Archimedes shoot and alternatively placed outside the tank and subjected to gravitational forces.

Devices of this type are already known including, in particular, a successions of closed enclosures interconnected by a chain or a cable and which traverse bottom upwards a tank containing a liquid in a manner <B> to </ B> be subject <B> to </ B> vertical pushing forces.

The devices of the prior art, and in particular that described above, have major drawbacks which are linked to the introduction of these independent enclosures in a sealed manner at the bottom of the tank and at <B> </ B> the counterpressure generated by the liquid of the tank on these speakers risking to consume the majority of the created energy.

The object of the present invention is to overcome this disadvantage by providing a device that allows energy to be recovered in a non-polluting manner and to transform it into a particularly rotary movement, in a simple and economical manner, using standard components.

This object is achieved by a device as described in the preamble, characterized in that said enclosure comprises at least one flexible hose forming a loop, a part of which is arranged <B> to </ B> inside the vessel and a part is disposed <B> to </ B> the outside of this tank. According to a preferred embodiment, the device comprises less a first wheel disposed at the top of the tank and at least a second wheel arranged <B> to </ B> the outside of the tank, under the latter, substantially in the same vertical plane that said first wheel, these two wheels being arranged to support said flexible pipe.

According to another embodiment, the device comprises at least one first wheel disposed at the top of the tank and at least one second wheel arranged <B> inside the tank, at the bottom of the latter and a third wheel disposed substantially at the same level as said second wheel <B> to </ B> the outside of said vessel, these three wheels being arranged to support said flexible pipe. According to yet another embodiment, the device comprises less a first wheel and a second wheel arranged at the top of the tank, substantially at the same level, at least one third wheel arranged <B> to </ B> inside the tank, at the bottom of the latter and a fourth wheel disposed substantially at the same level as said third wheel, <B> to </ B> outside said tank these four wheels being arranged to support said flexible pipe.

In general, at least one of the wheels is mounted on an axis coupled to a driving equipment and said other wheels are mounted idle on parallel fixed axes. Similarly, at least one of the wheels can advantageously be mounted on a tensioner for adjusting the tension of the pipe between said wheels and to ensure adhesion between said pipe and these wheels. Advantageously, said flexible pipe comprises at least one transverse internal wall tight to prevent any flow of fluid <B> to </ B> inside the pipe. To increase the effectiveness of the system, said flexible pipe is compartmentalized and has a plurality of transverse bulkheads that define a plurality of enclosures arranged in the extension of each other.

In this context, the different speakers may be alternately filled with liquid and gas, the liquid contained in some speakers may be water and the gas contained in the other speakers may be pressurized air.

Said flexible hose is advantageously equipped with at least one filling and pressurizing valve of said fluid.

In order to allow the passage of the flexible pipe from the outside of the tank <B> to </ B> inside, without flow of the liquid it contains, said tank has at least one opening in its partition <B> at </ B> its lower part or in its bottom for the passage of the flexible pipe, this opening being equipped with a seal.

According to an advantageous embodiment, said seal comprises one or more lips having a shape adapted to the flexible pipe section and a rigid outer tube supporting the pressure of the liquid contained in said tank.

In an alternative embodiment, the device may comprise a plurality of independent flexible tubes and arranged in parallel planes, the corresponding wheels being mounted on common axes.

The device may also comprise a scraper disposed in the upper part of the tank and arranged to stop the rise of liquid along the flexible pipe. The present invention and its advantages will become more apparent in the following description of various embodiments of the invention, with reference to the accompanying drawings, in which: <B> - </ B> Figure <B> 1 </ B> is a front elevational view of an advantageous embodiment of the device according to the invention, FIG. 2 is a front elevational view of a particular embodiment of the device of the invention, and <B> - </ B> Figure <B> 3 </ B> is a side elevational view of the particular embodiment of Figure 2.

The <B> 10 </ B> device shown in FIG. <B> 1 </ B> mainly comprises a vertical vessel <B> 11 </ B> preferably having a large height relative to its transverse dimensions and containing a liquid may be for example water. A water pump <B> with a float (not shown) is provided on the tank <B> 11 </ B> to allow its filling when necessary. The device <B> 10 </ B> also comprises at least one flexible hose 12, containing a fluid, this hose forming a closed loop part of which is arranged <B> to </ B> inside the vessel <B > 11 </ B> and a part is arranged <B> to </ B> the outside of this tank. <B> A </ B> this effect, the flexible pipe 12 is carried by a first wheel <B> 13 </ B> arranged at the top of the tank <B> 11 </ B> and which can be mounted idly on a fixed horizontal axis or which is preferably secured to an axis 14 of a drive mechanism, by example of a generator of electrical energy or the like. <B> A </ B> this also, the hose 12 passes on a second wheel <B> 15 </ B> arranged at the bottom of the tank <B> 11 to </ B> the outside of the tank and can be mounted crazy about a fixed horizontal axis <B> 16. </ B> The respective axes 14 and <B> 16 </ B> are contained in a same vertical plane so that the free portions of flexible hose 12 that connect the two wheels <B> 13 </ B> and <B> 15 </ B> are substantially parallel and vertical, one of the portions passing through the bottom of the tank, substantially perpendicularly through an opening <B> 17 </ B> arranged in purpose and provided with less than an effective <B> 18 </ B> seal. This seal <B> 18 </ B> preferably comprises one or more lips that slide on the outer wall of the flexible hose 12 and prevent leakage of liquid from the tank <B> 11. </ B> The shape of the Opening the vessel <B> 11 </ B> and seal <B> 18 </ B> is adapted <B> to </ B> the shape of the flexible pipe section 12, which is preferably circular. The seal <B> 18 </ B> is advantageously housed in a rigid tube <B> 18 '</ B> protecting the flexible pipe 12 from the pressure of the liquid in the bottom of the tank <B> 11. </ B> This rigid tube <B> 18 '</ B> can be arranged to be easily removed and allow the change of the seal <B> 18 </ B> without draining the tank <B> 11 </ B> and without removing the flexible hose 12. For example, it can be made in two nestable half-shells.

To facilitate the introduction of the <B> 11 <B> pipe to the inside of the <B> 11 </ B> tank and ensure its coaxial position with the <B> 17 </ B> opening and seal sealing <B> 18, </ B> it is possible to complete this tank <B> 11 </ B> with a guide rail located on both sides of the opening <B> 17 </ B > of the tank <B> 11, </ B> this guide rail may consist for example of a row of sealed bearings diameter of the flexible hose 12.

The flexible pipe 12 comprises at least one watertight transverse partition <B> 19 </ B> arranged to prevent free circulation of the fluid contained in this pipe. This fluid may be a liquid such as water or one such as for example pressurized air. This fluid must be under a higher pressure <B> than </ B> the pressure of the liquid in the bottom of the tank so that the pipe maintains a constant section over its entire length, regardless of the constraints to which it is subjected, <B> to </ B> both to guarantee an effective seal at the joint <B> 18 </ B> and to avoid crushing the pipe under the effect of said constraints. To allow the filling of the flexible pipe 12, the latter is provided with at least one filling and pressurization valve which is made and positioned so as not to disturb the effectiveness of the gasket. <B> 8 </ B> of the <B> 11 </ B> tank in the area of the opening <B> 17 </ B> of the hose.

flexible pipe 12 is preferably made of a synthetic material reinforced by a fiberglass mesh allowing it a certain flexibility while guaranteeing a very high resistance. The diameter of the wheels <B> 13 </ B> and <B> 5 </ B> is chosen to offer said flexible pipe 12 a curvature adapted to its diameter. These wheels <B> 13 </ B> and <B> 15 </ B> have a groove having a complementary shape <B> to </ B> the section of the flexible pipe 12 and for example semi-cylindrical. In order for the <B> 10 </ B> device to work effectively, it is necessary for the flexible hose 12 to adhere in particular <B> to the <B> 13 </ B> wheel to ensure its positive drive. . Therefore, the hose 12 must be stretched between two wheels <B> 13 </ B> and <B> 15. </ B> That is why at least one of the wheels, for example the lower wheel <B> 15, </ B> is mounted on a tensioner 20 to adjust the distance between the two wheels <B> 13 </ B> and <B> 15 </ B> and thus ensure the adhesion of the pipe 12 to said wheels. The two wheels <B> 13 </ B> and <B> 15 </ B> can be mounted on a tensioner in order to be each subject <B> to </ B> a traction force to restart the adhesion evenly on these two wheels.

To promote the sliding of the flexible pipe 12 <B> to </ B> inside the seal <B> 1 </ B> the liquid contained in the tank <B> 11 </ B> can contain an additive such as a lubricant for lubricating the outer wall of said hose 12 to reduce friction at the seal <B> 18. </ B> Another solution would be to provide a small container disposed around the hose 12 upstream of the seal <B> 18 </ B> so <B> to </ B> lubricate this pipe just before it goes into the joint. In order to guarantee a sufficient efficiency of the <B> 10 </ B> device, it is advisable to reduce as much as possible the friction at the joint <B> 18 </ B> as well as at the axes of rotation. 14 and <B> 16 </ B> by the judicious choice of guide bearings. The device <B> 1 </ B> can advantageously be completed by a bristle-type scraper or other scraper disposed in the upper part of the vessel <B> 11 </ B> and arranged to stop the rise of liquid along the flexible hose 12 without friction.

Figures 2 and <B> 3 </ B> illustrate another embodiment of the invention. The device <B> 100 </ B> comprises, as in the previous example, a tank <B> 10 </ B> and at least one flexible pipe 120 forming a closed loop, a part of which is arranged <B> to </ B> > the inside of the tank <B> 110 </ B> and a part is arranged <B> to </ B> the outside of this tank. In this embodiment, the flexible hose 120 is carried by two wheels <B> 130, 131 </ B> disposed at the top of the tank <B> 110, </ B> mounted on two horizontal axes 140, 141, arranged parallel to each other. in the same horizontal plane, at least one of which is integral with driving mechanism, for example a generator of electrical energy or the like. <B> A </ B> this effect too, the flexible pipe 120 passes over two other wheels <B> 150, 151 </ B> preferably mounted idle on two horizontal axes <B> 160, 161 </ B> horizontal, parallel and arranged in the same horizontal plane, at the lower level of the tank <B> 110. <B> The wheels <B> 150, 151 </ B> are arranged in such a way that the free portion of the substantially horizontal flexible pipe 120 located between these two wheels <B> 150, 151 </ B> passes through the vertical partition of the tank <B> 110, </ B> substantially perpendicularly through an opening <B> 170 </ B> formed for this purpose and provided with less effective seal <B> 180 </ B>.

As before, this seal <B> 180 </ B> preferably comprises one or more lips that slide on the outer wall of the hose 120 and prevent leakage of liquid from the tank. The shape of the opening <B> 170 </ B> and the seal <B> 180 </ B> is adapted <B> to </ B> the shape of the section of the flexible pipe, which is preferably circular. In this embodiment, the liquid leaks are reduced in view of the horizontal introduction of the hose 120 into the tank <B> 110. </ B> At least one of the wheels <B> 130, 131, 150 </ B> or <B> 151 </ B> is mounted on a tensioning system to ensure the tension of the flexible hose 120 between four wheels and therefore the adhesion of the hose to said wheels. Several or all of the wheels can be mounted on a tensioning system 200 to evenly distribute the adhesion on the wheel assembly and thus promote the driving of the wheels by the flexible pipe.

In this particular embodiment, the flexible pipe 120 is compartmentalized and comprises a plurality of transverse partitions <B> 190 </ B> arranged transversely in this pipe to define a series of discontinuous enclosures <B> 191 </ B> arranged < B> to </ B> following each other. These enclosures <B> 191 </ B> are preferably alternately filled with liquid and / or gas. The liquid can be water and the gas can be pressurized air. To allow the filling of these compartments, the pipe is provided with a suitable number of filling and pressurizing valves which are made and positioned so as not to disturb the effectiveness of the seal. sealing of the tank in the area of the lower opening of passage of the flexible pipe.

In order to increase the efficiency of the <B> 100 device, several flexible hoses 120 may be arranged parallel to the <b> 130, 131, 150 </ B> and <B> 151 </ B> wheels. common axes 40, 141, <B> 160 </ B> and <B> 161, </ B> as shown in the figure Devices <B> 10, 100 </ B> have the advantage of producing non-energy pollutant, in particular to provide a rotational movement for example level of a generator or any other drive mechanism. The fact that a part of the flexible pipe 12, 120 is <B> to </ B> open air, this part of pipe with its content is subjected to gravitational forces which tend <B> to </ B> to lower the hose along the arrow <B> D. </ B> Simultaneously, the fact that another part of the hose 12, 120 is immersed in a liquid, for example water, this portion of pipe with its contents is worn by the buoyancy of Archimedes which facilitates the rise of the pipe by inertia according to the arrow M. <B> It </ B> results a difference of masses between the parts of the pipe arranged respectively <B> to </ B> the outside and <B> to </ B> the inside of the vessel <B> 11, 110 </ B> which generates the rotation of the flexible pipe 12, 20 in the direction of the arrows <B> D </ B> and M, which itself causes the rotation of the wheels in the direction of arrow R. The speed of rotation of the flexible pipe is a function of its diameter of the height of its difference in level between the top and the bottom of the tank <B> 11, <B> <B> 110. </ B> Of course, the existing friction at the seal <B> 18, </ B> <B> 180 </ B> and the wheel axles generate parasitic forces which consume a part of the energy created by said device, the rest of the energy being used to drive a driving mechanism.

<B> It </ B> is clear from this description that the invention achieves the goals. In particular, the device of the invention is very simple, uses standard materials, requires very little maintenance, can be placed in any type of site, even a protected site, because it can provide energy <B> 1 < / B> non-polluting. For cold countries, the liquid in the tank may contain antifreeze. This device can be supplemented by an emergency stop safety which is arranged either to open the filling valve causing the emptying of the hose or the tank, or to block the hose in a braking system.

The devices as shown, are <B> to </ B> as an example only. They may undergo modifications and variations obvious to those skilled in the art, while remaining within the scope of the protection conferred by the appended claims. In particular, the diameter, the length and the flexibility of the pipe and the diameter of the wheels will be chosen to obtain optimal operation of the device and good performance.

Claims (1)

<U> Claims </ U> <B> 1. </ B> Device <B> (10, 100) </ B> for gravity and / or buoyancy entraining, comprising at least one tank < B> (11, 110) </ B> containing a liquid, for example water, at least one closed chamber containing a fluid alternately immersed in the tank and subjected <B> to </ B> the buoyancy of Archimedes and alternatively disposed <B> to </ B> the outside of the tank and subjected to gravitational forces, characterized in that said enclosure comprises at least one flexible pipe (12, 120) forming a loop, a part of which is arranged <B > to </ B> the inside of the tank and a part is arranged <B> to </ B> the outside of this tank. Device according to claim <B> 1, </ B> characterized in that it comprises at least first wheel <B> (13) </ B> arranged at the top of the tank <B> (11) </ B> at least one second wheel <B> (15) </ B> disposed <B> to </ B> the outside of the tank, under the latter, substantially in the same vertical plane as said first wheel, these two wheels being arranged to support said flexible pipe. Device according to claim <B> 1, </ B> characterized in that it comprises at least first wheel disposed at the top of the tank, at least second wheel arranged <B> to </ B> inside the tank at the bottom of the latter and a third wheel disposed substantially at the same level as said second wheel, <B> to </ B> the outside of said vessel, these three wheels being arranged to support said flexible pipe. Device according to claim 1, characterized in that it comprises at least first wheel (130) and a second wheel (131) disposed high. of the tank, substantially at the same level, at least one third wheel <B> (150) </ B> disposed <B> to </ B> inside the tank, at the bottom of the latter and a fourth wheel <B> (151) </ B> disposed substantially at the same level as said third wheel, <B> to </ B> the outside of said tank, these four wheels being arranged to support said flexible pipe. <B> 5. </ B> Device according to any one of claims 2 <B> to </ B> 4, characterized in that at least one of the wheels <B> (13, 130) </ B> is mounted on an axis <B> (1 </ B> 4, 140) coupled to <B> with </ B> a driving equipment and that said other wheels <B> (15, 131, 150, < / B> <B> 151) </ B> are mounted crazy on parallel fixed axes <B> (16, </ B> 141, <B> 160, 161). </ B> <B> 6. < A device according to claim 1, characterized in that said flexible pipe 2) comprises at least one transverse transverse internal partition (19) to prevent any circulation of the fluid </ b> B> to </ B> inside the pipe. Apparatus according to claim 6, characterized in that said flexible pipe (120) is compartmentalized and has a plurality of watertight transverse bulkheads (B90) which define a plurality of enclosures <B> (191) </ B> arranged in the extension of each other. Device according to claim 7, characterized in that the different enclosures are alternately filled with liquid and / or gas. Device according to claim 8, characterized in that the liquid contained in some enclosures is water and in that the gas contained in the other enclosures is pressurized air. <B> 10. </ B> Device according to any one of claims <B> 6 to 9, </ B> characterized in that said flexible pipe comprises at least one filling valve and pressurized said fluid. <B> 1. </ B> Device according to claim 1, characterized in that said vessel <B> 1, 110) </ B> comprises at least one opening <B> (18, 180) </ B> formed in its partition <B> to </ B> its lower part or in its bottom for the passage of said flexible pipe in that this opening is equipped with a seal <B> (18 , 180). </ B> 12. A device according to claim 11, characterized in that said seal <B> (18, 180) </ B> comprises at least one lip having a Shape fit <B> to the </ B> section of the hose. <B> 1 </ B> Device according to claim <B> 11, </ B> characterized in that said seal <B> (18, 180) </ B> comprises a rigid outer tube <B> (18 ', </ B> 180') supporting the pressure of the liquid contained in said tank. <B> 1 </ B> Device according to claim <B> 5, </ B> characterized in that it comprises a plurality of flexible pipes (120) independent and arranged in parallel planes, the corresponding wheels being mounted on axes common. Device according to claim 5, characterized in that at least one of the wheels is mounted on a tensioner (20, 200). <B> 6. </ B> Device according to any one of the preceding claims, characterized in that it comprises a scraper disposed in the upper part of the vessel <B> (11, 110) </ B> and arranged to stop the rise of liquid along the hose (12, 120).