IT202100029780A1 - Water device for the production of energy from renewable sources. - Google Patents

Description

Description of the industrial invention entitled: ?water device for the production of energy from renewable sources?

The present invention concerns a device for the production of clean energy from renewable sources through the exploitation of moving liquids.

In particular, the invention proposes a hydroelectric energy production device, provided with one or more floating masses through which ? It is possible to obtain mechanical or electrical energy.

Some most commonly used hydraulic energy production systems present some difficulties? in finding suitable areas for installation sites, in addition to the high construction cost. Generally, high-efficiency hydroelectric plants require forced conduits that exploit the movement generated by the falling masses of water. This involves expensive works that have an impact on the environment. environment such as: dams, accumulation of large masses of? water, changes in riverbeds, in some cases the drying up of rivers. The less impactful solutions often require high hydrodynamic pressures at altitude, in other systems they require d? water where the current? relatively high, in others still, they require large metal or reinforced concrete structures for the application of the turbines with high construction and management costs.

- The purpose of this patent application? is to propose a water energy production device capable of operating in a multiplicity? of sites where there are moving liquids; this device could be obtained by exploiting the buoyancy force and the force of gravity. The proposed invention consists in? apply a sort of container or tub or cistern to contain liquids, where inside there is? a vertical dividing bulkhead that forms two separate chambers of the same proportion, or apply two single tanks where inside each chamber or tank there is? placed a mobile frame fixed to one of the vertical walls at a specific position, via hinges that allow it to move perpendicularly; a float with a pre-established weight from a quantity? of liquid and air inside it, located in the lower part of the mobile frame, and a double-acting hydraulic piston equipped with hinged connections at the two ends. located both in the upper part of the mobile frame and in the wall of the single chamber or tank, two high pressure hydraulic pipes located at the hydraulic piston. Outside the tank there is a main water pipe supplying liquids suitable for filling the chambers or tank with liquids that are divides into three separate pipelines with motorized or pneumatic flow regulation valves. A first liquid supply pipe deviation with a guided valve placed on a wall of a first chamber or tank, a second liquid supply pipe deviation with a guided valve placed on a wall of a second chamber or tank, a third pipe deviation (bypass) with valve, diverts the main liquid supply line out of the chambers or tanks for any maintenance inside them. The device also includes two liquid discharge pipes with motorized or pneumatic flow regulation valves. A first liquid discharge conduit with a guided valve placed in a first chamber or tank, a second liquid discharge conduit with a guided valve placed in a wall of a second chamber or cistern. The two liquid discharge pipes of the chambers and the bypass pipe outside the tank join together to form a single main liquid discharge pipe. - This type of water device, during operation, consists in filling a first chamber of the cistern or single cistern with liquids via the liquid supply pipe, opening a valve, and closing the liquid discharge pipe of the same via a second valve. As the liquid level inside the chamber increases, the float forced to lift, it exerts a thrust force on the hydraulic piston which in turn will go? to compress a fluid inside it, generating a flow of high pressure fluid. Once the liquid inside the chamber will have reached a pre-established height, the valve of the supply line will block? the liquid supply inside it, and the second valve on the liquid discharge pipe will open? to empty the chamber. As the liquid level inside the chamber decreases, the float with its pre-established weight gives a quantity? of liquid and air inside it, will it? forced to descend downwards by force of gravity, again exerting a thrust force on the double-acting hydraulic piston, which by compressing a fluid inside it will provide again a flow of fluid at high pressure. Once a first room is found? during emptying, a second chamber with the same characteristics, with the same functions, and with the same proportion, will be found? during the filling phase, which by lifting a second float will go? to exert a thrust force on the hydraulic piston, which by compressing a fluid inside it will provide? a flow of fluid at high pressure; when will he have? once its pre-established height has been reached, the room will find itself again? in the emptying phase and the float with its pre-established weight will descend? by force of gravity? again exerting a thrust force on the hydraulic piston, again generating a flow of high pressure fluid. By alternating the opening and closing of the motorized or pneumatic valves, through the application of some control unit which regulates the flow of liquid in the liquid supply and discharge pipes of the chambers or from the individual tanks, a variation in the level of liquid inside them, which thanks to its floats creates a continuous movement and consequently a flow of high pressure fluid that can? be transformed into electricity, or could it? power a hydraulic machine or some other device.

- Further characteristic of the invention? whereas this type of device could be applied in underground or above ground tanks, in closed or open tanks or in separate tanks; can? be applied repeatedly in those water pipes or rivers or canals that extend for several kilometers, providing energy in all those sites where it is needed; can? can also be applied in pipelines or channels of waste liquids, for example: in liquids coming from industrial, agricultural or urban centers, transforming waste liquids into clean energy.

- A further characteristic of the invention? which could also be applied in those rising water pipes, for example: in a water pipe that crosses a depression between two mountain slopes, where in the bottom of the valley the c?? need for energy with the application of a watertight tank, with all? inside the bulkhead with a slot in the upper part of the same, with the movable frames, with floats and hydraulic pistons, and a moving liquid in both chambers, and of the? compressed air inside the chambers which fills the void inside them with a pressure capable of maintaining the liquid at its pre-established height, allowing the floats to move perpendicularly. If this system is applied in two separate tanks, the displacement of compressed air can take place via a pipe located in the upper part (above the liquid level) of a wall of each individual tank. - A further characteristic of the invention? that the water device itself could be part of a modular system that allows the production of a quantity? of energy proportionate to the quantity? of water devices used, or produce a quantity? of energy proportionate to the size of the water device used.

- The proposed invention like this? conceived? susceptible to numerous modifications and variations, all falling within the scope of the inventive concept.

In practice, the materials used and all the details can be replaced by other technically equivalent elements, as long as they are compatible with the specific use, as well as? the dimensions and shapes can be any according to needs.

- Its simple structure and easy management make this device a simple, functional and widely applicable product, contributing to the growing need for clean energy from renewable sources.

Further characteristics and applications of the invention will be illustrated with the drawings attached for illustrative purposes, according to some preferred embodiments, in which figure ?A? represents a front perspective view of the aforementioned water device, comprising: a cistern 100 made of masonry or steel or other materials suitable for its construction, with a dividing bulkhead 101 inside forming two separate chambers 102 and 103.

- Inside the chamber 102 there is a mobile structure which includes: a mobile frame 104 anchored to a given position in a vertical wall of the chamber 102 by means of hinges which allow it to move perpendicularly, a float 108 with a pre-established weight to be a quantity? of liquid and air in the inside it located in the under-surface part of the mobile frame 104, a double-acting hydraulic piston 106 equipped with hinged connections at the two ends, located in the upper part of the mobile frame 104, and also located on the wall of the chamber 102 via of the hinges, two high pressure hydraulic pipes 1 19 and 120 placed in the hydraulic piston 106, and a liquid 110 inside the chamber 102.

- Inside the chamber 103 there is a mobile structure which includes: a mobile frame 105 anchored to a specific position in a vertical wall of the chamber 103 by means of hinges which allow it to move perpendicularly, a float 109 with a pre-established weight to be a quantity? of liquid and air inside it, located in the under-surface part of the mobile frame 105, a double-acting hydraulic piston 107 equipped with hinged connections at the two ends, located in the upper part of the mobile frame 105, and positioned also to the wall of the chamber 103 via the hinges, two high pressure hydraulic hoses 121 and 122 placed at the hydraulic piston 107, and a liquid 111 at the chamber 103.

- Outside the 100 there tank? a main water pipe 1 12 for liquid supply, which is divided into three different pipes, with motorized or pneumatic flow regulation valves. A first deviation conducted 1 14 with a guided valve controls the flow of feed liquids to the inside the chamber 102, a second deviation duct 116 with a guided valve controls the flow of feed liquid inside the chamber 103. A third deviation duct 118 (bypass) with a valve diverts the main supply duct 1 12 out of the chambers 102 and 103 for any maintenance inside them,

The device also includes: two liquid discharge pipes with motorized or pneumatic flow regulation valves. A first pipe 1 15 with a guided valve controls the liquid emptying flow inside the chamber 102, a second pipe 1 17 with a guided valve controls the liquid emptying flow inside the chamber 103. The two liquid discharge pipes 1 15 and 1 17, and the bypass diversion pipe 1 18, join together forming a single main liquid discharge pipe 113.

- The figure ?B? shows a lateral perspective view of the water device with a single tank being filled, exerting a buoyancy force comprising: a tank 100 with a chamber 102 inside it, a mobile frame 104 anchored in a vertical wall of the chamber 102 via hinges, a float 108 with a weight pre-established by a quantity? of liquid and air inside it located in the under-surface part of the mobile frame 104, a double-acting hydraulic piston 106 equipped with hinged connections at the two ends, located in the upper part of the mobile frame 104 and also located in the wall of the chamber 102 through hinges, two tubes at suitable pressure 19 and 120 placed on the hydraulic piston 106, a liquid 110 inside the chamber 102, and a maintenance door 123 placed in the sky part of the tank 100,

It also includes a main liquid supply duct 112, a duct diversion 114 with a motorized or pneumatic flow regulation valve for liquid supply inside the chamber 102, and a liquid diversion duct (bypass) 118 with valve, which diverts the duct main supply outside tank 100,

It also includes a liquid discharge pipe 115 with a motorized or pneumatic flow regulation valve which joins the liquid diversion pipe (bypass) 1 18 and the main liquid discharge pipe 113, - Figure ?C? shows a side perspective view of! water device with a second single tank being emptied, exerting a force of gravity? comprising: a tank 100 with a chamber 103 therein. a mobile frame 105 anchored in a vertical wall of the chamber 103 by means of hinges, a float 109 with a weight predetermined by a quantity of liquid and air inside it located in the under-surface part of the mobile frame 105, a double-acting hydraulic piston 107 equipped with hinged connections at the two ends, located in the upper part of the mobile frame 105 and also located in the wall of the chamber 103 via hinges, two high pressure hydraulic pipes 121 and 122 placed at the hydraulic piston 107, a liquid 111 inside? interior of the chamber 103, and a maintenance door 124 located in the upper part of the tank 100.

It also includes: a main liquid supply pipe 112, a deviation pipe 116 with a motorized or pneumatic flow regulation valve for liquid supply inside the chamber 103, a bypass pipe 118 with a valve that diverts the main supply pipe 112 outside the tank 100. It also includes a liquid discharge pipe 117 with a motorized or pneumatic flow regulation valve which joins the liquid diversion pipe (bypass) 118 and the main liquid discharge pipe 113.

- The figure ?D? shows a lateral perspective view of the water device, to better and appropriately understand its form of implementation, where in an existing water collection basin, where is it not? planned an energy production system, can it? apply the device mentioned up to now, bypassing the 112 pipeline to the? inside the water device 100, with a cover above it with an electric generator 150 inside powered by the flow of high pressure fluid generated by the movement of the floats. Once the 100 device will have? Once its process has been completed, the outgoing water will continue. its destination via the liquid discharge pipe 113.

- The figure ?E? shows a perspective view from top to bottom of the water device to better and appropriately understand one of its embodiments, where a water device 100 with all the above-mentioned characteristics is fed by a river via a pipeline 112, a once the device 100 will have? once its process has been completed, the outgoing water will return? to the river via discharge pipe 113 continuing its natural course. - Figure ?F' shows a lateral perspective view of the water device to better and appropriately understand its form of implementation, where a water pipe crosses a depression between two mountain slopes, where a water pipe 1 12 descends to the valley floor , supplies a water device 100 with all the characteristics mentioned above with a watertight tank, where inside there is? of the included air that fills the void outside inside it, maintaining the liquid at its pre-established height, allowing the floats its perpendicular movement, providing a high pressure fluid that powers an electric generator 150. Once the water device will have? Once its process has been completed, the exiting liquid will return? to discharge pipe 113 going up the valley and continuing to its final destination.

- The figure ?G? shows a lateral perspective view of the water device to better and appropriately understand one of its embodiments, where a water device 100 with all the above-mentioned characteristics forms a modular system, with a single liquid supply pipe 112 which supplies a series of water devices connected to each other, and a single liquid discharge pipe 113.

Claims (6)

Claim of the industrial invention entitled: ?water device for the production of energy from renewable sources? 1. Water device for the production of energy from renewable sources characterized by the fact that it comprises: a liquid supply pipe; a container (100) where inside it there is a dividing bulkhead (101) which forms a first and a second chamber (102 and 103) inside which the flow of said liquid is channeled; a first floating structure placed inside said first chamber (102), a second floating structure placed inside said second chamber (103) both positioned in such a way as to be moved vertically by the filling/emptying of the chambers (102 and 103) by said liquid ; a pipe for emptying liquid from the aforementioned first and second chambers (102 and 103). 2. Device according to claim 1 characterized in that said liquid supply pipe comprises: a primary pipe (112) which is divided into three separate pipes equipped with motorized or pneumatic flow regulation valves; a first conducted deviation (114) with a guided valve flows into the first chamber (102), a second conducted deviation (116) with guided valve flows into the second chamber (103), a third diversion pipe (118) with guided valve bypasses the primary liquid supply pipe (112) out of the first and second chambers (102 and 103). 3. Device according to claim 1 characterized in that said first floating structure comprises: a frame (104) anchored by an end to a vertical wall of the chamber (102) via hinges, a float (108) located in the under-surface part of the mobile frame (104), a double-acting hydraulic piston (106) equipped with ceiling connections at the two ends? located in the upper part of the mobile frame (104) and also located on the wall of the chamber (102), two high pressure hydraulic tubes (119 and 120) located at the hydraulic piston (106). 4. Device according to claim 1 characterized in that said second floating structure comprises: a frame (105) anchored by an end to a vertical wall of the chamber (103) via hinges, a float (109) located in the under-surface part of the mobile frame (105), a double-acting hydraulic piston (107) equipped with ceiling connections at the two ends? placed in the upper part of the mobile frame (105) and also placed on the wall of the chamber (103), two high pressure hydraulic pipes (121 and 122) placed on the hydraulic piston (107). 5. Device according to claim 1 characterized in that said pipe for liquid emptying comprises: two liquid discharge pipes with motorized or pneumatic flow regulation valves located in the first and second chambers (102 and 103); a first liquid discharge pipe (115) with guided valve regulates the emptying of the first chamber (102), a second liquid discharge pipe (117) with guided valve regulates the emptying of the second chamber (103), the liquid discharge pipes ( 115 and 117) of the aforementioned first and second chambers (102 and 103), and the duct (118) which bypasses the primary duct (112) for feeding liquid out of the said chambers (102 and 103), join together forming a single duct liquid drain (113). 6. Device according to the previous claims in which the container (100) is also watertight.