FR2967425A1 - Regulator for regulating water tides of lagoon, has set of valves for managing tides of lagoon, and control unit that is provided for controlling water from tides, where valves enable management of tides - Google Patents

Abstract

The regulator has a set of valves for managing tides of a lagoon to bring water into developed areas. The developed areas are provided remote from a shore and the areas is utilized as a tourist place. A control unit is provided for controlling water from the tides. A tank is provided wit a set of water compartments, and water in the water compartments is managed. A non-return valve is provided at a top of the tank.

Description

Tidal water supply regulator The invention makes it possible, by managing the fluctuation of the tides, to benefit from their benefits from the developed areas (tourist lagoons with bathing, fish farming, oyster aquaculture, salt marshes, swimming pools, etc.).

The purpose of the invention is to bring the tide, to limit the level, renew the water, oxygenate and eliminate dirty water, 2 times a day, every tide, automatically, with only energies, those of tides and gravitation (without noise, without nuisance). All ecological State of the prior art -with no known comparison

In the embodiment described, water completed in a space: lagoon. Enclosed 3 explanatory sketches Sketch 1 a- The bottom of the lagoon is a little above the level of the ocean at low tide, to have a slope necessary for emptying. A very low slope that allows to consider lagoons at a distance from the shore and to develop large areas. b- The ocean c- A pipe allows the tide from a clean, calm water, subject to tides to rise to fill one or more lagoons. This solid conduct keeps the water trapped and brings it to a tank. d- The solid construction vessel stops the water and forces it into the lagoon access valve. This construction houses and supports the mechanisms of the three or four valves automatically operated by the tides. This sealed tank is filled by the full height of the tide and the 25 leaves again after having managed it; its height is greater than that of the strongest tides to contain them without risks. e- One or two cofferdams, placed after the exit of the tank, let pass over them the water with the rise and keep it on the descent, thus ensuring a minimum height of water desired. In their upward flotation, counterweight floats have a possibility of thrust substantially equal to their gravities and are equally effective both upwards and downwards (example: a float weighing 1050 kg 3 m in diameter and 30 cm thick has an efficiency of more than 1 tonne in both directions). This, for sustained valves, released from their gravity, 35 otherwise the forces will be in adequacy. The opening and closing of 2 valves are by reverse force transmission. An upward thrust turns into a push down for these valves and vice versa. h- The inflows of water governed by the valves are wider than they are high, the valves must be likewise, and so that they slide in their slides with ease, with guides, h, which maintain their. parts engaged in the slides well parallel to the latter.

The water intake valve 1 is at the top, with the bottom of its opening at the top of the cofferdam, it allows a controlled water entry, creating a mini-tide in the lagoon which allows the replacement some of the water automatically twice a day.

Sketch 2 - overview

Io Sketch 3 - At low tide, the valve 2 is open and let go of the water previously mounted above the cofferdam. The rising tide raises the float-counterweight f which causes the valve 2 to close, then it submerges it and always rises, arrived, at the bottom of the valve 1 which is open, the water passes to fill the lagoon and when the level is reached , it raises the float-counterweight g which makes close the valve 1. This level will be of the order of a few decimetres above the cofferdam, according to desire. The action of the float g goes from the level of the top of the cofferdam to a few decimeters above. Two valves are on the same principle. That of the bottom is actuated by the water which arrives and leaves, the one of the top is actuated by the water which has entered. Valve 2 opens when its float-counterweight which was submerged, is out of water at low tide. After being admitted through the valve 1, the water crosses an anti-return m, then it passes over the cofferdam and is then at its destination in the lagoon. In the lagoon a little deposit is made; the trampling of the bathers and their frolics put deposit in suspension. It will be eliminated during the evacuation from the bottom in k Figure l, a quantity of water equal to that admitted above the cofferdam. The float-counterweight g has the intake valve 1 closed by force reversal and open the valve 3 which allows the evacuation of dirty water from the bottom. This valve is engaged in the same direction and opens and closes when the float-counterweight goes up or down. The safety is fully assured because the tank d is solid and designed to stop tides more than 1 m higher than the highest. The whole is not at all subject to waves, it is also a guarantee of safety. The height of the cofferdam and the bottom of the access valve selects the tide portion 35 to be entered. Another valve, such as 1 can be installed above the 1 and similarly controlled by the float-counterweight g. The released water a shorter time can provide showers, cascades, games or oxygenation of the water. The tank can be compartmentalized to contain several mechanisms and to feed several sets.

Claims (6)

REVENDICATIONS1. This regulator is characterized by the following suuivant, CLAIMS1. This regulator is characterized by the following suuivant, which allows the filling, followed by volume management, to bring, renew, maintain, or reject the receiving space .In renewal, a new volume of water hunt the same volume of dirty water. A strong and watertight pipe (c) starting from the low water level, chosen, brings the water of the tide into a tank (d) with the edges higher than the strongest tides; this pipe has a very slight slope that allows it to bring water back to the ocean (b) at low tide; the tank holds the water safely and governs it, because it contains and supports with its annex, the mechanisms actuating 3 or 4 valves to ensure the management of the tides. 2. Regulator according to claim 1 characterized in that counterbalanced floats (f) and (g) actuated by tides and gravitation control valves.They are efficient both upwards and downwards. The commands launched by these floats-counterweights are transmitted with direct effects or reversed effects. 3. Regulator according to any one of the preceding claims characterized in that the wide and low valves have guides (h) which facilitate their sliding by maintaining their sliding parts, well parallel to their slides. 4. Regulator according to any one of the preceding claims, characterized in that an evacuation of dirty water is by the bottom (k) It is controlled by a valve (3) 5. Regulator according to any one of the preceding claims, characterized in that the tank (d) has several compartments, with several mechanisms, if it has to cope with several management. 6. Regulator according to claim ..1..2 .. or3. characterized in that it comprises a cofferdam (e) and a non-return (m) between the outlet of the tank and the receiving space. The height of the top of the cofferdam and the bottom of the opening of the inlet valve (1) are of the same level. They can be varied simultaneously to select the water of the tide to be admitted.