ES2392075B1 - RIVER ANTI-OVERFLOW SYSTEM. - Google Patents

Abstract

The River Anti-Overflow System is a set of elements that prevent a river from expelling the waters from its channel when it rains more than the account, thus causing all kinds of disasters. The system is formed by a tube (2) that is installed on one of the river banks (1), and, which has an electric motor (3) that sends the water to a first group of water tanks (4) that They connect to each other as communicating vessels. Then, one of the tanks of this first group duplicates the system with another tube (2) and a second electric motor (3) that sends the water to a second group of water tanks (4) located at a distance from the previous one. . Then, the system is tripled to send the water from this second group of tanks, to a third group of tanks located further away, etc ...

Description

RIVER ANTl-OVERFLOW SYSTEM OBJECTIVE OF THE INVENTION

The main objective of the present invention is, as the name implies, to prevent a river from overflowing the water from its channel when a very heavy rain has filled it more than the account. For this, a system is deployed - simple, cheap and easy to install - consisting of a few elements that make it very effective, since it can evacuate a lot of water in a very short time. Since the diameter of each tube (2) can be one meter, -or, more-, this means that, every second, a certain plane of that diameter can be crossed by a cubic meter of water, -Y. maybe, much more ... -. In each hour, then, they will have crossed (3,600) cubic meters of water, which is a lot. But, if this was not enough, nothing prevents us from installing on the side wall of the river, - and, one on top of the other -, three or four of these tubes (2), with their three or four engines (3), so So, we can multiply the amount of water we want to get from the river, per unit of time, all we want. With five of these tubes (2), located one above the other, in one hour, the amount of water extracted could be: (3,600 x 5 - / 8,000) cubic meters, which would be something like a field of football full of water tanks three meters high. And, if instead of five tubes, we put twenty tubes (2), the amount will be even greater, - a few (72,000) cubic meters - enough to dislodge all the water that is needed to avoid the problem of river overflow .

BACKGROUND OF THE INVENTION

I do not know if there is a history of these characteristics. The usual recourse to these types of problems, when possible, is to divert the riverbed to another place of wider dimensions.

DESCRIPTION OF THE INVENTION

The anti-overflow system of rivers, is a set of elements that start from a few holes made in one of the side walls of a river .., in which several tubes (2) are installed, horizontally, and, one above the another, as many as it is supposed to be needed to alleviate the problem. In each tube (2) an electric motor (3) will be placed, which will push the water from the river channel towards the extension of the tube

(2) that will extend a few meters. to a wide area where we will have

put, previously, a good set of large water tanks (4), metal tanks ten, fifteen or twenty meters high. and, several meters in diameter. This should be so when there is not enough room in the surroundings of the river to place the large water tanks (4), which makes it possible to place them, perhaps, a few hundred meters further.

These water tanks (4) will be connected to each other, at the bottom, as if they were communicating vessels, and, in this way (when the water that reaches them through the pipes (2) that leave the river and flow into at the top of one, or, of several of these tanks (4 »-, they will fill all the tanks (4) at the same time, so that the water that would have to overflow from the river, can no longer overflow because Will store in these tanks.

Next, another tube (2), and another electric motor (3), both located at the back of one of the previous tanks (4), can be connected to a second set of water tanks (4) that can be They are located at a distance. This is very useful in the case where, in the first space where the first tanks were, there was not enough space to place all the tanks that needed to be filled. As before, the water that came through the second tube (2), into the second zone of the second tanks, would fill them from the top, and, the tanks (4), -units. also, as communicating vessels-, they would fill up little by little. And, in one of them, in the back, a third tube (2) and a third engine (3) could send water from this second set of tanks (4), to a third set of third tanks (4), located in another area farther away, - one hundred meters, ten thousand meters ... -. From the area of the river to be protected, to the sea or to the place where the river's water usually flows, there will always be enough free spaces to accommodate as many sets of water tanks (4) as Taita does. As if to dry the river. If it is necessary. In this way, I believe that this system is the best that can be used to alleviate the problem of the overflow of a river, because, in addition to being the most effective, it is very cheap to install since the vats are not very expensive, nor neither are the pipes, nor the four or five electric motors that would be needed. It would only take a little space, a stadium every certain distance, and, little more ... And, the water collected in the vats, can always be used to irrigate the fields. or, for domestic use of the villages through which the pipes (2) that connect the different groups of water tanks (4) pass. Date of the invention:

(01.08.10)

DESCRJPCIÓN OF THE FIGURES Figure n OJ: Plan view of a no (1), -in the top-, from which a tube (2) has an electric molor (3) that draws water from the river and sends it to some water tanks

(4) That they connect as communicating vessels. In turn, from one of the tanks of this first group of water tanks (4), another tube (2) comes out, which also has an electric motor (3), which sends the water to a second group of tanks of water (4) that are some distance away from the first group. And again, from this second group the whole system is repeated towards a third group of water tanks (4) that, again, can replicate the system towards a fourth group of tanks, etc ...

FiR; Ura # 1:

J) River 2) Tubes 3) Electric motors 4) Water tanks or tanks, connected as communicating vessels DESCRJPTION OF A PREFERRED EMBODIMENT

The river overflow system is characterized by being a set of elements that can dislodge, from the riverbed, and. in a very short time - the sufficient amount of water that can prevent the river from overflowing. This set of elements is formed by a unit that multiplies all that is needed. This unit is formed by a tube (2), an electric motor (3) that pushes the water entering said tube (2), and, a group of water tanks or tanks (4), joined together by pipes located in its lower part, as if they were communicating vessels. This means that, when a tank is filled, all the other tanks associated with them are filled at the same time. This unit of the element set of. This anti-overflow system of rivers can be duplicated, tripled, quadrupled, etc ... everything that is needed according to the amount of river water that is expected to be evicted. The main problem could be the lack of space in the immediate vicinity of the riverbanks. Therefore, the tubes (2) can be extended as necessary, from a group of water tanks (4), to the next group of tanks (4). In this way, there will always be a certain and ample space, more or less

far away, where another group of water tanks (4) can be installed, so that, the more water groups there are, -if there is no sea nearby-, the easier it will be to collect in the tanks (4) all the water you want to dislodge from the do to avoid overflow.

S The vats will be closed, all of them, at the top, so that rainwater cannot enter through them ...

Claims (1)

f) River overflow system, characterized by being a set of elements that can dislodge, from the riverbed. Y. in a very short time - enough water that can prevent the river from overflowing. This set of elements is 5 formed by a unit that multiplies all that is needed. This unit is formed by a tube (2), an electric motor (3) and the extension of the tube (2) that reaches a group of tanks or water tanks (4), joined together by tubes located in its lower part , as if they were communicating vessels. This unit of the set of elements of this anti-overflow system of rivers, can be duplicated, tripled, quadrupled, etc ... everything 10 that is needed depending on the amount of water in the cold that is expected to be evicted. The vats will be all closed at the top.