DE202009016119U1 - Device for maintaining water / fluid quality through continuous circulation - Google Patents

Abstract

Construction to maintain a water / liquid quality and flow of energy through continuous circulation. Characterized in that the device consists of two chambers tupen (A and B), at least one transfer tube and a calyx-shaped tub is placed under the end of the longer Rochrstuchs, which allows an expansion to the tup B chamber of the Flusichkeit, at the same time Ferchnindert they penetrate an air into the tube sustem.

Description

nowadays a technology for environmentally friendly energy production is more important than ever. commonplace feel the pressure and consequences of climate change and global economic crises. We have a duty to change that so that not only we but also our children will love in the future for the To experience life and the joys and duties associated with it.

The MRX 21 is a stationary one Hydroelectric power plant whose big Advantage is built even without access to rivers, currents and seas functional to be able to. It has a big one Water tank whose construction allows a constant flow of liquid and converts this bound kinetic energy into electrical energy. Effectiveness and duration unknown.

• – Gravitation
• – Winkelhebeeffekt
• – Körperdichteverhältnisse
• – Verdrängung
• – Saugeffekt
• – Energieumwandlung

To understand the device you have to know the following physical phenomena:

• - gravity
• - Angle lifting effect
• - Body density ratios
• - repression
• - suction effect
• - Energy conversion

To the Construction of the device is a special construction of needs that Energy circulation conservation enabled.

1

Aufgeteilt in zwei Kammertypen (A, B), die eine stabile Konstruktion aufweisen müssen, unterscheiden sie sich dadurch, dass Kammer A schmaler, eine Zylinderform hat und hoch gebaut ist. B ist dadurch gekennzeichnet, dass sie breiter, niedriger ist und viel Volumen hat. Außerdem wird durch den Spitzhitaufbau in der Kammer B mit Hilfe von Gas ein Überdruck erzeugt, der die Flüssigkeit verdrängt und einen Wasserspiegelunterschied verursacht

2

Ein Rohr, das selbst aus mehreren kleineren Rohren besteht und sich am Winkelpunkt (also wenn esmax. h hat) befindet, vereinigen sie sich zu einem und zieht sich bis zur Kammer B durch.

3

Das Wassereinfüllventil auf der Spitze (nach der Abdichtung noch mit Wasser übergießen)

4

Druckluftventil

5

Wasserturbine

6

(Herzstück) Kelchförmige Wanne mit Aufbau am Ende des Rohres (Wasserspiegel muss über dem Rohr sein um eine Entweichung des unter Druck stehenden Gases in Kammer B verhindern zu können). Der Unterboden soll an Rändern löchrig sein um ein gleichmäßiges Entweichen des Wassers zu Kammer B ermöglichen zu können. Dadurch wird erst die Vorrichtung möglich

to picture 1

1

Divided into two chamber types (A, B), which must have a stable construction, they differ in that chamber A is narrower, has a cylindrical shape and is of a high construction. B is characterized by being wider, lower and having a lot of volume. In addition, the Spitzhitaufbau in the chamber B by means of gas creates an overpressure, which displaces the liquid and causes a water level difference

2

A pipe, which itself consists of several smaller pipes and is located at the angular point (that is, if esmax, h), unites into one and extends to chamber B.

3

The water filling valve on the top (after the sealing pour water over it)

4

Air Valve

5

water turbine

6

(Centerpiece) Cup-shaped tub with structure at the end of the tube (water level must be above the tube to prevent escape of the pressurized gas in chamber B). The subfloor should be holed at edges to allow a uniform escape of water to chamber B can. As a result, only the device is possible

• – Flüssigkeit in alle Kammern einlaufen lassen (3) (Menge ist volumenabhängig)
• – Gas in Kammer B komprimieren lassen (4) bis der Wasserspiegel unter dem Kelch steht, und in der Kammer A der Wasserspiegel bis zum Anfang des Rohres aufsteigt
• – Zum nächstem Schritt beide Enden des Rohres verschließen
• – Flüssigkeit über das Ventil (3) hereinlassen bis es voll ist, den Kelch auch voll laufen lassen.

To get the whole device started you have to:

• - allow liquid to run into all chambers ( 3 ) (Quantity is volume-dependent)
• - let the gas in chamber B compress ( 4 ) until the water level is below the goblet, and in chamber A the water level rises to the beginning of the pipe
• - Close the two ends of the pipe for the next step
• - liquid over the valve ( 3 ) until it is full, also let the goblet run full.

In the moment in which you open the two pipe ends simultaneously pulls the earth's gravity the liquid in the longer pipe section downward. Because the longer Piece of the Tube more fluid mass owns, there is also more power acted there. As a result, it flows from the shorter to longer End of the pipe. As a result, the liquid is displaced in the cup and again in the chamber B) collected. The movement of the liquid creates a vacuum behind it that creates a so-called "suction". This pulls the liquid from the shorter one Pipe and leads the liquid from chamber A) into the rocr again.

Of the Circulation will remain closed until the water level again grade is (or air got into the pipe system, but both happens thanks to the container construction Not. By the flow of the liquid creates kinetic energy that could drive a turbine to thus generating electrical energy and possibly directly into the Forward power grid.

Claims (5)

Construction to maintain a water / liquid quality and flow of energy through continuous circulation. Characterized in that the device consists of two chambers (A and B), at least one transfer tube and a calyx-shaped tub placed under the end of the longer Rochrstuchs, which allows a build-up to the end softening to the chamber tup B of the fluffiness, at the same time Ferroind an air penetrate into the tube sustem. Device according to claim 1 characterized gekkenzeichnet That the Vohrung consists of two chamber tupen (A and B) the Each one has a different size, size and volume. the chamber (A) is constructed like a feeder (B) Spizhutartig Die direct connection is in the lower part of the vase. Apparatus according to one of the preceding claims characterized in that at least one connecting pipe is constructed of the minimum of one pipe ( 2 ) above the two chambers tupen is attached, the place of employment divides it into two different lengen. If a construction of 2 rochren gips, then tie them into a single Rochr. Apparatus according to any one of the preceding claims As a result of this an intention of stochrom excellence becomes apparent minimum one water turbine instaliert, preference in the lower area On the Rochrsesteems directly above the Kelh-shaped tub. Apparatus according to any one of the preceding claims Thereby characterized that a goblet formful tub under the end the longer Rochrstuchs is attached and the shoes adapted to the tube is who the wasp is in the chalice over the end of the tube that seals it and so immediately the pressurized gas No need for the end soft, the ground is at the outside perforated area to allow a gleichmesigen water drainage.