DE19624750A1 - Liquid circulation maintainable by renewable energy source e.g. for storage of electricity - Google Patents

Abstract

The objective of the liquid circuit, which contains a piston-cylinder unit and pump, is to partially convert renewable forms of energy into stored energy in the form of stored liquid with the liquid circulation maintained in movement by such renewable energy forms as wind power, solar power, the heat of the Earth or similar.

Description

1. Technical designation

Liquid cycle, which can be regenerated or natural forms of energy are maintained.

2. State of the art with reference

Many machines will be used in the future, but partially even today with so-called renewable forms of energy driven.

Most of these forms of energy represent the converted one so-called natural energy in electricity available, e.g. B. Solar cells.

However, this electricity is only with a high technical Save effort (accumulators) or go with the direct Converting electricity into a mechanical movement, e.g. B. Rotation lost due to high efficiency.

3rd problem

The invention specified in the protection claim is the solution of the problems mentioned that it is achieved that regenerative forms of energy stored by liquid and then release it as a mechanical form of movement will give.

4. Benefits achieved

With the invention it is achieved that a regenerable Energy form inexpensive and without high and expensive tech African effort and without chemical additives such. B. at Batteries that can be stored and released. This is the liquid mentioned in the protection claims cycle especially compared to other energy storage systems more environmentally friendly and friendlier.  

5. Solving the problem

The problems are related to those in the protection claims guided characteristics solved.

6. Description of how the invention

An embodiment of the invention is based on the drawing explained.

In the initial position, as can be seen in the drawing, the liquid is in the chamber 22 ( FIG. 1) of the cylinder 23 ( FIG. 1). B. oil or water.

This liquid first flows out of the outlet connection 21 ( FIG. 1), through the valve 19 ( FIG. 1), into the pressure hose, which leads to the connection connection 1 ( FIG. 2).

The liquid is sucked in by the pump 4 ( FIG. 2), but discharged through the connecting piece 1 ( FIG. 2). The actual trigger for the movement of the liquid are the two cylinders 30 and 22 ( Fig. 1).

The pistons 29 and 24 ( FIG. 1) are firmly connected to the piston rod 24 ( FIG. 1) and therefore exert a reciprocal movement depending on one another.

The liquid in the cylinder 26 ( FIG. 1), which exerts pressure on the piston surface of the piston 30 ( FIG. 1), first presses on the piston rod.

Since the piston 30 ( FIG. 1) is connected to the piston rod 24 ( FIG. 1), it now simultaneously moves the piston 24 ( FIG. 1), which in turn exerts pressure on the liquid in the cylinder 23 .

As already described at the beginning, the liquid now flows from the discharge connection 21 ( FIG. 1) to the connection connection 1 ( FIG. 2). From the connecting piece 1 ( FIG. 2), the liquid reaches the elevated tank 7 ( FIG. 2) into which it initially collects and, as required, escapes at the outlet 8 ( FIG. 2) into the next chamber 11 ( FIG. 2).

In this chamber there is a drive wheel in the form of a water wheel 10 ( Fig. 2), which, for. B. can be connected to a work machine.

This wheel can, depending on the technical possibilities, ver various designs of the water wheels.

The liquid must flow over this wheel. Here, the water wheel rotates, which is connected to Antriebswel le 9 ( Fig. 2).

When the liquid has left the water wheel, it reaches the bottom of the container 11 ( FIG. 2), where it collects. From the bottom of the container, it then flows at the drain nozzle 13 ( Fig. 2) via the open valve 14 ( Fig. 1) of the cylinder 30 ( Fig. 1). In the cylinder chamber, the liquid can in turn exert pressure on the piston 29 ( FIG. 1), which leads to a displacement of the piston rod.

The further course can be seen from the previous description deduce.

If the cylinder chamber of the cylinder 26 ( FIG. 1) is now filled and the cylinder chamber of the cylinder 22 ( FIG. 1) is completely empty, FIG. 1 swivels downward to the right.

For this purpose, the holding member X is opened and thus the whole cylinder released for the swivel process.

This pivoting is now absorbed by the second holding member X and the entire cylinder Fig. 1 clamped and locked by this holding member.

The opening of these holding members depends on the respective weight of the water in the respective cylinder chamber. The flow takes place after the pivoting of Fig. 1 in reverse order.

Here now escapes the liquid from the filled cylinder 30 ( Fig. 1) at the drain port 32 ( Fig. 1) through the open valve 31 ( Fig. 1) in the pressure hose to port 2 ( Fig. 2).

From here the liquid flows again into the chamber 11 ( Fig. 2).

Here the liquid collects again until it escapes at the outlet 13 ( FIG. 2) and reaches the chamber 11 ( FIG. 2).

Here, the liquid actuates the water wheel again, which can lead to a rotation of the shaft 9 ( FIG. 2) and thus to driving a machine.

When the liquid at the bottom of the container 11 ( Fig. 2) is reached, it escapes via the drain 13 ( Fig. 2) and the open valve 14 ( Fig. 2) to the connection 33 ( Fig. 1) in the cylinder chamber of the cylinder Fig. 1st

Arrived in the cylinder, the liquid now presses on the piston 24 ( FIG. 1), which in turn is connected to the piston rod 24 ( FIG. 1) and thus also via this rod on the piston 29 ( FIG. 1).

The piston 29 ( Fig. 1) in turn now presses the liquid from the drain port 34 ( Fig. 1) into the pressure hose to port 2 ( Fig. 2).

This process continues until the chamber of the cylinder 23 ( FIG. 1) is filled and the chamber of the cylinder 26 ( FIG. 1) is completely emptied.

After that, Fig. 1 pivots again and the process begins again.

Between the nozzle 1 ; 21 ; 2 ; 34 ( Fig. 1, Fig. 2) can be interposed in the machines to be cooled. The liquid used in the process shown is used here as a cooling medium, but is also a storage element of so-called kinetic energy.

Calculation example

Hydraulic power transmission

Claims (2)

1. Liquid cycle, which by renewable forms of energy such as B. wind power, solar energy, geothermal energy or the like is kept in operation. 2. Goal: Renewable forms of energy in part storage energy in the form of stored liquid.