DE9207420U1 - Device for generating electrical energy by using gravity - Google Patents

Description

Description

The invention relates to a device for generating electrical energy by using gravity.

According to the state of the art, various processes are carried out to generate and/or store energy. For example, it is known that the water accumulating in a reservoir can drive turbines to generate energy. If the amount of electricity required is less than the amount of electricity generated, the electricity is used to pump the water back up into the reservoir in order to have sufficient water available when the demand for electricity is higher.

Other methods for generating and/or storing energy are also known. However, the devices for implementing these methods are very large and are intended for generating energy for the general public. These devices cannot be used for individual households.

The object of the invention is to provide a device with which electrical energy can be generated and which can be so small and compact that it can also be used in individual households, for example.

The device according to the invention has at least one weight which falls under the effect of gravity and which is connected to a drive wheel via a rope, chain or the like. The drive wheel is connected to a gear train via various means. The gear train in turn acts on a flywheel which drives a generator which generates electrical current. If the

weight reaches its lower end position, it must be pulled up again.

An electric motor, preferably of low power, is provided for hoisting the weight. During hoisting of the weight, a freewheel provided between the drive wheel and the gear train ensures that the gear train driving the generator can continue to run independently of the hoisting of the weight.

As the weight descends, a freewheel between the drive wheel and the electric motor that pulls the weight up ensures that the motor is decoupled from the weight as it descends.

Advantageously, the part of the device which consists of the weight, the drive wheel and the motor which pulls the weight up is provided in duplicate, so that two weights act on the common gear train via the drive wheels and other means provided.

According to the invention, the weights are provided at different heights so that when the first weight is being pulled up, at least the second weight still acts on the gear train. In order to compensate for the reduction in power when a weight is being pulled up, another motor acts directly on the gear train during the pulling up process in order to continuously maintain full power.

If both weights are sinking, none of the three motors is needed. If a weight has reached the lowest position, the motor in question is activated via a limit switch and pulls the weight

high. During this time, the second weight is still sinking and the motor acting directly on the gear train is also activated to compensate for the lack of energy while the first weight is being pulled up. Once the first weight has been pulled up completely, both weights act on the gear train at the same time and no motor is needed again. The same process takes place when the second weight has reached the lowest position.

In this way, the device according to the invention generates a current during the descent of both weights, as well as during the descent of only one of the weights. The gear train is selected in such a way that the angular speed of the gears (15 to 22) of the gear train is translated so that the generator is driven at a considerable speed, even though the weights descend at a low speed.

Further details of the invention can be found in the subclaims.

The drawing shows an embodiment of the invention, namely:

Fig. 1 is a view of the device;

Fig. 2 is a partial view in the direction of arrow II of Fig. 1;

Fig. 3 is a partial view in the direction of arrow III of Fig. 4;

Fig. 4 is a section along the line IV-IV of Fig. 1;

Fig. 5 is a partial view in the direction of arrow V of Fig. 4;

Fig. 6 is a partial view in the direction of arrow VI of Fig. 2;

Fig. 7 shows a detail of the invention.

Fig. 1 shows a weight (1) that runs over a drive wheel (3) with a chain (100). When the weight (1) sinks in the direction of the arrow (11), it acts on the pinion (47) via the drive wheel (3) and other suitable means shown in Fig. 2. The pinion (47) is firmly connected to a gear (23). The gear (23) engages with the gear (24), which in turn sets a gear (15) firmly connected to it in rotation. The further power transmission takes place via gears (16, 17, 18, 19, 20, 21, 22) of the gear train. The rotation of the lowest gear (20) is transmitted to a flywheel (60) (Fig. 4), which in turn drives a generator (53).

The weight (1) is pulled up with the help of a motor (10) which acts on the drive wheel (3) via a gear (73). A pinion (71) and a pulley (72) are provided to guide the chain (100). A counterweight (12) is provided to tension the chain (100).

The weight (2), which is pulled up by a motor (30) via a gear (83), acts in the same way via a drive wheel (4) and suitable means on the gear train (15 to 22), namely directly on the pinion

(37), so that it is rotated in the same direction by both the weight (1) via the pinion (47) and by the weight (2) without an additional pinion.

The weights (1, 2) with their attachment and

Output devices are arranged asymmetrically to the line A-A.

Fig. 2 shows the weight (1) which acts on the drive wheel (3) via the chain (100). The drive wheel (3) acts on gears (46, 43) connected to a toothed belt (44), whereby the gear (43) in turn acts on a pinion (42). A freewheel (41) is provided between the drive wheel (3) and the gear (46), so that no power is transmitted to the pinion (42) via the freewheel (41) when the weight (1) is being pulled up. The pulling up takes place by means of the electric motor (10), which acts on the drive wheel (3) via gears (73, 45).

A further freewheel (40) is provided between the drive wheel (3) and the gear wheel (45), so that after the weight (1) has been pulled up, no braking force from the motor (10) acts on the drive wheel (3) while it is sinking.

Fig. 3 shows the power transmission from the pinion (42) to the gear train (15 to 22). The pinion (42) is connected to the pinion (47) via a chain (34). In the same way, the power transmission of the second weight (2) takes place via a pinion (32) and a chain (35) to the pinion (37).

For a better overview, not the entire gear train of Fig. 1 is shown, but only parts of the gears (16 and 18). A motor acts on the gear (18).

1 1

(70) of a drive generally designated (31), namely when one of the two weights (1 or 2) is pulled up and during this time only one of the weights (2 or 1) sinks down and acts on the flywheel (60). A freewheel (33) is provided between the motor (70) and the gear (18).

The electric motor (30) compensates for the energy loss during the lifting of both the weight (1) and the weight (2).

Fig. 4 shows the interaction of the gears of the gear train (15 to 22). The lowest gear (20) acts on the flywheel (60) via a shaft (57). The shaft (57) is mounted in ball bearings (55, 56). The flywheel (60) drives a gear (50) which is connected to a gear (52) of the generator (53) via a toothed belt (51).

Because the flywheel (60) is continuously driven by the gear train (15 to 22), the generator (53) continuously generates electrical current with which a battery can be fed.

Fig. 5 shows the flywheel (60) again, the shaft (57) of which passes through a support wall (54) and acts on the gear (50).

Fig. 6 shows the weight (1), which is for example cylindrical in shape, in a top view. The weight (1) has an opening (75) in the middle through which the chain (100) passes. The chain (100) runs over the drive wheel (3), over the pinion (71) and over the deflection roller (72). Between the drive wheel (3) and the gear wheel (45)

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the freewheel (40) is arranged. The motor (10) acts via the gear (73) on the gear (45) and thus on the drive wheel (3) to pull up the weight (1).

Fig. 7 shows one of the gears of the gear train (15 to 22), namely the gear (17). In order to keep the masses moving in the gear train low, the disks of the gears (gear (17)) that carry the gear rims have recesses (90 to 97).

The gears are advantageously made of plastic. All shafts of the gears as well as the shaft (57) of the flywheel (60) run in ball bearings so that friction losses are kept as low as possible and the energy gain is as high as possible.

The device according to the invention is not only applicable for individual households in a small and compact design, but also in larger dimensions for large systems.

The device works as follows: The weights (1 and 2) are suspended at different heights. If both weights move downwards, they act together on the gear train (15 to 22) and drive the flywheel (60) and thus the generator (53). If one of the weights has reached its lower position, it is pulled up to its starting position with the help of the associated motor. The other weight continues to move downwards during this time and continues to drive the gear train (15 to 22). However, only a smaller force is now exerted on it. The loss of power during the lifting of one of the weights is compensated by switching on the motor (70) acting on the gear train (15 to 22).

balanced. The motor (70) is therefore activated, both when lifting the weight (1) and when lifting the weight (2).

The weights (1 and 2) are pulled up relatively quickly, whereas they are brought down slowly. The electric motor (10) with freewheel (41) is used to pull up the weight (1). The electric motor (30) with associated freewheel (41) is used to pull up the weight (2).

The advantage is that during an operating hour the three electric motors (10, 30, 70) are only in operation for about one fifth of the total time. Four fifths of the total time is used to generate energy using gravity alone.

260592
KS/sp-de

Reference numbers

1 Weight 2 Weight 3 drive wheel 4 drive wheel 10 Electric motor 1 1 Arrow 1 12 Counterweight 13 Counterweight 15 to 24 Gears 30 Electric motor 31 Drive for gear 18 32 pinion 33 Free run 34 Chain 35 Chain 37 pinion 40 Freewheel between engine and gear train 41 Freewheel between gear train and drive wheel 42 pinion 43 gear 44 Timing belt 45 gear 46 gear 47 pinion 50 gear 51 Timing belt 52 gear 53 generator 54 Retaining wall 55 Ball 1 bearing 56 Ball-bearing 57 Flywheel shaft

60 flywheel 70 Electric motor 71 pinion 72 Deflection roller 73 gear 75 opening 81 pinion 82 Deflection roller 83 gear 90 to 97 Recesses 100 Chain 200 Chain A-A Symmetri eachse

Claims (26)

PATENT ATTORNEY KNEFEL Wertherstr. 16 ■ Tel. 06441/4C3X ; *: ' : 6330 WETZLAR . PO Box .92* ''■"\„~ D G 91 Erwin DANKER , Sudetenstrasse 8, 6333 Braunfels Device for generating electrical energy by using gravity Protection claims 1. Device for generating electrical energy by using gravity, characterized in that at least one weight (1) subject to the effect of gravity is connected to a drive wheel (3) via a rope, chain (100) or the like, that the drive wheel (3) acts on a gear train (15, 16, 17, 18, 19, 20, 21, 22) (transmission), and that the gear train (15 to 22) drives a generator (53) generating electrical current, that between the drive wheel (3) and the gear train (15 to 22) at least one freewheel (41) is provided, with the aid of which the weight (1) can be lifted by means of an electric motor (10) acting on the freewheel (41). 2. Device according to claim 1, characterized in that the device (weight (1), chain (100), drive wheel (3), freewheel (41), electric motor (10)) is provided in duplicate. 3. Device according to claim 2, characterized in that the first electric motor (10) is provided for pulling up the first weight (1), a second electric motor (30) for pulling up a second weight (2), a third electric motor (70) for bridging the period of pulling up the first weight (1) and also the second weight (2). 4. Device according to claim 2, characterized characterized in that pinions (71, 81) and deflection rollers (72, 82) are provided for guiding the chains (100, 200). 5. Device according to claim 2, characterized in that a counterweight (12, 13) is provided for tensioning the chains (100, 200). 6. Device according to claim 1, characterized characterized in that the weight (1) is connected to a pinion (42) via the chain (100), the drive wheel (3) and gear wheels (46, 43) in a force-transmitting manner. 7. Device according to claim 6, characterized in that the pinion (42) is connected to a pinion (47) via a belt, toothed belt (34), chain or the like. 8. Device according to claim 7, characterized characterized in that a force-transmitting connection is provided between the pinion (47) via the gear train (15 to 22) acting on a flywheel (60). 9. Device according to claim 8, characterized characterized in that a belt (toothed belt (51)), chain or the like is provided which transmits the force from the flywheel (60) to the generator (53) via a wheel (gear wheel (52)). 10. Device according to claim 1, characterized in that a freewheel (40) is provided between the drive wheel (3) and the motor (10). 11. Device according to claim 10, characterized in that the motor (10) pulls up the weight (1) via the freewheel (40). 12. Device according to claim 1, characterized characterized in that the freewheel (41) drives the gear train (15 to 22) when the weight (1) is lowered. 13. Device according to claim 2, characterized in that a freewheel (33) acting during the descent of both weights (1, 2) is provided between the motor (70) and a gear (gear (18)) of the gear train (15 to 22). 14. Device according to claim 2, characterized in that limit switches actuated by the weights (1, 2) act on the motors (10, 30, 70). 15. Device according to claim 3, characterized in that low-power electric motors (10, 30, 70) are provided. 16. Device according to claim 3, characterized characterized in that batteries are provided for driving the electric motors (10, 30, 70). 17. Device according to claim 16, characterized in that the batteries can be charged by primary energy (solar energy, wind energy or the like). 18. Device according to claim 1, characterized characterized in that the disks of the gear wheels (15 to 22) of the gear train carrying the gear rims have recesses (90 to 97). 19. Device according to claim 1, characterized in that the gears (15 to 22) consist of plastic. 20. Device according to claim 1, characterized characterized in that a shaft (57) of the flywheel (60) runs in ball bearings (55, 66). 21. Device according to claim 2, characterized characterized in that the weights (1, 2) are arranged asymmetrically to the gear train (15 to 22) and act on the gear train (15 to 22) with a counter-rotating drive. 22. Device according to claim 21, characterized in that a further pinion (47) is provided between the pinion (37) of the gear train (15 to 22) and the drive wheel (3). 23. Device according to claim 2, characterized in that the weights act on the gear train (15 to 22) with a time delay. 24. Device according to claim 23, characterized in that the weights are arranged at different heights. 25. Device according to claim 11 and 12, characterized in that a corresponding mechanism is provided for the weight (2). 26. Device according to claim 2, characterized in that the electric motors (10, 30) are alternately connected to the generator (53).