DE102019007765B4 - Method and system for charging a battery of a motor vehicle - Google Patents

Abstract

Method for charging a battery (5) of a motor vehicle (7), the mass (2) of the motor vehicle being raised to a predetermined energy level (H) with the aid of a lifting device (3) and then by lowering the mass (2) with the aid of a Power generating unit (4) electrical energy is obtained, which is fed to a battery (5) which is at least partially charged with it, characterized in that the lifting device (3) is operated by hand or foot, so that the motor vehicle (7) in an emergency can be moved again without using a charging station, the charging process can be carried out in any parking situation by using an operating element (8) which is arranged below the body of the motor vehicle (7), the mass (2) is moved to a predetermined potential energy level (H) and after the process for raising the mass (2) has ended, the mass is finally lowered, with the aid of the Power generating unit (4) generates electricity which is fed to the electric battery (5) and the respective lifting and lowering state is recorded with the aid of a sensor and the recorded data are then forwarded to a data display device by means of a transmission unit (14).

Description

The present invention relates to a method and a system for using the potential energy of a predetermined mass, in particular with a lifting device which raises the predetermined mass of a motor vehicle to an energy potential that is used to generate electrical energy.

Such systems and devices are known in the relevant prior art and are mainly installed in motor vehicles, with some devices providing for a recovery or conversion of kinetic energy into electrical energy, which is then fed to a storage device. The stored energy can then be used to drive motors that drive a motor vehicle, for example.

It is from the publication DE 11 2007 001 092 T5 a lifting column with a lifting mechanism that cooperates with a combination of an electric motor and a hydraulic cylinder not described in detail in such a way that when lifting or lowering a picked-up object with the help of a generator that also works as a motor, electrical current is generated, which is fed to two batteries is applied to alternately supply or withdraw electricity from the two batteries. The column lift can only be operated electrically. The known lifting column does not have any wireless transmission means for transmitting data to a data display device, such as a cell phone or smart watch display.

Furthermore, the DE 20 2004 001 089 U1 a lift truck that is operated purely mechanically, in particular with muscle power. This invention is based on the object of providing a lift truck for lifting and lowering stacked goods with a telescopically extendable mast, the mechanical potential energy being fed to a mechanical energy storage device by means of a special, exclusively mechanical device which serves to reduce the downward movement of the on the one hand to dampen the picked up load and on the other hand to facilitate the lifting of the loads. Electrical energy storage is not mentioned in this document.

From the German Offenlegungsschrift DE 10 2015 214 640 A1 a device for using the fluid movement in the shock absorbers of a vehicle can be found in which the movement of the hydraulic oil in the shock absorbers drives a turbine or generator that converts the kinetic energy into electrical energy that is used to drive an electric motor . Electrical energy can therefore be obtained while the vehicle is in motion, but not when the vehicle is at rest and no relative movements can be detected on the shock absorbers, so that no fluid flow occurs. This document does not contain any operating elements with which electrical energy could be generated when a vehicle is stationary

Furthermore, the WO 2013/066 574 A1 An active and passive suspension system, such as a shock absorber in a motor vehicle, can be found, which gains energy during the damping and the stroke movement of the shock absorber pistons and converts this energy gained into electrical energy.

Furthermore, in the WO 2014/186839 A1 discloses a shock absorber of a motor vehicle, in which the shock absorber is designed as a generator, which is arranged between a turbine flow path and the compression chamber, a turbine which is set in rotation by the flow of the damping fluid. The rotation of the turbine then generates electricity that is fed to a battery.

Furthermore, the EP 2607117 A1 a so-called recuperation system in a motor vehicle, which hydraulically stores the vibration energy of the vehicle caused by relative movements between a vehicle chassis and at least one wheel and this stored energy contributes to driving the vehicle when required, for example during acceleration processes.

It is felt to be disadvantageous in the cited prior art that although the kinetic energy generated is used in systems such as shock absorbers in a motor vehicle, the potential energy to which a certain mass, for example the mass of a motor vehicle, is not or only used low is used to generate electrical energy. A further disadvantage is seen in the fact that the conversion of the kinetic energy can only take place while a motor vehicle is in motion, but not while the motor vehicle is parked or otherwise at a standstill. A hand-generated electrical energy that is fed to a storage unit cannot be found in the relevant prior art.

Proceeding from the stated prior art, the present invention is based on the object of providing a method with a system that overcomes the disadvantages of the prior art and is simple and reliable to use and can be used without a drive that is electrical and / or or consumes fossil energy.

This object is achieved with the characterizing features of the main claims.

The method according to the invention with a system for charging a battery of a motor vehicle with the help of a lifting device that raises the mass of a motor vehicle to a predetermined energy level and with the help of a power-generating unit during the lowering process of the mass of the motor vehicle, electrical energy is supplied to a storage unit which at least partially feeds the storage unit Charging is characterized in that the lifting device is operated by hand or foot, so that the motor vehicle can be moved again in an emergency without using a charging station, the charging process can be carried out in any parking situation by using an operating element , which is arranged below the body of the motor vehicle, the mass is moved to a predetermined potential energy level (H) and after the process for increasing the mass of the motor vehicle has ended, the mass is finally lowered, with the aid of the current Generating unit electricity is generated, which is fed to the electrical storage unit and the respective lifting and lowering state is recorded with the help of a sensor and the recorded data are then forwarded to a data display device by means of a transmission unit.

It is advantageous that the recorded data is made visible on the display of a smart watch or a cell phone.

It is also advantageous that the lifting device, which raises the mass to a specific energy potential, is hand-operated so that no electrical or fossil energy is consumed.

Another advantage is that the lifting device is operated by hydraulic and / or mechanical means, in particular by lever action.

Furthermore, it is advantageous that the power-generating device, preferably a generator, is in engagement with a transmission element, wherein the transmission element can be a rack, which in turn meshes with a gear on the generator.

It is also advantageous that the lifting device is arranged at a suitable location on a motor vehicle, whereby in principle the suitable location can be selected at any location on the motor vehicle, but is preferably located in the rear area of the motor vehicle.

Another advantage is that the lifting device has at least one operating element that can be operated by hand or foot, for example a foot pedal with which a hydraulic system or a purely mechanical system is driven. The respective lifting and lowering process status can be recorded by means of a sensor, the recorded data being forwarded to an electrical / electronic transmission device in order to then further process the lifting and lowering process in terms of data in a smart watch and / or a mobile phone.

It is also advantageous that the lever arm of the operating element can be extended telescopically in order to lengthen the lever arm so that the force to be applied to move the lever arm becomes relatively small.

In the event that a generator is used in the system to generate electrical energy, it is advantageous that either the armature of the generator or the stator of the generator is rotatably mounted.

Further advantageous properties and features can be found in the description.

• 1 eine schematische Blockdarstellung des erfindungsgemäßen Systems (1) mit einer Hubvorrichtung (3), mit der eine vorbestimmte Masse (2) auf ein vorbestimmtes potentielles Energieniveau (H) gehoben wird;
• 2 eine schematische Seitenansicht eines Kraftfahrzeugs (7), an dem eine hydraulische Hubvorrichtung (3) angeordnet ist, die das Kraftfahrzeug (7) anhebt;
• 3 eine schematische Seitenansicht eines Kraftfahrzeugs (7), an dem eine rein mechanische Hubvorrichtung (3') angeordnet ist, die das Fahrzeug (7) anhebt.

The invention will now be described in more detail below with reference to drawings. It shows:

• 1 a schematic block diagram of the system according to the invention ( 1 ) with a lifting device ( 3 ), with which a predetermined mass ( 2 ) is raised to a predetermined potential energy level (H);
• 2 a schematic side view of a motor vehicle ( 7th ), on which a hydraulic lifting device ( 3 ) is arranged, which the motor vehicle ( 7th ) lifts;
• 3 a schematic side view of a motor vehicle ( 7th ), on which a purely mechanical lifting device ( 3 ' ) is arranged that the vehicle ( 7th ) lifts.

the 1 shows a schematic block diagram of the system according to the invention 1 with a lifting device 3 with a predetermined mass 2 is raised to a predetermined potential energy level H. The lifting device 3 is generally below ground 2 arranged. The lifting device 3 can be designed in various ways, for example by a hydraulic device that operates with the aid of an operating element 8th , which can be a foot pedal, is set in motion so that the mass 2 can be brought to a predetermined energy level H. An integral part of the crowd 2 is in the present embodiment a power generating device 4th that come with a storage unit 5 , for example a battery, is in electrical communication. The one from the electricity generating facility 4th generated energy is thus the storage unit 5 fed, in turn with a consumer 12th , for example a motor, in connection, which is thus supplied by the stored energy. The electricity generating unit 4th is in the present embodiment a generator whose armature 10 stands firm and with the crowd 2 connected is. The stand 11 the generator is within the earth 2 rotatably mounted and designed in the shape of a wheel, it being possible for a ring gear to be arranged around the circumference, which is provided with a transmission element 6th is related that a rack can be. It goes without saying that it is within the scope of the invention to also use other power-generating devices and transmission elements that are involved in the up and down movement of the mass 2 generate electricity. The basic idea of the present invention is that with the help of a device 3 the crowd 2 is raised to a certain energy level H, causing the stand 11 of the generator is set in rotation and thereby generates electrical current. After the crowd 2 has been raised to the predetermined energy level H, it is lowered again to the basic level so that the energy generation process can begin again. The crowd 2 is through the entirety of the individual components, such as the overall structure of a motor vehicle 7th , together with the lifting device 3 , the drive 12th and the electricity generating device 4th educated. The respective lifting and lowering state is recorded with the aid of a sensor. The recorded data are then transmitted by means of a transmission unit 14th forwarded so that this data can finally be made visible on a display device, such as a smart watch or a mobile phone display.

the 2 shows a schematic side view of a motor vehicle 7th , in which a hydraulic lifting device 3 is arranged that the motor vehicle 7th raises to a predetermined energy level H. In the present exemplary embodiment, the pivotable operating element is 8th designed as a foot pedal and is in the rear of the motor vehicle 7th arranged. The device can also be at any other useful location in the motor vehicle 7th be attached. By moving the control element up and down several times 8th can the hydraulic lifting device 3 the car 7th to raise it until it has reached a predetermined energy level H.

the 3 shows a schematic side view of a motor vehicle 7th on which a purely mechanical device 3 ' is arranged that the motor vehicle 7th , so the mass 2 , increases to the desired energy level H. The purely mechanical lifting device 3 ' consists of a plurality of operatively connected levers 8th' which in their interaction the motor vehicle 7th , or the mass 2 along a rack 13th raise. The control element 8th' is also designed here as a foot pedal and can be pivoted underneath the body 9 in the rear of the motor vehicle 7th arranged. In the idle state, ie while the motor vehicle is in motion 7th , is the lifting device or the swiveling foot pedal 8th' not visible. When lifting and lowering the mass 2 the energy is also off, just like in the previous embodiment 2 , with the help of an electricity generating device 4th generated by the storage device 5 is fed.

A major advantage of the present invention can be seen in the fact that the energy is fed into the storage device 5 of the motor vehicle 7th without the need for an external energy-consuming device and practically only by using the muscle power of a person emission-free and can be carried out by anyone who walks past the motor vehicle, the pivotable control element 8th extends and in a relatively short time the mass 2 , so the motor vehicle 7th , raises and lowers again. This charging process can be repeated as often as required in every parking situation and thus contributes to the state of charge of the battery of a motor vehicle 7th at. In the area of the control element 8th an indicator can be arranged which shows the charge status of the storage unit 5 indicates.

In summary, it can be stated that with the present invention a system 1 to use the potential energy of a predetermined mass 2 is presented with the help of a lifting device 3 the crowd 2 raises to a predetermined energy level H and with the help of a power generating unit 4th a storage unit 5 at least partially charges, so that the motor vehicle 7th can be moved again in an emergency without using a charging station. The charging process can be carried out in any parking situation by using a control element 8th that is arranged below the body of the motor vehicle, is pivoted to the mass 2 to raise.

Claims (8)

Method for charging a battery (5) of a motor vehicle (7), the mass (2) of the motor vehicle being raised to a predetermined energy level (H) with the aid of a lifting device (3) and then by lowering the mass (2) with the aid of a power generating unit (4) electrical energy is obtained, which is fed to a battery (5), which is at least partially charged with it, characterized in that the lifting device (3) is operated by hand or foot, so that the motor vehicle (7) in an emergency can be moved again without a charging station in To claim, wherein the charging process can be carried out in any parking situation by using an operating element (8) which is arranged below the body of the motor vehicle (7), the mass (2) moves to a predetermined potential energy level (H) and after the process of raising the mass (2) has ended, the mass is finally lowered, with the help of the power-generating unit (4) generating electricity which is fed to the electric battery (5) and the respective lifting and lowering states with the help a sensor is recorded and the recorded data are then forwarded to a data display device by means of a transmission unit (14). Procedure according to Claim 1 , characterized in that the recorded data is made visible on the display of a smart watch or a cell phone display. System (1) for charging a battery (5) of a motor vehicle (7), the mass (2) of the motor vehicle being raised to a predetermined energy level (H) with the aid of a lifting device (3) and with the aid of a power-generating unit (4) , preferably a generator, electrical energy is obtained which is fed to the battery (5) during the lowering process of the mass (2), characterized in that the lifting device (3) has at least one operating element (8) which can be operated by hand or foot can, for example a foot pedal, wherein the lifting and lowering process state is recorded by means of a sensor and the recorded data is forwarded to an electrical / electronic transmission unit (14) in order to then further process the lifting and lowering process in terms of data in order to transfer it to a To make visual display device visible. System according to Claim 3 , characterized in that the lifting device (3) is operated with hydraulic and / or mechanical means, in particular by lever action. System according to Claim 3 , characterized in that the power-generating device (4), preferably a generator, is in engagement with a transmission element (6), wherein the transmission element (6) can be a rack. System according to one of the preceding claims, characterized in that the lifting device (3) is preferably arranged in the rear area of the motor vehicle. System according to one of the preceding claims, characterized in that the lever arm of the operating element (8) can be extended telescopically. System according to one of the preceding claims, characterized in that either the armature (10) of the generator (4) or the stator (11) of the generator (4) is rotatably mounted.

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