DE850318C - Method and device for generating electrical energy from the natural vibrations of moving bodies - Google Patents

Description

Method and device for generating electrical energy the natural vibrations of moving bodies The invention makes use of knowledge on the creation of electrical induction currents caused by magnetic currents in Coils are generated, and it is based on the knowledge that the required Movement compared to the magnets is also more agitated due to the natural vibrations Body can be generated. Any body in motion, such as a vehicle on the road or rail, a conveyor belt, a sieve device, anything natural at all Machine part exposed to vibrations generates vibrations that were previously only possible were uncomfortable and worthless.

According to the invention, these vibrations are used to generate electrical ones Induction current is used by making induction coils resilient towards fixed magnets be arranged so that the spring vibrations caused by the vibrations of the coils the force fields of the magnets are constantly crossed and thus electrical Electricity is created.

The idea of the invention is thereby brought to practical application, that on bodies exposed to vibrations one has oppositely directed magnets attached and in the force field brings induction coils, which are arranged on springs are, which depending on their oscillation size oscillate relative to the magnets, so that the magnetic fields are continuously cut with the coils. Tests have shown that in this way usable electricity can be generated, the z. B. on a bicycle, Motorcycle or motor vehicle is sufficient for the lighting. The device to generate such a current is that on the chassis, or on Superstructure such as horseshoe magnets are firmly attached, which face each other in pairs can, between which the coils od on leaf springs. Like. Are arranged, the Depending on the natural vibrations of the vehicle, they swing out more or less relatively. The energy production can be increased at will, depending on the number and size the magnets and coils used. It is natural that depending on the nature the street power fluctuations occur. Electric currents are allowed for bicycles of 3o volts and 22o mAmp. is sufficient, but is sufficient even on smooth asphalt roads the vibrations to generate electricity. For machines with constant vibration phenomena the current becomes more uniform, subject to the well-known regulating devices can be.

From the drawing are details of the embodiments of the invention refer to.

Fig. I shows a leaf spring with induction coil from the side urid 2 seen from above; Figures 3 and 4 show like views of one between two fixed horseshoe magnets arranged resilient coil; Fig. 5 shows schematically the arrangement of several leaf springs according to FIGS. i and 2; Fig.6 is the view of a Battery of horseshoe magnets with built-in voice coils according to FIG. 5; Fig. 7 FIG. 6 is a side view of FIG.

According to Fig. 3 attached to the vehicle, machine, machine part or. Like. The horseshoe magnets i on the chassis, on the machine frame or stand. The induction coils 2 are fastened in the example on a leaf spring 3, each has a chosen vibration arm as desired and required, which is also on the same Chassis od. Like. Is attached. Since the leaf spring 3 is 9o ° against the longitudinal axis the magnet i is located, the vibrations that occur are different from it Transfer effect, with which the relative vibrations to the fixed point of the magnets get supported. The number and size of magnets and voice coils is determined according to the desired goal and depends on the achievable oscillation possibility away.

The larger the vibrated machine or device on which the If an induction system is installed, the larger the number and size of the magnets can be and be the coils.

You can arrange whole batteries of magnets and coils for this purpose, as illustrated in Figures 5-7. On a vertical solid rod or support 4, which is attached to the moving body, is a number of leaf springs on both sides a to h attached, at the ends of which the voice coils 2 sit. As many double magnets i are arranged as shown in FIGS. 3 and 4 so that the summed effect is substantial Increase in the generated electrical energy results. This facility has the The advantage that the vibrations of the springs are set differently within certain limits can be so that the total current is more uniform.

It must be emphasized that a motorized power source for propulsion of the vehicle, the machine or the like. No electrical or mechanical power delivers to the induction system according to the invention.

Claims (7)

PATENT CLAIMS: i. Process for generating electrical energy by induction, characterized in that the vibrations from natural vibrations of moving bodies are transmitted to differently vibrating current conductors or magnetic fields attached to the body, their relative movement to one another generating induction current. 2. A method for generating electrical energy according to claim i, characterized in that the vibrations of a moving body on it Set spring-loaded current conductors (2) to vibrate, whereby these current conductors Force fields from magnets (i) firmly attached to the body cut and thus induction currents produce. 3. The method according to claim 2, characterized in that one on springs (3) stored coil (2) under the same vibrations of the moving body oscillates relative to two magnets (i) which are fixedly arranged on it. 4. Device for carrying out the method according to claims 2 and 3, characterized in that two oppositely directed magnets (i) are fixedly arranged on the moving body are, between which an induction coil (2) od on a leaf spring (3). lies; which latter sits on the same moving body. 5. Device according to Claim 4, characterized in that several magnet coil groups (Fig. 5 to 7) are combined side by side to form a battery. 6. Apparatus according to claim 4 and 5, characterized in that a number of Springs (a to h, Fig. 5) with voice coils (2) is arranged between co-mounted fixed double magnets (i). 7. Apparatus according to claim 6, characterized in that that the individual springs (a to h) are of different lengths.