DE19717340A1 - Magnetic gearbox, especially for cars - Google Patents

Abstract

The frictionless and contact-less gearbox, with or without a motor, is provided with floating bearings (by magnetic repulsion) and with multipolar magnetically intermeshing gears, which influence one another only magnetically, not mechanically. For example, a larger disc can be constructed at the same time outside as a stepping motor and inside the disc, several sprocket wheels can be magnetised in the direction of the centre point.

Description

In conventional mechanics, gears and motor gears are not wear-free executed because of their touching ball bearings and gears. In addition, the mechanical resistance and loss at higher speeds.

In my invention, however, the problem is solved with magnetic disks that are magnetized differently. The shaft that supports the magnetized tooth lock washer represents, is replaced by a magnetic rod that is inserted into magnetic sockets that are the same Have polarity (same poles repel each other). A worm gear is possible if you e.g. B. magnetized the center with the south pole and one on the outer cylinder Snail magnetized with the north pole side. The advantage is that spur gears over the Bevel gears do not need a special bevel cut because the Manget field around the outer Axis of such a pulley acts. Since such tooth lock washers are poled several times, can simply have multiple or simple solenoids on the drive side of such Gear transmission can be attached to this gear as a multi or single strand stepper motor to operate. One half can also be used as an engine and the other half as a driving gear can be used. Several sprockets can also go towards the center be magnetized on such a tooth, with a ring designed as a stepper motor can be.

In the drawing Fig. 1 an example of such a contactless transmission 5:15 is shown. Five double poles the number 1 and fifteen double poles the number 2. Such magnetically dependent gearwheels can be magnetized axially or radially. The advantages are that the materials from which such gearwheels are made can be designed as a microgear with lasers and etching techniques. (Coils can also be made on semiconductors and Cu base material using etching technology. The particular advantage of high-speed microgears is that wear would normally occur immediately due to the high speed. It can also be designed as a semi-mechanical gearbox for the automotive industry, whereby from an increasingly high gear can be changed to such a magnetically intermeshing contactless system and perform switching, braking and clutch functions within the contactless or high-speed gear parts and then forcefully reduced to powerful mechanical gear technology, then the wheels one It is also possible to take advantage of such a gear as an electrically switchable one (whereby in FIG. 1 both gear wheels No. 1, No. 3 would have to be switched at the same time in order to keep the circumferential gear wheel distances) r to be observed) Perform the electromagnetic ring, i.e. switch from less to multi-pole, which works like an automatic transmission, with the help of electronics.

Claims (7)

1. A gear especially for a transmission, the teeth of which should work smoothly and mechanically without contact; Such a gear is characterized in that it is in accordance with FIG. 1 with the No. 1, No. 2 magnetically connected (magnetized poles, which are polar next to each other on a round ferromagnetic disc or cylinder in the axial or radial direction) and on are attached to an axis, which are provided by a magnetic field (axis and socket with the same pole) and constitute a non-contact bearing. The poles or double poles, which represent the teeth of such a gearwheel, can also be replaced by electromagnets, which can be switched in the number of poles as in a multi-pole motor. This frictionless, non-contact gearwheel, which works on a magnetic basis, is characterized in that it can almost replace all conventional work functions of a conventional mechanical gearwheel (e.g. bevel gear, spur gear and worm, etc.). Non-contact magnetically intermeshing poles, which represent a smooth gear function with one or more, over or under. 2. A gear for a geared motor according to claim 1, the magnetized Part of a ring gear, a drive coil acts on the gear and the rest Part of such a gear is used for the gear to be driven, and as Multi-strand stepper motor can be executed. 3. A gear for a gear or geared motor according to claims 1 and 2, characterized characterized in that such a smooth and non-contact transmission working magnetic base combined with a conventional gear can be, the mechanically working part for the slow speed and the Magnetic part is used for the fast speed. 4. A gear according to claims 1, 2 and 3, which is another gear with on magnetized gear can approach axially or radially to function as a To accomplish clutch. 5. A gear transmission according to claims 1 and 4, characterized in that such a gear approaches a wheel or gear as Fig. 1 No. 1, which also has an aluminum cage or an aluminum disc to achieve a braking effect or a to drive such with grinding (by the induction effect of magnetized ring gear on the short-circuit cage or aluminum disc) asynchronously. 6. A gear in a system according to claims 1, 2, 3, 4 and 5, thereby characterized in that it works non-mechanically and semi-mechanically, as switching and Automatic transmission in the automotive industry conventional transmission, clutch and can be used for braking in a vehicle. 7. A frictionless and non-contact gear, whose function is based on magnetic work according to claim 1 to claim 7, characterized in that it is also in one System or device can be used as a macro and micro size.