Patent Number: 043409709
Section: description

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT Referring to FIGS. 1 and 2 there is shown a power drive of the present invention. Several heat expansion valves are installed around a drive shaft, FIGS. 1 and 2 (8-12) which activates a spindle drive FIG. 1 (11) to turn the big wheel around a side gear, FIG. 2 (13). The movement is accomplished through a hollow cylinder filled with expansible liquid, FIG. 1 (12). At the very end of the valve unit is an opening in which a pushrod is inserted, FIG. 3 (23) the pushrod is sealed tight, fitted with a rubber cap inside the cylinder, FIG. 4 (23-33). When the liquid inside the valve starts to expand or contract, it will move the pushrod in or out. The pushrod is joined against a thrust bearing inside a spindle, FIG. 4 (11-23-24). A pinion gear is inserted into the spindle through a stud. FIG. 4 (4) and a key, FIG. 4 (25) so that the spindle can slide up or down on the stud and turn the pinion gear at the same time, FIG. 4 (4-25-35). Inside the pinion gear is a ratched gear installed. FIGS. 6 & 7 (27-29-76). The ratched gear locks into the spindle drive on the down stroke and disengages on the up stroke, FIG. 6 (26-27-30). A pressure spring is installed between the pinion gear and the drive spindle, FIG. 4 (10). To move the spindle drive upwards into the spindle threat cylinder, FIG. 5 (4-34) together with the contraction of the liquid. The pinion gear consists of three major parts, pinion gear, ratched gear and sliding collar, FIG. 6 (7-29-30). The sliding collar locks the pinion gear against the two side gears, FIG. 6 (7-31-32). One side gear is fastened against the stand, so the pinion gear can drive the big wheel around it. Opposite a second side gear called satellite gear is disconnected are connected to the drive shaft depending on the Design, FIG. 2 (32). Its function is to keep the pinion gear against the side gears, FIG. 6 (5-31-32). NUCLEAR HEAT EXPANSION VALVE The difference between the conventional valve and the nuclear, are the nuclear heat elements. The heat elements are made of two parts, one part uranium 235 and one part plutonium, placed around a cadmium plunger, FIG. 3 (18-20). When the valve is in an up position the cadmium stick will fall through its own weight down till the stopper unit on back of the stick hits the flange of the stopper bushing, FIG. 3 (17-37). In this position the nuclear reaction is neutralized, FIG. 3 (18-20). Around the nuclear heat elements is a lead crystal ring, FIG. 3 (21). The function of this is to cover the back surface of the nuclear heat elements against getting hit by neutrons and electrons which are still bouncing within the cylinder. This is made possible by using lead crystal reflector shields, FIG. 3 (21). I discovered that lead crystal glass reflects radioactive rays including neutrons as long as the crystal glass is kept under 1000 Fahrenheit temperature. In this design only a temperature range up to 500.degree. Fahrenheit is introduced and the heat elements are only in introduction of a nuclear reaction. Toluene is not only an excellent heat transmitter but also an expansible liquid and moderator. The moderation can be intensified through graphite. As soon as the cadmium plunger neutralizes the nuclear reaction, some neutrons will still be active from the previous nuclear reaction made possible by reflecting the neutrons from one crystal lead reflector to the other. As soon as the big wheel turns and the nuclear heat expansion valve stands upside down, the weight of the cadmium stick will pull the cadmium plunger out of the nuclear heat elements, FIG. 5 (18-20-37). Now a nuclear reaction is introduced which will immediately take place because of the large amount of neutrons and electrons still in circulation from the last reaction. In this fashion a very efficient and safe nuclear via mechanical conversion is accomplished without any electronic controls or sophisticated cooling system. As soon as the machine is in motion, it will adopt itself to a permanent speed till the nuclear heat elements are exhausted. To stop the machine, lock screws are placed on the outside, FIG. 3 (9), which are screwed inwards. The cadmium stick will automatically move inward and stop all nuclear actions. Such a machine can produce power of sufficient amounts. A wheel of ten feet in diameter with eight nuclear expansion valves, operating at an 80.degree. Fahrenheit temperature difference, can produce approximately 700 kilowatt an hour which is ideal for consumers, such as farmers, homeowners, factories and businesses, also in remote areas as army bases, but more important underwater explorations and mining, regardless of the depth and pressure. The nuclear power wheel can operate publicly to demonstrate how nuclear energy can be converted into a useful power with absolutely no danger factor involved and, which is also important, free of polluting the environment. This knowledge is very important to the public particularly since I discovered that nuclear waste material, meaning high radioactive material, can be converted into a useful energy in a patent application called Weinert Light Electrons Amplifier. I believe that nuclear waste material will in the near future be just as much in demand as nuclear fuel. The advantage of having two different isotopes used as heat elements, is to have more intense radio activity which allows a smaller amount of nuclear mass. In conjunction with the crystal reflectors a much faster nuclear reaction is introduced. The Nuclear cells can also operate only one plutonium which means Nuclear waste can be used as Nuclear Fuel.