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Electromagnetic platform motor (EPM) (EPM-1) (EPM-2)

09641045 ยท 2017-05-02

    Inventors

    Cpc classification

    International classification

    Abstract

    The present invention is a new 21.sup.st Century Electric Generation. It is an electromagnetic actuated generator mechanism that use magnetic field like a wrecking yard uses extremely powerful electromagnet device to move heavy piece of metal from one place to another. The electromagnetic actuated generator is supported by a platform with a track and wheel system, whereby the mechanism is control by the magnetic field of a wound coil of magnet wire, wherein current is supply by a DC variable power supply or a plurality of battery packs. The mechanism is connected to a plurality of levers with mechanical advantage connection to a ratchet system transforming reciprocating mechanical power to rotation mechanical power connected to a gear transmission system connected to an electrical generator for transforming the mechanical power to electrical energy.

    Claims

    1. An electromagnetic actuated machine, comprising: a linear reciprocating motor comprising: a metal tube; a stationary coil wound around said metal tube and having end leads; and at least two permanent magnets configured to reciprocate within the metal tube; a linearly moving platform having a plurality of wheels and a supporting member for supporting the at least one permanent magnet; a track system for supporting said moving platform; a lever system having a plurality of lever stages hingedly connected to each other, said lever system having an input lever and an output lever, said input lever being hingedly connected to said moving platform; a ratcheting system for transforming linear mechanical power to rotational mechanical power, said ratcheting system having a reciprocating input and a rotational output, said reciprocating input being hingedly connected to the output lever of the lever system; a transmission gear system having a plurality of gears, an input gear, and an output gear, said input gear being mechanically connected to the rotational output of the ratcheting system; and an electrical generator mechanically connected to the output gear of the transmission gear system for transforming the rotational mechanical power to electrical energy.

    2. The electromagnetic actuated machine according to claim 1, further comprising: a DC power supply; and an electrical switch section having a plurality of fixed terminals and a plurality of movable terminals; wherein said electrical switch section connects the DC power supply to the leads of the stationary coil for generating a current flow; and wherein said electrical system is configured to reverse the polarity of the electrical connection between the DC power supply and the stationary coil, thereby reversing the direction of the current flow to said stationary coil for reversing the polarity of the magnetic field generated within the metal tube and causing the moving platform to move in the opposite direction.

    3. The electromagnetic actuated machine according to claim 2, wherein said metal tube is made of aluminum.

    4. The electromagnetic actuated machine according to claim 2, wherein said stationary coil is an enameled copper coil.

    5. The electromagnetic actuated machine according to claim 2, wherein said at least two permanent magnets are nickel plated, grade N42 Neodymium magnets.

    6. The electromagnetic actuated machine according to claim 2, wherein said input lever further comprises a plurality of weighted objects.

    7. The electromagnetic actuated machine according to claim 2, wherein said ratcheting system further comprises a plurality of weighted objects evenly spaced around the rotational output.

    8. The electromagnetic actuated machine according to claim 2, wherein said DC power supply is a variable DC power supply.

    9. The electromagnetic actuated machine according to claim 2, wherein said DC power supply is a plurality of DC battery packs.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    (1) FIG. 1 is a view of the preferred embodiment of the invention (EPM).

    (2) FIG. 2 is a detailed view of the MOTOR FRAME SECTION with a view and positions of some of its parts.

    (3) FIG. 2A is a view of the MOTOR FRAME SECTION with some of the part measurements.

    (4) FIG. 3 is a view of the magnet connections, the polarity positions of the magnets & the ELECTROMAGNETIC ALUMINUM TUBE SECTION.

    (5) FIG. 4 shows the secured position of the ELECTROMAGNETIC ALUMINUM TUBE inside the MOTOR PLATFORM SECTION frame.

    (6) FIG. 5 show views of the TOP & BOTTOM SWITCH SECTIONS.

    (7) FIG. 5A shows a side view of the ELECTRICAL SWITCH.

    (8) FIG. 6 shows the ELECTRICAL SWITCH SECTIONSTOP & BOTTOM.

    (9) FIG. 6A shows a side view of the ELECTRICAL SWITCH.

    (10) FIG. 7A-7C show drawings of the electrical connections and the voltage source.

    (11) FIG. 8 & FIG. 8A shows view from Side (B) a modified ten speed bicycle with weights secured & evenly spaced around the wheel, the flywheels (gears), cassettes (gears), bicycle chains, the modified bicycle paddle, a bike stand and a modified electric generator.

    (12) FIG. 8B shows view from Side (A).

    (13) FIG. 9 is a view of the preferred embodiment of the invention including the batteries.

    (14) FIG. 10 shows drawings of the electrical switch wiring connections to the battery pack, electrical generator, and controller.

    DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT (EPM)

    (15) FIG. 1 shows an overall view of the preferred embodiment of the claimed invention, along with the numbers for some of the parts to the invention. The reciprocating frame is comprised of metal and brass plumbing pipes, connectors and steel rods. FIG. 1 shows the motor frame section with four metal gate wheels (1), each attached to a corner. Numbers 1a and 1b indicate the sides of a moving platform made of pipe. The electromagnet section (2) comprises an open aluminum tube with enameled magnet copper wire wrapped around it with and having a black end lead and a red end lead. The D.C. Variable Power Supply (4) is also illustrated in FIG. 1, along with 1st LEVER SECTION (5) and 2nd LEVER SECTION (Sa). Number (5b) is the steel rod connection to the 2nd LEVER SECTION and to bicycle paddle gear (6). A modified electric generator (7). The majority of the invention is shown positioned on top of two platforms (8) and (9).

    (16) FIG. 2 shows the MOTOR FRAME SECTION with some of its parts

    (17) FIG. 2A shows some of the measurements of the motor frame section and some of its parts.

    (18) FIG. 3 shows Nickel Plated, Grade N42 Neodymium Magnets. The ELECTROMAGNETIC ALUMINUM TUBE (2). Wrapped around the aluminum tube is an enameled magnet copper wire that has a red lead (21) and a black lead (22).

    (19) FIG. 4 shows the MOTOR PLATFORM SECTION frame (1), the ELECTROMAGNETIC ALUMINUM TUBE (2) with its RED lead and BLACK lead, the TOP SWITCH SECTION (18), the BOTTOM SWITCH SECTION (19) FIG. 5 shows the TOP SWITCH SECTION (18)

    (20) FIG. 5A shows the up and down movement positions of the TOP & BOTTOM SWITCH SECTIONS.

    (21) FIG. 6 shows the TOP ELECTRICAL SWITCH SECTION

    (22) FIG. 6A shows the up and down movement positions of the TOP & BOTTOM ELECTRICAL SWITCH SECTIONS.

    (23) FIG. 7 shows the ELECTRICAL SWITCH SECTION.

    (24) FIG. 7A shows the TOP SWITCH SECTION.

    (25) FIG. 7B is a D. C. Variable Voltage Supply of 150-500 volts.

    (26) FIG. 7C is two separate groups of eighteen 12-volts car batteries connected in a series circuit, and the groups are connected in to a parallel circuit.

    (27) FIG. 8 shows a drawing of a bicycle wheel and bike stand.

    (28) FIG. 8A shows a modified ten speed bicycle transmission with eight 2.5 lbs. bar weights (93b) secured around the wheel (93a). Attached to the bicycle wheel is flywheel (94) and a chain (94a) that connects to gears (95) and (96). Chain (96a) connects to gear (97) which turns with gear (98) attached to flywheel (100). Cassette gear (96) has six different speed positions and cassette gear (98) has five different speed position.

    (29) Operation of the Electromagnetic Platform Motor

    (30) When a D.C. Variable Power Supply provides electrical current to the coil wound around the aluminum tube, the induced magnetic field will attract a permanent magnet. This attraction will linearly displace the magnet and the moving platform to which the magnet is attached. The linear movement of the platform will move the plurality of levers, each lever section changing the direction and torque of the portion of the mechanical power being transmitted. The remaining mechanical power is then provided to the input of the bicycle paddle gear which transforms linear reciprocating motion into rotational motion. The additional gears provide a speed-increase mechanism that allows the operation of a low torque electrical generator.

    Description of an Additional Preferred Embodiment

    (31) FIG. 9 shows a drawing of the additional preferred embodiment of the MOTOR PLATFORM SECTION. All of the parts are described in the above Figures. In addition, two groups (116) of eighteen 12-volts car batteries each are connected in parallel to generator (117).

    (32) FIG. 10 shows the wiring between the 12 VOLT BATTERIES PACKS, the ELECTRIC GENERATOR, and the wiring.