Electromagnetic engine

Electromagnetic engine

  • CN 101,883,912 B
  • Filed: 10/03/2008
  • Issued: 08/03/2016
  • Est. Priority Date: 10/04/2007
  • Status: Active Grant
First Claim
Patent Images

1. six-stroke explosive motor, including:

  • First piston, it is slidably disposed in the first cylinder, and described first cylinder has the first blind end and the second blind end;

    First, it is arranged close to described first blind end of described first cylinder and is configured to allow for the first reactant and is passed through described first blind end of described first cylinder;

    Second mouthful, it is arranged close to described second blind end of described first cylinder and is configured to allow for the second reactant and is passed through described second blind end of described first cylinder;

    AndFirst transducer, the mechanical energy of described first piston can be converted into electric energy with the operation of described first piston in piston circulates by back and forth;

    Wherein, described first transducer is configured to drive described first piston in procedure below;

    First induction stroke, wherein, described first piston moves away described first blind end of described first cylinder, and the first reactant is introduced into described first blind end of described first cylinder;

    Second induction stroke, wherein, described first piston moves away described second blind end of described first cylinder, and the second reactant is introduced into described second blind end of described first cylinder;

    And wherein, described first transducer is configured in procedure below be converted into the mechanical energy of described first piston electric energy;

    First power stroke, wherein, described first piston moves away described first blind end of described first cylinder in response to the chemical reaction in described first blind end of described first cylinder;

    AndSecond power stroke, wherein, described first piston moves away described second blind end of described first cylinder in response to the chemical reaction in described second blind end of described first cylinder;

    And wherein, described first transducer is further configured to drive described first piston in procedure below;

    First compression stroke, wherein, described first reactant is compressed in described first blind end of described first cylinder;

    AndSecond compression stroke, wherein, described second reactant is compressed in described second blind end of described first cylinder;

    OrDescribed first transducer is further configured to drive described first piston in procedure below;

    First exhaust stroke, wherein, described first piston shifts to described first blind end of described first cylinder, thus product is discharged from described first blind end of described first cylinder at least in part;

    Second exhaust stroke, wherein, described first piston shifts to described second blind end of described first cylinder, thus product is discharged from described second blind end of described first cylinder at least in part.

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