WO2015039379A1 - Machine électrique auto-alimentée - Google Patents

Machine électrique auto-alimentée Download PDF

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Publication number
WO2015039379A1
WO2015039379A1 PCT/CN2013/088090 CN2013088090W WO2015039379A1 WO 2015039379 A1 WO2015039379 A1 WO 2015039379A1 CN 2013088090 W CN2013088090 W CN 2013088090W WO 2015039379 A1 WO2015039379 A1 WO 2015039379A1
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WO
WIPO (PCT)
Prior art keywords
motor
winding
self
piston
rotor
Prior art date
Application number
PCT/CN2013/088090
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English (en)
Chinese (zh)
Inventor
沙铭超
Original Assignee
沙铭超
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN201310463899.6A external-priority patent/CN103532343A/zh
Application filed by 沙铭超 filed Critical 沙铭超
Publication of WO2015039379A1 publication Critical patent/WO2015039379A1/fr

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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K53/00Alleged dynamo-electric perpetua mobilia

Definitions

  • the present invention relates to a self-energizing motor, and more particularly to a motor having self-energizing electric and self-energy generating, and continuous and uninterrupted power and power. Background technique
  • the technical problem to be solved by the present invention is to provide a motor with self-energy generation and self-energy electric, and continuous and uninterrupted power and power, in view of the problems of the above-mentioned existing motor technology, which are insufficient and restricted.
  • This article is called a self-powered motor.
  • the first technical solution of the self-energizing motor of the invention comprises: comprising an end cap base 1, two or more motor stators 2, 3 are arranged in the base 1, the motor stator 2 is provided with a motor rotor 4, and the motor stator 3 The motor rotor 5 is provided, and the rotor 4 of the motor is combined with the spokes of the spoke shaft 6 to form a large-diameter flywheel type structure.
  • the shaft of the spoke shaft 6 is coupled to the small-diameter motor rotor 5; in the structure, the motor stator 3 is combined with the motor rotor 5
  • the output electric power is greater than the input power of the motor stator 2 or the motor rotor 4, based on the transition field or the pivoting type, whereby the motor stator 2 or the winding lead of the motor rotor 4 is connected to the wire box 201, the motor stator 3 or the motor rotor 5
  • the winding lead wire is connected to the wire box 301; the wire box 301 is electrically connected with the relay 302, and the relay 302 is provided with a wire 304 connecting the wire box 201 after the switch 303 is frequently opened, and the wire box 301 is also provided with one or more capacitors or Electrical coupling of a smart capacitor or supercapacitor 305.
  • the winding wires of the stators 2 and 3 of the motor are made of silver-copper alloy or rare earth copper alloy, and the rotors 4 and 5 of the motor are made of rare earth permanent magnets, and the rotor 4 of the motor is used.
  • the combination of the spokes of the spoke shaft 6 constitutes a large-diameter flywheel type, multi-layer flywheel type structure
  • the motor stator 2 has a coreless structure and is provided with a high-power starting winding with a boosting circuit, and its starting winding and running winding Or having a concave-convex layer structure, thereby placing the flywheel-type rare earth permanent magnet motor rotor 4 in the concave winding of the starting winding and the running winding of the motor stator 2, in the high-power starting winding and the running winding and the uneven layer having the boosting circuit High-performance electromagnetic force and moment of inertia under the action of the resultant force; the motor The stator 3 has a coreless structure and a winding with high power, and the windings thereof are provided with a concave-convex layer structure and a magnetically permeable substrate.
  • the motor rotor 5 is of a small diameter cylindrical type or has a concave-convex layer and a multi-layer flywheel type.
  • the motor stator 2 with high-performance electromagnetic force is combined with a rare earth permanent magnet motor rotor 4 with high-performance flywheel power and a rare-earth permanent magnet motor rotor with a small diameter and a concave-convex structure. It is operated vertically, so that it has high-power windings and motor stator 3 with high-performance power generation efficiency to achieve high-power generation. Therefore, combined with all the above technical elements, high-performance power and low power generation are realized. Big.
  • the second technical solution of the self-energizing motor of the invention comprises: an end cap base 1 is provided, two or more motor stators 2, 3 are arranged in the base 1, and the motor stator 4 is provided with a motor rotor 4, the motor stator 3 A motor rotor 5 is provided, and the motor rotor 4 is coupled to the motor rotor 5 via an automatic transmission 601; in terms of construction, the motor stator 3 combined with the motor rotor 5 has an output power greater than the input power of the motor stator 2 or the motor rotor 4, based on a transition or pivot
  • the motor stator 2 or the winding lead of the motor rotor 4 is connected to the wire box 201
  • the motor stator 3 or the winding lead wire of the motor rotor 5 is connected to the wire box 301;
  • the wire box 301 and the relay 302 are electrically connected, the relay
  • the 302 is provided with a wire 304 that is connected to the wire box 201 after the switch 303 is opened.
  • the wire box 301
  • the winding wires of the stators 2 and 3 of the motor are made of silver-copper alloy or rare earth copper alloy, and the rotors 4 and 5 of the motor are made of rare earth permanent magnets, and the rotor 4 of the motor is used.
  • the motor stator 2 has a coreless structure and is provided with a high power starting winding having a boosting circuit, and a starting winding and a running winding thereof or having a concave-convex layer structure Therefore, the flywheel type rare earth permanent magnet motor rotor 4 is placed in the concave layer of the starting winding and the running winding of the motor stator 2, and is realized by the combined force of the high power starting winding with the boosting circuit and the running winding and the concave and convex layer.
  • the motor stator 3 has a coreless structure and a winding with high power, and the winding or has a concave-convex layer structure and a magnetically permeable underlay, and the motor rotor 5 has a small diameter a cylindrical type or a structure having a concave-convex layer and a multi-layer flywheel type, whereby the winding concave layer of the stator 3 of the motor is combined with the convex layer of the rare earth permanent magnet motor rotor 5, the motor The winding convex layer of the stator 3 is combined with the concave layer of the rotor 5 of the rare earth permanent magnet motor and the magnetic conductive substrate to realize high-performance magnetic permeability and power generation efficiency; thereby, the motor stator 2 having high-performance electromagnetic force is combined with The high-performance flywheel-powered rare earth permanent magnet motor rotor 4 is vertically operated by an automatic transmission 601 and a rare-diameter permanent magnet motor rotor 5 having
  • the third technical solution of the self-energizing motor of the present invention comprises: a chassis or a body 7, wherein the chassis or the body 7 is provided with one or more cylinders 701, and the cylinder 701 is provided with a pair of pistons 702, and the cylinders 701 and 702 are
  • the core of the piston 702 is provided with a ball or a piston ring for supporting and sliding.
  • the piston 702 is coupled to the crankshaft 704 via a connecting rod 703.
  • the piston is fixed at the top dead center or the bottom dead center of the piston 701.
  • crankshaft 704 is a bearing Or supported by magnetic suspension bearings 705, 706, the crankshaft 704 is provided with a weight 707, one end of the crankshaft 704 is provided with one or more motor rotors 708, and the motor rotor 708 is provided with a matching motor stator 709, in the structure of the motor stator 709 combined
  • the motor rotor 708 has an output power that is greater than the input power of the cylinder 701 winding in combination with the piston 702 winding, based on the transition or pivoting, whereby the winding lead of the motor stator 709 or the motor rotor 708 is connected to the wire box 301; the output of the crankshaft 70
  • the starter is provided with a wire connecting the wire box 201 via the thermistor, and the lubricating oil is contained in the casing 7 for lubricating the connecting rod and the crankshaft; the wire box 301 and the relay 302 are provided.
  • the relay 302 is provided with a wire 304 that is connected to the wire box 201 after the switch 303 is opened, and the wire box 301 is also provided with one or more capacitors or smart capacitors or super It is electrically coupled to the container 305.
  • the winding wire of the motor stator 709 is made of silver-copper alloy or rare earth copper alloy, and the cylinder 701, the piston 702, and the crankshaft 704 are configured by a large piston stroke.
  • the motor rotor 708 is constructed of rare earth permanent magnets, and has a flywheel type, a multi-layer flywheel type or a concave-convex layer
  • the motor stator 709 has a coreless structure and A winding having a high power, the winding or having a concave-convex layer structure and a magnetically permeable substrate, whereby the winding concave layer of the motor stator 709 is combined with the convex layer of the rare earth permanent magnet motor rotor 708, and the winding convex layer of the motor stator 709 is combined with the rare earth
  • the concave layer of the permanent magnet motor rotor 708 and the magnetically permeable substrate are used to realize high-performance
  • the fourth technical solution of the self-energizing motor of the present invention comprises: a chassis or a body 7, wherein the chassis or the body 7 is provided with one or more cylinders 701, and the cylinder 701 is provided with a pair of pistons 702, and the cylinders 701 and 702 are
  • the core of the piston 702 is provided with a ball or a piston ring for supporting and sliding.
  • the piston 702 is coupled to the crankshaft 704 via a connecting rod 703.
  • the piston is fixed at the top dead center or the bottom dead center of the piston 701.
  • the one-point switch or the upper and lower dead points are provided with a one-point switch.
  • the jog switch is electrically connected with the cylinder winding and the piston winding.
  • the jog switch is used to simultaneously control the conduction and the closing of the cylinder winding and the piston winding.
  • the crank switch 704 is supported by a bearing or a magnetic suspension bearing 705, 706.
  • the crankshaft 704 is provided with a weight 707.
  • the end of the crankshaft 704 is coupled to one or more by an automatic transmission or a transmission mechanism 8.
  • the motor rotor 708, the motor rotor 708 is provided with a matching motor stator 709.
  • the motor stator 709 in combination with the motor rotor 708 has an output power greater than the input of the cylinder 701 winding in combination with the piston 702 winding.
  • the rate is based on the transition or the pivoting type, whereby the winding lead of the motor stator 709 or the motor rotor 708 is connected to the wire box 301; the flywheel of the output end or the output end of the crankshaft 704 is coupled with a motive, and the starter is provided with a thermal After the resistor, the wire of the wire box 201 is connected, and the lubricating oil is used for the connecting rod and the crankshaft in the casing 7.
  • the wire box 301 and the relay 302 are electrically connected, and the relay 302 is provided with the switch 303 after the switch 303 is opened.
  • the wire 304, the wire box 301 is also provided with an electrical connection to one or more capacitors or smart capacitors or supercapacitors 305.
  • the winding wire of the motor stator 709 is made of silver-copper alloy or rare earth copper alloy, and the cylinder 701, the piston 702, and the crankshaft 704 are configured by a large piston stroke.
  • the motor rotor 708 is constructed of rare earth permanent magnets, and has a flywheel type, a multi-layer flywheel type or a concave-convex layer
  • the motor stator 709 has a coreless structure and A winding having a high power, the winding or having a concave-convex layer structure and a magnetically permeable substrate, whereby the winding concave layer of the motor stator 709 is combined with the convex layer of the rare earth permanent magnet motor rotor 708, and the winding convex layer of the motor stator 709 is combined with the rare earth
  • the concave layer of the permanent magnet motor rotor 708 and the magnetically permeable substrate are used to achieve high-performance
  • the fifth technical solution of the self-powered motor of the present invention comprises: a base 9 provided with a generator 10, an electric motor or a self-propelled electromagnetic motor 11, and the electric motor 11 is provided with a high-power starting winding having a boosting circuit, and A flywheel rotor having a large diameter, the generator 10 having a small diameter cylindrical rotor with respect to the electric motor 11; the power output end of the electric motor or the self-propelled electromagnetic engine 11 is coupled to the generator 10, the generator 10 The output power is greater than the input power of the electric motor or the self-starting electromagnetic motor 11; or the electric motor or the self-propelled electromagnetic motor 11 is provided with front and rear power output ends, and the front and rear power output ends are respectively coupled with one or more a generator 10 of a small diameter cylindrical rotor, the single output power of which may be less than the input power of the electric motor or the self-propelled electromagnetic motor 11, but the total output power is greater than the electric motor or The input power of the self-starting electromagnetic motor 11; the generator 10 and the relay 30
  • the self-starting electromagnetic motor 11 is provided with one or more cylinders in a casing or a body, and the cylinder is provided with a pair of pistons, the cylinder and the piston are composed of an iron core and a winding;
  • the side is provided with a ball or a piston ring for supporting and sliding, and the piston is connected to the crankshaft through a connecting rod;
  • a one-point moving switch is arranged at the top dead center or the bottom dead center of the piston in the cylinder tube, or a one-point moving switch is provided at the upper and lower dead points.
  • the jog switch is electrically connected to the cylinder winding and the piston winding, so the jog switch is used to simultaneously control the conduction and the off of the cylinder winding and the piston winding, and the jog switch is electrically connected with the wire box outside the chassis.
  • the crankshaft is supported by a bearing or a magnetic suspension bearing, and an end of the crankshaft is coupled with a motive via a flywheel or a transmission mechanism.
  • the starter is provided with a wire connecting the wire box via the thermistor, and the casing is filled with lubricating oil for connection. Lubrication of rods, crankshafts, etc.
  • the winding wire of the generator 10, the electric motor or the self-starting electromagnetic motor 11 is made of silver-copper alloy or rare earth copper alloy, and the generator 10 is made of rare earth permanent magnet.
  • the rotor or the stator with the ironless core, the rotor adopts a small-diameter cylindrical type or a structure with a concave-convex layer and a multi-layer flywheel type, the stator is provided with a high-power winding, the winding or has a concave-convex layer structure and guide The magnetic lining, whereby the winding concave layer is combined with the convex layer of the rare earth permanent magnet rotor, the winding convex layer is combined with the concave layer of the rare earth permanent magnet rotor and the magnetic lining is applied to realize the high performance guide Magnetic capacity and power generation efficiency; the motor 11 uses a rare earth permanent magnet rotor or a stator having an ironless core, the starting winding and the running winding or
  • the sixth technical solution of the self-powered motor of the present invention comprises: a base 9 provided with a generator 10, an electric motor or a self-propelled electromagnetic motor 11, and an electric motor or a self-propelled electromagnetic motor 11 provided with or with an automatic transmission 111
  • the generator 10 is provided with or has an automatic transmission 111, whereby the electric motor or the self-propelled electromagnetic motor 11 is coupled to the generator 10 through the automatic transmission 111, and the output power of the generator 10 is greater than the input of the electric motor or the self-propelled electromagnetic motor 11
  • the electric motor or the self-propelled electromagnetic motor 11 is coupled to the plurality of generators 10 via an automatic transmission 111, the plurality of generators 10 having a single output power that is less than the input power of the electric motor or the self-propelled electromagnetic motor 11
  • the total output power is greater than the input power of the motor or the self-starting electromagnetic motor 11; the generator 10 and the relay 302 are electrically connected, and the relay 302 is provided with the switch 303 frequently connected to the motor or The wire
  • the winding wire of the generator 10, the electric motor or the self-starting electromagnetic motor 11 is made of silver-copper alloy or rare earth copper alloy, and the generator 10 is made of rare earth permanent magnet.
  • the rotor or the stator with the ironless core, the rotor adopts a small-diameter cylindrical type or a structure with a concave-convex layer and a multi-layer flywheel type, the stator is provided with a high-power winding, the winding or has a concave-convex layer structure and guide The magnetic lining, whereby the winding concave layer is combined with the convex layer of the rare earth permanent magnet rotor, the winding convex layer is combined with the concave layer of the rare earth permanent magnet rotor and the magnetic lining is applied to realize high performance magnetic permeability and Power generation efficiency; the electric motor 11 adopts a rare earth permanent magnet rotor or a stator having an ironless core, the starting winding and the running wind
  • the high-power starting winding with the boosting circuit and the running winding and the combination of the concave and convex layers realize high-performance electromagnetic force and moment of inertia; the self-starting electromagnetic motor 11 has a large piston stroke structure, thereby achieving high performance.
  • Angular momentum and torque thus, an electric motor having high-performance electromagnetic force and flywheel power or a self-propelled electromagnetic motor 11 having high-performance angular momentum passes through the automatic transmission 111 and has high-performance dynamics and high-performance power generation efficiency.
  • the high-power generator 10 is vertically coupled and operated, and the automatic transmission 111 increases the torque and the variable torque, thereby realizing a large power generation amount, thereby combining all the above technical elements to realize high-performance power and work. It consumes less power.
  • the seventh technical solution of the self-powered motor of the present invention comprises: a base 9 , the base 9 is provided with a generator 10 , a ring rail 901 , a cross bar 902 , the cross bar 902 is provided with a bearing 903 and a brush 904 , and the bearing 903 is provided
  • the spoke shaft 905 is disposed in the ring rail 901, and the base of the ring rail 901 to the base 9 is provided with a cover; the shaft of the spoke shaft 905 is provided with a slip ring 906, and the spoke shaft 905 is provided with an electric motor or
  • the self-starting electromagnetic motor 11, the power output end of the electric motor or the self-starting electromagnetic motor 11 is provided with a wheel or an impeller or a propeller 112, or a wheel or an impeller or a propeller 112 is coupled through an automatic transmission or a transmission mechanism; a shaft coupling of the spoke shaft 905
  • the generator 10 is connected to the generator 10 through an automatic transmission or a transmission mechanism, and the output
  • the generator 10 having a single output power that is less than the input power of the motor or the self-starting electromagnetic motor 11, but having a total output power greater than the motor or the self-propelled electromagnetic engine 11 Input power; the generator 10 and the relay 302 are electrically connected, and the relay 302 is provided with a switch 304, a brush 904, a slip ring 906, and a wire 304 connected to the motor or the self-starting electromagnetic motor 11, the generator 10 is also provided with an electrical connection to one or more capacitors or smart capacitors or supercapacitors 305.
  • the winding wire of the generator 10, the electric motor or the self-starting electromagnetic motor 11 is made of silver-copper alloy or rare earth copper alloy, and the generator 10 is made of rare earth permanent magnet.
  • the rotor or the stator with the ironless core, the rotor adopts a small-diameter cylindrical type or a structure with a concave-convex layer and a multi-layer flywheel type, the stator is provided with a high-power winding, the winding or has a concave-convex layer structure and guide The magnetic lining, whereby the winding concave layer is combined with the convex layer of the rare earth permanent magnet rotor, the winding convex layer is combined with the concave layer of the rare earth permanent magnet rotor and the magnetic lining is applied to realize high performance magnetic permeability and Power generation efficiency; the electric motor 11 adopts a rare earth permanent magnet rotor or a stator having an ironless core, the starting winding and the running wind
  • the eighth technical solution of the self-powered motor of the present invention is that the self-energizing motor has two or more sets of the techniques and mechanisms described in the first to seventh technical solutions, thereby using a plurality of wire boxes 301 and a plurality of generators 10 parallel, or parallel connection through multiple capacitors or smart capacitors or supercapacitors, to achieve a composite power supply, thus achieving greater power supply and trouble-free power supply guarantee, providing continuous and uninterrupted power for large or large-scale effective objects Electricity and power.
  • the beneficial effects are as follows:
  • the power connection cable box 201 is activated, and the startup is started.
  • the power supply current is supplied to the stator 2 of the motor, and the stator 2 of the motor generates a rotating magnetic field to drive the rotor 4 of the motor.
  • the stator 2 of the motor having high-performance electromagnetic force is combined with the rotor 4 and the small diameter of the rare earth permanent magnet motor having high-performance flywheel power.
  • the rare earth permanent magnet motor rotor 5 having the uneven layer structure is vertically operated, so that the high-power winding and the motor stator 3 having high-performance power generation efficiency realize high-power generation.
  • the current it sends causes the relay 302 to be turned on, whereby the current is connected to the wire box 201 and to the winding of the stator 2 of the motor, and the indicator light of the relay is illuminated, at which time the rotating magnetic field of the stator 2 of the motor and the operation of the rotor 4 of the motor It is provided by the startup power supply and the current of the motor stator 3 in parallel.
  • the starting power is turned off, and after the power is turned off, the rotating magnetic field of the motor stator 2 and the operation of the motor rotor 4 are provided by the current of the motor stator 3, thereby realizing self-powering and self-power generation, thereby combining the above All the technical elements enable high-performance power and low power consumption, which provides continuous and uninterrupted power and power for the target.
  • the capacitor or smart capacitor 305 acts on the compensation and increases the amount of power supplied, and the normally open switch 303 is used for shutdown and emergency shutdown.
  • the beneficial effects are as follows: In use, the power supply connection box 201 is activated, the startup power supply current is turned into the winding of the motor stator 2, and the motor stator 2 generates a rotating magnetic field to drive the motor rotor 4 to operate, thereby The motor stator 2 with high-performance electromagnetic force combined with the rare earth permanent magnet motor rotor 4 with high-performance flywheel power is vertically operated by an automatic transmission 601 and a rare-diameter permanent magnet motor rotor 5 having a small-diameter and concave-convex structure, and an automatic transmission is provided.
  • the current generated by the relay causes the relay 302 to be turned on, whereby the current is connected to the wire box 201 and to the winding of the stator 2 of the motor, and the indicator light of the relay is turned on, at which time the rotating magnetic field of the stator 2 of the motor and the operation of the rotor 4 of the motor It is provided by the startup power supply and the current of the motor stator 3 in parallel.
  • the starting power is turned off, and after the power is turned off, the rotating magnetic field of the motor stator 2 and the operation of the motor rotor 4 are provided by the current of the motor stator 3, thereby realizing self-powering and self-power generation, thereby combining the above All the technical elements enable high-performance power and low power consumption, which provides continuous and uninterrupted power and power for the target.
  • the capacitor or smart capacitor 305 acts to compensate and increase the amount of power supplied, and the normally open switch 303 is used for shutdown and emergency shutdown.
  • the beneficial effects are as follows: In use, the power connection cable box 201 is activated, and the startup power supply current is turned on to the wire box 201, thereby achieving short-time conduction and automatic blocking through the thermistor. Thereby, the automatic start and the automatic closing of the starter are realized, the process not only drives the movement of the crankshaft 704 and the piston 702 but also effectively prevents the heat of the starter, and the movement of the piston 702 causes the piston 702 to touch the jog switch thereof.
  • the current it sends causes the relay 302 to be turned on, whereby the current is turned on to the wire box 201 to supply current to the operation of the cylinder winding and the piston winding, while the indicator light of the relay is illuminated, at which time the stroke of the piston 702 and the crankshaft 704
  • the operation is provided by the parallel connection of the starting power and the current of the motor stator 709. According to the indicator light, the power is turned off, and the stroke of the piston 702 and the operation of the crankshaft 704 are turned off after the power is turned off.
  • the current supplied by the stator 709 is provided, thereby realizing self-powered and self-powered power generation, thereby combining all the above-mentioned technical elements to realize high-performance power and low power consumption, thereby providing a continuous and effective object. Uninterrupted power and power.
  • the capacitor or smart capacitor 305 acts on the compensation and increases the amount of power supplied, and the normally open switch 303 is used for shutdown and emergency shutdown.
  • the beneficial effects are as follows: In use, the power connection cable box 201 is activated, and the startup power supply current is turned on to the wire box 201, thereby achieving short-time conduction and automatic blocking through the thermistor. Thereby, the automatic start and the automatic closing of the starter are realized, the process not only drives the movement of the crankshaft 704 and the piston 702 but also effectively prevents the heat of the starter, and the movement of the piston 702 causes the piston 702 to touch the jog switch thereof.
  • the effect of the torque is such that it has a large power winding and a motor stator 709 having high-performance power generation efficiency to achieve a high power generation amount.
  • the current it sends causes the relay 302 to be turned on, whereby the current is connected to the wire box 201 to supply current to the operation of the cylinder winding and the piston winding, while the indicator light of the relay is illuminated, at which time the stroke of the piston 702 and the crankshaft 704
  • the operation is provided by the parallel connection of the starting power and the current of the motor stator 709.
  • the stroke of the piston 702 and the operation of the crankshaft 704 after the power is turned off are provided by the current of the motor stator 709, thereby realizing self-powering and self-power generation, thereby combining all the above technical elements.
  • the result is high-performance power and low power consumption, which provides continuous and uninterrupted power and power for the target.
  • the capacitor or smart capacitor 305 acts to compensate and increase the amount of power supplied, and the normally open switch 303 is used for shutdown and emergency shutdown.
  • the beneficial effects are: using, starting the power connection motor or the self-starting electromagnetic motor 11, turning on the starting power source to drive the motor with high-performance electromagnetic force and flywheel power, or by using the thermal
  • the electric resistance realizes short-time conduction and automatic blocking to realize automatic start and automatic closing of the starter of the self-starting electromagnetic motor 11, which not only drives the piston movement of the self-starting electromagnetic motor 11, but also effectively prevents the starter from being
  • the piston movement of the process causes the piston top to touch its jog switch, so that its piston winding and its matched cylinder winding are simultaneously turned on, thereby generating a repulsive force, and the piston generates a stroke under the action of the repulsive force.
  • the lever causes its crankshaft to operate, whereby the self-starting electromagnetic motor 11 having high-performance angular momentum enters normal operation and operation.
  • an electric motor having high-performance electromagnetic force and flywheel power or a self-starting electromagnetic motor 11 having high-performance angular momentum drives vertical connection and high-power generator 10 with high-performance dynamics and high-performance power generation efficiency And power generation, thereby achieving high power generation.
  • the current it sends causes the relay 302 to be turned on, whereby the current is turned on to the motor or the self-starting electromagnetic motor 11, and the indicator light of the relay is illuminated, at which time the motor or the self-starting electromagnetic motor 11 is operated. It is provided by the startup power source and the current of the generator 10 in parallel.
  • the power is turned on according to the indicator light, and the operation of the motor or the self-starting electromagnetic motor 11 after the power is turned off is driven by the current of the generator 10, thereby realizing self-powering and self-power generation, thereby Combining all of the above technical elements to achieve high performance power and low power consumption, it provides continuous and uninterrupted power and power for the target.
  • the capacitor or smart capacitor 305 acts to compensate and increase the amount of power supplied, and the normally open switch 303 is used for shutdown and emergency shutdown.
  • the beneficial effects are: using, starting the power connection motor or the self-starting electromagnetic motor 11, turning on the starting power source to drive the motor with high performance electromagnetic force and flywheel power or having high performance angular momentum
  • the self-starting electromagnetic motor 11 is operated by the automatic transmission 111 to drive the vertical connection and the high-power generator 10 having high-performance dynamics and high-performance power generation efficiency to operate and generate power, and the automatic transmission 111 increases the torque and the variable torque The role of the power to achieve high power.
  • the current it sends causes the relay 302 to be turned on, whereby the current is turned on to the motor or the self-starting electromagnetic motor 11, and the indicator light of the relay is illuminated, at which time the motor or the self-starting electromagnetic motor 11 is operated.
  • the startup power source and the current of the generator 10 in parallel.
  • the power is turned on according to the indicator light, and the operation of the motor or the self-starting electromagnetic motor 11 after the power is turned off is driven by the current of the generator 10, thereby realizing self-powering and self-power generation, thereby Combining all of the above technical elements to achieve high performance power and low power consumption, it provides continuous and uninterrupted power and power for the target.
  • the capacitor or smart capacitor 305 acts on the compensation and increases the amount of power supplied, and the normally open switch 303 is used for shutdown and emergency shutdown.
  • the beneficial effects are: using, starting the power connection motor or the self-starting electromagnetic motor 11, turning on the starting power source to drive the motor with high performance electromagnetic force and flywheel power or having high performance angular momentum
  • the self-starting electromagnetic motor 11 is operated, and the operation drives the wheel or the impeller or the propeller 112 to operate, whereby the wheel 112 moves on the ring rail 901, or the impeller and the propeller 112 generate air by the air in the ring rail 901, thereby making it
  • the spoke shaft 905 rotates to drive the vertical connection and the high-power generator 10 with high-performance dynamics and high-performance power generation efficiency to operate and generate electricity under the action of the spoke torque of the spoke shaft 905, thereby realizing high-power generation.
  • the current is sent to cause the relay 302 to be connected to the motor or the self-starting electromagnetic motor 11, and the indicator light of the relay is illuminated, at which time the operation of the motor or the self-starting electromagnetic motor 11 is initiated by the power source and
  • the current of the generator 10 is provided in parallel.
  • the operation of the motor or the self-starting electromagnetic motor 11 after the power is turned off is driven by the current of the generator 10, thereby realizing self-powering and self-power generation, thereby Combining all of the above technical elements to achieve high performance power and low power consumption, it provides continuous and uninterrupted power and power for the target.
  • the capacitor or smart capacitor 305 acts on the compensation and increases the amount of power supplied, and the normally open switch 303 is used for shutdown and emergency shutdown.
  • the beneficial effects are as follows: the self-powered motor has two or more sets of the techniques and mechanisms described in the first to seventh technical solutions, thereby using a plurality of wire boxes 301 and a plurality of generators 10 parallel, or paralleled by multiple capacitors or smart capacitors or supercapacitors, to achieve a composite power supply, thus achieving greater power supply and trouble-free power supply guarantee, providing continuous and uninterrupted power for large or large-scale effective objects Electricity and power.
  • the rotor of the motor, the rotor of the motor, the rotor of the generator or the magnetic suspension device are supported to improve the power and the rotational speed;
  • the capacitor 305 is provided with a cast a switch or a composite switch or a synchronous switch, the capacitor or smart capacitor or supercapacitor 305 or a switching power supply or an inverter and a transformer;
  • the self-powered motor of the present invention in its contribution to Zhuojie, will create an era for the benefit of society.
  • FIG. 1 is a schematic structural view of a first embodiment of a self-energizing motor according to the present invention
  • FIG. 2 is a schematic view showing the internal structure of the base 201 of the embodiment 1;
  • FIG. 3 is a schematic view showing the internal structure of the base 201 of the embodiment 2;
  • FIG. 4 is a schematic structural view of a third embodiment of the present invention.
  • FIG. 5 is a schematic view showing the internal structure of the chassis 7 of the embodiment 3;
  • FIG. 6 is a schematic view showing the internal structure of the chassis 7 of the embodiment 4.
  • FIG. 7 is a schematic structural view of a fifth embodiment of a self-powered motor of the present invention.
  • FIG. 8 is a schematic structural view of a sixth embodiment of a self-energizing motor of the present invention.
  • Fig. 9 is a schematic view showing the technical construction of the seventh embodiment of the self-powered motor of the present invention. detailed description
  • the self-energizing motor of the present invention comprises an end cap base 1, two or more motor stators 2 and 3 are arranged in the base 1, and the motor stator 2 is provided with a motor.
  • the rotor 4, the motor stator 3 is provided with a motor rotor 5, and the motor rotor 4 is combined with the spokes of the spoke shaft 6 to form a large-diameter flywheel type structure, and the small-diameter motor rotor 5 is coupled through the shaft of the spoke shaft 6; 3 combined with the motor rotor 5 has an output electric power greater than the input power of the motor stator 2 or the motor rotor 4, based on the transition field or the pivoting type, whereby the motor stator 2 or the winding lead wire of the motor rotor 4 is connected to the wire box 201, the motor stator 3 or the winding lead wire of the motor rotor 5 is connected to the wire box 301; the wire box 301 and the relay 302 are electrically connected, and the relay
  • the winding wires of the stators 2 and 3 of the motor are made of silver-copper alloy or rare earth copper alloy, and the rotors 4 and 5 of the motor are made of rare earth permanent magnets, and the rotor 4 of the motor is used.
  • the combination of the spokes of the spoke shaft 6 constitutes a large-diameter flywheel type, multi-layer flywheel type structure
  • the motor stator 2 has a coreless structure and is provided with a high-power starting winding with a boosting circuit, and its starting winding and running winding Or having a concave-convex layer structure, thereby placing the flywheel type rare earth permanent magnet motor rotor 4 in the concave layer of the starting winding and the running winding of the motor stator 2, in the high power starting winding and the running winding and the uneven layer having the boosting circuit Under the action of the resultant force, a high-performance electromagnetic force and a moment of inertia are realized;
  • the motor stator 3 has a coreless structure and a winding with high power, and the winding or has a concave-convex layer structure and a magnetically permeable underlay,
  • the rotor 5 of the motor adopts a small-diameter cylindrical type or a structure having a
  • the winding convex layer of the stator 3 is combined with the concave layer of the rotor 5 of the rare earth permanent magnet motor and the magnetically permeable substrate to realize high-performance magnetic permeability and power generation efficiency; thereby, the motor stator 2 with high-performance electromagnetic force is combined Rare earth permanent magnet motor rotor 4 with high performance flywheel power and small diameter and uneven layer
  • the rotor 5 of the rare earth permanent magnet motor is vertically operated, so that the high-power winding and the motor stator 3 having high-performance power generation efficiency realize high-power generation, thereby combining all the above technical elements to achieve high performance.
  • the power and power consumption are small and the power generation is large.
  • the self-energizing motor of the present invention comprises an end cap base 1, two or more motor stators 2 and 3 are arranged in the base 1, and the motor stator 2 is provided with a motor.
  • the rotor 4, the motor stator 3 is provided with a motor rotor 5, and the motor rotor 4 is coupled to the motor rotor 5 via an automatic transmission 601; in the construction, the motor stator 3 combined with the motor rotor 5 has an output electric power greater than the input power of the motor stator 2 or the motor rotor 4, based on Rotating or pivoting, whereby the motor stator 2 or the winding lead of the motor rotor 4 is connected to the wire box 201, the motor stator 3 or the winding lead of the motor rotor 5 is connected to the wire box 301; the wire box 301 and the relay 302 With electrical connections, the relay 302 is provided with a wire 304 that is connected to the wire box 201 after the switch 303 is opened.
  • the self-powered motor of the present invention includes a chassis 7, and one or more cylinders 701 are disposed in the casing or the body 7.
  • the cylinder 701 is provided with a pair of pistons 702, and a cylinder 701
  • the piston 702 is composed of an iron core and a winding; the side of the piston 702 is provided with a ball or a piston ring for supporting and sliding, and the piston 702 is coupled to the crankshaft 704 by a connecting rod 703; the piston is stopped or stopped in the cylinder 701;
  • the jog switch is electrically connected with the cylinder winding and the piston winding. Therefore, the jog switch is used to simultaneously control the cylinder winding and the piston winding. Turning on and off, the jog switch is electrically connected to the wire box 201; the crankshaft 704 is supported by a bearing or a magnetic suspension bearing 705, 706, the crankshaft 704 is provided with a weight 707, and one end of the crankshaft 704 is provided with one or more motors
  • the rotor 708, the motor rotor 708 is provided with a matching motor stator 709.
  • the motor stator 709 in combination with the motor rotor 708 has an output electrical power greater than the input of the cylinder 701 winding in combination with the piston 702 winding.
  • the rate is based on the transition or the pivoting type, whereby the winding lead of the motor stator 709 or the motor rotor 708 is connected to the wire box 301; the flywheel of the output end or the output end of the crankshaft 704 is coupled with a motive, and the starter is provided with a thermal
  • the wire of the wire box 201 is connected, and the lubricating oil is contained in the casing 7 for lubricating the connecting rod and the crankshaft;
  • the wire box 301 is electrically connected with the relay 302, and the relay 302 is provided with the switch 303 after the switch 303 is frequently opened.
  • the wire 304, the wire box 301 is also provided with an electrical connection to one or more capacitors or smart capacitors or supercapacitors 305.
  • the winding wire of the motor stator 709 is made of silver-copper alloy or rare earth copper alloy, and the cylinder 701, the piston 702, and the crankshaft 704 are configured by a large piston stroke.
  • the motor rotor 708 is constructed of rare earth permanent magnets and has a concave-convex layer and a multi-layer flywheel type;
  • the motor stator 709 has a coreless structure and is provided with high power.
  • the concave layer and the magnetically permeable substrate are used to realize high-performance magnetic permeability and power generation efficiency; thereby, high-performance angular momentum and torque provided by members such as the crankshaft 704 drive small-diameter and rare earth having a concave-convex layer structure
  • the permanent magnet motor rotor 708 is operated vertically to achieve high power generation with high power windings and motor stator 709 with high performance power generation efficiency.
  • the self-powered motor of the present invention includes a chassis 7, and one or more cylinders 701 are disposed in the casing or the body 7.
  • the cylinder 701 is provided with a pair of pistons 702, and a cylinder 701
  • the piston 702 is composed of an iron core and a winding; the side of the piston 702 is provided with a ball or a piston ring for supporting and sliding, and the piston 702 is coupled to the crankshaft 704 by a connecting rod 703; the piston is stopped or stopped in the cylinder 701;
  • the jog switch is electrically connected with the cylinder winding and the piston winding. Therefore, the jog switch is used to simultaneously control the cylinder winding and the piston winding.
  • the jog switch and the wire box 201 are electrically coupled; the crankshaft 704 is supported by bearings or magnetically suspended bearings 705, 706, the crankshaft 704 is provided with a weight 707, and the end of the crankshaft 704 passes through an automatic transmission or transmission mechanism 8
  • One or more motor rotors 708 are coupled, and the motor rotor 708 is provided with a matching motor stator 709.
  • the motor stator 709 in combination with the motor rotor 708 has an output power greater than the input of the cylinder 701 winding in combination with the piston 702 winding.
  • the power is based on a transition or a pivoting type, whereby the winding lead of the motor stator 709 or the motor rotor 708 is connected to the wire box 301; the flywheel of the output end or the output end of the crankshaft 704 is coupled with a motive, and the starter is provided with a thermal After the resistor, the wire of the wire box 201 is connected, and the lubricating oil is used for the connecting rod and the crankshaft in the casing 7.
  • the wire box 301 and the relay 302 are electrically connected, and the relay 302 is provided with the switch 303 after the switch 303 is opened.
  • the wire 304, the wire box 301 is also provided with an electrical connection to one or more capacitors or smart capacitors or supercapacitors 305.
  • the self-energizing motor of the present invention comprises a base 9, and the base 9 is provided with a generator 10, an electric motor or a self-propelled electromagnetic motor 11, and the motor 11 is provided with a high power with a boosting circuit.
  • the generator 10 having a small diameter cylindrical rotor with respect to the electric motor 11; the power output end of the electric motor or the self-starting electromagnetic motor 11 is coupled to the generator 10
  • the output power of the generator 10 is greater than the input power of the motor or the self-starting electromagnetic motor 11; the generator 10 is electrically coupled to the relay 302, and the relay 302 is provided with the switch 303 often open and then coupled to the motor or
  • the lead 304 of the electromagnetic motor 11 of the open type, the generator 10 is also provided with an electrical connection to one or more capacitors or smart capacitors or supercapacitors 305.
  • the self-starting electromagnetic motor 11 is provided with one or more cylinders in a casing or a body, and the cylinder is provided with a pair of pistons, the cylinder and the piston are composed of an iron core and a winding;
  • the side is provided with a ball or a piston ring for supporting and sliding, and the piston is connected to the crankshaft through a connecting rod;
  • a one-point moving switch is arranged at the top dead center or the bottom dead center of the piston in the cylinder tube, or a one-point moving switch is provided at the upper and lower dead points.
  • the jog switch is provided with a wire connecting the cylinder winding and the piston winding, so the jog switch is used for simultaneously controlling the opening and closing of the cylinder winding and the piston winding, and the jog switch is electrically connected with the wire box; Supported by a bearing or a magnetic suspension bearing, an end of the crankshaft is coupled with a motive via a flywheel or a transmission mechanism, and the starter is provided with a wire connecting the wire box via the thermistor, and the casing is filled with lubricating oil for the connecting rod, Lubrication of the crankshaft.
  • the winding wire of the generator 10, the electric motor or the self-starting electromagnetic motor 11 is made of silver-copper alloy or rare earth copper alloy, and the generator 10 is made of rare earth permanent magnet.
  • the lining whereby the winding concave layer is combined with the convex layer of the rare earth permanent magnet rotor, the winding convex layer is combined with the concave layer of the rare earth permanent magnet rotor and the magnetic lining is applied to realize high performance magnetic permeability And the power generation efficiency;
  • the motor 11 uses a rare earth permanent magnet rotor or a stator having a coreless core, and is provided with a high power start wind
  • the self-energizing motor of the present invention comprises a base 9, and the base 9 is provided with a generator 10, an electric motor or a self-propelled electromagnetic motor 11, and an electric motor or a self-propelled electromagnetic motor 11 through an automatic transmission.
  • 111 is connected to the generator 10, the output power of the generator 10 is greater than the input power of the electric motor or the self-starting electromagnetic motor 11; the generator 10 is electrically coupled with the relay 302, and the relay 302 is provided with the switch 303 after being frequently connected.
  • the electric motor or wire 304 of the self-starting electromagnetic motor 11 is also provided with an electrical connection to one or more capacitors or smart capacitors or supercapacitors 305.
  • Embodiment 7 As shown in FIG. 9, the self-powered motor of the present invention includes a base 9, and the base 9 is provided with a generator 10, a ring rail 901, and a cross bar 902. The cross bar 902 is provided with a bearing 903 and a brush 904.
  • the bearing 903 is provided with a spoke shaft 905, the base of the ring rail 901 to the base 9 or a cover is provided; the shaft of the spoke shaft 905 is provided with a slip ring 906, and the spoke shaft 905 is provided with an electric motor or a self-propelled electromagnetic motor 11
  • the power output end of the electric motor or the self-starting electromagnetic motor 11 is provided with a wheel or an impeller or a propeller 112; the shaft of the spoke shaft 905 is coupled to the generator 10, and the output power of the generator 10 is greater than that of the electric motor or the self-propelled electromagnetic motor 11 Input power; the generator 10 and the relay 302 are electrically connected, the relay 302 is provided with a switch 304, a brush 904, a slip ring 906, and a wire 304 connected to the motor or the self-starting electromagnetic motor 11, the generator 10 is also provided with an electrical connection to one or more capacitors or smart capacitors or supercapacitors 305.
  • Embodiment 8 As shown in FIG. 1 to FIG. 9 , the self-powered motor of the present invention has two or more sets of the technologies and mechanisms described in the above embodiments, thereby using a plurality of wire boxes 301 and a plurality of generators 10 and more. Capacitors or smart capacitors or supercapacitors are connected in parallel to achieve a hybrid power supply.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)

Abstract

L'invention porte sur une machine électrique auto-alimentée. Deux stators (2, 3) et deux rotors (4, 5) sont disposés dans une base de machine (1), et une grande quantité de génération d'électricité avec une faible consommation de puissance est réalisée en prenant l'avantage d'une électromécanique et d'une dynamique mécanique, et un démarrage électrique autonome et un stockage d'électricité autonome sont obtenus. De plus, de multiples solutions sont en outre fournies dans lesquelles une grande quantité de génération d'électricité avec une faible consommation de puissance est réalisée en prenant l'avantage de technologie telle qu'une dynamique, une mécanique de levier, une dynamique mécanique, une électromécanique et des optimisations structurelles, et une électricité et une puissance motrice continues et ininterrompues sont fournies.
PCT/CN2013/088090 2013-09-22 2013-11-28 Machine électrique auto-alimentée WO2015039379A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN201310463899.6A CN103532343A (zh) 2012-11-12 2013-09-22 自能电机
CN201310463899.6 2013-09-22

Publications (1)

Publication Number Publication Date
WO2015039379A1 true WO2015039379A1 (fr) 2015-03-26

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WO (1) WO2015039379A1 (fr)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101436811A (zh) * 2007-11-12 2009-05-20 刘新广 新式永磁机
CN102969872A (zh) * 2012-11-12 2013-03-13 沙铭超 自能电机
CN102969799A (zh) * 2012-11-14 2013-03-13 沙铭超 自能储电装备

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101436811A (zh) * 2007-11-12 2009-05-20 刘新广 新式永磁机
CN102969872A (zh) * 2012-11-12 2013-03-13 沙铭超 自能电机
CN102969799A (zh) * 2012-11-14 2013-03-13 沙铭超 自能储电装备

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