阅读说明：本技术 一种曲轴运动式节能电动机 (Crankshaft motion type energy-saving motor ) 是由 张珉 于 2018-07-28 设计创作，主要内容包括：一种曲轴运动式节能电动机,它包括一个密封式机壳,其特征是：在机壳中平行装设一个曲轴A与一个曲轴B；在曲轴A与曲轴B的传动曲柄C与传动曲柄D上,各装设一个超强永磁铁活塞E与超强永磁铁活塞F,并分别套入各自的导向滑行缸筒G与导向滑行缸筒X中；在导向滑行缸筒G与导向滑行缸筒X之间固定装设一个电磁铁线圈,并使电磁铁线圈中心的导磁铁芯两头分别对准超强永磁铁活塞E与超强永磁铁活塞F相配合；在曲轴A一侧装设一个小旋转盘,并在小旋转盘中装设一块永磁铁与固定装设在机壳上的感应小线圈作准时对准相配合,以达到准时通断电使该电动机连续做功的作用；在机壳外面适当位置处装设蓄电池,并把蓄电池的输出电路正负极与电子控制器的输入电路正负极对号连接；该电动机,结构简单,高效节能,用途广泛。(A kind of crankshaft movement type energy-conserving electric motor, it includes a sealed casing, its characteristic is: a crankshaft A and a crankshaft B are arranged in the shell in parallel; the transmission crank C and the transmission crank D of the crankshaft A and the crankshaft B are respectively provided with an ultra-strong permanent magnet piston E and an ultra-strong permanent magnet piston F which are respectively sleeved into the guide sliding cylinder G and the guide sliding cylinder X; an electromagnet coil is fixedly arranged between the guide sliding cylinder G and the guide sliding cylinder X, and two ends of a magnetic conduction iron core at the center of the electromagnet coil are respectively aligned with the super-strong permanent magnet piston E and matched with the super-strong permanent magnet piston F; a small rotating disk is arranged on one side of the crankshaft A, and a permanent magnet is arranged in the small rotating disk and is aligned and matched with a small induction coil fixedly arranged on the shell on time so as to achieve the effect of switching on and off on time to enable the motor to continuously do work; a storage battery is arranged at a proper position outside the shell, and the positive and negative poles of an output circuit of the storage battery are connected with the positive and negative poles of an input circuit of the electronic controller in a number matching manner; the motor has the advantages of simple structure, high efficiency, energy conservation and wide application.)

1. A kind of crankshaft movement type energy-conserving electric motor, it includes a sealed cabinet (1), its characteristic is: a crankshaft (2A) and a crankshaft (3B) are arranged in the shell in parallel; a super-strong permanent magnet piston (6E) and a super-strong permanent magnet piston (7F) are respectively arranged on a transmission crank (4C) and a transmission crank (5D) of the crank shaft (2A) and the crank shaft (3B) and are respectively sleeved into a guide sliding cylinder barrel (8G) and a guide sliding cylinder barrel (9X) respectively; an electromagnet coil (10) is fixedly arranged between the guide sliding cylinder barrel (8G) and the guide sliding cylinder barrel (9X), and two ends of a magnetic conduction iron core (11) at the center of the electromagnet coil are respectively aligned with the super-strong permanent magnet piston (6E) and matched with the super-strong permanent magnet piston (7F); a small rotating disk (12) is arranged on one side of the crankshaft (2A), and a permanent magnet (13) is arranged in the small rotating disk and is aligned and matched with an induction small coil (14) fixedly arranged on the machine shell; the small induction coil output circuit (15) is connected with an electronic controller (16); the electronic controller (16) is fixedly arranged at a proper position outside the machine shell (1), and the positive and negative electrodes (17) of an output circuit of the electronic controller are respectively connected with the positive and negative electrodes of an input circuit of the electromagnet coil (10) in a number-matching manner; a storage battery (18) is arranged at a proper position outside the shell, and the positive and negative electrodes (19) of an output circuit of the storage battery are connected with the positive and negative electrodes of an input circuit of the electronic controller (16) in a number matching manner; a synchronous belt (20) is arranged between the crankshaft (2A) and the crankshaft (3B) and is tightly sleeved and matched with a synchronous gear (21); a manually rotatable on/off dual-purpose switch (22) is also provided at a suitable location outside the housing.

The technical field is as follows:

the invention relates to a motor, in particular to a crankshaft motion type energy-saving motor.

Background art:

at present, although the crankshaft motion type energy-saving motor which is researched and developed saves energy compared with the traditional old motor, in the working process, the crankshaft motion type energy-saving motor only can utilize the suction force and the repulsive force of one surface of an electromagnet coil to work, and the energy-saving effect is not obvious enough.

The invention content is as follows:

in order to solve the above problems, the present invention provides a crankshaft motion type energy-saving motor, which is improved based on the crankshaft motion type energy-saving motor of the original application (original application No. 201810887802.7); the sealing type motor comprises a sealing type shell and is characterized in that: a crankshaft A and a crankshaft B are arranged in the shell in parallel; the transmission crank C and the transmission crank D of the crankshaft A and the crankshaft B are respectively provided with an ultra-strong permanent magnet piston E and an ultra-strong permanent magnet piston F which are respectively sleeved into the guide sliding cylinder G and the guide sliding cylinder X; an electromagnet coil is fixedly arranged between the guide sliding cylinder G and the guide sliding cylinder X, and two ends of a magnetic conductive iron core at the center of the electromagnet coil are respectively aligned with the super-strong permanent magnet piston E and matched with the super-strong permanent magnet piston F, so that the effects of automatically generating suction force to do work when the power is off and automatically generating repulsion force to do work when the power is on are achieved; a small rotating disk is arranged on one side of the crankshaft A, a permanent magnet is arranged on the small rotating disk and is aligned and matched with a small induction coil fixedly arranged on the machine shell, so that the purpose that the magnetic force line is cut at the right time of each turn to generate pulse voltage to start an electronic controller to supply power to an electromagnet coil to do work is achieved; the small induction coil output circuit is connected with an electronic controller (note: the small induction coil and the electronic controller are both commercially available ready-made matching products, the structure and the working principle of which are not stated in detail and can be understood); the electronic controller is fixedly arranged at a proper position outside the shell, and the positive electrode and the negative electrode of the output circuit are respectively connected with the input positive electrode and the input negative electrode of the electromagnet coil in a corresponding way; arranging a storage battery at a proper position outside the shell, and connecting the positive and negative poles of an output circuit of the storage battery with the positive and negative poles of an input circuit of an electronic controller in a number matching manner; in order to connect the output power of the crankshaft A and the output power of the crankshaft B together, a synchronous belt is arranged between the crankshaft A and the crankshaft B and is tightly matched with a synchronous gear in a sleeved mode; in order to facilitate the control of the rotating speed of the tera machine, a manual rotating on-off dual-purpose switch is further installed at a proper position outside the shell.

The technical scheme is as follows:

according to the above object, the present invention provides a crankshaft motion type energy saving motor, which comprises a sealed casing, and is characterized in that: a crankshaft A and a crankshaft B are arranged in the shell in parallel; a transmission crank C and a transmission crank D of the crankshaft A and the crankshaft B are respectively provided with a super-strong permanent magnet piston E and a super-strong permanent magnet piston F which are respectively sleeved into a guide sliding cylinder G and a guide sliding cylinder X; an electromagnet coil is fixedly arranged between the guide sliding cylinder G and the guide sliding cylinder X, and two ends of a magnetic conduction iron core at the center of the electromagnet coil are respectively aligned with the super-strong permanent magnet piston E and matched with the super-strong permanent magnet piston F; a small rotating disk is arranged on one side of the crankshaft A, and a permanent magnet is arranged in the small rotating disk and is aligned and matched with a small induction coil fixedly arranged on the machine shell; the small induction coil output circuit is connected with an electronic controller (note: the small induction coil and the electronic controller are both commercially available ready-made matching products, which are not described in detail herein and can be understood); the electronic controller is fixedly arranged at a proper position outside the shell, and the positive electrode and the negative electrode of an output circuit of the electronic controller are respectively connected with the input positive electrode and the input negative electrode of the electromagnet coil in a corresponding way; arranging a storage battery at a proper position outside the shell, and connecting the positive and negative electrodes of an output circuit of the storage battery with the positive and negative electrodes of an input circuit of an electronic controller in a signed manner; in order to connect the power output by the crankshaft A and the crankshaft B together, a synchronous belt is arranged between the crankshaft A and the crankshaft (3B) and is tightly matched with a synchronous gear in a sleeved mode; in order to facilitate the control of the rotating speed of the tera machine, a manual rotating on-off dual-purpose switch is further installed at a proper position outside the shell.

Has the advantages that:

the invention provides a crankshaft motion type energy-saving motor, which has the beneficial effects that: the electromagnetic coil can generate attraction force and repulsion force on two sides to work, is efficient, environment-friendly and energy-saving, and can output power for driving a car and a ship and also can generate electricity and self-charge.

Description of the drawings:

the invention provides a crankshaft motion type energy-saving motor which is further explained in detail with reference to the attached drawings;

FIG. 1 is a schematic structural diagram of a crankshaft motion type energy-saving motor piston which works by ascending under natural suction force;

FIG. 2 is a schematic structural diagram of a crankshaft motion type energy-saving motor according to the present invention when a piston is energized to generate a repulsive force to work downwards;

in fig. 1 and 2, 1, a sealed enclosure; 2. a crankshaft A; 3. a crankshaft B; 4. a crank C; 5. a crank D; 6. a permanent magnet piston E; 7. a strong permanent magnet piston F; 8. a guide slide cylinder G; 9. a guide sliding cylinder barrel X; 10. an electromagnet coil; 11. a magnetically permeable iron core; 12. a small rotating disc; 13. a permanent magnet; 14. a small induction coil; 15. the small induction coil outputs electricity; 16. an electronic controller; 17. the electronic controller outputs the positive and negative electrodes of the circuit; 18. a storage battery; 19. the positive and negative electrodes of the storage battery output circuit; 20. a synchronous belt; 21. a synchronizing gear; 22. the switch is turned on or off manually.

The specific implementation mode is as follows:

the invention provides a crankshaft motion type energy-saving motor (shown in figure 1), which comprises a sealed shell (1) and is characterized in that: a crankshaft (2A) and a crankshaft (3B) are arranged in the shell in parallel; a super-strong permanent magnet piston (6E) and a super-strong permanent magnet piston (7F) are respectively arranged on a transmission crank (4C) and a transmission crank (5D) of the crank shaft (2A) and the crank shaft (3B) and are respectively sleeved into a guide sliding cylinder barrel (8G) and a guide sliding cylinder barrel (9X) respectively; an electromagnet coil (10) is fixedly arranged between the guide sliding cylinder barrel (8G) and the guide sliding cylinder barrel (9X), and two ends of a magnetic conduction iron core (11) at the center of the electromagnet coil are respectively aligned with the super-strong permanent magnet piston (6E) and matched with the super-strong permanent magnet piston (7F); a small rotating disk (12) is arranged on one side of the crankshaft (2A), and a permanent magnet (13) is arranged in the small rotating disk and is aligned and matched with an induction small coil (14) fixedly arranged on the machine shell; the small induction coil output circuit (15) is connected with an electronic controller (16) (note that the small induction coil and the electronic controller are all commercially available ready-made matched products, which are not stated in detail and can be understood); the electronic controller (16) is fixedly arranged at a proper position outside the machine shell (1), and the positive electrode and the negative electrode (17) of an output circuit of the electronic controller are respectively connected with the input positive electrode and the input negative electrode of the electromagnet coil (10) in a number-matching manner; a storage battery (18) is arranged at a proper position outside the shell, and the positive and negative electrodes (19) of an output circuit of the storage battery are connected with the positive and negative electrodes of an input circuit of the electronic controller (16) in a number-matching manner; in order to connect the power output by the crankshaft (2A) and the crankshaft (3B), a synchronous belt (20) is arranged between the crankshaft (2A) and the crankshaft (3B) and is tightly sleeved and matched with a synchronous gear (21); to facilitate control of the rotational speed of the machine, a manually rotatable on/off dual purpose switch (22) is also provided at a suitable location on the exterior of the housing.

Description of the method of use and working principle:

before the magnet is not used, the magnetic conducting iron core (11) in the center of the electromagnet coil (10) is close to and aligned with the super-strong permanent magnet piston (6E) and the super-strong permanent magnet piston (7F), and the super-strong permanent magnet piston (6E), the super-strong permanent magnet piston (7F) and the magnetic conducting iron core (11) are naturally adsorbed together due to the natural attraction effect; (as shown in fig. 2) in use, the dual-purpose switch for power on and power off is manually rotated to the left. (22) Opening the circuit; when the circuit is switched on, the magnetic conducting iron core (11) at the center of the electromagnet coil (10) is magnetized, at the moment, the left magnetic pole of the magnetic conducting iron core (11) becomes a south pole (namely, the left magnetic pole generates repulsive force with the south pole at the top of the super-strong permanent magnet piston (6E), the super-strong permanent magnet piston (6E) is pushed to move outwards to drive the crankshaft (2A) to rotate to do work, and the right magnetic pole becomes a north pole (namely, the right magnetic pole generates repulsive force with the north pole of the permanent magnet super-strong piston (7F), and the super-strong permanent magnet piston (7F) is pushed to move outwards to drive the crankshaft (3; when superstrong permanent magnet piston (6E) and superstrong permanent magnet piston (7F) slided to bottom dead center, response small coil (14) do not aim at the cutting magnetic line of force with permanent magnet (13), electronic controller (16) do not supply power for electromagnet coil (10), at this moment, again under superstrong permanent magnet piston (6E) and superstrong permanent magnet piston (7F) and magnetic core (11) natural suction's effect, the automatic bent axle (2A) and bent axle (3B) internal rotation do work of promoting. In this way, the machine can repeatedly rotate to output power to do work as long as the power supply is not cut off.