CN112953164A - Novel six-stroke electromagnetic engine - Google Patents
Novel six-stroke electromagnetic engine Download PDFInfo
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Abstract
The invention discloses a novel six-stroke electromagnetic engine, which mainly adopts a two-stroke electromagnetic engine and integrates the advantages of a three-stroke electromagnetic engine, so that the productivity of people is improved, the labor intensity of people is reduced and the benign development of the society is better served through various mechanical powers for the social development all the time. The six-stroke electromagnetic engine is mainly applied to military and agricultural fields such as aviation and navigation, and is used for manufacturing various large, medium and small helicopters for agricultural planting, forest protection, fire prevention and marine rescue.
Description
The technical field is as follows:
the invention relates to conversion of electromagnetic power into mechanical power, and belongs to the field of electromagnetics.
Background art:
the six-stroke electromagnetic engine mainly adopts a two-stroke electromagnetic engine, and all the advantages of a three-stroke electromagnetic engine are integrated, so that various mechanical powers are always used for social development, the productivity of people is improved, the labor intensity of people is reduced, and the benign development of the society is better served. The six-stroke electromagnetic engine is mainly applied to military and agricultural fields such as aviation and navigation, and is used for manufacturing various large, medium and small helicopters for agricultural planting, forest protection, fire prevention and marine rescue.
The invention content is as follows:
the invention discloses a novel two-stroke electromagnetic engine which structurally comprises a rack, an electromagnetic linear moving motor, a stator, a rotor shaft, a connecting rod journal, a balance crankshaft, a rotor shaft stabilizing sleeve, a stator electromagnet, a rotor electromagnet, an inertia wheel, an air inlet and outlet, an electromagnetic brake device, a storage battery, an electronic distribution power supply device (LLL-LN, LLLT-LN), a starter (motor) and the like.
Six-stroke electromagnetic engines with different specifications can be manufactured by adopting a hexagonal electromagnetic linear motion motor LBXR-1 mode, LBXRT-2 mode, LBXWT-3 mode and LBXRTT-4 mode.
The six-stroke electromagnetic engine is characterized in that a balance crankshaft rotates for 360 degrees for a circle, and an electromagnetic linear moving motor needs six times of input power, namely six strokes; the balanced crankshaft then produces A, B, C, D, S, F different sets of connecting rod journal angles, each of which is 60 degrees. The first stroke of the group A is 0 degree, and the operation time of the group A is from 0 degree to 180 degrees; group B is 60 degrees for the second stroke, and group B runs from 60 to 240 degrees; group C is 120 degrees for the third stroke, from 120 to 300 degrees; the fourth stroke of the group D is 180 degrees, and the operation time of the group D is from 180 degrees to 360 degrees; the S group fifth stroke is 240 degrees, and the S group operation time length is from 240 degrees to 60 degrees; group F is 300 degrees for the sixth stroke, and the operation time of group F is from 300 degrees to 120 degrees; the operation angle of the input power of each group of electromagnetic linear moving motors is 60 degrees, the operation time is 180 degrees, then each group of electromagnetic linear moving motors of the six-stroke electromagnetic engine operates once to generate 120-degree gravity, and the operation six-stroke electromagnetic engine generates 720-degree gravity.
The operation principle is as follows: starting a starter (motor) to push a balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, wherein each group is provided with N electromagnetic linear movement motors, when a group A of electromagnetic linear movement motors drive a connecting rod to push a balance crankshaft to run from 0 degree to 60 degrees, a group B of electromagnetic linear movement motors drive a connecting rod to push a balance crankshaft to run from 60 degrees to 120 degrees, a group C of electromagnetic linear movement motors drive a connecting rod to push a balance crankshaft to run from 120 degrees to 180 degrees, a group D of electromagnetic linear movement motors drive a connecting rod to push a balance crankshaft to run from 180 degrees to 240 degrees, a group S of electromagnetic linear movement motors drive a connecting rod to push a balance crankshaft to run from 240 degrees to 300 degrees, and a group F of electromagnetic linear movement motors drive a connecting rod to push a balance crankshaft to run from 300 degrees to 360 degrees (namely, the group F of electromagnetic linear movement motors drive a connecting rod 0 degrees) complete a six-stroke mission; A. b, C, D, S, F six groups of electromagnetic linear moving motors are powered continuously, the rotor shaft of the electromagnetic linear moving motor pushes the connecting rod, the connecting rod pushes the journal of the connecting rod, the balance crankshaft rotates continuously, and power output is achieved.
The six-stroke electromagnetic engine adopts an electronic distribution power supply device with the types as follows: LLL-LN, LLLT-LN.
The power of the six-stroke electromagnetic engine adopts an electromagnetic linear movement motor mode I: a hexagonal electromagnetic linear moving motor structurally comprises a stator, a stator cover, a rotor and a rotor shaft. The stator is composed of a stator group, and the rotor is composed of a rotor group. The stator group is unfolded by stators of six common motors, extends to N along ab side, ac side, cd side, ds side, sx side and xb side in sequence, is laid on the inner diameter of the stator of the hexagonal motor, and can be laid with a plurality of stator windings if necessary; the rotor group is unfolded by six ordinary motor rotors, extends to N along ab edge, ac edge, cd edge, ds edge, sx edge and xb edge in sequence, is laid on the outer diameter of the hexagonal motor rotor, the rotor winding corresponds to the stator winding, and the length of the rotor adopts 30 percent of the length of the stator (the length of the stator and the rotor is determined according to the stroke in practical application) that a rotor power shaft passes through an electromagnet and a stator cover to be connected with a connecting rod and a connecting rod shaft neck to drive a balance crankshaft to rotate.
The electromagnetic linear motion motor of this mode has the following models: LBXR-1.
The six-stroke electromagnetic engine electronic distribution power supply device is characterized in that: LLL-LN.
The operation principle of the six-stroke six-drive electromagnetic engine is as follows: the six-stroke six-drive electromagnetic engine comprises six groups of 6 (LBXR-1) electromagnetic linear moving motors, wherein the six groups are A, B, C, D, S, F six groups respectively, and each group comprises 1 electromagnetic linear moving motor. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXR-1-L6.
The operation principle of the six-stroke twelve-drive electromagnetic engine is as follows: the six-stroke twelve-drive electromagnetic engine comprises six groups of 12 (LBXR-1) electromagnetic linear movement motors, wherein the six groups are A, B, C, D, S, F six groups respectively, and each group comprises 2 electromagnetic linear movement motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXR-1-L12.
The operation principle of the six-stroke eighteen-drive electromagnetic engine is as follows: the six-stroke eighteen-driving electromagnetic engine comprises six groups of 18 (LBXR-1) electromagnetic linear moving motors, wherein the six groups are A, B, C, D, S, F six groups respectively, and each group comprises 3 electromagnetic linear moving motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a power shaft of each electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXR-1-L18.
The operation principle of the six-stroke thirty-drive electromagnetic engine is as follows: the six-stroke thirty-drive electromagnetic engine comprises six groups of 30 (LBXR-1) electromagnetic linear movement motors, wherein the six groups are A, B, C, D, S, F six groups respectively, and each group comprises 5 electromagnetic linear movement motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXR-1-L30.
The power technical scheme of the six-stroke electromagnetic engine is as follows: on the basis of the first power technical scheme of the six-stroke electromagnetic engine, four electromagnets are adopted, two electromagnets (A/B) are respectively arranged at two ends of a stator, and two electromagnets (A1/B1) are respectively arranged at two ends of a rotor. The length of the rotor is 30 percent of the length of the stator (the length of the stator and the rotor is determined according to the stroke in practical application), and a rotor shaft passes through the electromagnet and the stator cover to be connected with a connecting rod and a connecting rod journal to drive the balance crankshaft.
The electromagnetic linear motion motor of this mode has the following models: LBXRT-2, with electronic distribution power supply model: LLL-LN.
Six-stroke 36-drive electromagnetic engine operation principle: : the six-stroke 36-driven electromagnetic engine consists of 36 (LBXRT-2) electromagnetic linear motion motors which form six groups, namely A, B, C, D, S, F six groups respectively, and each group comprises 6 electromagnetic linear motion motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXRT-2-L24.
The six-stroke 120-drive electromagnetic engine operates on the principle that: the six-stroke 120-drive electromagnetic motor consists of 120 (LBXRT-2) electromagnetic linear motion motors which form six groups, namely A, B, C, D, S, F six groups respectively, and each group comprises 20 electromagnetic linear motion motors. The balance crank shaft is driven to rotate by opening the starter (motor), then six groups of electromagnetic linear moving motors of A, B, C, D, S, F are respectively started, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, the rotor shaft of the electromagnetic linear movement motor pushes the connecting rod, the connecting rod pushes the journal of the connecting rod, the balance crankshaft continuously rotates, and power output is realized; the model of the six-stroke electromagnetic engine; LBXRT-2-L42.
The six-stroke 180-drive electromagnetic engine operates on the principle that: the six-stroke 180-driving electromagnetic engine consists of 180 (LBXRT-2) electromagnetic linear movement motors which form six groups, namely A, B, C, D, S, F six groups respectively, and each group comprises 30 electromagnetic linear movement motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXRT-2-L54.
The power technical scheme of the six-stroke electromagnetic engine is as follows: on the basis of the first power technical scheme of the six-stroke electromagnetic engine, the stator and the rotor use no windings; four electromagnets are adopted, two electromagnets (A/B) are respectively arranged at two ends of a stator without winding, two electromagnets (A1/B1) are respectively arranged at two ends of a rotor, and the length of the rotor is 30 percent of the length of the stator (the length of the stator and the rotor is determined according to the stroke in practical application) and a power shaft of the rotor passes through the electromagnets and a stator cover.
The electromagnetic linear motion motor of this mode has the following models: LBXWT-3, with electronic distribution power supply model: LLL-LN.
The operation principle of the six-stroke six-drive electromagnetic engine is as follows: the six-stroke 6-drive electromagnetic engine consists of 6 sets (LBXWT-3) of electromagnetic linear motion motors which form six groups, namely A, B, C, D, S, F six groups respectively, and each set comprises 1 electromagnetic linear motion motor. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, when the rotor shaft of the S groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, starting the F groups of electromagnetic linear movement motor rotor shafts to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; the power supply is continuously provided for A, B, C, D, S, F six groups of electromagnetic linear moving motors respectively, the rotor shaft of the electromagnetic linear moving motor pushes the connecting rod, the connecting rod pushes the journal of the connecting rod, the balance crankshaft continuously rotates, and the power output is realized: the model of the six-stroke electromagnetic engine; LBXWT-3-L6.
Six-stroke 72-drive electromagnetic engine operation principle: the six-stroke 72-drive electromagnetic motor consists of 72 tables (LBXWT-3) of electromagnetic linear motion motors which form six groups, A, B, C, D, S, F groups respectively, and each group is provided with 12 electromagnetic linear motion motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXWT-3-L72.
The six-stroke 90-drive electromagnetic engine operates on the principle that: the six-stroke 90-drive electromagnetic motor consists of 90 table (LBXWT-3) electromagnetic linear motion motors which form six groups, A, B, C, D, S, F six groups respectively, and each group is 15 electromagnetic linear motion motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a power shaft of each electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXWT-3-L18.
The power technical scheme of the six-stroke electromagnetic engine is as follows: on the basis of the power technical scheme I of the six-stroke electromagnetic engine, the stator and the rotor are provided with windings or without windings. The electromagnetic linear moving motor structure comprises an electromagnet A, an electromagnet B, an electromagnet A1, an electromagnet B1 and a plurality of electromagnets (1/2/3/4/5/6); the electromagnet A and a plurality of electromagnets are arranged at one end of the stator, and the electromagnet B is arranged at the other end of the stator; electromagnets A1 and B1 are respectively arranged at two ends of the rotor, a plurality of electromagnets (1/2/3/4/5/6) are movable electromagnets which are arranged on a fixed shaft and connected with a power shaft of the rotor, and the rotor shaft penetrates through the rotor and a stator cover to be connected with a connecting rod; the fixed shaft and the rotor shaft adopt a sleeving technology, so that the rotor shaft moves on the fixed shaft. The length of the rotor is 30% of the stator length (the length of the stator and rotor is determined in practical application according to the stroke) and the shaft passes through the electromagnet and the stator cover.
The electromagnetic linear motion motor of this mode has the following models: LBXRTT-4.
The six-stroke electromagnetic engine electronic distribution power supply device is characterized in that: LLLT-LN.
The six-stroke 12-drive electromagnetic engine operates on the principle that: the six-stroke 12-drive electromagnetic engine consists of six groups of 12 (LBXRTT-4) electromagnetic linear motion motors, wherein the six groups are A, B, C, D, S, F six groups respectively, and each group comprises 2 electromagnetic linear motion motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the power shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXRTT-4-L12.
The six-stroke 18-drive electromagnetic engine operates on the principle that: the six-stroke 18-driving electromagnetic engine consists of 18 (LBXRTT-4) electromagnetic linear movement motors which form six groups, namely A, B, C, D, S, F six groups respectively, and each group comprises 3 electromagnetic linear movement motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; l BXRTT-4-L18.
The six-stroke 180-drive electromagnetic engine operates on the principle that: the six-stroke 180-driving electromagnetic engine consists of 180 (LBXRTT-4) electromagnetic linear movement motors which form six groups, namely A, B, C, D, S, F six groups respectively, and each group comprises 30 electromagnetic linear movement motors. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear movement motors are respectively and continuously powered, a rotor shaft of the electromagnetic linear movement motor pushes a connecting rod, the connecting rod pushes a connecting rod journal, and a balance crankshaft continuously rotates to realize power output; the model of the six-stroke electromagnetic engine; LBXRTT-4-L120.
Six-stroke 240 driving electromagnetic engine operation principle: the six-stroke 240-drive electromagnetic motor consists of 240 (LBXRTT-4) electromagnetic linear motion motors which form six groups, A, B, C, D, S, F six groups respectively, and 40 electromagnetic linear motion motors in each group. Starting a starter (motor) to push the balance crankshaft to rotate, then respectively starting A, B, C, D, S, F six groups of electromagnetic linear movement motors, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod to push the balance crankshaft to move from 0 degree to 60 degrees, when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 60 degrees to 120 degrees, when the rotor shaft of the C group of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 120 degrees to 180 degrees, when the rotor shaft of the D groups of electromagnetic linear movement motors is started to push the connecting rod to push the balance crankshaft to move from 180 degrees to 240 degrees, opening the rotor shafts of the S groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 240 degrees to 300 degrees, and opening the rotor shafts of the F groups of electromagnetic linear movement motors to push the connecting rod to push the balance crankshaft to move from 300 degrees to 360 degrees (namely 0 degree) to complete a six-stroke mission; a, B, C, D, S, F six groups of electromagnetic linear moving motors are respectively and continuously powered, the rotor shaft of the electromagnetic linear moving motor pushes the connecting rod, the connecting rod pushes the journal of the connecting rod, and the balance crankshaft continuously rotates to realize power output.
The six-stroke electromagnetic engine has the following model: LBXRTT-4-L30.
Various three-stroke electromagnetic engines can be produced according to development and power requirements.
Description of the drawings: FIG. 1 is a plan view of a six-stroke electromagnetic engine of type LBXR-1, LBXRT-2, LBXWT-3: the device comprises a frame 1, an electromagnetic linear moving motor 2, a stator frame 3, a stator winding 4, a rotor winding 5, a rotor shaft 6, a balance crankshaft 7, a connecting rod 8, a connecting rod journal 9, a rotor shaft stabilizing sleeve 10, a stator electromagnet 11, a rotor electromagnet 12, an inertia wheel 13, an air inlet and an air outlet 14, a fixing screw 15 and a starter 16 (motor).
FIG. 2 is a schematic diagram of the mold elevation of six-stroke electromagnetic engines LBXR-1, LBXRT-2 and LBXWT-3: the air inlet and outlet device comprises a machine frame 1, a motor 2, a stator frame 3, a stator winding 4, a rotor winding 5, a rotor shaft 6, a balance crankshaft 7, a connecting rod 8, a connecting rod journal 9, a rotor shaft stabilizing sleeve 10, a stator electromagnet 11, a rotor electromagnet 12 and an air inlet and outlet 13.
Fig. 3 is a plane conceptual diagram of a six-stroke electromagnetic engine LBXRTT-4 mode: the device comprises a frame 1, an electromagnetic linear moving motor 2, a stator frame 3, a stator winding 4, a rotor winding 5, a rotor shaft 6, a balance crankshaft 7, a connecting rod 8, a connecting rod journal 9, a rotor shaft stabilizing sleeve 10, a stator electromagnet 11, a rotor electromagnet 12, an inertia wheel 13, a plurality of electromagnets 14, an air inlet and an air outlet 15, a fixing screw 16 and a starter 17 (motor).
Fig. 4 is a conceptual drawing of a six-stroke electromagnetic engine LBXRTT-4 elevation: 1 frame, 2 motors, 3 motor frame stators, 4 stator windings, 5 rotor windings, 6 rotor shafts, 7 balance crankshafts, 8 connecting rods, 9 connecting rod journals, 10 rotor shaft stabilizing sleeves, 11 stator electromagnets, 12 rotor electromagnets, 13 air inlet and outlet openings, 14 electromagnets and the like.
And (4) conclusion: a plurality of common motors + electromagnets are electromagnetic linear motion motors.
The electromagnetic linear moving motor is applied to an internal combustion engine, then the stator of the electromagnetic linear moving motor is the internal combustion engine which is a cylinder, the rotor is a piston, and finally the six-stroke electromagnetic engine is formed, and the working principle of the six-stroke electromagnetic engine is basically the same as that of the internal combustion engine. The rotor moves to push the connecting rod, and the connecting rod pushes the crankshaft connecting rod journal to move.
There are scientific points between the stator and rotor of six-stroke electromagnetic engine and the cylinder and piston of internal combustion engine. The stroke of the internal combustion engine cylinder and the piston is completely different from the stroke of the six-stroke electromagnetic engine cylinder and the piston, the stroke of the internal combustion engine piston is limited, the stroke of the six-stroke electromagnetic engine piston is infinite, the stroke of the internal combustion engine piston is limited, the wheel distance between a crankshaft main journal and a connecting rod journal is limited, the stroke of the six-stroke electromagnetic engine piston is infinite, the wheel distance between the crankshaft main journal and the connecting rod journal can be enlarged, different torques are generated when the wheel distance between the crankshaft main journal and the connecting rod journal is different, the larger the wheel distance is, the larger the torque is, and the smaller the wheel distance is. The stroke of the piston of the internal combustion engine is limited, the wheel space between the main journal of the crankshaft and the journal of the connecting rod is limited, and the torque is small and the torsion is small as a result. The stroke of the piston of the six-stroke electromagnetic engine is infinite, the wheel track of a main journal of a balance crankshaft and a journal of a connecting rod is infinite, and the result is that the torque is infinite and the torque is infinite, which is the infinite science of the stroke of the piston of the six-stroke electromagnetic engine; why is the stroke of the piston of the internal combustion engine limited, is the stroke of the rotor of the electromagnetic linear motion motor unlimited? The internal combustion engine consumes oil, the oil generates heat energy under the action of the cylinder and the piston, the heat energy expands to realize the movement of the piston, if the stroke of the piston is increased, the generated heat energy expansion force is insufficient, the piston cannot be effectively pushed to move forwards continuously, and the basis of the limited stroke of the piston of the internal combustion engine is that; the piston stroke of the six-stroke electromagnetic engine is infinite because the stator is infinitely extended, and the rotor still effectively moves under the action of magnetic force, which is the basis of the piston stroke of the six-stroke electromagnetic engine.
The internal combustion engine consumes oil, and the six-stroke electromagnetic engine consumes electricity; the internal combustion engine converts mechanical power into oil through oil energy, and the mechanical power cannot be converted into oil. The six-stroke electromagnetic engine converts mechanical power through electric energy, the mechanical power is converted into electric energy through the generator, the electric energy can be recycled infinitely, and the internal combustion engine cannot realize the infinite recycling of energy.
And (4) conclusion: electromagnetic linear moving motor, lever principle and balance crankshaft six-stroke electromagnetic engine
The specific implementation mode is as follows:
the six-stroke electromagnetic engine is composed of a frame, a stator, a rotor, an electromagnet, a power shaft, a connecting rod, a balance crankshaft, a motor, a generator, a charger, a storage battery, an electronic distributor, an electronic regulator, an electronic intelligent control system and the like.
The six-stroke electromagnetic engine has the characteristics of a balance crankshaft: the balanced crankshaft design of the six-stroke electromagnetic engine and the two-stroke electromagnetic engine is completely different, and is mainly represented by a connecting rod journal. For example: the six-stroke six-drive is that six connecting rod journals surround the shaft like two triangles, and the first triangle consists of a first stroke A group, a third stroke C group and a fifth stroke S group; the second triangle consists of the second stroke group B, the fourth stroke group D and the sixth stroke group F; the first triangle consists of 0 degree, 120 degree and 240 degree; the second triangle consists of 60 degrees, 180 degrees and 300 degrees;
for example: the six-stroke 18 driving, balance crankshaft is by 18 connecting rod journals like six triangle around the axle, each stroke has 3 connecting rod journals of the same angle, form each stroke has three groups of electromagnetism straight line movement motor input power.
For example: the six-stroke 18-drive balance crankshaft is formed by 18 electromagnetic linear moving motors to form 6 triangles around the balance crankshaft, and each stroke has 3 electromagnetic linear moving motors with the same angle for inputting power.
For example: the six-stroke 120 driving, the balance crankshaft is composed of 120 electromagnetic linear motion motors to form 40 triangles around the balance crankshaft, and each stroke has 20 electromagnetic linear motion motors with the same angle to input power.
The six-stroke electromagnetic engine does not necessarily have to be powered first according to the first stroke of our design during operation, perhaps the third stroke, perhaps the fifth stroke, but the mode of operation does not change.
The balance crankshaft of the six-stroke electromagnetic engine can be manufactured in a segmented mode (multiple segments), or each triangular stroke can be combined into one segment, and then the segments are combined and installed. The balance crankshaft and the balance crankshaft can be manufactured by adopting single drive respectively, one end of the balance crankshaft, which is connected with the balance crankshaft, is butted by adopting an inner hexagon and an outer hexagon, the angle of a connecting rod journal of the balance crankshaft is required to be mastered during butting, and the balance crankshaft is prevented from bending by adopting a low-temperature welding technology after butting.
The electromagnet used by the electromagnetic engine is synthesized by rare earth materials, generates magnetic force after being electrified, and is demagnetized after being powered off.
The frame is cast by high-quality steel, the frame is a single-drive frame, and the multi-drive electromagnetic engine is formed after combination.
The stator is cast by steel with high quality, flexibility and good heat dissipation.
The rotor can adopt the magnet steel to replace the winding, can reduce the consumption of electric energy like this.
The rotor shaft, the connecting rod and the balance crankshaft are made of better steel.
Claims (6)
1. The six-stroke electromagnetic engine consists of A, B, C, D, S, F six groups of electromagnetic linear moving motors, and each group is provided with N electromagnetic linear moving motors.
2. In the operation mode, when the rotor shaft of the A group of electromagnetic linear movement motors pushes the connecting rod and the balance crankshaft to operate from 0 degree to 60 degrees; when the rotor shaft of the B group of electromagnetic linear movement motors is started to push the connecting rod and balance the crankshaft to move from 60 degrees to 120 degrees; starting a rotor shaft of the C group of electromagnetic linear movement motors to push a connecting rod and balance a crankshaft to move from 120 degrees to 180 degrees; starting the rotor shaft of the D groups of electromagnetic linear movement motors to push the connecting rod and balance the crankshaft to move from 180 degrees to 240 degrees; when the rotor shaft of the S groups of electromagnetic linear movement motors is started to push the connecting rod and the balance crankshaft runs from 240 degrees to 300 degrees, the rotor shaft of the F groups of electromagnetic linear movement motors is started to push the connecting rod and the balance crankshaft runs from 300 degrees to 360 degrees (namely 0 degree) to complete a nine-stroke mission; the power is continuously supplied to A, B, C, D, S, F six groups of electromagnetic linear moving motors respectively, a rotor shaft of the electromagnetic linear moving motor pushes a connecting rod, the connecting rod pushes a connecting rod shaft neck, a balance crankshaft continuously rotates, power output is achieved, and the process is the nine-stroke electromagnetic engine.
3. Specification LBXR-1 mode, LBXRT-2 mode, LBXWT-3 mode, LBXRTT-4 mode of a six-stroke electromagnetic engine, each mode being driven by a different six-stroke electromagnetic engine.
4. The balanced crankshaft power scheme of the six-stroke electromagnetic engine is that every time the six groups of electromagnetic linear moving motors run for one circle, six times of power are input from different angles sequentially and are respectively 0 degree, 60 degrees, 120 degrees, 180 degrees, 240 degrees and 300 degrees.
5. The power input of the six-stroke electromagnetic engine balance crankshaft is composed of six groups of electromagnetic linear moving motors to form two triangle modes, wherein the first triangle is composed of an A group of electromagnetic linear moving motors (0 degree), a C group of electromagnetic linear moving motors (120 degrees) and an S group of electromagnetic linear moving motors (240 degrees); the second triangle consists of B group electromagnetic linear motion motors (60 degrees), D group electromagnetic linear motion motors (180 degrees) and F group electromagnetic linear motion motors (300 degrees).
6. The six-stroke electromagnetic engine balance crankshaft can be manufactured in a segmented (multi-segment) mode, each triangular stroke is combined into one segment, and the six-stroke electromagnetic engine balance crankshaft can be manufactured by adopting single driving respectively; the balance crankshaft butt joint shaft head adopts inner hexagon and outer hexagon butt joint, and the low-temperature welding technology is adopted after butt joint, so that the bending of the balance crankshaft shaft is avoided.
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