CN1458737A - Driving electric energy circulation utilizing motor of new power driver - Google Patents

Abstract

This invention relates to an engine using electric energy in circulation driven by a new type power driveing device including a motor, a storage battery, an electromagnetic electricity-continuation device, a generator, and four new type power driving devices which are composed of a power gear, a two-stub gear driven gear, a rolling gear set, a central gear set, and a double universal-joint rod. The said engine can work continuously according to the design without need of any external power and electric energy or fuel.

Description

The recycling engine of new power driver driving electric energy

Technical field

The present invention relates to a kind of new power driver power cycles and utilize engine.

Background technology

Existing engine, as: internal combustion engine, motor etc. all usefulness be to reproduce the performance source, what cries and reproduces the performance source is exactly to produce this energy when energy is consumed again.Though the motor drives generator can realize reproducing the energy like this, the energy output balance of the power consumption of motor and motor can not externally be done work.So will make the used power-saving of motor drives generator 8/10 with a kind of device, just motor only just can drive generator with 2/10 power and send the needed electric weight of motor.Generator promptly can reproduce the energy and can externally do work again like this.Utilize the novel power device transmission just can realize.

Summary of the invention

The object of the invention: utilize the function of new power driver lowering and work-saving, make and lift weight, compression spring and used merit or the power of drive generator for electricity generation are saved half.Half also reduces one times with regard to resistance to save power, otherwise is exactly that power increases and is twice.Its motor is by four joining new power drivers, and the power of motor is increased 16 times, drives generator for electricity generation for motor provides the energy of capacity, only consumes 4 times of the power that increased.And the power of outwards exporting arrives 8 times of motor power greatly.The engine that does not need additionaling power and electric energy or fuel.

Technology ten thousand cases of the present invention are: four parallel being fixedly connected side by side in box hat of new power driver, and central gear is fixed on the steel wall of both sides, and driven gear is fixed on the steel wall of both sides, and power gear is meshed with output gear and is fastened on the support column.One end and the motor of line shaft link, the other end passes the steel wall and is connected with first double Hooke's joint bar, first double Hooke's joint bar and first rolling bearing set associative connect, two gear branches of first rolling bearing group are located at first diplocardia gear both sides, its bolster axle center is positioned at first diplocardia gear 1/2 radius, first centre tooth wheels that are meshed with first rolling bearing group are fixed on the steel wall, its two gear lays respectively at first diplocardia gear both sides, and with first diplocardia gear concentric.First driven gear is connected with first diplocardia gears engaged, and coaxial with first output gear.First output gear and second power gear engagement, and be fixed on first support column, second power gear and second rolling bearing group are connected the two ends of second double Hooke's joint bar respectively, two gear trains of second rolling bearing group are located at second diplocardia gear both sides, and its back shaft axle center is positioned at outside second diplocardia gear 1/2 radius.Second the centre tooth wheels that is meshed with second rolling bearing group are fixed on the steel wall, and its two gear lays respectively at second diplocardia gear both sides, and with second diplocardia gear concentric.Second driven gear is connected with second diplocardia gears engaged.And it is coaxial with second output gear.Second output gear and the 3rd power gear engagement, and be fixed on second support column, the 3rd power gear and the 3rd rolling bearing component are connected the two ends of the 3rd double Hooke's joint bar in addition.Two gear branches of the 3rd rolling bearing group are located at the 3rd diplocardia gear both sides, and its back shaft axle center is positioned at the 3rd diplocardia gear 1/2 radius.The 3rd centre tooth wheels that are meshed with the 3rd rolling bearing group are fixed on the steel wall, and its two gear lays respectively at the 3rd diplocardia gear both sides, and with the 3rd diplocardia gear concentric.The 3rd driven gear is connected with the 3rd diplocardia gears engaged.And it is coaxial with the 3rd output gear.The 3rd output gear and the 4th power gear are connected with a joggle and are fixed on the 3rd support column, the 4th power gear and the 4th, and the rolling bearing group is connected the two ends of the 4th double Hooke's joint bar respectively.Two gears of the 4th rolling bearing group are respectively the 4th diplocardia gear both sides, and its back shaft axle center is positioned at the 4th diplocardia gear 1/2 radius.The 4th centre tooth wheels that are meshed with the 4th rolling bearing group are fixed on the steel wall, and its two gear lays respectively at the 4th diplocardia tooth both sides, and with the 4th diplocardia gear concentric.The 4th driven gear is connected with the 4th diplocardia gears engaged.And coaxial with the 4th output gear, be divided into.Steel wall both sides.First diplocardia gear, second diplocardia gear, the 3rd diplocardia gear, the 4th diplocardia gear and first driven gear, second driven gear, the 3rd driven gear, the 4th driven gear diameter is identical with the number of teeth, second power gear, the 3rd power gear, the 4th power gear, first rolling bearing group, second rolling bearing group, the 3rd rolling bearing group, the 4th rolling bearing group, first centre tooth wheels, second centre tooth wheels, the 3rd centre tooth wheels, the 4th centre tooth wheels and first output gear, second output gear, the 3rd output gear has the identical number of teeth and diameter, and, and be the central shaft and the output mechanical axis concentric that links to each other of 1: 4 the 4th driven gear with the diameter ratio of diplocardia gear with the diameter of diplocardia gear.The 4th driven gear and the 4th output gear are located at the both sides of steel wall, the 4th output gear and generator gear its equal diameters that is connected with a joggle.In the 4th output gear diameter 2 times of the 4th power gear diameter.Generator connects with generator gear.Generator has four leads, and a positive conductor and a negative conductor connect on the electromagnet of electromagnetism condenser, and another positive conductor and another negative conductor connect on the contact of electromagnetism condenser.This contact over against the contact on positive conductor and negative conductor be connected on first switch, first switch and second switch have positive conductor and negative conductor to link, and have a connecting rod to link, and a control joystick is arranged in the middle of the connecting rod.The positive conductor of storage battery and negative conductor are connected on the positive conductor and negative conductor of first switch and second switch centre.Positive conductor on the other end of second switch and negative conductor and motor link.

Advantage of the present invention is: 1, do not need external force power and electric energy or fuel, but can constantly externally do work, and permanent running, rotation time is by determining designed life.2, have the advantage of motor concurrently; As: volume is little, and running is steadily.Vibrate little, maintenance ten thousand just, control easily.3, can be used on the means of transportations such as automobile, aircraft, ship, train, all need the ground ten thousand of power also to be useful on generating, desalinization etc.

Description of drawings

Fig. 1 is a schematic diagram of the present invention.

Embodiment

Four parallel being fixedly connected side by side in box hat of new power driver, central gear is fixed on the steel wall of both sides, and driven gear is fixed on the steel wall of both sides, and power gear is meshed with output gear and is fastened on the supporting bolt.One end and 1 motor of 2 line shafts link, the other end passes the steel wall and is connected with 3 first double Hooke's joint bars, 3 first double Hooke's joint bars and 4 first rolling bearing set associatives connect, two gear branches of 4 first rolling bearing groups are located at 6 first diplocardia gear both sides, its back shaft axle center is positioned at 6 first diplocardia gear 1/2 radius, 5 first centre tooth wheels that are meshed with 4 first rolling bearing groups are fixed on the steel wall, its two gear lays respectively at 6 first diplocardia gear both sides, and with 6 first diplocardia gear concentrics.7 first driven gears are connected with 8 first diplocardia gears engaged, and it is coaxial with 8 first output gears, 8 first output gears and 9 second power gear engagements, and on stuck-at-0 first support column, 9 second power gear and 12 second rolling bearing groups are connected the two ends of 11 second double Hooke's joint bars respectively, two gear trains of 12 second rolling bearing groups are located at 14 second diplocardia gear both sides, and its back shaft axle center is positioned at outside 14 second diplocardia gear 1/2 radiuses.13 second centre tooth wheels that are meshed with 12 second rolling bearing groups are fixed on the steel wall, and its two gear lays respectively at 14 second diplocardia gear both sides, and with 14 second diplocardia gear concentrics.15 second driven gears are connected with 14 second diplocardia gears engaged.And it is coaxial with 16 second output gears.16 second output gears and 17 the 3rd power gear engagements, and on 8 second support columns of stuck-at-, 17 the 3rd power gear and the 3rd rolling bearing component are connected the two ends of 19 the 3rd double Hooke's joint bars in addition.Two gear branches of 20 the 3rd rolling bearing groups are located at 22 the 3rd diplocardia gear both sides, and its back shaft axle center is positioned at 22 the 3rd diplocardia gear 1/2 radius.21 the 3rd centre tooth wheels that are meshed with 20 the 3rd rolling bearing groups are fixed on the steel wall, and its two gear lays respectively at 22 the 3rd diplocardia gear both sides, and with 22 the 3rd diplocardia gear concentrics.23 the 3rd driven gears are connected with 22 the 3rd diplocardia gears engaged.And it is coaxial with 24 the 3rd output gears.24 the 3rd output gears and 25 the 4th power gear engagements, and be fixed on 26 the 3rd support columns, 25 the 4th power gear and 28 the 4th rolling bearing groups are connected the two ends of 27 the 4th double Hooke's joint bars respectively.Two gears of 28 the 4th rolling bearing groups are respectively 30 the 4th diplocardia gear both sides, and its back shaft axle center is positioned at 30 the 4th diplocardia gear 1/2 radius.29 the 4th centre tooth wheels that are meshed with 28 the 4th rolling bearing groups are fixed on the steel wall, and its two gear lays respectively at 30 the 4th diplocardia tooth both sides, and with 30 the 4th diplocardia gear concentrics.31 the 4th driven gears are connected with 30 the 4th diplocardia gears engaged.And coaxial with 32 the 4th output gears, be divided into.Steel wall both sides.3 first diplocardia gears, 14 second diplocardia gears, 22 the 3rd diplocardia gears, 30 the 4th diplocardia gears and 27 first driven gears, 15 second driven gears, 23 the 3rd driven gears, 31 the 4th driven gear diameters are identical with the number of teeth, 9 second power gear, 17 the 3rd power gear, 25 the 4th power gear, 4 first rolling bearing groups, 12 second rolling bearing groups, 20 the 3rd rolling bearing groups, 28 the 4th rolling bearing groups, 5 first centre tooth wheels, 13 second centre tooth wheels, 21 the 3rd centre tooth wheels, 29 the 4th centre tooth wheels and 8 first output gears, 16 second output gears, 24 the 3rd output gears have the identical number of teeth and diameter, and diameter with the diplocardia gear, and with the diameter ratio of diplocardia gear be 1: 4, the central shaft of 31 the 4th driven gears and the output mechanical axis concentric that links to each other.31 the 4th driven gears and 32 the 4th output gears are located at the both sides of steel wall, 32 the 4th output gears and 34 generator gears its equal diameters that is connected with a joggle.In the 4th output gear diameter 2 times of the 4th power gear diameter.35 generators connect with 34 generator gears.35 generators have four leads, and a positive conductor and a negative conductor connect on 37 electromagnet of 36 electromagnetism condensers, and another positive conductor and another negative conductor connect on the contact of 36 electromagnetism condensers.This contact over against the contact on positive conductor and negative conductor be connected on 38 first switches, 38 first switches and 39 second switches have positive conductor and negative conductor to link, and have one 40 connecting rod to link, and control 41 joysticks are arranged in the middle of the connecting rod.The positive conductor of 42 storage batterys and negative conductor are connected on the positive conductor and negative conductor of 38 first switches and 39 second switch centres.Positive conductor on the other end of 39 second switches and negative conductor and 1 motor link.

Handle mains switch, make the energising of 1 motor, 1 motor rotates, and drives the rotation of 2 line shafts.2 line shafts with transmission of power in 3 first double Hooke's joint bars, by 3 first double Hooke's joint bars power at constant speed is transmitted to 4 first rolling bearing groups equally, when 4 first rolling bearing groups are rotated around 5 first central gears, drive 6 first diplocardia gears and rotate.4 first roll some wheels and 6 first diplocardia gears and 4 first rolling bearing groups keep same rotational speed.Because of 3 first double Hooke's joint bars 4 first rolling bearing groups that are transmitted to, so 6 first diplocardia gears and line shaft maintenance same rotational speed with the power at constant speed device of line shaft.Because of 4 first rolling bearing groups are partly to rotate around 6 first diplocardia gear axis with 1/2 of 6 first diplocardia tooth radius, so the power that 6 first diplocardia gears obtain will reduce one times.Next, 6 first diplocardia gears are transmitted to 7 first driven gears with power and rotating speed, feasible 8 first output gears acquisitions and the same rotating speeds of 1 line shaft coaxial with 7 first driven gears; And because of its diameter is 1/4 of 7 first driven gears, and obtain 4 times of transferring power to 7 first driven gears.Just 2 times to the power of line shaft.The transmission of power that will increase one times more is in 9 second power gear, by 11 second double Hooke's joint bar constant speed equivalent with 9 second transmission of power that power gear is subjected in 12 second rolling bearing groups.When 12 second rolling bearing groups are rotated around 13 second centre tooth wheels, drive 14 second diplocardia gears and rotate.Because of 9 second power gear, 12 second rolling bearing groups and 13 second central gears and 9 second power gear keep same rotational speed.Because of 12 second rolling bearing groups are that radius rotates around 14 second diplocardia gear axis with 1/2 of 14 second diplocardia tooth radius, so the power of 14 second diplocardia gear acquisitions will reduce one times.Next, 14 second diplocardia gears are transmitted to 15 second driven gears with power and rotating speed, make and 15 second 16 second output gears acquisitions and 9 second same rotating speeds of power gear that driven gear is coaxial, and because of diameter be 1/4 of 15 second driven gears, and obtain 4 times of transferring power to 15 second driven tooth, just 2 times to the power of 9 second power gear.Oneself is through being increased one times, so when power was delivered to 16 second output gears by line shaft, power just was increased to 4 times of motor power when being delivered to 8 first output gears by line shaft.With this transmission of power in 17 the 3rd power gear, by 19 the 3rd double Hooke's joint bar constant speed equivalent with 17 the 3rd transmission of power that power gear is subjected in 20 the 3rd rolling bearing groups.When 20 the 3rd rolling bearing groups are rotated around 21 the 3rd centre tooth wheels, drive 22 the 3rd diplocardia gears and rotate.Because of 17 the 3rd power gear, 20 the 3rd rolling bearing groups are identical with diameter with 21 the 3rd centre tooth wheels numbers of teeth, so 22 the 3rd diplocardia gears and 17 the 3rd power gear maintenance same rotational speed.20 the 3rd rolling bearing groups of cause are that radius rotates around 22 the 3rd diplocardia gear axis with 1/2 place of 22 the 3rd diplocardia tooth radius, so the power of 22 the 3rd diplocardia gear acquisitions will reduce one times.Next, 22 the 3rd diplocardia gears are transmitted to 23 the 3rd driven gears with power and rotating speed, make and 23 the 3rd 24 the 3rd output gears acquisitions and 17 the 3rd same rotating speeds of power gear that driven gear is coaxial, and because of diameter be 1/4 of 23 the 3rd driven gears, and obtain 4 times of transferring power to 23 the 3rd driven gears, just 2 times to the power of 17 the 3rd power gear.Oneself is 2 times of motor through being increased one times when being delivered to 8 first output gears because of the power of motor by line shaft.When this power that has been increased is delivered to 16 second output gears by 9 second power gear, be increased one times again, so when power was delivered to 16 second output gears by line shaft, power just was increased to 4 times of motor power.Therefore when being increased 4 times power again and being delivered to 24 the 3rd output gears, be increased one times again, so when power is delivered to 24 the 3rd output gears by line shaft by 17 the 3rd power gear; Power just is increased to 8 times of 1 motor power.Again this power is transmitted to 25 the 4th power gear by 24 the 3rd output gears, 27 the 4th double Hooke's joint bar constant speed equivalent with 25 the 4th transmission of power that power gear is subjected in 28 the 4th rolling bearing groups.When 28 the 4th rolling bearing groups are rotated around 29 the 4th centre tooth wheels, drive 30 the 4th diplocardia gears and rotate.Because of 25 the 4th power gear, 28 the 4th rolling bearings are identical with diameter with 29 the 4th centre tooth wheels numbers of teeth, so 30 the 4th diplocardia gears and 25 the 4th power gear keep same rotational speed.28 the 4th rolling bearing groups of cause are that radius rotates around 30 the 4th diplocardia gear axis with 1/2 place of 30 the 4th diplocardia tooth radius, so the power of 30 the 4th diplocardia gear acquisitions will reduce one times.Next, 30 the 4th diplocardia gears are transmitted to 31 the 4th driven gears with power and rotating speed, make and 31 the 4th 32 the 4th output gears acquisitions and 31 the 4th same rotating speeds of driven gear that driven gear is coaxial, and because of diameter be 1/2 of the 4th driven gear, and obtain 2 times of transferring power to 31 the 4th driven gears, just equal the power of 25 the 4th power gear.The output mechanical axis coaxial with output gear, its diameter are 1/4 of 31 the 4th driven gears, and obtain 4 times of transferring power to 31 the 4th driven gears, and just 2 times to the power of 25 the 4th power gear.Be increased one times when being delivered to 8 first output gears by line shaft, so when power was delivered to 16 second output gears by line shaft, power just was increased to 4 times of motor power because of the power of motor.Therefore be increased again when 4 times power is delivered to 24 the 3rd output gears by 17 the 3rd power gear and be increased one times again, so when power was delivered to 24 the 3rd output gears by line shaft, power just was increased to 8 times of motor power.When again this being increased 8 times power and being delivered to 32 the 4th output gears by 25 the 4th power gear, be not increased one times, still 8 times of motor power, and this power that has been increased 8 times is when being delivered to output mechanical axis with 32 the 4th output gear concentrics by 25 the 4th power gear, and power just is increased to 16 times of motor power.Carry the energy because of driving generator for electricity generation with the power of 4 times on motor.Are 2 times of 25 the 4th power gear because of 32 the 4th output gear diameters again.When 8 times of power of motor are delivered to 32 the 4th output gears by 25 the 4th power gear, be not increased one times.So generator has spent after 4 times of power, with the transmission of power of 4 times on 1 motor during to the output mechanical axis, the power of 1 motor increases to 8 times by 25 the 4th power gear.So the minimum power that the actual output of output mechanical axis is externally done work is 8 times of motor power.The power exported of the recycling engine of new power driver driving electric energy just.Be 8 times of motor power (output).

The electric energy of 35 generators output, at first import electromagnet on 36 electromagnetic relays by a positive conductor and negative conductor, electromagnet is inhaled the rank sheet get off, collided in the contact, the electric energy of 35 generators is again by positive conductor and negative conductor on 36 electromagnetic relay upper contacts, input 38 first switches, 38 first switches and 39 second switches close simultaneously, and electric energy is imported 1 motor and storage battery again.Give 42 charge in batteries simultaneously again for 1 motor supply energy source on one side.

Claims (1)

1, the recycling engine of a kind of new power driver driving electric energy, it is characterized in that four parallel being fixedly connected side by side in box hat of new power driver, central gear is fixed on the steel wall of both sides, driven gear is fixed on the steel wall of both sides, and power gear is meshed with output gear and is fastened on the support column.One end and the motor of line shaft link, the other end passes the steel wall and is connected with first double Hooke's joint bar, first double Hooke's joint bar and first rolling bearing set associative connect, two gear branches of first rolling bearing group are located at first diplocardia gear both sides, its bolster axle center is positioned at first diplocardia gear 1/2 radius, first centre tooth wheels that are meshed with first rolling bearing group are fixed on the steel wall, its two gear lays respectively at first diplocardia gear both sides, and with first diplocardia gear concentric.First driven gear is connected with first diplocardia gears engaged, and coaxial with first output gear.First output gear and second power gear engagement, and be fixed on first support column, second power gear and second rolling bearing group are connected the two ends of second double Hooke's joint bar respectively, two gear trains of second rolling bearing group are located at second diplocardia gear both sides, and its back shaft axle center is positioned at outside second diplocardia gear 1/2 radius.Second the centre tooth wheels that is meshed with second rolling bearing group are fixed on the steel wall, and its two gear lays respectively at second diplocardia gear both sides, and with second diplocardia gear concentric.Second driven gear is connected with second diplocardia gears engaged.And it is coaxial with second output gear.Second output gear and the 3rd power gear engagement, and be fixed on second support column, the 3rd power gear and the 3rd rolling bearing component are connected the two ends of the 3rd double Hooke's joint bar in addition.Two gear branches of the 3rd rolling bearing group are located at the 3rd diplocardia gear both sides, and its back shaft axle center is positioned at the 3rd diplocardia gear 1/2 radius.The 3rd centre tooth wheels that are meshed with the 3rd rolling bearing group are fixed on the steel wall, and its two gear lays respectively at the 3rd diplocardia gear both sides, and with the 3rd diplocardia gear concentric.The 3rd driven gear is connected with the 3rd diplocardia gears engaged.And it is coaxial with the 3rd output gear.The 3rd output gear and the 4th power gear are connected with a joggle and are fixed on the 3rd support column, the 4th power gear and the 4th, and the rolling bearing group is connected the two ends of the 4th double Hooke's joint bar respectively.Two gears of the 4th rolling bearing group are respectively the 4th diplocardia gear both sides, and its back shaft axle center is positioned at the 4th diplocardia gear 1/2 radius.The 4th centre tooth wheels that are meshed with the 4th rolling bearing group are fixed on the steel wall, and its two gear lays respectively at the 4th diplocardia tooth both sides, and with the 4th diplocardia gear concentric.The 4th driven gear is connected with the 4th diplocardia gears engaged.And coaxial with the 4th output gear, be divided into.Steel wall both sides.First diplocardia gear, second diplocardia gear, the 3rd diplocardia gear, the 4th diplocardia gear and first driven gear, second driven gear, the 3rd driven gear, the 4th driven gear diameter is identical with the number of teeth, second power gear, the 3rd power gear, the 4th power gear, first rolling bearing group, second rolling bearing group, the 3rd rolling bearing group, the 4th rolling bearing group, first centre tooth wheels, second centre tooth wheels, the 3rd centre tooth wheels, the 4th centre tooth wheels and first output gear, second output gear, the 3rd output gear has the identical number of teeth and diameter, and, and be the central shaft and the output mechanical axis concentric that links to each other of 1: 4 the 4th driven gear with the diameter ratio of diplocardia gear with the diameter of diplocardia gear.The 4th driven gear and the 4th output gear are located at the both sides of steel wall, the 4th output gear and generator gear its equal diameters that is connected with a joggle.In the 4th output gear diameter 2 times of the 4th power gear diameter.Generator connects with generator gear.Generator has four leads, and a positive conductor and a negative conductor connect on the electromagnet of electromagnetism condenser, and another positive conductor and another negative conductor connect on the contact of electromagnetism condenser.This contact over against the contact on positive conductor and negative conductor be connected on first switch, first switch and second switch have positive conductor and negative conductor to link, and have a connecting rod to link, and a control joystick is arranged in the middle of the connecting rod.The positive conductor of storage battery and negative conductor are connected on the positive conductor and negative conductor of first switch and second switch centre.Positive conductor on the other end of second switch and negative conductor and motor link.

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