KR20060081872A - An floatage electric ship using hydraulic lift power turbine - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to a flotation electric ship using electromagnetic force obtained from a positive power generation system as a power source.

A bipolar power generation system is a device that amplifies electricity with electricity. I think that the essential concept of electrical energy should be sorted out before the system description.

The electromagnetic energy here is defined as the force and velocity of the intrinsic force of the thermal energy that arises from the friction of the + and-of the electromagnetic force of sunlight and the energy based on the frictional speed.

The current law of gravity is the energy law that uses steam explosive power using the potential energy (potential energy) of water as the energy source, but it is limiting the demand for electric energy which is increasing due to the limited resources of the earth.

The biaxial power generation system supports the central axis in a different way from the central axis rotation method of the longitudinal gravity law, that is, the gravitational energy law established in the magnitude and velocity of the force relative to the length of the moment radius of the central rotor. It is a new system that the force as much as the diameter of the rotor is gathered because the force pushing and pulling at the working point of both sides is gathered in a separate axis through the moving coordinates.

The moving coordinates vary in rotational speed according to the setting of the seesaw rotation angle, and the amount of energy increases as the force and speed increase simultaneously because the force is amplified in proportion to the length of the seesaw and the distance of the action point connected to the moving coordinates.

Briefly summarizing this system, a device for amplifying electric energy with electricity is disclosed in the invention patent application 2004-81193, a lifting power generation system that amplifies by several tens of times, depending on the planning settings.

Floating electric ship equipped with a bi-electric power generation system proposed by the present applicant refers to a floating electric ship moving by using the generated electricity as a power source.

I will explain in detail in the main power generation system,

Briefly summarizing this system, the first basic electric force can be secured by securing the minimum required electromagnetic force using the existing prime mover, and then registering the system in the second and third times using this electromagnetic force.

Circular shape counterpart rotating body, seesaw action chamber, lever lever, moving coordinate switching part, additional elastic rotating body, amplifying generator,

Description

Floating electric ship equipped with a lifting power generation system {AN FLOATAGE ELECTRIC SHIP USING HYDRAULIC LIFT POWER TURBINE}

1 is a perspective view schematically showing a lifting power generation system according to the prior art.

FIG. 2A is a diagram showing a circular maximal principle for explaining the lift power generation system of FIG. 1; FIG.

FIG. 2B is a diagram showing a negative electrode principle for explaining the lifting power generation system of FIG.

Figure 2c is a diagram showing a four-dimensional change diagram for explaining the lift power generation system of Figure 1;

FIG. 2D is a diagram illustrating a far-angled angular pole relationship for explaining the bipolar power generation system of FIG. 1; FIG.

3 is a view schematically showing a lift power generation system according to the prior art.

4 shows A-A of FIG. 2 of a lifting power generation system according to the prior art;

5 is a view showing the arrangement of the moving coordinate switching unit and the additional elastic rotor, generator applied to the lifting power generation system according to the prior art.

FIG. 6 shows B-B of FIG. 2 of a lifting power generation system according to the prior art; FIG.

Figure 7 is a view showing the change in the length and speed of the moving coordinate cam of the lifting power generation system according to the prior art.

8 is a view showing the operation of the electronic clutch unit according to the prior art.

9 is a view showing the internal and external motion of the moving coordinate switching unit according to the prior art.

Fig. 10 is a side cross-sectional view schematically showing the configuration of a flotation electric ship equipped with a lifting power generator according to the present invention.

Fig. 11 is a schematic plan view of a flotation electric ship equipped with a lifting power generator according to the present invention.

12 is a schematic front view of a flotation electric ship equipped with a lifting power generator according to the present invention.

Fig. 13 is a schematic bottom view of a flotation electric ship equipped with a lifting power generator according to the present invention;

Explanation of symbols on the main parts of the drawings

4: Starting drive part 6: Circular counterpart rotating body part

6a: Code indicating the top and bottom of the anode line 6b: Code indicating the top and bottom of the cathode line

6c: Code indicating yin and yang line 6d: Code indicating angular and angular integration

8: seesaw action, angle lever loan 10: moving coordinate switching unit

12: amplifier generator 14: operation switch

16: Electronic control device 18: Drive gear

20, 22: First and second start-up motor 24: elastic collision unit

28: shaft support 30: crash

32, 34: elastic collision part 36: shaft support

38: Multiple seesaw action room, corner lever 40: Ball joint axis

42: rotation axis 44: connecting rod

46,48: 1st, 2nd connecting rod 52, 54: 1st, 2nd moving coordinate cam

56: output gear 58: added elastic rotor

60: output shaft 64: generator

80: motor 82: screw

84: screw motor unit 86: multiple steering screw

88: support auxiliary side plate 90: jet spray propulsion device

96: rack gear 98: pinion gear

100: forward, reverse motor 102: jet injection unit

104: backdoor

The present invention relates to a flotation electric ship equipped with a lifting power generation system, and more particularly, by converting mechanical energy, which is a physical force generated by using a seesaw and lever, into sufficient basic electric energy required for driving. Passengers who need power without having to invest in large-scale facilities by securing the energy for power generation as the driving power required for the ship, allowing them to sail by using the ship's propulsion power and flotation power source, and to efficiently operate their own electricity. The present invention relates to a flotation electric ship equipped with a lift power generation system to promote transportation, export logistics, and reduction of industrial logistics costs.

Conventional vessels are used by converting the reciprocating motion to rotational motion using a reciprocating engine using a piston, and is used by supplying energy using gasoline or diesel as the energy source.

However, the vessel using the conventional reciprocating engine uses gasoline or diesel as its energy source, but since the energy is a limited resource, the resource is depleted and the expiration date is shortly used, thus developing human energy or saving energy. Maximizing the efficiency of the energy source can be necessary and there is a problem of emitting a large amount of air pollutants and sea pollutants generated from exhaust gas.

Accordingly, Patent Application Nos. 1998-54443, 1999-55000, 2002-8637, 2002-82174, 2002-82175, 2002-82174, 2002- On the basis of 82175 and 2002-60825, patent applications 2003-64853 and 2004-24321 have been developed to improve the power plant, and finally patent application 2004-81193 is the initial input. This power source is generated by generating electric energy amplified from the initial input power by the mechanical energy generated by the lifting power part, which operates on the principle of the positive power part that performs the relative rotation operation between the cathode rotating body and the positive rotating body of the circular pole by the power source. We have proposed a power generation system that can be used as a power source.

Looking at the patent application No. 2004-81193 to be mounted on the flotation electric ship of the power generation system as described above,

FIG. 1 is a perspective view schematically showing a lifting power generation system according to the prior art, FIG. 2A is a diagram showing a circular maximal principle for explaining the lifting power generation system of FIG. 1, and FIG. Fig. 1 is a diagram showing the sound surface pole principle for explaining the positive power generation system of Fig. 1.

FIG. 2C is a diagram illustrating a four-dimensional gradient diagram for describing the bipolar power generation system of FIG. 1, and FIG. 2D is a diagram illustrating a distant and angular pole relationship for describing the bipolar power generation system of FIG. 1. 3 is a view schematically showing a lift power generation system according to the prior art.

FIG. 4 is a view showing AA of FIG. 2 of the conventional power generating system according to the prior art, and FIG. 5 is a moving coordinate switching unit applied to the positive power generating system according to the prior art. FIG. 6 is a view showing the arrangement of the additional elastic rotor and the generator, and FIG. 6 is a view showing the BB of FIG. 2 of the positive power generation system according to the prior art.

7 is a view showing a change in the length and the speed of the moving coordinate cam of the lifting power generation system according to the prior art, Figure 8 is a view showing the action of the electronic clutch unit according to the prior art, Figure 9 is a prior art It is a view showing the internal and external motion of the moving coordinate switching unit according to.

The lifting power generation system 2 is largely composed of a starting drive unit 4, a circular circumferential rotating body part 6, a seesaw actuating angle lever part 8, an electromagnetic clutch part 40, and moving coordinate switching. The part 10, the amplification generator 12, and the elastic collision device 24 is made.

The starting drive unit 4 is operated in conjunction with the rotation by the preset information of the electronic control device 16 that detects the operation of the operation switch 14 to operate the circular maximal rotating body part 6.

The starting drive unit 4 includes an operation switch 14 for energizing power, an electronic control device 16 for sensing the on of the operation switch 14, and information set in the electronic control device 16. First and second starter motor groups 20 and 22 disposed on both sides of the circular maximal rotating body part 6 while having a drive gear 18 operated by receiving power from the first and second Consists of two starter motor group (20, 22), it is made to interlock with each other.

Although the above-mentioned first and second starter motor groups 20 and 22 are specifically illustrated, the motors are connected in the order of a motor → a reduction gear → an electromagnetic clutch → a gear by a conventional technique.

The drive gear 18 of the starting drive unit 4 is provided in engagement with the gear 26 formed on the outer circumferential surface of the circular circumferential rotational body portion 6 to exert a constant rotational force.

The circular maximal rotating body part 6 is a rotating body and is formed in a set between the shaft support 28 spaced apart by being engaged with the drive gear 18 and the gear 26 of the starting driving part 4 to rotate the rotary motion. Is done.

The circular counter-rotating body portion 6 is installed to be rotated to the shaft support 28, between which the seesaw action chamber, the angle lever unit 8 is connected to each other to repeat within a certain angle range Rotation force is generated to generate rotational force.

In addition, the circular maximal rotational body part 6 forms the gear 26 in the outer peripheral surface, and forms the attachment plate 7 at 120 degree space | interval on each mutually facing side surface.

2A, 2B, 2C, and 2D, which are drawings introduced to explain the bi-electric power generation system, will be described in more detail.

Figure 2a is a circular pole relative, circular pole is a shape in which the universe rotates about the central axis of the sun, but gathers around the force by rotating from the outside of the circular pole shape, all of which are due to relative action. .

Also, Fig. 2B shows that the ends of the circular poles + and-divider line are relatively up and down in the negative electrode pole, so that the action is connected endlessly. In the prototypes of guns, gons, supervisions and supervisions indicated here, circular motions mean circular motions.

And dry sense is + and Gon Lee is-.

FIG. 2C shows that the + and-poles of the circular polarity are circular motions through four stages, respectively, with a four-dimensional gradient.

The truth and liver shown here are +, and the hands and hands are-, but in relative terms, the gun, gon, gam and li are + (positive) and the true, liver, tae and hands are-(negative).

Figure 2d is a distant and angular pole, and the hexapole shows that the same energy as the sun energy can be obtained by the movement of the universe in all directions.

Unexplained code 6a: A sign indicating the upper and lower anode lines, 6b: A sign indicating the cathode wire direction, 6c: A sign indicating the yin and yang line, 6d: A sign indicating the circle and angle set. .

In addition, the marks of true, liver, tae and hand indicate the rotation of the planet, and the outer three lines indicate the orbit of the solar system.

The attachment plates 7 are formed in a staggered position when attached to the circular maximal rotating body part 6 so as not to correspond to each other, and are thus formed at intervals of 60 °.

As the attachment plate 7 is attached to the circular counterpart rotating body part 6, the attachment plate 7 is rotated in a circle in accordance with the rotation of the circular counterpart rotating body part 6.

The circular maximal rotating body portion 6 is formed to have a thicker width at the center portion and a smaller thickness width at the edge thereof for durability.

The seesaw action chamber lever section 8 is provided with a bearing support 36 as a rotating body, and an elastic collision device 24 for assisting rotation switching while being pivotally installed by the bearing support 36. The posture of the forward and backward and the tip of the multiple seesaw action chamber and the rake lever 38 and the horizontal line of the multiple seesaw action chamber and the rake lever 38 are set by the preset information. Connected rod portion connected to the moving clutch switching unit 10 at a predetermined interval to the electronic clutch portion 40 and the rotation center axis 42 of the multi-ply seesaw actuating lever 38 44).

The elastic collision device 24 is installed vertically in a position that can satisfy the maximum operation, the number or shape is changed in accordance with the design specifications, and here it is made of elastic collision (32, 34) have.

In addition, the colliding collision device 24 includes a collision part 30 formed on the side of the multiple seesaw action chamber and the lever lever 38 of the seesaw action chamber and the lever lever 8 by a conventional technique, and the impact unit 30. ) Is a damper that buffers the switch quickly in the rotational direction by periodically colliding with the preset information.

The electronic clutch portion 40 is the front, backward actuator 41 and the front, backward actuator 41, which is installed in the multi-sided seesaw action, angular lever 38, forward and backward, and left and right within a predetermined angle range. Variablely attached to the left and right conversion actuator 43 for controlling the position angle and the mounting plate 7 of the circular circumferential rotational body portion 6 by preset information in front of the forward and backward actuators 41. It consists of the electromagnet clutch 45 installed so that it may become.

The electromagnet clutch 45 is installed on the front and rear actuators 41 in the form of a ball joint type so as to provide an airtight attachment with the attachment plate 7.

The front and rear actuators 41 are controlled by the pressure supplied from the pressure device 47 to move forward and backward, and the left and right conversion actuators 43 operate by electric signals based on preset information. The reverse actuator 41 is made to correct the angle.

The left and right conversion actuator 43 is to move left and right within a predetermined angle range to facilitate the transfer of the rotational force by the electromagnet clutch 45 and the mounting plate (7) 8 ) Is working correctly.

The moving coordinate switching unit 10 is connected to the connecting rod unit 44 connected to the first and second connecting rods 46 and 48 to the seesaw action chamber and the angle lever unit 8 installed on the shaft support 36, Between the first and second moving coordinate cams 52 and 54 that are eccentrically connected to the lower end of the first and second connecting rods 46 and 48 of the connecting rod part 44 by the cam 50 and are fixed to the shaft. An output gear 56 is provided to engage with and rotate in one direction.

8 is a view showing the internal and external motion of the moving coordinate switching unit according to the prior art, the first and second connection rods connected at regular intervals to both sides of the rotational central axis of the seesaw action chamber lever (8) ( 46,48) The lower end is connected to the first and second mobile coordinate cams 52 and 54 to perform an internal movement of 180 ° and an external motion of 180 °, and is bound by first and second connecting rods on both sides of the working point. The first and second mobile coordinate cams are relatively pushed and pulled, and the moments of movement of the two-sided external coordinate cams are gathered on the central axis so that the force of the seesaw action and angle lever portions (8) acting points is transmitted as it is. .

In the dual cabinet motion, since the moment of the force reaches the mid-point of the central axis and the first and second moving coordinate cams (52, 54), the two-sided force is transmitted in double, and this force is applied to the seesaw action and angle lever ( 8) Since it is continuously generated on both sides, the extra force is automatically covered by the rotation force of the additional elastic rotating body 58, the additional elastic rotating body 58 is a circular maximal rotating body part that is the basic device necessary for the rotation ( 6) the first and second moving coordinate cams (52) (54) and the central axis through the first and second connecting rods (46) and (48) bound to the working point It is supplied from and the elasticity is to be reduced through the same route.

The output gear 56 is connected to the output gears 56, and the output shaft 60 is installed to transmit the rotational force to the additional elastic rotating body 58 is made to convert the up, down movement to the rotational movement.

The first and second moving coordinate cams 52 and 54 and the output gear 56 of the moving coordinate switching unit 10 are mounted in the gear box 62 and fixed to the cam 50 while being connected to the rod 50. ) And is being installed.

The connecting rod 44, the first and second grain rod 46, 48 is the movement of the seesaw action chamber, each lever 8 at regular intervals from the center of the seesaw action chamber, each lever (8) to both sides It is installed so that interference does not occur.

The additional resilient rotating body 58 is installed as an output shaft 60 to form an axis of the output gear 56 at a predetermined distance on one side of the moving coordinate switching unit 10, the rotational force of the seesaw action angle lever 8 The installation is made to receive.

The additional elastic rotating body 58 is made to increase the output rotational force than the rotational force input by the normal gear combination is output.

The amplification generator unit 12 is a generator 64, a speed increaser (R), a transmission (T), an electromagnetic clutch (C) connected to the moving coordinate switching unit 10 through a transmission 64-1. In addition, it is connected to the output shaft 60 in the order of the additional elastic rotating body 58, and is provided with a generator 64 driven by the increased rotational force.

The power generated by the generator 64 is supplied to an industry or the like through a general power transmission device 66 or the like, and the electricity generated here is first and second starting motor groups of the starting and driving unit 4 by the electronic control device 16. (20) and (22) and other power generation components 68 are connected to supply power.

The electronic controller 16 includes first and second starting motor groups 20 and 22, forward and backward actuators 41, left and right conversion actuators 43, a collision colliding unit 24, and a pressure device. Reference numerals 47 and 49 and the power transmission device 66 are controlled by preset information.

Referring to the operation of the lifting power generation system 2 made as described above, if the user turns on the operation switch 14 to use the initial power source by the battery or other power supply device, the electronic control device 16 Recognizes this and supplies power to the first and second start-up motor groups 20 and 22 of the starting drive unit 4 by preset information.

Accordingly, the drive gear 18 of the first and second starter motor groups 20 and 22 is rotated within the range by the preset information.

When the drive gear 18 is rotated forward by the operation of the first and second starter motor groups 20 and 22, the circularly circumferential rotary member 6 rotated in a clockwise direction is rotated in a clockwise direction. The electromagnet clutch 45 on both sides of the seesaw action chamber and lever lever 8 is alternately operated by the operation of the forward and backward actuators 41 and the left and right conversion actuators 43 according to the preset signal of 16). Let's go.

At this time, the multiple seesaw action chamber rake lever 38 of the seesaw action chamber lever section 8 is formed on the side by the first and second elastic impact unit 32, 34 of the elastic collision device unit 24 Strike the impact portion 30 to facilitate the reciprocating motion according to the rotational force change.

Accordingly, when the electronic control device 16 recognizes that the circular shape relative rotator body 6 and the seesaw action chamber and lever lever part 8 rotate, the first elastic collision part 32 is recognized. By advancing the striking part 30 projecting on the outer circumferential surface of the multi-layered seesaw action angle lever 38, it is easy to change the rotation direction to facilitate the reciprocating operation.

Therefore, when the circular shape relative rotator portion 6 continues to rotate and the attachment plate 7 reaches the 60 ° range with respect to the electromagnet clutch 45 of the multi-plate seesaw actuating lever 38, the electron is set by the preset information. The control device 16 advances the forward and backward actuators 41 so that the electromagnet clutch 45 is attached to the attachment plate 7 at the a position to receive the rotational force.

In the state where the electromagnet clutch 45 and the attachment plate 7 are attached to each other, the circular maximal rotating body part 6 rotates so that when the attachment plate 7 comes to the b position, the forward and backward actuators 41 are set. In response to the information signal, the left and right conversion actuators 43 are operated to keep the angle of the forward and backward actuators 41 in line with the attachment plate 7 at the b position.

At this time, the electromagnet clutch 45 is installed as a ball joint type in the forward and backward actuators 41, so that the posture change is easily performed, thereby maintaining the state of being securely attached to the attachment plate 7.

Accordingly, when the electromagnet clutch 45 and the attachment plate 7 are attached to each other, the circular motion rotating body part 6 rotates so that the attachment plate 7 moves up to the c position and then moves out of the c position. The reverse actuator 41 and the left and right conversion actuator 43 are restored to the initial state by the preset information.

Although the action of the above-described series A part side electromagnetic clutch part 40 is described, the A part side and the C side side actions are the same and are in a descending posture, and the B and D part sides are in a rising posture, and the detailed action is described above. The operation is performed in the same manner as that of the negative side electronic clutch portion 40.

 Therefore, the multi-ply seesaw action chamber and the rake lever 38 of the seesaw action chamber 8 are reciprocated on the C and D sides as opposed to the reciprocation of the A and B sides.

Here, the seesaw action chamber lever part 8 can be adjusted according to the amount of power generation since it can be added or decreased depending on the installation use.

The first and second connecting rods 46 and 48 are connected to the multiple seesaw action chamber and lever lever 38 of the seesaw action chamber and the lever lever 8 to repeat the lifting and lowering motion of the cam in the gear box 62. The rotation of the first and second moving coordinate cams 52 and 54 is performed as the rotation is connected to the 50, and the output gear 56 disposed therebetween rotates the output shaft 60.

As described above, the first and second moving coordinate cams 52 and 54 are formed on the lower end side of the connecting rod 44 connected at regular intervals to both sides of the central axis of rotation of the seesaw actuating angle lever portion 8. The first and second connection rods 46 and 48 are connected to the first and second moving coordinate cams 52 and 54 to perform an internal movement of 180 degrees and an external movement of 180 degrees. , The two moving coordinate cams (52) and (54) have the force moments of the moving coordinates on both sides of the two external movements, which are pushed and pulled relative to the central axis, so that the force of the working point of the seesaw action and the angle lever portion (8) is transmitted as it is. .

In the dual cabinet motion, since the moment of the force reaches the middle point of the central axis and the first and second moving coordinate cams (52, 54), the two-sided force is transmitted in double, and this force is the seesaw action and angle lever. (8) It is continuously generated on both sides, and the excess force generated at this time is automatically covered by the rotation force of the additional resilient rotating body 58.

In addition, the additional elastic rotating body 58 is the first and second connections in which the force required for rotation is combined with the working point of the seesaw action chamber lever lever 8 to obtain the force obtained from the circular maximal relative rotating body part 6, which is a basic device. The rods 46 and 48 are supplied from the first and second moving coordinate cams 52 and 54 and the central axis thereof, and their elasticity is reduced through the same path.

Accordingly, the electromagnet clutch 45 of the electromagnetic clutch portion 40 of the seesaw action chamber and the angle lever portion 8 is rotated at a predetermined angle during the rotation by the velocity energy of the circular maximal rotating body portion 6. And the first and second connection rods 46 and 48 connected to the action points of the seesaw action chamber and the lever lever 38 of the seesaw action chamber and the lever lever part 8 as the rotational force is transmitted. The length and speed of the two moving coordinate cams 52 and 54 are changed and driven by the amount of speed energy amplification.

The rotational force generated by the rotation of the output shaft 60 is increased through the additional elastic rotating body 58 of the amplifying generator 12 and is output to the generator 64 to amplify the amount of power generated.

The additional resilient rotating body 58 is to compensate for the portion where the gap of the action force occurs at the turning point during the up and down rotation of the seesaw action lever / rake lever 8 to perform an auxiliary function.

On the other hand, as the seesaw action chamber / gear lever part 8 repeats the seesaw operation of reciprocating rotation within a predetermined angle range as described above, the output shaft 60 is rotated by the rotation of the output gear 56 of the gearbox 62. The rotational force increased through the additional elastic rotating body 58 operated through the power generation is generated by operating the generator 64 of the amplifying power generator 12, and thus the first and second starting motor groups 20 and 22 and other electric parts. A sufficient amount of electricity will be supplied to (68).

Rotational movement of the moving coordinate switching unit 10 as the rotation between the circular maximal rotating body parts 6 rotates at the same rotational speed in the same direction to alternately reciprocate the seesaw action chamber / cornel lever part 8. The energy is amplified.

The development of a technology that increases the driving efficiency of the engine using the energy amplified by the above-mentioned bi-electric power generation system, and applies to electric ships that require a large amount of electric energy as a power source.

It is proposed to solve the problems of the prior art made as described above, the object of the present invention is the energy for generation generated by replacing the mechanical energy, which is a physical force generated by using the principle of seesaw and lever into sufficient basic electrical energy required for driving As a driving power source required for ships, the ship can be used as a ship's propulsion power source and flotation power source, and it can operate efficiently by using its own electricity. It is to provide a flotation electric ship equipped with a lifting power generation system aimed at reducing logistics transportation and industrial logistics costs.

The present invention for realizing this

In the bipolar power generation system,

A starting drive unit comprising an operating switch, an electronic control unit, an electric motor, a reduction gear, a transmission, and a driving gear, and comprising first and second starting motor groups;

A circular maximal rotating body part installed in conjunction with the moving coordinate trinity switching part by mounting the attachment plate and operating the electronic clutch part of the seesaw action lever and corner lever;

The circle-shaped counterpart rotating body part rotates two when the rotation angle is 90 °, and three revolutions when the angle is 60 °. Seesaw action chambers and angle levers joined to the electromagnetic clutch part at 4 ° at 45 ° and 6 rotation at 30 °,

An electromagnetic clutch unit having an electromagnet clutch provided on the front and rear actuators so as to be variablely attached to the mounting plate of the circular counterpart rotating part;

The moving point switching unit is installed so that the force acting on the seesaw action chamber, the lever lever, the output gear between the first and second moving coordinate cams and the force penetrates into a trinity unit;

An amplification generator unit connected to an output shaft of the moving coordinate switching unit and installed to rotate with an amplified rotational elasticity to generate power by an amplified rotational force;

It is composed of an elastic collision device installed on one side to perform rotational switching of multiple seesaw action chambers and angle levers between the circular counterpart rotator parts to implement the principle of seesaw and lever to convert the physical force generated into electrical energy. together,

Screw motor is installed by gradually increasing the capacity of the motor and the screw size on both sides of both sides of the submersible of the hull to advance the power generated by the amplification generator unit of the flotation electric ship by the electrical signal of the electronic control device Wealth,

A multi-steering screw unit installed at the stern between the screw motor units to steer the hull by an electrical signal of an electronic controller;

Compression air is generated by compressing air introduced into electricity of a power generation device supplied by an electrical signal of an electronic control device between buoyancy auxiliary side plates installed at a predetermined interval on the hull bottom of the flotation electric ship to generate injection thrust. It is to provide a flotation electric ship equipped with a lifting power generating device consisting of a jet injection propulsion unit is arranged at a constant interval and angle to support the hull.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

10 is a side cross-sectional view schematically showing the configuration of a flotation electric ship equipped with a lifting power generator according to the present invention, Figure 11 is a flotation electric power mounted with a lifting power generator according to the present invention. Schematic top view of a ship.

12 is a schematic front view of a flotation electric ship equipped with a lifting power generator according to the present invention, and FIG. 13 is a schematic of a flotation electric ship equipped with a lifting power generating device according to the present invention. Bottom view.

And the same reference numerals for the same parts as in the prior art.

The flotation electric ship T equipped with a bi-pneumatic power generation system includes a starter drive unit 4, a circular circumferential rotating body unit 6, a seesaw actuating angle lever unit 8, and an electromagnetic clutch unit 40. ), A bipolar power generation system (2) consisting of a moving coordinate switching unit 10, an amplification generator unit 12, an elastic collision device unit 24,

The starting drive unit 4 is provided with the first and second starting motor groups 20 and 22, including the operation switch 14, the electronic control unit 16, the electric motor, the reduction gear, the transmission, and the drive gear 18. It consists.

The circular counterpart rotating body part 6 is attached to the attachment plate 7 to be interlocked with the moving coordinate switching part 10 by the operation of the electronic clutch part 40 of the seesaw acting angle lever 8. .

The said seesaw action lever angle | corner part 8 is 2 rotations when the circular-shaped relative rotation part 6 is 90 degrees, and 3 rotations when 60 degrees. It is made to be joined to the electromagnetic clutch portion 40 when the fourth rotation at 45 °, six rotations at 30 °.

The electromagnetic clutch portion 40 is provided with an electromagnet clutch 45 provided on the forward and backward actuators 41 so that the circular shape relative to the rotary body portion 6 is variably attached to the attachment plate 7.

The moving coordinate switching unit 10 has a working point force of the seesaw action chamber and the lever lever 8 and the output gear 56 between the first and second moving coordinate cams 52 and 54 penetrates into a trinity. It is installed uniformly.

The amplification generator unit 12 is installed on the output shaft 60 of the moving coordinate switching unit 10 to be rotated by the amplified rotational force is installed to generate power by the amplified rotational force.

The elastic collision device 24 is provided on one side so as to assist the rotation switching of the multi-layered seesaw action, angle lever 38 between the circular maximal rotating body portion (6).

By using the above-described distillate power generation system 2 to implement the principle of seesaw and lever, the generated power is controlled by the preset information of the electronic control device 16 when the generated physical force is converted into electrical energy. The installed flotation electric ship (S) is the capacity of the motor (80) and the screw on both sides of both sides of the diver to drive the power generated in the amplification generator unit 12 by the electrical signal of the electronic control device 16 to advance The screw motor portion 84 is formed by gradually increasing the size of the 82 to the rear side.

In addition, a multi-steering screw unit 86 is installed at the stern between the screw motor units 84 to steer the hull by an electrical signal of the electronic controller 16, and the hull of the flotation electric ship S is bottomed. Compresses the air introduced into the electricity of the amplification generator unit 12 supplied by the electrical signal of the electronic control device 16 between the support auxiliary side plate 88 provided at regular intervals on the surface to burn with fuel. The jet ejection propulsion unit 90 is provided at a predetermined interval and at an angle to generate the injection thrust to support the hull.

The screw motor 84 is a motor (2) on both sides of both sides of the hull to advance by driving the power generated in the amplification generator unit 12 of the flotation electric ship (S) by the electrical signal of the electronic control device (16) ( The capacity of 80 and the size of the screw 82 are gradually expanded to the rear side.

The screw motor portion 84 is disposed from the middle of the hull to the stern side, while the screw 82 is gradually increased from small to large, the capacity of the motor 80 is also gradually increased from small to large, and is not limited to a specific number of installation Depending on the tonnage of the flotation electric ship (S), the appropriate number can be installed.

The multi-steering screw portion 86 is installed to steer the hull by the electrical signal of the electronic controller 16 at the stern between the screw motor portion 84.

The multi-steering screw portion 86 has a plurality of linear motor screws 92 rotatably installed in the stern at an angle range, a link 94 extending from the plurality of linear motor screws 92, and the link 94. Are installed at regular intervals on the hinge axis, and are mounted by a slide gear 96 and a pinion gear 98 meshing with the rack gear 96 to be operated by the electronic controller 16. It consists of a configuration including the forward and reverse motor (100).

The jet ejection propulsion unit 90 is connected to the electrical signal of the electronic control device 16 between the flotation auxiliary side plates 88 provided at regular intervals on the hull bottom surface of the flotation electric ship S by a conventional technique. It is installed to support the hull by arranging the jet injection unit 102, which is operated by the electricity of the amplification power generator unit 12 supplied by the compressed air with compressed fuel to generate the injection thrust at a predetermined interval and angle, have.

The jet injection propulsion unit 90 is installed to support the hull to some extent while sailing while the exhaust gas generated by the drive is discharged at a predetermined angle, the water jet to the jet injection unit 102 during berthing or operation stops In order to block the inflow, an exhaust door 104 which is opened and closed by a signal of the electronic controller 16 is provided in the jet injection part 102 on the bottom face.

On both sides of the jet injection propulsion unit 90 in the longitudinal direction, a support auxiliary side plate 88 having a predetermined length is provided on the bottom of the hull so that the injection pressure of the exhaust gas can be effectively applied to the hull.

Referring to the operation of the electric flotation vessel (S) equipped with the lifting power generator (2) of the present invention made as described above, the user operates to use the initial power source by the battery or other power supply device When the switch 14 is turned on, the electronic controller 16 recognizes this and supplies power to the first and second starter motor groups 20 and 22 of the starting and driving unit 4 based on preset information.

Accordingly, the drive gear 18 of the first and second starter motor groups 20 and 22 is rotated within the range by the preset information.

When the drive gear 18 is rotated forward by the operation of the first and second starter motor groups 20 and 22, the circularly circumferential rotary member 6 rotated in a clockwise direction is rotated in a clockwise direction. The electromagnet clutch 45 on both sides of the seesaw action chamber and lever lever 8 is alternately operated by the operation of the forward and backward actuators 41 and the left and right conversion actuators 43 according to the preset signal of 16). Let's go.

At this time, the multiple seesaw action chamber rake lever 38 of the seesaw action chamber lever section 8 is formed on the side by the first and second elastic impact unit 32, 34 of the elastic collision device unit 24 Strike the impact portion 30 to facilitate the reciprocating motion according to the rotational force change.

Accordingly, when the electronic control device 16 recognizes that the circular shape relative rotator body 6 and the seesaw action chamber and lever lever part 8 rotate, the first elastic collision part 32 By advancing the hitting the impact portion 30 protruding on the outer peripheral surface of the multi-layered seesaw action, angle lever 38 to facilitate the rotational direction to facilitate the reciprocating operation.

Therefore, when the circular shape relative rotator portion 6 continues to rotate and the attachment plate 7 reaches the 60 ° range with respect to the electromagnet clutch 45 of the multi-plate seesaw actuating lever 38, the electron is set by the preset information. The control device 16 advances the forward and backward actuators 41 so that the electromagnet clutch 45 is attached to the attachment plate 7 at the a position to receive the rotational force.

In the state where the electromagnet clutch 45 and the attachment plate 7 are attached to each other, the circular maximal rotating body part 6 rotates so that when the attachment plate 7 comes to the b position, the forward and backward actuators 41 are set. In response to the information signal, the left and right conversion actuators 43 are operated to keep the angle of the forward and backward actuators 41 in line with the attachment plate 7 at the b position.

At this time, the electromagnet clutch 45 is installed as a ball joint type in the forward and backward actuators 41, so that the posture change is easily performed, thereby maintaining the state of being securely attached to the attachment plate 7.

Accordingly, when the electromagnet clutch 45 and the attachment plate 7 are attached to each other, the circular motion rotating body part 6 rotates so that the attachment plate 7 moves up to the c position and then moves out of the c position. The reverse actuator 41 and the left and right conversion actuator 43 are restored to the initial state by the preset information.

Although the action of the series A side electron clutch portion 40 described above is described, the actions of the A side and the C side are the same, and the lowering posture, the B side and the D side act as the rising posture, and the detailed operation is described above. The operation is performed in the same manner as that of the negative side electronic clutch portion 40.

 Therefore, the multi-ply seesaw action chamber and the rake lever 38 of the seesaw action chamber 8 are reciprocated on the C and D sides as opposed to the reciprocation of the A and B sides.

Here, the seesaw action chamber lever part 8 can be adjusted according to the amount of power generation since it can be added or decreased depending on the installation use.

The first and second connecting rods 46 and 48 are connected to the multiple seesaw action chamber and lever lever 38 of the seesaw action chamber and the lever lever 8 to repeat the lifting and lowering motion of the cam in the gear box 62. The rotation of the first and second moving coordinate cams 52 and 54 is performed as the rotation is connected to the 50, and the output gear 56 disposed therebetween rotates the output shaft 60.

As described above, the first and second moving coordinate cams 52 and 54 are formed on the lower end side of the connecting rod 44 connected at regular intervals to both sides of the central axis of rotation of the seesaw actuating angle lever portion 8. The first and second connection rods 46 and 48 are connected to the first and second moving coordinate cams 52 and 54 to perform an internal movement of 180 degrees and an external movement of 180 degrees. , The two moving coordinate cams (52) and (54) have the force moments of the moving coordinates on both sides of the two external movements, which are pushed and pulled relative to the central axis, so that the force of the working point of the seesaw action and the angle lever portion (8) is transmitted as it is. . (See Fig. 8)

In the dual cabinet motion, since the moment of force reaches the middle point of the central axis and the first and second moving coordinate cams (52, 54), the two-sided force is transmitted in double, and this force is the seesaw action and the angle lever. (8) It is continuously generated on both sides, and the excess force generated at this time is automatically covered by the rotational force of the additional elastic rotor 58.

In addition, the additional elastic rotating body 58 is the first and second connections in which the force required for rotation is combined with the working point of the seesaw action chamber lever lever 8 to obtain the force obtained from the circular maximal relative rotating body part 6, which is a basic device. The rods 46 and 48 are supplied from the first and second moving coordinate cams 52 and 54 and the central axis thereof, and their elasticity is reduced through the same path.

Accordingly, the electromagnet clutch 45 of the electromagnetic clutch portion 40 of the seesaw action chamber and the angle lever portion 8 is rotated at a predetermined angle during the rotation by the velocity energy of the circular maximal rotating body portion 6. And the first and second connection rods 46 and 48 connected to the action points of the seesaw action chamber and the lever lever 38 of the seesaw action chamber and the lever lever part 8 as the rotational force is transmitted. The length and speed of the two moving coordinate cams 52 and 54 are changed and driven by the amount of speed energy amplification.

The rotational force generated by the rotation of the output shaft 60 is increased through the additional elastic rotating body 58 of the amplifying generator 12 and is output to the generator 64 to amplify the amount of power generated.

The additional resilient rotating body 58 is to compensate for the portion where the gap of the action force occurs at the turning point during the up and down rotation of the seesaw action lever / rake lever 8 to perform an auxiliary function.

On the other hand, as the seesaw action chamber / gear lever part 8 repeats the seesaw operation of reciprocating rotation within a predetermined angle range as described above, the output shaft 60 is rotated by the rotation of the output gear 56 of the gearbox 62. The rotational force increased through the additional elastic rotating body 58 operated through the power generation is generated by operating the generator 64 of the amplifying power generator 12, and thus the first and second starting motor groups 20 and 22 and other electric parts. A sufficient amount of electricity will be supplied to (68).

Therefore, the electric power amplified by the generator 64 is started by the electronic control device 16, the starting drive unit 4, other electric components 68, screw motor unit 84, multiple steering screw unit 86, jet It is sufficiently supplied to the injection propulsion unit 90 and driven.

When the power is applied through the start drive unit 4 or other electric components 68 and the power transmission device 66, the steering device of the ship, not shown, is manipulated.

Accordingly, the electronic control device 16 that detects this is advanced by operating each motor 80 and the screw 82 of the screw motor unit 84.

Then, when the direction change of the multi-steering screw 86 is operated through the forward and reverse motors 100 as an electrical signal of the electronic control device 16, the pinion gear 98 is interlocked, and the rack gears matched thereto. The linear motor screw 92 is adjusted by the link 94 installed by sliding the 96.

On the other hand, the flotation electric ship (S) by the screw motor unit 84 and the multi-steering screw unit 86 to increase the speed during the voyage using the steering device (not shown) in the flotation stage electronic control device (16) After the recognition of this, the exhaust door 104 of the jet injection unit 102 is opened, and at the same time, it is amplified in the conventional jet injection propulsion unit 90 and supplied with a sufficient increase in power to operate.

Accordingly, when the high-pressure exhaust gas pressure generated by the driving of the jet injection propulsion unit 90 is discharged through the jet injection unit 102, the exhaust gas pressure is collected by the flotation auxiliary side plate 88 without being diffused, and the flotation electric ship ( Increase the speed of S) and let the ship sail with some hull.

And if you want to sail normally without supporting the flotation electric ship (S), if the lifting step is released from the steering device (not shown) is recognized by the electronic control device 16 is applied to the jet jet propulsion unit 90 at the same time At the same time as the power is cut off, the relevant engine is controlled and at the same time, the exhaust door 104 of the jet injection unit 102 is cut off.

Floating electric ship (S) equipped with the above-mentioned bi-electric power generation system (2) while driving the electrical equipment by using the amplified power supply while reducing the existing fuel not only increases the navigation speed but also reduces the air pollution.

For reference, let's compare the zero gravity and gravity law of the distillation power generation system.

1. Gravity is proportional to the force generated from the central axis by the length of the moment of the force (the length of the arm).

Lifting power system has the central axis as the support and the moving coordinate is made by moving the centripetal point of the force of both working points.

2. The fact that the central axis becomes the support means that the proportional force of the principle of the leverage of the seesaw length acts on the working point from the central axis supported by the seesaw, and the force is amplified.

3. Gravity law is a system that diffuses and uses the force generated from the central axis, and defines two-dimensional mass × velocity as the energy conservation law.

This bipolar power system applies the force to the outside of the rotating body with the central axis as the support, and gathers the forces on the three-dimensional axis by using the moving coordinates of both sides as the centripetal point of the force. The relative concept of diffusion and aggregation is completed by energy.

In the Law of Gravity, the radius of the rotor is the moment of force (the length of the arm) and its length and velocity are proportional to the magnitude of the force. It is a new physics model in which the entire rotor diameter acts by penetrating through a set of three bodies, and acts as the backbone of the new power generation system.

5. The angular velocity of the moving coordinate is 90 ° = 2 rotations 60 ° = 3 rotations 45 ° = 4 rotations 30 ° = 6 rotations and the amplified force and integrated action of the lever principle amplify the total energy amount.

The law of zero gravity should be said to be good news for mankind, where gravity, which originated from universal gravity, was known as the only energy.

The source of energy is the electromagnetic force of cosmic sunlight.

The pulling force of +,-of the electromagnetic force to each other is the source of force, and the frictional heat of +,-is the source of thermal energy.

It was electricity that reproduces and uses the electromagnetic force of the sun's + and-. The production of the former period, the reality of gravity is the limitation of resources, you can not worry about the energy crisis.                     

The universe sun of the invention of the bipolar power generation system will produce electricity as electricity, as it develops electromagnetic force, and will be positioned as the energy of eternal human beings without extra resources or pollution.

The present invention, as described through the above preferred embodiment, the depleted energy by operating the screw motor unit, jet injection propulsion unit unit, multiple steering screw unit obtained by the lifting force utilizing power generation device to propel the vessel It is possible to use power generated and amplified of ship as a power source without maximizing the use of power supply, thereby achieving economic effects such as energy saving.

And it does not use the combustion energy used as the power of the ship to solve the air pollution has an environmentally friendly effect.

In addition, the arrangement and arrangement of the screw motor can be varied according to the weight, shape and use of the ship, there is an effect that can be applied universally.

According to the arrangement of the screw motor to be applied to the vessels to increase the horsepower toward the rear side to be installed by mounting a large capacity horsepower can be saved in the fuel economy when applied to large ships.

By providing a screw fan that rotates by hydraulic power generated in the screw motor unit mounted on the vessel, the basic energy generator is driven to regenerate without unnecessary fuel consumption or waste of energy, thereby replenishing electricity as basic energy. It is effective to secure enough.

In addition, it is a very useful invention that contributes to the shipbuilding industry because it is to produce a flotation electric ship using a power generator using a lifting power hydraulic turbine.

Claims (1)

In the bipolar power generation system, A starting drive unit comprising an operating switch, an electronic control unit, an electric motor, a reduction gear, a transmission, and a driving gear, and comprising first and second starting motor groups; A circular maximal rotating body part installed in conjunction with the moving coordinate trinity switching part by mounting the attachment plate and operating the electronic clutch part of the seesaw action lever and corner lever; The circle-shaped counterpart rotating body part rotates two when the rotation angle is 90 °, and three revolutions when the angle is 60 °. Seesaw action chambers and angle levers joined to the electromagnetic clutch part at 4 ° at 45 ° and 6 rotation at 30 °, An electromagnetic clutch unit having an electromagnet clutch provided on the front and rear actuators so as to be variablely attached to the mounting plate of the circular counterpart rotating part; The moving point switching unit is installed so that the force acting on the seesaw action chamber, the lever lever, the output gear between the first and second moving coordinate cams and the force penetrates into a trinity unit; An amplification generator unit connected to an output shaft of the moving coordinate switching unit and installed to rotate with an amplified rotational elasticity to generate power by an amplified rotational force; It is composed of an elastic collision device installed on one side to perform rotational switching of multiple seesaw action chambers and angle levers between the circular counterpart rotator parts to implement the principle of seesaw and lever to convert the physical force generated into electrical energy. together, Screw motor is installed by gradually increasing the motor capacity and screw size on both sides of both sides of the hull to advance the power generated by the amplification generator unit of the flotation electric ship by the electric signal of the electronic control device Wealth, A multi-steering screw unit installed at the stern between the screw motor units to steer the hull by an electrical signal of an electronic controller; Compression air is generated by compressing air introduced into electricity of a power generation device supplied by an electrical signal of an electronic control device between buoyancy auxiliary side plates installed at a predetermined interval on the hull bottom of the flotation electric ship to generate injection thrust. Floating electric ship equipped with a lifting power generator, characterized in that consisting of a jet injection propulsion unit is arranged at a constant interval and angle to support the hull.

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