KR100866178B1 - A system for increase in speed of revolution at output - Google Patents

Abstract

A system is provided to reduce the number of rotation of motor through reduction gears which are composed of a spur gear or a worm gear. A system for increase in speed of revolution at output includes a first rotator(310) which is connected with a frame(100) to be rotated and delivers the torque through divided plural power transmission units with a minimum torque; a second rotator(330) which is rotated freely in the frame and connected with the first rotator through a rotatory power transmission unit(500); a third rotator(350) connected with the second rotator and an output axis(600) to transmit the power from the second rotator to the output axis through a rotatory power transmission unit.

Description

A system for increase in speed of revolution at output}

1 is a perspective view illustrating main parts of a speed increasing system according to the present invention;

2 is a cross-sectional view showing a speed increasing system according to the present invention.

3 is a plan view illustrating a speed increasing system according to the present invention.

4 is a plan view illustrating a speed increasing system according to another exemplary embodiment of the present invention.

5 is a plan view illustrating a speed increasing system according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100 ... frame 110 ... base plate

120 Crash 320 Cover

345 Spray nozzle 351 Fluid transfer screw

430 ... drive motor 450 ... idle wheel

510 ... wheel

The present invention relates to an output speed increase system, and more particularly, a first rotating body which is rotatably connected to the frame to transmit the rotational force as a minimum torque through a plurality of power transmission means is divided installation, free to the frame The second rotating body to be rotated is connected to the first rotating body through the rotational force transmission means to increase the speed, the rotational force of the second rotating body to the third rotating body to be free to rotate on the inner diameter side of the first rotating body The output unit is connected to the rotational force transmission means to increase the speed, and outputs the rotational force of the third rotating body to the output shaft through the rotational force transmitting means, thereby distributing the power for rotating the rotating body to enable operation as a motor with a small torque. It is about a speed increasing system.

In general, various types of rotary devices are used to obtain a large torque, and a reduction gear made of spur gears or worm gears rotates the motor through a plurality of reduction gears. A method of reducing the number and increasing the output torque has been used.

In addition, although high speed equipment is operated by using a method of minimizing the speed increase ratio or by directly connecting a motor in order to obtain a high speed high speed, it is excessive to use a large capacity motor to obtain a desired output. There was a problem that led to a waste of energy.

As the reducer is applied, a power generation system using water drives a pump connected thereto using a large motor, supplies water collected in a downstream storage tank by the pump to an upstream storage tank, and then uses the drop. It is installed so as to flow the water collected in the upstream storage tank on the pipeline where the aberration is installed, to drive the aberration by the potential energy on the pipeline to perform power generation through a generator connected thereto.

However, such a power generation system requires a large torque motor to drive the pump, and requires an upstream and downstream storage tank, thereby increasing the installation area.

An object of the present invention having the configuration as described above, by distributing the power for rotating the rotating body to enable operation with a low torque motor, and to increase the speed if the fluid is present, it is possible to repeat the fluid In addition to being able to use the phosphorus, it is possible to install at the unit location to provide an output speed increase system to reduce the installation cost.

In order to achieve the above object, the present invention is to transmit the rotational force as a minimum torque through a plurality of power transmission means distributed to the first rotating body rotatably connected to the frame, so that the frame is free to rotate The second rotating body is connected to the first rotating body through the rotational force transmission means to increase the rotational force, the rotational force transmission means to the third rotating body to be rotated freely on the inner diameter side of the first rotating body Is connected to increase in speed, the rotational force of the third rotating body provides an output speed increase system consisting of a configuration to be connected to the output shaft through the rotational force transmission means.

In addition, the present invention is provided with an impeller having a predetermined inclination in the circumferential direction of the upper end portion is provided integrally with the helical fluid transfer screw on the inner diameter side of the third rotating body, while covering the upper end of the third rotating body A cover coupled to the upper end of the first rotating body to connect the injection pipe radially to the outer periphery, the injection pipe is configured to be fixed to the first wing coupled to the first rotating body speed increase system To provide.

In addition, the present invention, while the cover is coupled to the upper end of the third rotating body is connected to the injection pipe is composed of a configuration that is supported on each of the plurality of second wings provided on the upper end of the third rotating body, to provide.

In addition, the cover provided on the upper end of the third rotating body of the present invention provides an output speed increasing system having a configuration coupled to the upper end of the fourth rotating body to be free to rotate on the outer diameter side of the third rotating body.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a main part of the speed increase system according to the present invention, FIG. 2 is a sectional view showing a speed increase system according to the present invention, FIG. 3 is a plan view showing a speed increase system according to the present invention, and FIG. 5 is a plan view illustrating a speed increase system according to another embodiment of the present invention, and FIG. 5 is a plan view illustrating a speed increase system according to another embodiment of the present invention.

The present invention, the first rotatable body 310 is rotatably supported on the frame 100 and the base plate 110 supported on the frame 100 so as to transmit the rotational force as a minimum torque to the first rotatable body (310) At least one power transmission means 400 is provided so as to drive the upper portion of the.

In addition, the power transmission means 400 is installed so as to divide and drive one motor having a large capacity as a plurality of motors that have a small capacity and have a combined capacity corresponding to the large capacity motor.

At this time, the power transmission means 400, the first wing 410 is radially connected to the circumferential direction of the first rotating body 310 and the drive is supported to the friction while the base plate is supported on the first wing 410 It is made as a motor 430.

The first wing 410 is supported as a wire 415 whose tension is adjusted as the turnbuckle 415-1 while the idle wheel 450 is further provided to prevent sag.

In addition, the second rotating body 330 is provided to implement the predetermined reduction ratio while being connected to the frame 100 through the rotational force transmission means 500 to the first rotating body 310 to free rotation.

At this time, the rotational force transmission means 500, the rotation wheel 510 consisting of a sprocket wheel and a pulley and a connection unit 550 consisting of a belt and a chain connecting it.

In addition, the third rotating body 350 is connected to the second rotating body 330 through the rotational force transmission means 500 to have a predetermined speed increase ratio so as to rotate freely on the inner diameter side of the first rotating body 310. Is installed.

The third rotating body 350 is integrally provided with a spiral fluid transfer screw 351 at its inner diameter side and integrally formed with an impeller 353 having a predetermined inclination in the circumferential direction of the upper end thereof.

At this time, the cover 320 is coupled to the upper end of the first rotating body 310 while covering the upper end of the third rotating body 350.

In addition, the third rotating body 350 is connected to the output shaft 600 to be rotatable to the frame 100 through the rotational force transmission means 500, the generator (G) is connected to the output shaft 600. do.

The cover 320 forms a plurality of injection holes 321-1 to which the injection pipes 343 are radially connected to the outer circumference thereof, and the injection pipes 343 are formed on the first rotating body 310. Injected to the first wing 410 disposed radially to the spray nozzle 345 having a predetermined slope at its end is provided.

In addition, the dispersion plate 325 is further provided to easily disperse the water rising on the inner surface.

At this time, the frame 100 is integrally provided with a collision plate 120 facing the injection nozzle 345, the collision plate 120 may be provided to be variable.

Meanwhile, in the present invention, as shown in FIG. 4, the output shaft 600-1 is integrally connected to one side of the cover 320 coupled to the upper end of the third rotating body 350.

In this case, the cover 320, the second wing 410-1 is radially connected to the circumference of the third rotating body is connected to the injection pipe 343-1, respectively, the injection pipe 343-1 is The injection nozzle 345-1 is provided at an end thereof while being connected to the cover through the injection hole 321-1, and a distribution plate 325 is further provided on the inner surface of the cover 320 to disperse the fluid. .

On the other hand, the present invention, as shown in Figure 5, the fourth rotary body 700 is installed on the outer diameter side of the third rotary member 350 so as to be rotatable, the upper end of the third rotary body 350 on the top Cover 320 to cover the is connected integrally.

In this case, the cover 320 also forms a plurality of injection holes 321-1 to which the injection pipes 343-1 are radially connected to the outer circumference thereof, and the injection pipes 343-1 are formed at a fourth time. A spray nozzle 345-1 having a predetermined slope is provided at an end thereof while being fixed to the second wing 410-1 radially connected to the whole 700, and the spray nozzle 345-1 is provided at the frame 100. The collision plate 120-1 opposite to) is provided integrally.

The operation of the present invention having the above configuration will be described.

2 to 5, when power is transmitted to each of the driving motors 430 installed on the bottom of the first wing 410, the friction difference connected to the driving motors 430 is a friction surface on the base plate 110. To move along (not shown).

In this case, the first wing 410 is radially disposed in the circumferential direction of the first rotating body 310 to rotate the first rotating body 310.

In addition, the first rotatable body 310 is configured such that one end of the first wing 410 having a predetermined length is connected to the first wing to maintain a constant length at the concentric end of the first rotatable body on one end thereof. When the driving motor 430 is connected, the first rotation body 310 may be rotated by the driving motor having the minimum torque.

That is, the first rotating body 310 can be rotated as a plurality of small motors that have a torque of a capacity corresponding to that of the large motor while being generally used rather than driving the first rotating body 310 as one large motor. This increases usability.

Subsequently, when the first rotating body 310 is rotated, the bottom portion thereof is connected to the second rotating body 330 through the rotating force transmitting means 500, so that the rotating force of the first rotating body is increased to the second rotating body. Will appear.
At this time, the rotational force transmission means 500 is to use a pulley and a belt having a different diameter ratio, so that the rotational force transmitted from the first rotating body is increased in the second rotating body 330.

In addition, the second rotating body is also connected to the third rotating body 350 through the rotational force transmitting means 500 to the lower portion that is connected to the first rotating body 310 also increases the rotational force of the second rotating body 330 It is expressed in the third rotating body 350 in the state.

At this time, the output shaft 600 is connected to the third rotating body 350 so that an external generator G or an output shaft such as an engine is connected to transmit the rotational force that is increased.

In addition, the third rotatable member 350 is hollowed out to form a head therein to raise the fluid through the fluid transfer screw 351 provided on the inner diameter side during rotation, and the raised fluid is the first rotatable body. It is discharged through the injection hole 320 of the cover 320 which is connected to the top of the 310 is rotated through the injection nozzle 345 of the injection pipe 343 connected to the first wing 410. .

At this time, the fluid injected through the injection nozzle 345 is collided by the collision plate 120 to generate a reaction force for rotating the first wing 310 to rotate the output shaft.

In addition, when a rotational force is transmitted to the first wing, some energy transmitted to the output shaft is transmitted to the first wing 410 rotated by the drive motor 430, but the force preserves the loss due to friction. Energy, and the rest of the force is transmitted to the output shaft.

In addition, an impeller 353 is provided at an upper end of the third rotatable body 350 to provide compression of the fluid directed toward the injection hole 321-1.

On the other hand, as shown in Figure 4, the cover 320 of the present invention, while being integrally connected to the upper end of the third rotating body 350, the output shaft 600 is connected to one side of the rotating force transmission means 500 The third rotating body 350 and the cover 320 are rotated at the same time as the increased rotational force by the first and second rotating bodies connected through the same.
At this time, the cover 320, the injection pipe 343-1 which is connected to the second wing (410-1) after the fluid raised through the fluid transfer screw 351 is discharged through the injection hole (320-1) It is to be injected through the injection nozzle 345-1 of the) to rotate the third rotating body 350 to rotate the output shaft connected to the cover.

On the other hand, as shown in Figure 5, the cover 320 of the present invention, the fourth position which is located on the outer diameter side of the third rotating body 350 so that the fluid compressed by the impeller of the third rotating body 350 is supplied The injection pipe connected to the upper end of the rotor 700 is discharged through the injection hole 320-1 and the fluid supplied during the rotation of the third rotor 350 is connected to the second wing (410-1) ( Fluid is injected through the injection nozzle 345-1 of 343-1 to rotate the fourth rotating body 700.

At this time, the increased rotational force is transmitted through the output shaft 600-1 connected to the cover 320.

As described above, according to the present invention, it is possible to operate as a motor with a small torque by distributing the power for rotating the rotating body, and to increase the speed at the place where the fluid is present, and to allow the repeated use of the fluid, as well as the unit. It is possible to install at the place, which is effective to reduce the installation cost.

Claims (19)

The first rotatable body 310 rotatably supported by the frame 100 has an upper portion of the base plate 110 supported by the frame 100 through one or more power transmission means 400 provided in the circumferential direction of the upper end thereof. The first rotating body 310 is driven through the rotational force transmitting means 500 to drive the second rotating body 330 having a speed increase ratio while freely rotating in the frame 100, and driving the second rotating body 330. The first rotating body is connected to the rotating body 330 and the rotational force transmitting means 500 while the third rotating body 350 to which the output shaft 600 is connected is freely rotated on the inner diameter side of the first rotating body. The output unit speed increase system for transmitting a multi-speed rotational force to the output shaft 600 at 310 The method of claim 1, wherein the power transmission means 400, a plurality of first wings 410 and radially connected to the circumferential direction of the first rotary body 310 and the outer support of the first wing 410 The output unit speed-up system, characterized in that the drive motor 430 is rubbed to the base plate 110 to drive the first rotating body as a plurality of drive motors having a minimum torque The impeller 353 of claim 1, wherein the third rotating member 350 is provided with a spiral fluid transfer screw 351 at an inner diameter side and integrally formed with an impeller 353 having a predetermined inclination in the circumferential direction of the upper end thereof. A cover 320 coupled to an upper end of the first rotatable body 310 while covering the upper end of the third rotatable body, and having a predetermined angle radially on an outer circumference of the cover 320 ( 321-1) is formed to increase the output unit, characterized in that to provide directionality to the first rotating body The injection nozzle (345) of claim 3, wherein the cover (320) has a predetermined slope at an end thereof while the injection pipe (343) connected to the injection hole (321-1) is fixed to the first wing (410). ) Is provided to increase the output unit, characterized in that to provide directionality to the first rotating body 310 is connected to the first wing The method of claim 1, wherein the frame 100, the impingement plate 120 corresponding to the injection nozzle 345 is provided so that the repulsive force by the fluid is generated when the fluid is injected to direct the first rotating body 310 Output speed increase system, characterized in that to provide The system of claim 1, wherein the rotation force transmitting means 500 is configured as a rotation wheel 510 having a diameter difference and a connection unit 550 connecting the rotation wheel 510 to transmit the rotational force. The first rotatable body 310 rotatably supported by the frame 100 has an upper portion of the base plate 110 supported by the frame 100 through one or more power transmission means 400 provided in the circumferential direction of the upper end thereof. The first rotating body 310 is driven through the rotational force transmitting means 500 to drive the second rotating body 330 having a speed increase ratio while freely rotating in the frame 100, and driving the second rotating body 330. The third rotating body 350 to which the output shaft 600 is connected while being connected through the rotating body 330 and the rotating force transmitting means 500 is installed to be freely rotated on the inner diameter side of the first rotating body 310, and the While the spiral fluid transfer screw 351 is provided on the inner diameter side of the three rotors 350, an impeller 353 having an inclination in the circumferential direction of the upper end thereof is integrally formed, and an upper end of the third rotor 350 is formed. A predetermined angle radially on the outer circumference of the cover 320 coupled to the upper end of the first rotating body 310 while covering Injection hole 321-1 having a degree is formed is the output portion speed increase system for providing directivity to the first rotating body (310) The base of claim 7, wherein the power transmission unit 400 is supported by the plurality of first wings 410 and the first wings 410 that are radially connected to the circumferential direction of the first rotating body 310. Output speed increase system, characterized in that made as a drive motor 430 friction with the plate 110 The injection nozzle 345 is provided at an end of the injection pipe when the injection pipe 343 is connected to the injection hole 321-1 and is supported by the first wing 410. And an impingement plate 120 is provided in the frame 100 so as to correspond to the injection nozzles, so that the output unit speed-up system is configured to provide directivity to the first rotating body 310. 8. The output unit according to claim 7, wherein the rotation force transmitting means 500 comprises a rotation wheel 510 having a diameter difference and a connection unit 550 connecting the rotation wheel 510 to transmit the rotation force at a predetermined speed increase ratio. Speed increase system delete The first rotatable body 310 rotatably supported by the frame 100 has an upper portion of the base plate 110 supported by the frame 100 through one or more power transmission means 400 provided in the circumferential direction of the upper end thereof. The first rotating body 310 is driven through the rotational force transmission means 500 to drive the second rotating body 330 which is installed to have a speed increase ratio while freely rotating in the frame 100, The third rotating body 350 to which the output shaft 600 is connected while being connected through the second rotating body 330 and the rotational force transmitting means 500 is installed to rotate freely on the inner diameter side of the first rotating body 310, and While the spiral fluid transfer screw 351 is provided on the inner diameter side of the third rotating body 350, an impeller 353 having an inclination in the circumferential direction of the upper end thereof is integrally formed, and an upper end of the third rotating body 350 is provided. The cover 320 is coupled to the injection pipe radially on the outer periphery of the cover 320 43-1) is provided to increase the output unit to provide directionality to the third rotating body when supported by the second wing 410-1 fixed to the third rotating body (350) The method of claim 12, wherein the power transmission means 400, the base plate 110 while being supported on the plurality of first wings 410 and the first wing radially connected in the circumferential direction of the first rotating body (310) Output speed increase system, characterized in that the drive motor 430 is frictional to The method of claim 12, wherein the frame 100, the impingement plate 120-1 corresponding to the injection pipe 343-1 is provided so that the reaction force caused by the fluid during the injection of the fluid to generate a third rotating body ( Output unit speed-up system, characterized in that to provide directionality to 350) The system of claim 12, wherein the rotation force transmitting means (500) comprises a rotation wheel (510) having a diameter difference and a connection unit (550) for connecting the rotation force (500) to transmit the rotational force. The first rotatable body 310 rotatably supported by the frame 100 has an upper portion of the base plate 110 supported by the frame 100 through one or more power transmission means 400 provided in the circumferential direction of the upper end thereof. The first rotating body 310 is driven through the rotational force transmitting means 500 to drive the second rotating body 330 having a speed increase ratio while freely rotating in the frame 100, and driving the second rotating body 330. The fourth rotary body 700 connected to the output shaft 600 while being connected via the rotary body 330 and the rotational force transmission means 500 is installed to rotate freely on the inner diameter side of the first rotary body 310, While the spiral fluid transfer screw 351 is provided on the inner diameter side of the three rotors 350, an impeller 353 having an inclination in the circumferential direction of the upper end thereof is integrally formed, and an upper end of the third rotor 350 is formed. While being coupled to the upper end of the fourth rotating body 700 that is freely rotated on the outer diameter side of the third rotating body 350 while covering The lock cover 320 is installed, and the injection pipe 343-1 radially connected to the outer circumference of the cover 320 is fixed to the second wing 410-1 coupled to the fourth rotating body 700. To increase rotational force to the fourth rotating body 700 The base of claim 16, wherein the power transmission means 400 is supported by the plurality of first wings 410 and the first wing 410 that are radially connected to the circumferential direction of the first rotatable body 310. Output speed increase system, characterized in that made as a drive motor 430 friction with the plate 110 The method of claim 16, wherein the frame 100 is provided with a collision plate (120-1) corresponding to the injection pipe 345-1 to generate a repulsive force by the fluid during the injection of the fluid to the fourth rotating body ( Output unit speed-up system, characterized in that to provide directivity to 700) The system of claim 16, wherein the rotation force transmitting means (500) is configured as a rotation wheel (510) having a diameter difference and a connection unit (550) for connecting the rotation force (500) to transmit the rotational force.

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