KR101921443B1 - Hydropower system using Continuously Variable Transmission - Google Patents

Abstract

The present invention relates to a hydropower system using a continuously variable transmission (CVT), including: a generator (100) producing electric energy; a CVT (200) providing a constant rotation speed to the generator; and an electro-hydraulic operating unit (300) controlling the continuously variable transmission (200) and including a hydraulic cylinder (10) controlling the speed ratio of the CVT (200), a hydraulic pump (20) supplying a fluid to the hydraulic cylinder (10), a motor (30) driving the hydraulic pump (20), and a control unit controlling the motor (30). According to the present invention, the CVT connected between the rotary shaft of a power generating unit and the rotary shaft of the generator is disposed such that the speed ratio of the CVT is controlled by means of a rotation sensor and an electro-hydraulic pressure. As a result, the rated rotational speed of the generator can be maintained even under an external condition causing a rated rotational speed deviation. Accordingly, power generation efficiency can be significantly improved.

Description

[0001] Hydropower system using Continuously Variable Transmission (CVT) [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a generator system using a CVT (Continuously Variable Transmission), and more particularly, to a generator system using a continuously variable transmission (CVT) To a hydrostatic generator using a continuously variable transmission capable of rotating at a rotational speed of a hydraulic motor.

Generally, a hydropower generator is used as a device for generating electricity using hydraulic power, and as a prior art, a generator for generating electric energy is disclosed in Korean Patent Registration No. 10-1684144. A continuously variable transmission that provides a constant rotational speed to the generator; And a speed sensor for measuring an output speed of the generator; And a control unit for controlling the continuously variable transmission, comprising: a hydraulic cylinder for controlling a speed ratio of the continuously variable transmission; a hydraulic pump for supplying a fluid to the hydraulic cylinder; a motor for driving the hydraulic pump; Wherein the hydraulic pressure cylinder is provided with a fluid to supply the fluid to the hydraulic cylinder to expand the hydraulic cylinder when the output speed is lower than a first set value, Is greater than the second set value, the fluid is discharged from the hydraulic cylinder to lower the internal pressure of the hydraulic cylinder to contract the hydraulic cylinder, and the position of the driving conical pulley is fixed with respect to the movable disk of the driving conical pulley The distance between the fixed disks is adjusted, High efficiency wave generator using a continuously variable transmission to maintain the output speed of the generator sikieo change the diameter of the conical pulleys between the first setting value and the second setting value that is disclosed.

In addition, the registered patent publication No. 20-0396776 includes a power generation piping installed in the middle of a water pipe and including a main pipe having an inlet port and an outlet port, and a bypass pipe branched from the main pipe; A hydraulic turbine installed in the main pipe to convert fluid energy into mechanical energy; Power transmission means connected to the hydraulic turbine for transmitting power; And a power generation means connected to the power transmission means for generating power.

However, in the conventional technologies, there is a problem in that power generation efficiency becomes poor due to difficulty in maintaining the rated rotational speed of the generator under an external condition that deviates from the rated rotational speed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a continuously variable transmission connected between a rotary shaft of a power generator and a rotary shaft of a generator, The present invention is to provide a hydroelectric power generation system using a continuously variable transmission that can maintain the rated rotational speed of the generator even under external conditions that make it possible to increase power generation efficiency.

The present invention relates to a hydraulic power generation system using a continuously variable transmission, comprising: a generator (100) for producing electric energy;

A continuously variable transmission (200) for providing a constant rotational speed to the generator;

A hydraulic cylinder 10 for controlling a speed ratio of the continuously variable transmission 200 to control the continuously variable transmission, a hydraulic pump 20 for supplying a fluid to the hydraulic cylinder 10, a hydraulic pump 20 for driving the hydraulic pump 20, And an electrohydraulic actuating part 300 including a motor 30 and a control part for controlling the motor 30.

Therefore, according to the present invention, a continuously variable transmission connected between the rotary shaft of the power generating portion and the rotary shaft of the generator is disposed to control the speed ratio of the continuously variable transmission to the rotary sensor and the electrohydraulic pressure so that the rated rotational speed of the generator And there is a remarkable effect that the power generation efficiency can be enhanced.

1 is a schematic diagram of a power generation system using a conventional continuously variable transmission
2 is a schematic diagram of a hydraulic power generation system using the continuously variable transmission of the present invention
Fig. 3 is an operating diagram of the driving conical pulley
Fig. 4 is a diagram showing the operating state of the driving conical pulley
Fig. 5 is an operational explanatory diagram of the driving cone type pulley
6 is a view showing the structure of the inflow side cone of the hydraulic power generation system using the continuously variable transmission of the present invention
7 is a hydraulic power system control diagram using the continuously variable transmission of the present invention
8 is a diagram showing the operation of the conical pulley of the hydraulic power generation system using the continuously variable transmission of the present invention
9 is a diagram showing the operation of the conical pulley of the hydraulic power generation system using the continuously variable transmission of the present invention

The present invention relates to a hydraulic power generation system using a continuously variable transmission, comprising: a generator (100) for producing electric energy;

A continuously variable transmission (200) for providing a constant rotational speed to the generator;

A hydraulic cylinder 10 for controlling a speed ratio of the continuously variable transmission 200 to control the continuously variable transmission, a hydraulic pump 20 for supplying a fluid to the hydraulic cylinder 10, a hydraulic pump 20 for driving the hydraulic pump 20, And an electrohydraulic actuating part 300 including a motor 30 and a control part for controlling the motor 30.

When the output speed is lower than the first set value, the electromagnetic hydraulic actuating part 300 supplies the fluid to the hydraulic cylinder 10 to increase the internal pressure of the hydraulic cylinder 10, And when the output speed is higher than the second set value, the fluid is discharged from the hydraulic cylinder 10 to lower the internal pressure of the hydraulic cylinder 10 to contract the hydraulic cylinder 10, and the hydraulic cylinder 10 The distance between the movable disk 410 of the driving cone pulley 400 and the fixed disk 420 fixed in position is adjusted according to the movement of the driving cone pulley 400 and the diameter of the driving cone pulley 400 So that the output speed of the generator (100) is maintained between the first set value and the second set value.

Further, a speed sensor for measuring the output speed of the generator is provided, and an inflow part cone 500 is installed in the inflow part.

1 is a system diagram of a power generation system using a conventional continuously variable transmission, FIG. 2 is a hydraulic power generation system diagram using the continuously variable transmission of the present invention, and FIG. 3 is a diagram showing the operation of a driving cone type pulley according to the present invention. Fig. 5 is a view for explaining the operation of a driving cone type pulley, Fig. 6 is an inflow side cone structure view of a hydro-power generation system using the continuously variable transmission of the present invention, Fig. FIG. 8 is an operation diagram of a conical pulley of a hydraulic power generation system using the continuously variable transmission of the present invention, and FIG. 9 is an operation diagram of a conical pulley of the hydraulic power generation system using the continuously variable transmission of the present invention .

The present invention relates to a generator for generating electric energy;

A continuously variable transmission that provides a constant rotational speed to the generator;

And a control unit for controlling the speed ratio of the continuously variable transmission, a hydraulic cylinder for controlling a speed ratio of the continuously variable transmission, a hydraulic pump for supplying a fluid to the hydraulic cylinder, a motor for driving the hydraulic pump, And a hydraulic operating portion.

Wherein the hydraulic control unit is configured to control the hydraulic pressure to be supplied to the hydraulic cylinder so that the hydraulic pressure in the hydraulic cylinder is increased to expand the hydraulic cylinder if the output speed is less than the first set value, The inner pressure of the hydraulic cylinder is lowered to discharge the fluid from the cylinder to contract the hydraulic cylinder and adjust the distance between the movable disk of the driving conical pulley and the fixed disk fixed in position in accordance with the movement of the hydraulic cylinder, And adjusts the diameter of the driving cone pulley according to the adjustment result to maintain the output speed of the generator between the first set value and the second set value.

Further, the present invention is provided with a speed sensor for measuring the output speed of the generator.

As another embodiment, the present invention provides a cone-type structure for an aberration portion for hydroelectric power generation, wherein a cone-type structure and a vortex caused by a flow path and a fin structure provided inside the cone- This structure increases the force applied to the aberration.

In other words, it has a structure of the passage rotation which rotates the water flow in the cone type structure, and it can generate more force that causes the rotation of the aberration. It can be applied to the aberration structure arranged on both sides.

A sensor that detects the number of revolutions is attached between the output of the worm gear and the input of the transmission, and the revolving speed is transmitted to the hydraulic control circuit.

And controls the hydraulic driving unit to shift the gear based on the rotational speed value transmitted from the sensor. When the rotational speed is low, narrow the drive pulley to increase the transmission ratio.

By means of the control circuit, the hydraulic piston acts and regulates the pulley spacing of the continuously variable transmission. On the other hand, two cone-type structures are provided, and the inclination is formed to be larger from the vertical line of the pin provided inside the cone 2 than the cone 1. Therefore, when the cone 1 is used and the force applied to the aberration is required more than a predetermined value, the control unit switches the flow path to the cone 2.

Therefore, according to the present invention, a continuously variable transmission connected between the rotary shaft of the power generating portion and the rotary shaft of the generator is disposed to control the speed ratio of the continuously variable transmission to the rotary sensor and the electrohydraulic pressure so that the rated rotational speed of the generator And there is a remarkable effect that the power generation efficiency can be enhanced.

100: generator 200: continuously variable transmission
300: Electrohydraulic operation part
10: cylinder 400: driving cone type pulley
410: Moving Disk 420: Fixed Disk
500: inlet cone

Claims (2)

A generator (100) for producing electrical energy;
A continuously variable transmission (200) for providing a constant rotational speed to the generator (100);
A hydraulic cylinder 10 for controlling the speed ratio of the continuously variable transmission 200 and controlling the speed of the continuously variable transmission 200; a hydraulic pump 20 for supplying a fluid to the hydraulic cylinder 10; And an electromagnetic hydraulic actuator (300) including a motor (30) for driving the motor (30) and a control unit for controlling the motor (30), the hydraulic power generation system comprising:
A speed sensor for measuring the output speed of the generator 100 is installed, and an inflow part cone 500 is installed in the inflow part,
When the output speed is lower than the first set value, the electrohydraulic operation part 300 supplies fluid to the hydraulic cylinder 10 to increase the internal pressure of the hydraulic cylinder 10 to expand the hydraulic cylinder 10 And when the output speed is higher than the second set value, the fluid is discharged from the hydraulic cylinder 10 to lower the internal pressure of the hydraulic cylinder 10 to contract the hydraulic cylinder 10, The distance between the movable disk 410 of the driving cone pulley 400 and the fixed disk 420 fixed in position is adjusted according to the movement and the diameter of the driving cone pulley 400 is changed according to the result of the gap adjustment Maintains the output speed of the generator (100) between the first set value and the second set value,
The hydraulic power generation system using the continuously variable transmission is a cone type structure of an aberration portion for hydroelectric power generation. It generates a vortex due to a cone type structure and a built-in flow path and pin structure, And a structure for increasing the force applied to the aberration and having a structure of a flow path for rotating the flow of water in the cone type structure and generating more force for causing the rotation of the aberration. Cone shapes are disposed on both sides,
A sensor for sensing the number of revolutions is attached between the output end of the worm gear and the input side of the transmission and transmits the rotation number to the hydraulic control circuit and controls the hydraulic drive unit for the gear change based on the rotation number value transmitted from the sensor, And when the speed is low, the drive pulley portion is narrowed to increase the speed ratio, and the hydraulic pressure control portion is operated by the hydraulic pressure control portion to adjust the pulley interval of the continuously variable transmission 200,
Since two cone-type structures are formed, the inclination is formed larger than the vertical line of the pin provided inside the cone 2, so that the cone-type structure is normally used. The control unit switches the flow path to the cone 2,
The continuously variable transmission 200 connected between the rotary shaft of the power generating unit and the rotary shaft of the generator 100 is disposed to control the speed ratio of the continuously variable transmission 200 to the rotation sensor and the electromagnetic oil pressure so that even under the external condition, (100) is maintained at a rated rotational speed, thereby improving power generation efficiency.


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