KR890000642B1 - Water wheel having movable blade - Google Patents

Abstract

The water mill comprises a fixed shaft (3), a rotating plate (5'), an eccentric shaft (3'), a fixed cam wheel (4) and multiple moving vanes (9). The rotating plate is combined with the fixed shaft and the fixed cam wheel with guide grooves (4',4") is combined with the eccentric shaft. The multiple moving vanes are radially disposed on the edge of the rotating plate. The rollers (11) of the vanes move along the grooves. When the gap between the fixed cam wheel and the rotating plate is large, the vanes are unfolded perpendicularly. When the gap is small, the vanes are folded circumferentially.

Description

Aberration with operation wing

1 is a side view showing the configuration and operation of the present invention.

2 is a cross-sectional view showing a combined state of the present invention.

* Explanation of symbols for main parts of the drawings

1: Inlet 1 ': Outlet

2: housing 3: fixed shaft

3 ': eccentric shaft 4: fixed cam wheel

4 ', 4', 5,5 ': Rotating side plate 6,6': Coronary shaft

8: space 9: movable wing

9 ', 9 ″: Supporting piece 10: Axle

11: sliding roller 12: spring

The present invention is coupled to the rotating side plate of the aberration to the both ends of the fixed shaft in the interior of the housing in which the inlet and the outlet are formed opposite, and the fixed cam wheel formed on the main surface of the guide groove is fixed to the eccentric shaft, Radial coalescing to move or fold the movable blades, so that the sliding rollers of the movable blades always move along the guide groove of the fixed cam wheel, so that each movable wing opens at a right angle to the fixed cam wheel, so that the water pressure through the outlet In the position where the fixed cam wheel and the rotating side plate are narrow, the movable blades fold in the circumferential direction of the fixed cam wheel so that the water pressure is hardly received so that the hydraulic pressure is concentrated toward the flared wing of the rotating side plate, so that The efficiency of the power at the water pressure was higher and it was not possible to use it in the conventional water wheel. It also relates to an aberration having a movable wing that can be provided by a variety of power by effectively operating the aberration even in a small hydro or low water drop.

Conventional technical means include the PELTON WHEEL. In general, a FENTON number has a plurality of wings fixed around a circle of a wheel, and the front side of the wing is concave to concentrate water pressure, and the back side of the wing is curved. When the water pressure flowing from the inlet is caught on each wing of the wheel, the water pressure difference on the front and the back of the wing causes the wheel to rotate to either side. Even if the resistance is smaller than the water pressure applied to the front of the wing, the difference in the water pressure applied to the front and back of the wing at the left and right symmetrical positions of the wheel is minimal, so that the rotational force of the aberration is not very large compared to the quantity used. Where the quantity was small, no practical power could be obtained. Therefore, the conventional aberration has been severely restricted by the place and conditions of use, which makes it difficult to effectively use the natural abundance of hydraulic power.

In order to solve this conventional problem, the present invention, unlike the fixed blade of the conventional Pelton aberration, the movable blade of the rotating side plate to be opened to the maximum condition that can receive the hydraulic pressure, and the operation on the opposite side of the movable blade under water pressure The blades are folded into the circumferential surface of the fixed cam wheel, that is, the guide grooves, so that the hydraulic pressure is hardly received so that the hydraulic pressure is concentrated on one side of the rotating side plate to increase the power efficiency by the hydraulic pressure. The cam surface of the fixed cam wheel is used as the movable means to be opened and folded.The rotating side plate is coupled to both ends of the fixed shaft for easy rotation inside the housing where the inlet and the outlet are oppositely formed, and the fixed cam wheel is fixed to the eccentric shaft to fix one side of the rotating side plate. Allow the camwheel to form a space as wide as the eccentric range and then radially coalesce on the rotating side plate The inner end of each movable blade is always in contact with the guide groove formed on the circumferential surface of the fixed cam wheel through the sliding roller, and the inner end of the movable blade is moved along the guide groove of the fixed cam wheel by the rotation of the rotating side plate. The spring is installed on the support shaft loosely coupled to the supporting piece to help move the movable blades, and according to the rotation angle of the rotary side plate, each movable blade is opened or folded in the interval range between the movable side plate and the fixed cam wheel. This is to move the mechanical blade according to the rotation angle of the rotating side plate. Therefore, when the rotating side plate and the fixed cam wheel induce the hydraulic pressure of the inlet toward the movable wing of the open position, the hydraulic pressure of the inlet can be concentrated on the open movable wing of the inner side of the rotating side plate and can be rotated with great force. The opposing movable wing is folded close to the outer circumferential surface of the fixed cam wheel, so that it is almost unreceived, so that no adverse action of force is applied to the movable wing under pressure, and the hydraulic pressure at the inlet can be converted into the rotational force of the rotating side plate. The hydraulic utilization rate is greatly improved, and it can be effectively used in the place where the conventional Pelton aberration can be installed. Install the aberration of the invention so that power can be obtained for various purposes Described in detail by the accompanying drawings, it be submitted as follows.

An axle portion 2 of a central portion on both sides of the housing 2 is provided with a fixed shaft 3 having an eccentric shaft 3 'formed at an intermediate portion in a housing 2 of aberration in which the inlet 1 and the outlet 1' are symmetrically formed. Fixed cam wheel (4) formed firmly with nut (13) (13 ″) and with guiding grooves (4 ') (4 ″) formed at both ends of the circumferential surface of the eccentric shaft (3'). After fixing, the tubular shaft 6, 6 'of the circumferential side plate 5, 5' of the circumference larger than the circumference of the fixed cam wheel 4 is coupled to the fixed shaft 3 so as to be easily rotated, and the tubular shaft 6 On the outer surface of 6 ', the output gear 7 and the electric gear 7', 7 " are associated with each other, and then the rotating side plates 5, 5 'are disposed in any direction on the outer circumferential surface of the fixed cam wheel 4; As the fixed cam wheel 4 and the rotating side plate 5, 5 'are eccentric with each other, one side of the rotating side plate 5, 5' is fixed to the outer circumferential surface of the fixed cam wheel 4 and the free space 8 Of the supporting pieces 9 'and 9 " of the plurality of movable blades 9 around the circle of the rotating side plates 5 and 5'. After installing the support shaft 10 coupled to each other at regular intervals so as to be supported between the rotating side plates 5 and 5 ', the sliding roller 11 has a small support shaft 10' at the inner end of the movable blade 9. And a spring 12 is installed on the support shaft 10 of the movable blade 9 so that the movable blade 9 is pressed toward the outer circumferential surface of the fixed cam wheel 4 so that the sliding roller 11 is fixed to the fixed cam wheel 4. It is configured to slide while rotating together with the rotating side plate (5) (5 ') along the guide groove (4') (4 ″) on both end sides.

In the present invention as described above, when water flows from the inlet port 1 of the housing 2 to the outlet port 1 'at an arbitrary hydraulic pressure, the water pressure of the water introduced into the inlet port 1 of the rotary side plate 5, 5' is reduced. It extends to the outer circumferential surface, and at one side of the rotating side plate 5, 5 'is occupied by a fixed cam wheel 4 fixed to the eccentric shaft 3' and thus the housing 2 and the rotating side plate 5, 5 '. While the space is extremely narrow in between, while the fixed cam wheel 4 and the rotating side plate 5, 5 'are eccentric, the space 8 is formed in the open area, so that the water flowing into the inlet 1 This space (8) is passed through the support pieces (9 ') (9 ") of the movable blade (9) of the rotary side plate (5) (5') located in the space (8) through which water passes. The movable blade 9 opened because the sliding roller 11 is held by the spring 12 in a state in which the sliding roller 11 is in contact with the guide grooves 4 'and 4 ″ of the fixed cam wheel 4. ) Is the direction of water W is almost at a right angle direction, thus you can get the greatest pressure. However, since the support shaft 10 of the other movable blade 9 positioned in the opposite direction to the movable blade 9 subjected to hydraulic pressure is close to the outer circumferential surface of the fixed cam wheel 4, the sliding roller 11 of the movable blade 9 is provided. Is in contact with the guide grooves 4 'and 4 " of the fixed cam wheel 4, the movable blade 9 naturally has an eccentric difference between the rotary side plate 5, 5' and the fixed cam wheel 4. The folding side of the fixed cam wheel (4) is close to the circumferential surface of the fixed cam wheel (4) because it hardly receives water pressure and at the same time does not cause adverse effects on the movable wing (9) receiving water pressure, so the rotating side plate (5) (5 ') By the rotational force of the movable blade (9) received is to rotate in the direction of water flow. In addition, the movable blade 9 which is opened at a right angle according to the rotation of the rotating side plates 5 and 5 'moves as the space between the rotating side plates 5 and 5' and the fixed cam wheel 4 becomes smaller due to eccentricity. As the support shaft 10 of the blade 9 gradually approaches the circumferential surface of the fixed cam wheel 4, the movable blade 9 is driven by the sliding action of the sliding roller 11 and the springing action of the spring 12 as close as possible. Gradually folded to the circumferential surface of the fixed cam wheel (4) and the already movable movable blade (9) passes through the inlet (1) in accordance with the rotation of the rotating side plate (5) (5 ') fixed cam wheel (4) And the pivot 10 of the movable blade 9 is moved away from the circumferential surface of the fixed cam wheel 4 by the gap between the rotating side plates 5 and 5 ', so that the movable blade 9 also has the sliding roller 11 and the spring. The pressure of the inlet 1 is gradually increased by the elasticity of (12) and is more easily received by the water pressure, so that one side circumference of the rotary side plate 5, 5 ' This results in concentrating, which allows the abduction plate 5 and 5 'to continue to rotate in the direction of water flow, and is formed integrally therewith by the rotation of the rotating plate 5 and 5'. 6) 6 'is rotated so that the output gear 7 transmits power to the electric gears 7' and 7 " to obtain power by hydraulic power.

The present invention as described above can be installed in the direction of the inlet and outlet formed in the housing in the vertical direction and the horizontal direction and the like, the hydraulic pressure of the inlet is used for the rotation of the rotating side plate with almost no loss and the sliding roller formed on the inner end of the movable blade And frictional resistance between the guide groove of the fixed cam wheel was reduced by the rotation of the sliding roller. Therefore, the hydraulic pressure was concentrated on one side of the rotating side plate by moving the movable blade, so that the rotating side plate was rotated with very large force. The utilization rate is further improved as compared to the conventional fixed blade aberration, and the aberration of the present invention is coupled to the movable blades on the circumference of the rotating side plate by moving the movable blades along the circumferential surface of the fixed cam wheel installed eccentrically to be opened or folded. The state that one movable blade of the rotary side plate can always receive water pressure On the other hand, the movable wing on the opposite side of the movable wing is always folded and receives little water pressure, so the water pressure at the inlet is concentrated only on the movable wing, so it does not cause the adverse effect of the opposite side of the rotating side plate. In this flowing direction, it is possible to continue to rotate with a large force, so that it is possible to obtain better power by using it in the installation conditions of the conventional Pelton aberration, and also in places where the hydraulic power and quantity of the low drop which were difficult to use as a conventional aberration are small. It is easy to install and operate, and has a useful effect to more effectively obtain a large hydraulic power.

Claims (1)

Rotating side plates 5, 5 'are coupled to both ends of the fixed side 3 in the housing 2 of the aberration, in which the inlet 1 and the outlet 1' are opposed to each other, and guide grooves 4 '. (4 ″) is fixed to the eccentric shaft (3 ') fixed cam wheel (4) formed on the main surface to maintain the free space (8) by the eccentric interval between the rotating side plate (5) (5') and fixed cam wheel (4) Around the circumference of the rotating side plates 5 and 5 ', a plurality of movable blades 9 are arranged on the support shaft 10 in a radial arrangement, and then a sliding roller 11 coupled to the inner end of the movable blades 9 is fixed to the cam wheel. (4) and the guide groove (4 ') (4 ″) formed on the circumferential surface of the circumferential surface of the movable blade (9), the spring (12) is installed in the pivot shaft (10) and then the rotating side plate (5) ( On one side of the 5 '), the movable blade 9 is opened substantially at right angles to the space 8 with the fixed cam wheel 4, and the movable blade 9 coupled to the opposite side to the movable blade 9 is fixed. Opened to be folded close to the circumferential surface of the cam wheel (4) Aberrations with movable wings characterized by a configuration in which water pressure is concentrated at the inlet 1 of the copper blade 9 so that the rotating side plates 5 and 5 'can be rotated in one direction to obtain power from hydraulic power. .

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