KR20170124733A - Centripetal type turbine with pressurized centripetal drum - Google Patents

Abstract

The present invention relates to a configuration and design of a water turbine to be operated without a problem in driving even when a rotation speed of a centripetal water turbine device is rotated at a low speed or a high speed, and an existing centripetal water turbine has a straight pipe-shaped centripetal canister, which is an external wall, so that a fluid floods out of the centripetal canister or the height of the centripetal canister should be increased accordingly when the rotation speed of the water turbine is increased, which has been a problem. According to the present invention, a disk-shaped pressure plate having a hole therein is installed on the upper side of the centripetal canister, and an outer wall part of the centripetal canister is tightly bonded to prevent water leakage, and even if a fluid is leaning outward by a centrifugal force when the centripetal water turbine is rotated at a high speed, the fluid is filled by the depth of the pressure plate to prevent spreading of water due to the centrifugal force, and the height of the centripetal canister is lowered to enable a design suitable for installation and management. According to the present invention, if the source of a centripetal force in the existing centripetal water turbine was to use only a gravitational action by the weight of the fluid, the centripetal force can be obtained using a large force of centrifugal force by using the pressure plate, thereby obtaining large output power with a relatively small centripetal water turbine.

Description

TECHNICAL FIELD [0001] The present invention relates to a centripetal aberration device having a pressurized ball,

The present invention relates to a centripetal force increasing device for centripetal aberration, and more particularly, to a centripetal aberration device in which the pressure of a fluid is increased in a drum device of centripetal aberration to simplify the external shape of the centripetal aberration, ≪ / RTI >

The conventional centrifugal aberration has a tendency that the centrifugal force of the fluid becomes larger as the number of rotations of the aberration increases and the flow of the fluid becomes less smooth as the centrifugal force increases.

Generally, when the rotation speed of the rotary drum is equal to the rotation axis of the outer wall, the centrifugal force causes the fluid to be concentrated to a strong pressure toward the outer wall.

When the centrifugal force due to the shape of the aberration is larger than the pressure or gravity externally applied, the fluid or the like causes aberrations to occur. It can be in a state where it can not pass.

The centripetal aberration to the present is a form in which the flow of fluid or the like is possible when the magnitude of the self-weight due to the external natural fluid pressure or gravity is larger than the centrifugal force according to the number of revolutions of the aberration.

It is preferable to increase the efficiency of the aberration by making the kinetic energy of the water entirely dissipated from the aberration in order to convert all the falling energy serving as the potential energy acting on the aberration into the rotational force as a common matter in the low power hydroelectric power plant.

In order to completely extinguish the energy of the water acting on the aberration, it is a task to change the weight and the momentum of the water to the aberration until the energy disappears, and to change all the kinetic energy of the water by the rotational force.

In this case, since the fluid having a low dropping pressure is not stronger than the centrifugal force due to the rotation of the aberration due to the low pressure, the fluid may flow in an undesired reverse direction.

Therefore, in order to smoothly generate a fluid flow inside the centripetal aberration, a centripetal force that is stronger than the centrifugal force needs to be operated in the vertical drum portion than the centrifugal force generated by the increase in the number of revolutions.

In order to effectively dissipate the kinetic energy of the water from the aberration and convert it into the rotational force, the centroid aberration causes the energy of the water to efficiently act on the wing of the aberration to transfer the kinetic energy of the first high pressure water to the aberration, In the process of gathering the flow of water to the discharge port by using gravity, the relative velocity of the water is reduced so that the inertia energy at this time is applied to the aberration. There is a method of increasing the gravity of the water by providing a vertical- And the bottom of the rotational aberration is lowered and tilted toward the center, and the aberration wing is completely adhered and sealed between the upper cover and the bottom floor at appropriate intervals. Third, the kinetic energy possessed by the water as much as possible As means for applying a large amount of power to the aberration, The wings of the wings are extended so as to keep contact with the water without interfering with the flow of water.

At this time, as the number of revolutions of the aberration increases, the centrifugal force due to the load of the fluid also increases. This is because a pressure plate, which is integrated with the rotary drum and is made airtight, is provided on the top of the rotary drum, So that a larger centripetal force is always applied to the upper part of the aberration.

The centripetal aberration of the present invention is an aberration that can maximize the kinetic energy of the fluid by improving the operating characteristics of the aberration in the power generation using water of a slow flow rate and the like. So that the flow of the fluid can be made more smooth, and the shape of the aberration can be made small, thereby completing the aberration for hydroelectric power generation which can contribute to efficient production of eco-friendly energy.

1 is a partial cutaway perspective view of an embodiment of the centripetal aberration.
Fig. 2 is a schematic view of a partial incision waterway and an aberration perspective view of an embodiment of the centroidal aberration
Fig. 3 is a detailed view of the pressure part of the embodiment of the centripetal aberration,
Fig. 4 is a perspective view of the fluid inlet portion of one embodiment of the centroidal aberration
5 is an exploded perspective view of the fluid introduction part of one embodiment of the centroidal aberration
6 is a graph showing a centrifugal force operating state diagram of an embodiment of the centripetal aberration
Fig. 7 is a diagram showing the centripetal force increasing state by the pressure plate of the embodiment of the centripetal aberration

In order to achieve the above-mentioned object, the present invention is characterized in that the aberration structure is similar to that of the current spinning wheel laid sideways, while the bottom has a funnel shape and has a corrugated tube so as to constitute a vertical gravity chamber relatively high on the outer periphery of the aberration, Is a centripetal aberration arrangement that is generally arranged radially to divide the entire aberration into a compartment and to arrange the aberrations to a certain distance to the rotation axis portion.

Hereinafter, a centripetal aberration device having a pressure plate will be described in detail with reference to the accompanying drawings.

FIG. 1 is a partial cross-sectional view of an embodiment of a centripetal aberration of the present invention. The fixed shaft 21 is fixed to a shaft fixing plate 22 and then fixed to the floor with an anchor bolt or the like. The bearing rotation part 24 is directly coupled to the rotation shaft 25 and the rotation shaft 25 is coupled to the rotation shaft 25. The bearing rotation part 24 is rotatably supported by the bearing fixing part 23, And the generator 51 is coupled to the shaft of the generator 51 through the ball bearing 26 and the generator shaft 51 to generate electric power.

The rotary shaft 25 is rotatably fixed by a ball bearing 26 and the ball bearing 26 is rigidly supported by the steel frame 31. The column of the steel frame 31 is fixed to the ground by engaging with the base 32 For example.

The constitution of the centripetal aberration is combined with the inner side of the blade 13 in the inner spherical core 14 coupled to the bearing rotation part 24 and the outer side of the blade 13 is formed by the spherical core 11 and the funnel 12, In the form of welding or the like.

The upper pressure portion of the ball guiding cylinder 11 has a configuration in which the pressure plate 16 is widened from the outer wall to the inner wall of the ball core 11 so that the disk extends toward the rotation center.

In the lower surface of the pressure plate 16, the four-level water passage 62 is configured to supply the fluid through the water supply passage 61 connected to the external water passage.

The fluid introduced from the outside through the water feed path 61 is supplied between the lower part of the pressure plate 16 and the upper part of the aberration through the quadratic water channel 62 and the fluid is supplied to the inner spherical core 14 of the rotating aberration, Is discharged to the floor by the discharge port 19 which is a radial compartment formed by the vanes 13 from the inside of the core 11 and the funnel plate 12. [

2 is a partial cut-off feed path and an aberration perspective view of an embodiment of the centripetal aberration. The fixed shaft 21 is fixed to the shaft fixing plate 22 and fixed to the floor with an anchor bolt or the like. The bearing rotating part 24 is coupled to the rotating shaft 25 directly and the rotating shaft 25 is coupled to the rotating shaft 25. The bearing rotating part 24 is coupled to the fixed bearing 21, And is rotatably fixed by a ball bearing (26).

The centripetal aberration is transmitted to the inner lid core 14 coupled to the upper lid 15 and the lower lid 115 by a welding or the like connected to the bearing rotation part 24 and extending to the inner lid core 14, And the reinforcing member 17 and the like are inserted into the inner side of the vane 13 and the outer side of the vane 13 are joined to each other by a method such as welding Lt; / RTI >

The upper part of the ball guiding cylinder 11 is a pressure part and the pressure plate 16 has a configuration in which a circular plate extending in the central part from the outer wall of the ball guiding cylinder 11 extends toward the rotation center.

In the lower position of the pressure plate 16, the four-level water passage 62 is configured to supply the fluid through the water feed passage 61 connected to the external water passage.

The fluid introduced from the outside through the water feed path 61 is supplied between the lower part of the pressure plate 16 and the upper part of the aberration in the four-level water channel 62. The fluid is supplied to the inner guideway 14, (19), which is a radial compartment formed by the vanes (13) on the inside of the funnel plate (11) and the funnel plate (12).

FIG. 3 is a perspective view of the pressure part of the embodiment of the centripetal aberration of the present invention and shows the fluid inlet part of the fixing shaft 21. The fixing shaft 21 is fixed to the shaft fixing plate 22 and fixed to the floor with an anchor bolt, And is rotatably fixed by a ball bearing (26).

Structure of the centripetal aberration The outside of the vane 13 is configured such that each of the core core 11 and the funnel plate 12 is airtightly coupled to each other by welding or the like.

The pressure plate 16 is formed on the upper portion of the core core 11 by extending the original plate toward the center of rotation toward the inner wall from the outer wall of the core core 11, (16) may be a bolted connection.

The four-level water channel 62 located on the lower surface of the pressure plate 16 is configured to supply the fluid through the water channel 61 connected to the external water channel.

The pressure portion of the upper portion of the syringe barrel 11 has a bolt hole formed in the end portion of the syringe barrel 11 so as to coincide with the bolt hole of the angle-shaped auxiliary barrel 111 having the bolt- A hole is required.

The hole of the pressure plate 16 is aligned with the bolt hole of the auxiliary member 111 connected to the ball core 11 and the coupling bolt 112 is inserted and then tightened with the coupling nut 113.

And the fluid introduced from the outside through the water feed path 61 is supplied between the lower part of the pressure plate 16 and the upper part of the aberration in the four-level water path 62.

4 is a perspective view of a fluid inlet portion according to an embodiment of the present invention. The fluid inlet portion 60 supplies fluid to the centripetal aberration from the pipe-shaped water supply passage 61 to the four-level water passage 62 , A water supply diaphragm 65 for dividing the inner space of the four-level water channel 62 is formed at the center so that the fluid is supplied while balancing the supply of the fluid concentrating to one side of the aberration at a substantially 180 degree rotation angle, The water supply diaphragm 65 has a structure in which the diaphragm end 165 is located at a water supply length of 180 degrees.

The lower portion of the water supply diaphragm 65 and the lower portion of the water supply passage 62 are fixed by a water supply lower plate 64 to assist in guiding the fluid and the upper part of the water supply diaphragm 65, And the upper part of the water supply path upper plate 63 and the lower water supply path lower plate 64 are fixed to the water supply path inner wall 66 by welding or the like The fluid is prevented from scattering and the structure of the fluid inlet portion 60 is strengthened.

5 is an exploded perspective view of a fluid introduction part of an embodiment of the centripetal aberration of the present invention, and the configuration and the sequence of operations are simplified in the following description.

The fluid inlet portion 60 is connected to the water supply passage 61 in the form of a circular pipe by the method of welding or the like and the fluid is introduced into the water supply passage 61, The coupling part is circular, and the side from which the fluid flows out is a quadrangular duct, and the central part is provided with a diaphragm 265 with a generally vertical water supply.

And a water supply diaphragm 65 connected to the water supply diaphragm 265 disposed inside the quadrangle water channel 62 at the upper portion of the water supply lower plate 64 having a certain hole formed in the inside thereof and having a circular outer periphery, Is stopped at the diaphragm end 165 by a water supply extending generally to a point of a rotation radius of about 180 degrees and connected to the water supply diaphragm 64 by welding or the like.

A water supply diaphragm 65 fixed to the diaphragm 265 and the water supply lower plate 64 is connected to the water supply line of the water supply line 4 of the four-level water supply line 62 by welding and the water supply low plate 64 and the four- (62) is also connected by welding or the like.

The inner surface of the water inlet furnace wall 66 is first connected to the outer circumferential side of the four-level water channel 62 by a method such as welding, and travels in an oval shape in the clockwise direction. And the water supply path inner wall 66 is connected along the inner hole portion of the water supply path lower plate 64. The starting point is connected to the inner path 68 side of the four-level water path 62, And is connected to and fixed to the side of the outer flow path 67 of each water level passage 62 by welding or the like.

The water supply path upper plate 63 positioned above the water supply path diaphragm 62, the water supply diaphragm 65 and the water supply path inner wall 66 is connected to the water supply path diaphragm 65 and the diaphragm position And the lines 265 are arranged so as to coincide with each other, the holes formed in the inside thereof are configured such that the linear portions abutting the quadrilateral water passage 62 and the inner hole portions confronting the water supply path inner wall 66 coincide with each other. And the fluid inlet portion 60 is completed when the fluid is integrally connected by welding or the like.

6 is a cross-sectional view of a conventional centrifugal force aberration operation state. The centripetal aberration is obtained by connecting the spherical core 11 and the funnel plate 12, fixing the wing 13 at a predetermined interval inside thereof, A part of the working fluid 81 flowing in a state where the rotating shaft 25 is rotated and supported by the ball bearing 26 is discharged to the outside by the discharge fluid 82, As the number of revolutions increases, the centrifugal force gradually increases and the region of the vanes 13 can not be filled.

This means that as the rotational speed of the aberration increases, the height of the ball core 11 must be continuously increased, which has been a serious drawback in terms of design and use.

FIG. 7 is a view showing a state in which the centripetal force is increased by the pressure plate of the centripetal aberration pressure portion of the present invention, wherein the centripetal aberration is connected to the ball core 11 and the funnel plate 12, The pressure plate 16 is hermetically sealed to the outer wall of the syringe barrel 11 by way of welding or the like to the pressure portion at a predetermined point on the upper side of the syringe barrel 11 and is moved inward In the form of an expanded disk.

A part of the working fluid 81 flowing in a state where the rotating shaft 25 serving as the rotation center of the centripetal aberration is pivotally supported by the ball bearing 26 is discharged to the outside by the discharge fluid 82, ) Of the wing 13 does not exit the area of the pressure plate 16 after the area of the wing 13 is filled and the rising of the pressure at the end point of the guidewire 11 stops . That is, the operating fluid 81 has a structure in which as the number of rotations of the aberration increases, the centrifugal force gradually increases and rises to the end of the spherical core 11, and then the entire region of the blade 13 is filled with the fluid.

This is because it is not necessary to increase the rotational speed of the aberration and to extend the height of the ball guiding cylinder 11 so that the height of the ball guiding cylinder 11 is reduced by providing the pressure plate 16 on the pressure portion above the ball guiding cylinder 11 The lowering pressure of the fluid, that is, the centrifugal force, can be increased.

11: balloon 12: funnel plate 13: wing
16: pressure plate 21: fixed shaft 22: fixed plate
60: fluid inlet part 61: water line 62: 4 water level
81: operating fluid 82: exhaust fluid 83: rising fluid

Claims (5)

The centripetal aberration of the aberration is fixed by the fixing plate 22 and the centripetal aberra that is rotated by the bearing device that engages with the fixed shaft 21 is rotated by the structure body It is hard to assemble,
A wing 13 is fixed to the inner guidemember 14 by welding or the like and the guiding core 11 and the funnel plate 12 are hermetically connected to each other on the outer side of the wing 13 by welding or the like, , And the spherical aberration
And a pressure plate 16 having a disk-shaped pressure plate 16, which is fixedly connected to the upper end of the balloon 11 by a method such as welding or the like and widened to a certain extent inward in the direction of the rotation axis, A centripetal aberration device with a pressurized syringe vent. The method according to claim 1,
The upper lid 15 is attached to the upper portion of the inner core tube 14 by welding or the like to integrate the upper lid 15,
The fluid inlet portion 60 is inserted between the pressure plate 16 and the top cover 15,
And a pressure plate (16) is provided by a welding method or the like as a pressing portion on the upper surface of the ball guiding cylinder (11). Claim 1:
Characterized in that the pressure plate (16) of the pressurizing portion is bolt-coupled with the ball guiding cylinder (11). The method according to claim 1,
The fluid inlet portion 60 is a fluid inlet portion 60 in which the fluid supplied from the water feed passage 61 is supplied through the quadrangular water flow path 62 between the pressure plate 16 and the top cover 15 ,
The four-level water channel 62 is divided into a water supply diaphragm 265. The water supply diaphragm 65 is rotated by a rotation angle of 180 degrees and the upper part of the water supply lower plate 64, And the water supply diaphragm 65 connected to the water supply diaphragm 265 provided inside the four-level water channel 62 and connected to the water supply diaphragm 65 are connected to the water supply upper plate 63 and the water supply lower plate 64) are joined to each other by a method such as welding. The method of claim 4,
The inner surface of the fluid inlet portion 60 is configured to hold the inner airtightness of the fluid inlet portion 60 to the water inlet inner wall 66,
The water inlet furnace inner wall 66 is inserted between the water supply furnace upper plate 63 and the water supply lower plate 64 and is connected to a portion adjacent to the inner hole by welding or the like,
One end of the water supply path inner wall 66 is connected to the outside of the inner flow path 68 of the quadratic water flow path 62 and the other end is connected to the outside of the outer flow path 67 of the water flow path 62, And the inner wall of the hermetically sealed fluid introducing portion (60) of the centrifugal aerator.

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