KR101271144B1 - Nozzle adjust device of pelton wheel - Google Patents

Abstract

The present invention relates to a pelton aberration nozzle movement apparatus for fine adjustment to move the fixed position of the nozzle to obtain a rotational force by supplying high pressure water to the turbine to achieve an optimum output.
According to the present invention, the nozzle cover is fixed to the protective cover through the nozzle in Pelton aberration for injecting high pressure water from the nozzle connected to the inlet pipe with a bucket fixed to the outside of the turbine, but the nozzle cover is fixed to the protective cover. While moving up, down, left, and right to adjust the spraying direction of the nozzle, the nozzle cover is moved up, down, left and right by the adjustment bolt installed on the outside of the protective cover, the inlet pipe and the nozzle is controlled by using a coupling pipe It is done by doing so.

Description

Nozzle adjust device of pelton wheel

The present invention relates to a pelton aberration nozzle movement apparatus for fine adjustment to move the fixed position of the nozzle to obtain a rotational force by supplying high pressure water to the turbine to achieve an optimum output.

Hydrophobic power generation apparatus using a drop of water is known as Pelton aberration, the Pelton aberration is provided with a bucket 20 to the outside of the cylindrical turbine 10, as shown in Figs. The high pressure water is injected through the 30 to rotate the turbine 10, and the rotational force of the turbine 10 is connected to a generator to generate power.

The turbine 10 is covered with a protective cover 50, the nozzle 30 is supplied with high pressure water through the inlet pipe 60, the nozzle 30 by using a needle valve 40 To control the injection of water.

The Pelton aberration must be constructed so that the high pressure water injected into the nozzle 30 through the inlet pipe 60 is sprayed to the bucket 20 as exactly designed, thereby maximizing the rotational output of the turbine 10, but the protective cover ( 50) If the process of fixing the nozzle 30 and the installation of the turbine 10 was not made correctly was not able to correct this after the completion of construction.

That is, the high pressure water of the nozzle 30 should be precisely sprayed on the bucket 20, but if it is slightly twisted, the height or left and right positions of the turbine 10 should be finely adjusted or the top, bottom, left and right positions of the nozzle 30 should be adjusted. However, there is a problem in that the position of the turbine 10 or the position of the nozzle 30 which is a fixed structure cannot be changed.

The present invention is to solve the problem that there was no way to correct the high-pressure water of the Pelton aberration when the bucket is not accurately injected, high pressure water by finely adjusting the position of the nozzle finely after the assembly of the Pelton aberration is completed It's exactly what makes the bucket spray.

That is, the present invention solves the problem of not correcting when the injection direction of the high-pressure water is changed by changing the position of the nozzle, which is impossible to move the position in the conventional Pelton aberration.

According to the present invention, the nozzle cover is fixed to the protective cover through the nozzle in Pelton aberration for injecting high pressure water from the nozzle connected to the inlet pipe with a bucket fixed to the outside of the turbine, but the nozzle cover is fixed to the protective cover. While moving up, down, left, and right to adjust the spraying direction of the nozzle, the nozzle cover is moved up, down, left and right by the adjustment bolt installed on the outside of the protective cover, the inlet pipe and the nozzle is controlled by using a coupling pipe It is done by doing so.

In the present invention, the nozzle cover and the protective cover to form a longitudinal groove in the transverse direction or longitudinal direction, respectively, so that the nozzle cover is moved up, down, left and right in the long groove, the nozzle cover is moved up, down, left and right by the adjustment bolt coupled to the protective cover The nozzle is coupled to the inlet pipe and the coupling pipe so that the nozzle is moved up and down, but the packing is sandwiched between the inlet pipe and the coupling pipe to prevent leakage.

Here, the coupling pipe is fixed to the nozzle to one side so that the other side can be moved while being fitted inside the inlet pipe.

The present invention is to control the nozzle of the Pelton aberration up, down, left and right, it is possible to adjust the high-pressure water injector to the bucket of the turbine to be made to maximize the turbine output.

The present invention has the effect of fine adjustment by moving the nozzle of the Pelton aberration up, down, left and right.

1 is a cross-sectional view of the existing Pelton aberration
Figure 2 is a side view of the existing Pelton aberration
3 is a cross-sectional view of the present invention Pelton aberration
Figure 4 is a side view of the present invention Pelton aberration
5 is a cross-sectional view of main parts of the present invention.
Figure 6 is a cross-sectional view of the joint tube portion of the present invention
7 is a cross-sectional view showing the inside of the protective cover of the present invention.
8 is a front view of the nozzle cover of the present invention
Figure 9 is an enlarged cross-sectional view of the nozzle cover coupling portion of the present invention

According to the present invention, the bucket 20 is fixed to the outside of the turbine 10, and the high pressure water is injected from the nozzle 30 to the bucket 20 so that the turbine 10 rotates, and the nozzle 30 has an inlet pipe. The high pressure water is supplied through the nozzle 60, and the nozzle 30 is provided with a needle valve 40 so that the nozzle 30 can be moved up, down, left and right in a known Pelton aberration that controls the injection of the high pressure water. , If the injection position of the high pressure water is not made as the design is to simply change the position of the nozzle 30 to achieve the optimum output.

The present invention is to enable the vertical movement of the nozzle 30 by using a coupling pipe 70 between the inlet pipe 60 and the nozzle 30 to move the nozzle 30 of the Pelton aberration up, down, left and right, In order to prevent the fitting tube (70) to the outside of the packing 71 to be fixed to the inlet pipe (60) using a ring-shaped fixing flange (72).

In addition, in order to move the nozzle 30 up, down, left, and right, the nozzle cover 80 and the protective cover 50, through which the nozzle 30 is fixed, are fixed with a fixing bolt 85, and the nozzle cover 80 and Fixing is made using the long grooves 81 and 51 formed in the protective cover 50 in the transverse direction and the longitudinal direction, respectively, so that the vertical movement of the nozzle cover 80 can be made.

For example, the nozzle cover 80 is formed with a long groove 81 extending vertically, so that when moving the nozzle 30 up and down, the nozzle cover 80 is moved up and down by riding the long groove 81, the protective cover When the nozzle 30 is moved to the left and right to form a long groove 51 extending from side to side, the movement is made by riding the long groove 51.

Since it is not easy to move the nozzle cover 80 up, down, left, and right in the present invention to adjust the nozzle cover 80 using the adjustment bolt 90, the adjustment bolt (outside the protective cover 50) 90 is to be coupled using a fixing protrusion 91 to face the side of the nozzle cover (80).

That is, the adjustment bolt 90 is screwed to the fixing protrusion 91 welded and fixed to the protective cover 50, tightening the adjustment bolt 90 will push the side of the nozzle cover 80, the adjustment bolt ( When the 90 is installed in all directions of the nozzle cover 80, the position of the nozzle cover 80 may be changed by loosening and tightening the adjusting bolt 90, and thus, the position of the nozzle 30 is also changed.

At this time, the vertical movement of the nozzle 30 is possible only when the height of the nozzle cover 80 is adjusted by using the coupling pipe 70.

Hereinafter, the configuration of the present invention will be described in detail.

The nozzle 30 is fixed through the nozzle cover 80, the nozzle cover 80 is fixed to one side of the protective cover 50 using a fixing bolt 85, the nozzle 30 is turbine 10 High pressure injection is made toward the bucket 20 of the.

The present invention forms a long groove 81 vertically long in the nozzle cover 80 in order to change the position of the nozzle 30, while forming a long groove 51 left and right in the protective cover 50, the nozzle cover ( When fixing the 80 to the protective cover 50, the fixing bolt 85 passes through the long groove 81 of the nozzle cover 80 and the long groove 51 of the protective cover 50 to be fixed.

In this case, since the nozzle cover 80 can be fixed by moving up and down by using the long groove 81 drilled in the nozzle cover 80, the nozzle 30 can be fixed by moving up and down position and left and right positions. Since it can be fixed using the long groove 51 drilled in the protective cover 50, it can be fixed by adjusting the left and right movement of the nozzle (30).

As shown in the present invention, the long grooves 81 are formed in the nozzle cover 80 in the vertical direction, and the long grooves 51 are formed in the protective cover 50 in the right and left directions. Even if formed, the result is the same.

As such, the present invention moves the position of the nozzle 30 by moving the nozzle cover 80 to which the nozzle 30 is fixed by moving up and down, left and right.

In the present invention, since the nozzle cover 80 is not easily moved, the position of the nozzle cover 80 is moved by using the adjusting bolt 90 coupled to the fixing protrusion 91 fixed to the protective cover 50. This is done.

Since the adjusting bolt 90 is installed on the protective cover 50 in all directions toward the nozzle cover 80, the nozzle cover 80 moves up, down, left, and right as the loosening and tightening the adjusting bolt 90, and the adjustment The tip of the bolt 90 pushes the side of the nozzle cover 80.

In order to change the position of the nozzle cover 80 as described above, the position of the inlet pipe 60 and the nozzle 30 must be moved in the position of coupling, in order to enable the vertical movement of the nozzle cover 80 to the inlet pipe ( The distance between 60 and the nozzle 30 must be changed.

To this end, the present invention is installed between the inlet pipe 60 and the nozzle 30 to ensure the length adjustment is made by installing the coupling pipe 70, while packing (71) to prevent leakage that may occur in the coupling pipe (70) ) And the retaining ring 72 is used.

The coupling pipe 70 of the present invention is formed with a flange on one side is fixed by the flange of the nozzle 30 and the usual bolt fixing method, the other side of the coupling pipe 70 has a pipe shape inlet pipe 60 But to be inserted into the inside of the nozzle cover 80, even if the movement to the lower side so that the coupling pipe 70 is fitted in the interior of the inlet pipe (60).

In the coupling pipe 70 of the present invention, when the packing 71 is inserted into the outside while the fixing ring 72 is fitted, the fixing ring 72 is coupled to the lower side of the inlet pipe 60 by a normal flange coupling method. (71) is pressed to achieve watertight.

Therefore, when the vertical position of the nozzle cover 80 is moved, the fixing ring 72 is released to release the compression of the packing 71 so that the coupling pipe 70 is moved up and down freely and aligned. The packing 71 may be crimped using the fixing ring 72.

However, when the nozzle 30 is moved left and right, the microscopic movement of the nozzle 30 is performed even though the nozzle 30 coupled to the inflow pipe 60 through the coupling pipe 70 does not move from side to side. do.

That is, when the nozzle cover 80 is moved to the left and right finely, the nozzle 30 is to be made fine left and right movement.

In this way, the present invention can change the position of the nozzle 30 in the Pelton aberration up, down, left, and right, it is possible to precisely control the direction of the high-pressure water to produce the maximum output.

10 turbine 20 bucket
30: nozzle 40: needle valve
50: protective cover 51: long groove
60: inlet tube 70: coupling tube
71: packing 72: retaining ring
80: nozzle cover 81: long groove
90: adjusting bolt

Claims (1)

The nozzle 30 spraying the high pressure water to the bucket 20 fixed to the outside of the turbine 10 is fixed to penetrate the nozzle cover 80, and then the nozzle cover 80 is fixed to the protective cover 50. Longitudinal grooves 81 are formed in the nozzle 30 in the nozzle cover 80 of the Pelton aberration that connects the inlet pipe 60 to the vertical direction.
After forming the long groove (51) long to the left and right on the protective cover 50, the fixing bolt 85 is inserted into the long groove (81) of the nozzle cover 80 and the long groove (51) of the protective cover 50 nozzle cover ( 80) to the protective cover 50,
The adjustment bolt 90 pushes the four sides of the nozzle cover 80, but the adjustment bolt 90 is fitted into the fixing protrusion 91 fixed to the protective cover 50, and is coupled.
Between the nozzle 30 and the inlet pipe 60 is connected to the coupling pipe 70, one side is fixed to the nozzle 30 and the other side is fitted to the inside of the inlet pipe 60 to the outside of the coupling pipe 70 Peeling aberration nozzle moving device, characterized in that the fixing ring 72 is fitted after the packing 71 and the fixing ring 72 is fixed to the inlet pipe 60 while pressing the packing (71).

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