KR200496834Y1 - Bearing separation prevention device for Kaplan aberration - Google Patents

Abstract

Disclosed is a bearing separation prevention device installed to prevent separation of a bearing of a Kaplan aberration installed in a small hydro power facility. According to an embodiment of the present invention, a device for preventing bearing detachment for a Kaplan aberration includes a plate fastened to a runner of a Kaplan aberration installed in a small hydropower facility; A plurality of oilless bearings respectively fastened to anti-rotation bars penetrating four points at the center of the plate through which the runner control shaft passes; and a bearing cover plate provided in plurality to correspond to each oilless bearing and fastened to a plate in a form covering each oilless bearing at a location where each oilless bearing is installed to prevent separation of the oilless bearing. As a result, even if the Kaplan aberration facility is operated or not repeatedly, by preventing the oilless bearing from falling off, it is possible to prevent cracks from occurring in parts including the rotation bar.

Description

Bearing separation prevention device for Kaplan aberration}

The present invention relates to a bearing separation prevention device, and more particularly, to a bearing separation prevention device installed to prevent separation of a bearing of a Kaplan aberration installed in a small hydropower facility.

The Kaplan aberration installed in the small hydropower facility may cause a problem in that its parts are separated from the assembly or the parts are damaged due to the occurrence of cracks due to internal structural problems.

Specifically, the Kaplan aberration automatically determines whether or not the facility is operating according to the driving loading signal, and when an error in the driving loading signal occurs and whether or not the facility is operating is repeated, the rotation bar is supported and guided by the repeated external force. As the oilless bearing is removed, cracks may occur in the rotation bar.

Therefore, it is required to find a way to prevent the oilless bearing from falling off even if the operation of the equipment is repeated due to an error in the operation loading signal.

The present invention was made to solve the above problems, and the purpose of the present invention is to provide a bearing separation prevention device capable of preventing the oilless bearing from falling even if the Kaplan aberration facility is operated repeatedly.

According to one embodiment of the present invention for achieving the above object, a bearing detachment prevention device for a Kaplan aberration includes a plate fastened to a runner of a Kaplan aberration installed in a small hydro power facility; A plurality of oilless bearings respectively fastened to anti-rotation bars penetrating four points at the center of the plate through which the runner control shaft passes; and a bearing cover plate provided in plurality to correspond to each oilless bearing and fastened to a plate in a form covering each oilless bearing at a location where each oilless bearing is installed to prevent separation of the oilless bearing.

The bearing cover plate may have a rectangular cross section, a through hole may be formed in the center, and bolt fastening holes may be formed at four corners.

In addition, according to an embodiment of the present invention, the device for preventing bearing detachment for Kaplan aberration may further include a plurality of fastening bolts inserted into bolt fastening holes of the bearing cover plate to maintain the fastened state of the bearing cover plate. can

As described above, according to the embodiments of the present invention, even if the Kaplan aberration facility is operated repeatedly, it is possible to prevent cracks from occurring in parts including the rotation bar by preventing the oilless bearing from falling off.

1 is a front view of a bearing separation prevention device according to an embodiment of the present invention, and
2 is a side view of a bearing separation prevention device according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a front view of a bearing separation prevention device according to an embodiment of the present invention, and FIG. 2 is a side view of a bearing separation prevention device according to an embodiment of the present invention.

1 and 2 , the bearing separation prevention device according to the present embodiment may include a plate 110, an oilless bearing 120, a bearing cover plate 130, and a fastening bolt 140.

The plate 110 may be formed of a metal plate having a predetermined thickness and fastened to a runner of a Kaplan water turbine installed in a small hydro power facility.

The oilless bearing 120 may be respectively fastened to an anti-rotation bar penetrating four points at the left, right, top, and bottom of the center of the plate 110 through which the runner control shaft passes. At this time, the oilless bearing 120 may be formed so that the outer race is fixed and the inner race is driven in engagement with the rotating shaft.

The runner control shaft may be disposed to pass through the center of the plate 110, and the anti-rotation bar may be disposed to pass through four left, right, top, and bottom points of the center of the plate 110.

In order to prevent the separation of the oilless bearing 120, the bearing cover plate 130 is provided in plurality to correspond to each oilless bearing 120, and each oilless bearing 120 is installed at a point where each oilless bearing 120 is installed. It may be fastened to the plate 110 in a form covering the bearing 120 .

The bearing cover plate 130 may have a rectangular cross section, a through hole 131 may be formed in the center, and bolt fastening holes 132 may be formed at four corners, respectively.

In addition, the bearing cover plate 130 is installed at the center of the plate 110 through which the runner control shaft passes, as well as the four left, right, upper and lower points of the center where the anti-rotation bar passes through the oilless bearing 120, the plate 110 ) can also be placed in the center of the

At this time, the bearing cover plate 130 disposed at the center of the plate 110 may also be fastened to the plate 110 in a form covering the oilless bearing 120 .

In addition, in order to prevent vibration of the equipment, only the four oilless bearings 120 installed at the center of the plate 110 or the center of the plate 110 are in contact with the runner control shaft or the anti-rotation bar. Each of the four bearing cover plates 130 installed at four points at the center of the plate 110 or at the center of the plate 110 must be installed so as not to come into contact with the runner control shaft or the anti-rotation bar.

Through this, it is possible to prevent cracks from occurring in parts including the rotation bar by preventing the oilless bearing 120 from falling off even if the Kaplan aberration facility is operated repeatedly.

A plurality of fastening bolts 140 are provided and inserted into respective bolt fastening holes 132 so that the fastening state of the bearing cover plate 130 is maintained.

Although the above has shown and described preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, and in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Various modifications and implementations are possible by those skilled in the art, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

110: plate
120: oilless bearing
130: bearing cover plate
131: through hole
132: bolt fastening hole
140: fastening bolt

Claims (3)

A plate fastened to a runner of a Kaplan water wheel installed in a small hydropower facility;
A plurality of oilless bearings respectively fastened to anti-rotation bars penetrating four points at the center of the plate through which the runner control shaft passes; and
A bearing cover plate provided in plurality to correspond to each oilless bearing and fastened to a plate in a form covering each oilless bearing at the point where each oilless bearing is installed to prevent the oilless bearing from leaving,
bearing cover plate,
The cross section is formed in a square shape, a through hole is formed in the center, and bolt fastening holes are formed at four corners,
Bearing separation prevention device for Kaplan aberration,
A plurality of fastening bolts inserted into the bolt fastening holes of the bearing cover plate so that the fastening state of the bearing cover plate is maintained; further comprising,
Bearing separation prevention device for Kaplan aberration,
In order to prevent vibration, each bearing cover plate installed at four points at the center of the plate is installed so as not to come into contact with the anti-rotation bar, and each oilless bearing is fastened to the anti-rotation bar penetrating the four points. Bearing separation prevention device for Kaplan aberration, characterized in that only the contact with the anti-rotation bar. delete delete

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