KR20070098126A - Tilting 5-pad journal bearing of turbine and generators for the reduction of shaft vibration and bearing metal temperature - Google Patents

Abstract

A tilting 5 pad journal bearing of a turbine generator for reducing shaft vibration and metal temperature is provided to form the range of the preload to 0.2 to 0.6, and to reduce the vibration by forming the preload in the tilting pad journal bearing and increasing the rigidity of an oil film and attenuation coefficient. A tilting 5 pad journal bearing of a turbine generator for reducing shaft vibration and metal temperature has a tilting pad(1) placed in the tilting pad journal bearing axially or circumferentially. The tilting pad is mounted at the symmetrical place to the load direction of the shaft for pivoting the tilting pad. An inner surface of each tilting pad has a shape bonded with a white metal with a circumferential casting method to protect the shaft. The tilting pad journal bearing is experienced under a preload to increase the rigidity of an oil film and attenuation coefficient and to reduce the vibration so that the range of the preload is 0.2 to 0.6.

Description

Tilting 5-pad journal bearing of turbine and generators for the reduction of shaft vibration and bearing metal temperature}

1 is a schematic view showing a turbine generator according to the prior art,

Figure 2 is a cross-sectional view showing a tilting pad journal bearing according to an embodiment of the present invention,

Figure 3 is a schematic diagram showing the pressure distribution of the tilting pad journal bearing according to an embodiment of the present invention,

4 is a cross-sectional view showing the offset pivot pad shape according to an embodiment of the present invention,

5 is a schematic diagram showing an offset pivot ratio and a bearing performance ratio according to an embodiment of the present invention;

6 is a cross-sectional view showing a tilting pad having a preload according to an embodiment of the present invention,

Figure 7 is a schematic diagram showing the stiffness and attenuation of the change in preload, the metal temperature according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

1: tilting pad 2: offset pivot

3: bearing case 4: upper and lower fastening bolts

5: Bolt hole for bearing fixing 6: Lubricant oil supply hole

7: oil groove 8: orifice

9: locking pin 10: pivot spot

The present invention relates to a 5-pad tilting pad journal bearing for a turbine generator for reducing shaft vibration and metal temperature, and more particularly, a high temperature phenomenon of a bearing metal occurring in a tilting pad journal bearing used in a turbine generator, and a rotating shaft system. The present invention relates to a 5-pad tilting pad journal bearing having a preload, an LBP type, and an optimal pivot position in order to fundamentally reduce or prevent the high vibration phenomenon and the spraying phenomenon in which the upper pad inlet of the bearing is broken.

In general, a schematic diagram of a steam turbine of a power plant is shown in FIG. 1, and as shown in FIG. 1, a steam turbine includes a high and intermediate pressure turbine, a low pressure turbine A, and a low pressure turbine B. It is. Each turbine rotor is supported by two journal bearings. The bearings of the high and medium pressure turbine rotors and the first bearings of the low pressure turbine (100, 200, 300) use tilting pad journal bearings. 400, 500, 600) use elliptical journal bearings.

The reason why the tilting pad journal bearing is used in the high and low pressure turbine rotors and the low pressure turbine is to suppress the occurrence of unstable vibration such as steam whirl, and to apply the load to the bearing by the partial opening of steam. This is to maintain stable characteristics even if the direction of.

Here, the tilting pad journal bearing used in the turbine generator is a hydrodynamic pressure generated by the rotation of the journal to support the load, the load supporting the pad to the bearing case and the pivot pivoting the pad during operation , 6 pads consisting of upper and lower bearing cases, locking pins to prevent rotation of the pads due to the viscous frictional force of the fluid, load on pad (LOP), center pivot type without preload.

The pad is manufactured by bonding white metal to the surface where the oil film of the journal is formed by centrifugal casting or gravity casting to carbon steel in order to protect the shaft. The metal temperature of the pad should be kept as low as possible because it melts even at low temperatures. In the case of a tilting pad journal bearing, the LOP type means that the direction of the load acts on the pivot of the pad.

However, since the LOP type tilting pad journal bearing having 4 or 6 pads generally has a very small horizontal stiffness, excessive vibration may occur when a horizontal vibration occurs. There is a disadvantage in that it is difficult to obtain accurate axis alignment data by the movement of the pad in alignment.

In addition, even if the center pivot without preload is supplied with a large flow rate, the flow rate to the pad is small, so the cooling effect is remarkably low, resulting in a high temperature of the pad. It becomes a no-load state, which is a direct cause of the spraying phenomenon that damage occurs at both ends of the pad.

Therefore, the tilting pad journal bearing, which consists of six pads, a load on pad (LOP), and a pre-load center pivot type, which are currently used in turbine generators, has a high metal temperature and generates excessive vibration during partial admission operation of the valve. Problems such as damage due to the spgging of the bearing upper pad, and difficulty in acquiring data when aligning the shaft.

Accordingly, the present invention has been made to solve the above conventional problems,

Tilting pad journal bearing for turbine generators aims to prevent the spreading of upper pads, increase bearing cooling efficiency, and reduce horizontal vibration of turbine rotating shaft. To achieve this, 5-pad with preload, LBP type and optimal pivot position The aim is to design and manufacture tilting pad journal bearings to improve bearing performance and maximize turbine shaft stability.

The present invention has the following features to achieve the above object.

According to the present invention, in a tilting pad journal bearing of a turbine generator, a pad is installed inside the tilting pad journal bearing so as to be tilted in an axial or circumferential direction, and the tilting pad is pivoted at a position symmetrical with respect to the load direction of the shaft. It is installed so that, the inner surface of each of the tilting pad is characterized in that the shape of the white metal is bonded by the centrifugal casting method so that the shaft is protected.

The present invention having such a feature will be more clearly described through the preferred embodiment accordingly.

Hereinafter, preferred embodiments of the present invention will be described in detail with the accompanying drawings.

2 is a cross-sectional view showing a tilting pad journal bearing according to an embodiment of the present invention.

As shown in FIG. 2, a hydrodynamic pressure is generated in the rotation of the journal to support the load, and the load supported by the pad 1 is transferred to the bearing case 3 and the pad ( 1) a pivot (2) which is tilted during operation, a bearing case (3) surrounding the pad (1) to form an outer side and assembled to a bearing support of a turbine and separated into an upper and a lower case, and the upper and lower bearings. A fastening bolt (4) for assembling the case (3), a fastening bolt hole (5) for the upper case for assembling with the bearing pedestal of the turbine, a bearing oil supply hole (6) flowing from the bearing pedestal, An oil groove 7 for supplying lubricant between each pad 1 from the oil supply hole of the bearing, and a supply flow rate of lubricant between each pad 1 is determined, and finally lubricant is supplied to the pad 1. Supply Orifice (8) The locking pin 9 prevents the rotation of the pad 1 by the shear force of the oil film as the shaft rotates, the pivot spot 10 supporting the pivot 2 by double tilting, and the shaft for protecting the shaft. White metal 11, oil seal 12 to prevent excessive leakage of lubricating oil, oil seal fastening bolt 13, oil groove carver 14, transport bolt hole 15, adjustment block for shaft alignment (16), the fastening bolt 17 of the axial alignment block, and the lubricating oil drainage hole 18 are comprised.

Five tilting pads 1 are installed in the tilting pad journal bearing to support the load of the rotor while tilting not only in the axial direction but also in the circumferential direction.

Here, the two lower pads 1 are installed in the LBP type so that the direction of the load acts between the two pads 1, and the temperature sensor is mounted to measure and detect the temperature of the pad 1 metal. .

Figure 3 is a schematic diagram showing the pressure distribution of the tilting pad journal bearing according to an embodiment of the present invention.

As shown in FIG. 3, the tilting pad journal bearing shows that the pressure of the same size is generated in the lower two pads 1 as well as the pressure in the upper three pads 1. Therefore, the LBP type pad 1 installation can acquire more accurate axis alignment data because the horizontal rigidity of the bearing oil film greatly increases due to the horizontal pressure generation, and the lower pad 1 does not move during shaft alignment. .

In addition, in the upper pad 1 of the tilting pad journal bearing, the hydrostatic pressure is generated to an appropriate size, thereby suppressing the spreading phenomenon, thereby preventing damage to the pad 1.

4 is a cross-sectional view showing the offset pivot pad shape according to an embodiment of the present invention, Figure 5 is a schematic diagram showing the offset pivot ratio and the bearing performance ratio according to an embodiment of the present invention.

As shown in Fig. 4, in each pad 1, the white metal 11 is joined by a centrifugal casting or gravity casting method, and the pivot 2 is formed to be tilted not only in the axial direction but also in the circumferential direction. 4, the pivot 2 is manufactured as an integrated type or integrally as shown in (b), and the installation position of the pivot 2 is a pad (circle) in a circumferential direction. It has a constant angular offset and preload not the center of 1).

Here, in order to determine the angular deviation, that is, the offset amount, the offset ratio of the pivot (2) is expressed as the ratio (λ / β) of the pad (1) angle (β) to the pivot (2) angle λ shown in FIG. define.

As shown in FIG. 5, as an example of the LBP type tilting pad 1 journal bearing having five pads 1, the position of the pivot 2 is changed, that is, the pad 1 according to the pivot 2 offset ratio. By increasing the pivot 2 offset ratio, the metal temperature of the pad 1 is significantly reduced, and the minimum film thickness is maximized at about 0.6 around the pivot 2 offset ratio.

Therefore, the pad 1 having the offset pivot 2 in the tilting pad 1 journal bearing for the turbine generator has an effect of significantly reducing the metal temperature.

Figure 6 is a cross-sectional view showing a tilting pad having a preload according to an embodiment of the present invention, Figure 7 is a schematic diagram showing the stiffness and damping of the change in the preload, and the metal temperature according to an embodiment of the present invention.

As shown in Fig. 6, the preload is defined as the ratio of the processing clearance Cp to the shortest distance d between the journal center and the center of the pad 1 inner diameter. Here, the processing gap Cp is the difference between the radius Rp of the inner diameter of the pad 1 and the radius Rj of the journal shaft diameter. That is, the bearing preload having a value of 0 means that the shortest distance d of FIG. 6 is 0, so that the journal center and the center of the pad 1 inner diameter coincide with each other, and the preload is not 0. To have it is that the center of the journal and the center of the inner diameter of the pad 1 are made inconsistent.

As shown in FIG. 7, examples of the five-pad (1) journal bearing show stiffness (Kxx, Kyy) and damping (Dxx, Dyy) coefficients according to preload, and metal temperature. Subscripts x and y Are formed in the horizontal and vertical directions, respectively.

In addition, as the preload increased, the stiffness and damping coefficient increased significantly, and the metal temperature of the bearing was minimized when the preload was about 0.3. Therefore, the tilting pad (1) journal bearing having a preload of 0.2 to 0.6 in the tilting pad (1) journal bearing for the turbine generator can greatly increase the rigidity and damping coefficient to reduce vibration, and reduce the metal temperature. It works.

As described above, the present invention is formed by a 5-pad, LBP type, offset pivot, and a tilting pad journal bearing to which a preload is applied, whereby a high temperature phenomenon, high vibration generation, and spgging generation of the pad metal are caused. It is possible to fundamentally prevent or suppress damage, difficulty in acquiring accurate data when aligning the shaft, thereby extending the life of the tilting pad journal bearing, and increasing the stability of the turbine generator rotating shaft system as well as bearing repair. In addition, it is effective in improving productivity by reducing the cost and time required for exchange.

Claims (4)

Tilting pad journal bearing for turbine generator, The tilting pad 1 is installed in the tilting pad journal bearing in the axial direction or the circumferential direction, and the tilting pad 1 is installed such that the tilting pad 1 is pivoted at a position symmetrical with respect to the load direction of the shaft. The inner surface of each of the tilting pads 1 is a 5-pad tilting for a turbine generator for reducing shaft vibration and metal temperature, characterized in that the shape of the white metal 11 is joined by a centrifugal casting method so that the shaft is protected. Pad journal bearing. The method of claim 1, The tilting pad (1) is a 5-pad tilting pad journal for turbine generators for reducing shaft vibration and metal temperature, characterized in that the direction of the load is formed of the LBP type acting between the pad (1) and the pad (1) bearing. The method of claim 1, An offset ratio is applied to the tilting pad 1 to reduce the metal temperature, and the value of the offset ratio is 0.52 to 0.62. The 5-pad tilting pad journal for a turbine generator for reducing shaft vibration and metal temperature bearing. The method of claim 1, Preload is formed in the tilting pad journal bearing to increase the stiffness and damping coefficient of the oil film to form a range of the preload to 0.2 ~ 0.6 to reduce the vibration and turbine power generation to reduce the metal temperature 5-pad tilting pad journal bearing.

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