SU152692A1 - - Google Patents

Description

The operation of large segments in the podniki of powerful hydrogenerators is not completely reliable due to the large mechanical and thermal deformations of such segments. To obtain relatively large segments in large girths of an advantageous configuration (approaching a square) with small mechanical and thermal deformations, ensuring more reliable operation of the gadget, goggles with two concentric rows of segments and with the same number of segments in each row were used. , each of a pair of segments of the inner and outer row was mounted on a pivoting lever - balancer. Thus, a given load distribution between the external and internal rows of segments was achieved, for example, in proportion to their area (subgenerators of hydrogenerators of the Kuybishchevskaya and some other hydroelectric power plants). However, with very large loads on podchnikov, which can be expected in hydrogenerators with a capacity of about 1,000,000 ket (for example, for hydroelectric power plants in the lower reaches of the Lena river), two rows of segments in a liner may not be enough to obtain segments of moderate size. It may also not be enough to have two rows of segments in a binder with a large ratio of external diameter to internal diameter, when with two rows of segments it is not possible to obtain segments of a favorable configuration approaching a square one. Finally, with three or more rows of segments, difficulties arise regarding the proper distribution of the load between concentric rows of segments.

A booster with increased carrying capacity with relatively small segments of a favorable (approaching quad-pus) configuration, with a specified load distribution between p No. 152692, is proposed.

segments and the same load of segments in each row. This is achieved by the fact that the segments are installed in a thrust of three or more concentric rows and, in addition to the radial groups of balance levers, a tangential system of levers is used, located around the circumference of the outer row of segments and subdivided into several (for example, three) independent groups, for whereby the levers in the group rest with their free ends on fixed supports or on springs.

FIG. Figure 1 shows schematically the fixed part of the bolster in section; in fig. 2 is a view along arrow L in FIG. one.

Each group of segments / subframes located on the same radius rests on a lever base that is located in the radial direction and, depending on the size of the arms of the levers 2, distributes the load between the segments / of each radial group equally in a given ratio. In each radial group, the free end 3 of the lever of the inner concentric row of segments rests on the base 4 of the subframe. The ends 5 of the levers of the outer row of segments rest on the base of the bolster through the bolts, with the aid of which it is possible to achieve more or less the same distribution of the load by means of groups of levers. If the ends 5, the levers are supported on the tangential system of levers (Fig. 2), similar to the radial groups, but surrounding the sub-peak at the periphery, the same load distribution between the groups is also obtained automatically and independently of the supporting rotary disk of the bogie.

Thus, such a system makes it possible to carry a working bolster endowed with almost any load with relatively small segment sizes. The small size of the segments and the small loads on them make it easy to design a lever system, both radial and tangential.

For example, in a quadruple baffle per 10,000 g of 50 segments per row, the load on one segment will be 50 tons on average. With a typical specific pressure of 40 kg / cm, the dimensions of the segments will be approximately 35X35 cm. The pressure on the ends of the levers will be 25 tons.

The described bolster is not stabilizing, i.e. the bushing does not determine the position of the shaft. In this case, two guide bearings are needed to stabilize the shaft. This can be inconvenient if the generator has one guide bearing. However, it is easy to impart stabilizing properties to a stopper, using, for example, instead of the three lower levers of the tangential system, fixed supports located at an angle of 120 ° (approximately), as shown in FIG. 2. In this case, the tangential lever system falls into three independent groups. The gimbal becomes equivalent to the goggle with three hard-rubbed segments defining one position of the shaft with respect to the gimp surface. In this case, one guide bearing is sufficient. Each system is equally loaded with a given load distribution between the segments of each system. In the case of several directional bearings, the stabilizing property of the subclass may be undesirable, since during a fight, the correct load distribution between the segments may be disturbed. In this case, in order to avoid the indefinite position of the levers of the tangential system and to obtain the optimal position of the levers corresponding to the minimum friction work during a rotating disk, the ends of the levers should be supported not on fixed supports, but on the springs that return the levers to the middle position when unloading the sub .

Subject invention

The pilot for powerful hydrogenerators with the location of the supporting segments in concentric rows and with their installation in each radius on the pivot arms (balancers), is distinguished by the fact that, in order to increase the load capacity and use the segments with the most advantageous configuration, approaching the square one, the segments are installed in three or more concentric rows and to achieve the required load distribution between the segments, in addition to the radial groups of the balance levers, a tangential lever system is used The arms are located around the circumference of the outer row of segments and are divided into several independent groups, for which the last levers in the group are supported by free ends on fixed supports or on springs.

No. 152692

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