UA82949C2 - Method for mounting low pressure cylinders of steam turbine at preventive repair of turbo-unit - Google Patents

Abstract

A method for mounting cylinders of steam turbine, mostly of low pressure cylinders at preventive repair of turbo unit includes sequential assemblage, strapping, lifting and transportation of cylinder with crane to place of installation on foundation, preliminary adjustment of cylinder in position lifted over foundation, application to cylinder in vertical and horizontal directions of forces from the foundation for end check of its position in axial direction, coaxiality of cylinder and rotor in horizontal and vertical planes, plane of horizontal dismounting of the cylinder in cross direction and installation of cylinder to dynamometers resting on the foundation, with control of that position. Before beginning of implementation of mounting operations one performs dismantling of cylinder from the foundation with following milling and scraping surface of the foundation plates and support booms of the platform of the lower half of the cylinder. One installs on the foundation plates preliminarily prepared gaskets area of which is equal to contact area of those booms, this provides adjoining of surfaces of foundation plates, contact surfaces of booms and gaskets not less than 85 % over the area of surface plate, one performs assemblage of cylinder and controls changes of loads by dynamometers at installation of gaskets and mounting.

Description

Description of the invention

The invention relates to the field of thermal power engineering and can be used in turbo installations of 2 thermal power plants, thermal and nuclear power plants, in particular, in the preventive repair of low-pressure cylinder supports.

It is known that the low-pressure cylinder (CNT), for example, of the K-300-240 KhTGZ turbine rests along its perimeter on eleven steel foundation plates with a thickness of 95 mm and a width of 43 mm. Each plate is attached to the foundation with 2-3 M42 anchor pins and filled with concrete. Since after the installation of 710 temperature fields at the nodes in the nominal mode of operation, the length of the turbine increases by almost 50 mm compared to the cold one, the turbine is attached to the foundation in such a way that its thermal expansion is free in certain directions.

To ensure minimal movements of the CNT, transverse keys are used, from the plane of which the turbine elements expand in the axial direction. The intersection of the axes of the transverse and axial keys determines the "dead" 12 point of the turbine, which remains stationary during its expansion. CNTs are attached to the foundation plates with bolts

MA42, which are installed in the openings of the balcony with remote bushings and washers, which allow the expansion of the CNT to the sides up to 6b.5mm, and in the axial direction up to 12.5mm.

The low-pressure cylinder rests on the foundation plates around the perimeter, with the exception of the place where the medium-pressure cylinder is joined by the balcony, which is a horizontally welded strip to the body.

The hardness of the strip welding unit is provided by powerful ribs that reach the flange of the horizontal disconnection. To prevent longitudinal deflection of the balcony, a vertical stiffener is welded along its edge. The support surface of the balcony is made in the form of separate welded rectangular cans.

It is known that as a result of the horizontal force action of the pipelines attached to the high, medium and low pressure cylinders during the transition of the equipment from the cold to the working state and vice versa, there is a change in the mutual position of the longitudinal grooves of the movable bearing housings relative to the fixed foundation frames, (3 deformation of the paws occurs cylinders, uneven deformation of the columns of the crossbars. Over time, the probability of pinching in the longitudinal and transverse key joints increases, up to "biting".

The imbalance of the horizontal state of the turbine installation increases, which causes either "underexpansion" of the elements of the turbine unit as a result of interaction with the foundation, or compression of the foundation elements, or the appearance of gaps between the support banks of the balconies of the lower halves of CNT 1, 11 and 111 streams, which further increases the imbalance of the horizontal state of the turbine unit.

Eliminating the imbalance of the horizontal state of the turbine unit requires expensive reconstruction of the Me foundation, before cracks appear in it (Steam turbine UP TO 300 240 KhTGZ/ under the general editorship of Yu.F. Kosyak - si

M.: Znergoizdat, 1482 - 272si. 3о The method of installation of steam turbine cylinders, mainly low-pressure cylinders, which includes lifting and transporting the cylinder by crane to the place of installation on the foundation, preliminary calibration of the cylinder in the raised position above the foundation, addition to the cylinder in the vertical and horizontal directions "efforts on the part of the foundation for the final adjustment of its position in the axial direction, the co-axes of the cylinder and the rotor in the horizontal and vertical planes, the plane of horizontal separation of the cylinder in the transverse direction and installation of the cylinder on dynamometers , resting on the foundation with control from" this provision | see description to aut.sv. USSR Mo1327625, M.cl. РО1025/28, publ. 17.01.1997), while the final adjustment of the cylinder's position is made in a position raised above the foundation, and from this position it is installed on dynamometers.

The above-described installation method ensures the accuracy of installation, but it creates the prerequisites for the occurrence of the above-mentioned problems, i.e., the above-described installation method involves the use of pre-installed foundation frames or plates that form an integral structure as a whole.

The repair of such a structure is a complex, long and expensive process, connected not only with the dismantling and installation of the turbine unit, but also with its foundation plates. 20 Therefore, the task of the proposed technical solution is to simplify the installation of the turbine unit, in particular, during repair after a long period of operation, as a result of which, on the one hand, there are gaps between some support banks of balconies and unacceptable axial loads between other support banks of the same balconies on the other parties

The invention is based on the task of improving the method of installing steam turbine cylinders, preferably 29 low-pressure cylinders during preventive maintenance. As a result of successive dismantling operations

Gee! of the lower half of the cylinder, milling and planing of the surfaces of the foundation plates and cans, installation of half of the cylinder, installation of pre-prepared spacers on the foundation plates, the area of which is equal to the contact area of the cans, ensuring the quality of the fit of the surfaces of the foundation plates, the contact surfaces of the cans and spacers is not less than 8595 according to the planing plate and monitoring the change of loads on 60 dynamometers during the installation of spacers, the technical result is ensured, which consists in restoring the uniform distribution of loads on the foundation slabs without rebuilding the foundation. Due to this technical result, the reliability of the foundation and the turbine unit as a whole increases, the duration and cost of preventive maintenance of the turbo unit is reduced.

The problem is solved by the fact that in the known method of installing steam turbine cylinders, mainly low-pressure cylinders during preventive maintenance of the turbo unit, which includes slinging, lifting and transporting the cylinder by crane to the place of installation on the foundation, preliminary calibration of the cylinder in a position raised above the foundation, in addition to of the cylinder in the vertical and horizontal directions of forces from the foundation for the final adjustment of its position in the axial direction, the co-axes of the cylinder and the rotor in the horizontal and vertical planes, the plane of horizontal separation of the cylinder in the transverse direction and installation of the cylinder on dynamometers resting on the foundation with control of this position , in accordance with the invention, sequentially dismantle the lower half of the cylinder, mill and scrape the surfaces of the foundation plates and bonks, then mount the halves of the cylinder, install pre-prepared gaskets on the foundation plates, the area of which is equal to the contact area schi bonok, at the same time ensure 7/0 quality of fit of the surfaces of foundation plates, contact surfaces of bonoks and spacers at least 8595 along the plane of the screed plate and control changes in loads on dynamometers during installation of spacers and assembly.

According to the invention, the spacers are made in the form of a truncated wedge, the two side walls of which are parallel to each other and have the shape of a trapezoid, while 12-(1.05-1.20) Ii, where I- is the smaller base of the trapezoid, and Ii" is the larger one the base is 75 trapezoids, and the other two are made in the form of rectangles with an area of 1350-1450 cm.

It is known that turbine factories use two methods of installing frames on the foundation. In one case, the foundation frames can rest on special collateral steel plates concreted into the upper belt of the foundation. After adjusting the position of the bearing housings and turbine cylinders, carefully machined permanent pads are installed between the support plates and the foundation frames. Otherwise, the foundation slabs rest on paired wedges, which in turn rest directly on the foundation concrete. If the height of the paired wedges is insufficient, additional flat spacers are installed under them. Frames (plates) are attached to the foundation with studs, which usually pass through the entire thickness of the foundation beam, and after alignment of the turbine, the parts of the paired wedges are attached to each other by electric welding. For a better connection with the mass of the foundation, the frames (plates) are poured with a concrete solution after alignment and closing of the cylinders, which makes this part of the turbine unit inseparable (B.V. Abalakov, B.I. Reznikov, Installation of turbo-units and synchronous compensators. -

M.: Higher school. 1983. - 296p). In addition, after pouring with a concrete solution, after 6-8 days, the position of the boring centers is checked. After tightening the cylinder connectors, check the tightness of the cylinder supports to the foundation frames (plates), the load on the dynamometers, and the position of the control borings.

The latter should not differ by more than 0.005 mm from their position before tightening the fasteners. As can be seen from the above, such complex technologies for assembling turbine units require no less complex technologies for repair work, which include the destruction of foundations and their renewal. I

The proposed method of installation is fundamentally different from the known topics, which proposes to eliminate the gaps between the (3) supporting bonks of the balconies of the lower halves of the CNT, without destroying the foundation of the turbine unit, which will significantly reduce the repair time and reduce repair costs.

Fig. 1 Scheme of wear of the CNT bonka and its milling. co

Fig. 2 Scheme of installation of the gasket between the foundation plate and bonko.

An example of the implementation of the method. When carrying out repair work on the K-300-240Ost turbine. Mo4 of the Trypil TPP revealed gaps between the support bonks 1 of the balconies of the lower halves of the CNT 1, the 11th and 111th streams and the foundation slabs 2. To eliminate the specified gaps, it is proposed to perform the following works. Dismantle « 70 of the lower half of the CNT. Move the lower half for milling bonks 1. At the same time, the thickness of layer 2, which is removed, is 5-7 mm, depending on the damage to the foundation plate C and bonks 1. The unevenness of the thickness of layer 2, which is removed, is acceptable according to the ratio 6-(1 ,2-1,5) a, where a is a smaller thickness "" of the layer to be removed, b is a greater thickness of the layer to be removed, with the fact that the thickness of the fitting plates 4 (Fig. 2) was no more than 10-20 mm. After milling, the surface of the bonka is chamfered along the slab, ensuring a fit of at least 8595. At the same time, milling and processing of the foundation slab is carried out, also ensuring a fit of at least 8595 planes. After finishing the processing of the cans and foundation slabs, slinging, lifting and transportation of the lower part of the cylinder by crane to the place of installation on the foundation are carried out. where Preliminary calibration of the cylinder is carried out in a position raised above the foundation. Forces are applied to the cylinder in both the vertical and horizontal directions from the foundation for the final adjustment of its position in the axial direction, the alignment of the cylinder and the rotor in the horizontal and vertical planes, and in the plane of the horizontal separation of the cylinder in the transverse direction. Install the cylinder on

Ge; dynamometers resting on the foundation with control of this position, then mount the cylinder halves.

Pre-prepared spacers, the area of which is equal to the contact area of the cans, approximately 350x40 Ohm and 10-20 mm thick, are installed on the foundation plates (Fig. 2). At the same time, they ensure the quality of adhesion of the surfaces of the foundation plates, the contact surfaces of the cans and gaskets at least 8595 along the plane of the scraping plate. When fitting gaskets, load changes are controlled by dynamometers, which are not unloaded (F) by more than 200Okg. z Gaskets are made in the form of a truncated wedge, the two side walls of which are parallel to each other and have the shape of a trapezoid, while I2-(1.05-1.5)I4, where O/ is the smaller base of the trapezoid, and I" is the larger base trapezoids, and the other two 6bo are made in the form of rectangles with an area of approximately 350x400mm or 1350-1450cm2,

As can be seen from the description of the example of the implementation of the invention, it allows to simplify the installation of the turbine unit, in particular, during repair after a long period of operation, as a result of which there are gaps between some support banks of the balconies on one side and unacceptable loads between other support banks of the same balconies on the other side. 65 The time to eliminate dangerous deformations is reduced by 1-1.5 months, the cost of work is reduced by 25-3095 in comparison with other approaches to eliminate the gaps between the CNT turbine bonks and the foundation plates, which were formed as a result of the operation of the turbine.

Claims (2)

The formula of the invention 1. The method of installation of steam turbine cylinders, mainly low-pressure cylinders during preventive maintenance of the turbine unit, which includes sequential assembly, slinging, lifting and transportation of the cylinder by crane to the place of installation on the foundation, preliminary calibration of the cylinder in a position raised above the foundation, / about adding to the cylinder in vertical and horizontal directions of forces on the part of the foundation for the final adjustment of its position in the axial direction, the alignment of the cylinder and the rotor in the horizontal and vertical planes, the horizontal separation plane of the cylinder in the transverse direction and the installation of the cylinder on dynamometers resting on the foundation, with control of this position, which is distinguished by the fact that before the start of installation work, the cylinder is dismantled from the foundation with subsequent milling. And by scraping the surface of the foundation slabs and supporting cans of the balcony of the lower half of the cylinder, pre-prepared spacers are installed on the foundation slabs, the area of which is equal to the contact area of the cans, which ensures that the surfaces of the foundation slabs, the contact surfaces of the cans and spacers fit at least 85 95 along the plane of the screed slab, cylinder assembly and monitor load changes on dynamometers during installation of gaskets and assembly. 2. The method according to claim 1, which differs in that the spacers are made in the form of a cut wedge, the two side walls of which are parallel to each other and have the shape of a trapezoid, while 1/5 - (1.05-1.2)14, where 14 - the smaller base of the trapezoid, and 15 - the larger base of the trapezoid, and the other two walls have a rectangular shape, with an area of 1350-1450 cm. - and? so ko (Se) of them 50 (32) ko 60 b5