SU6431A1 - Device for regulating turbines with double or multiple steam extraction - Google Patents

Description

In turbines With steam extraction, the pressure in the steam extraction stage is regulated by an overflow valve, which, simultaneously with the steam inlet valve, is influenced by the machine power regulator and the pressure regulator depending on the pressure in the selection stage. In this case, the power regulator acts on both valves, in the same direction, so that with load fluctuations more or less steam passes through the entire machine, and at the same time the pressure in the selection stage remains unchanged. But if the branch quantity of steam changes at constant power, then the pressure regulator shifts both valves in the opposite direction, so that the amount of steam flowing into the machine adapts to the consumption at the take-off point, and at the same time the power change of the turbine stages, lying to the branch point, is compensated by a reverse change in the power of the steps lying after the branch.

With turbines with double or multiple steam extraction, a new difficulty is added: it is necessary to strive so that, with fluctuations in the amount of steam branched at one of the sampling points, not only the power delivered by the machine remains unchanged, but also, if possible, the pressure in each from branch points. This effect in itself is achievable by separating the action of the individual regulating devices, i.e., becoming the inlet valve exclusively under the action of the centrifugal regulator, and each bypass valve separately, under the action of the corresponding pressure regulator. But such a device has the disadvantage that as soon as one of the controllers comes into action due to a change in the condition on which it depends, then all the other operating conditions of the machine, on which the action of other controllers depends, must change. Due to this, all these regulators will additionally cease the corresponding organs, and this, in turn, will result in the opposite effect on the first regulator. Thus, each time there must be a long rearrangement of the individual parts back and forth until a new equilibrium condition is established.

The regulating device according to the invention, with any change in operating conditions, whether it is a power fluctuation or a change in the branched amount of steam at one of the branch points, must continuously activate only one appropriate regulator in order to directly place all valves in the correct position for new working conditions. The invention consists in that the inlet valve for fresh steam and all the relief valves are driven by the centrifugal regulator in the same direction, while each individual pressure regulator, independently of other regulators, rearranges the regulators lying to the corresponding branch stages, in one direction, and those lying after this stage, in the opposite direction.

The proposed device is represented in the drawing, in which the letter a denotes a two-case condensing turbine with two sampling points b vi c. Under d there is an organ for fresh steam inlet, under the e-by-pass valve of sampling point b, under the /-valve of point c. The pressure regulator for the selection point b is indicated by the letter g, and for the point with the letter h. The centrifugal regulator is denoted by r. Like the pressure regulator g, it acts on lever k, which has pivot points in / and yes. The outer end j of chaga k is operated by both valves e, f connected by one lever n, with the help of a pull o, which at point p has a hinge connection with lever n. The lever n is further connected by a hinge connection at point g to the pressure regulator stem q h; the points of rotation of the lever p are p and f, the lever S of the organ d for admitting fresh steam is also connected by a hinged connection at the point g to the stem of the pressure regulator h and has at the point to the second point of rotation in which the lever s is connected to lever k.

The mode of operation of the regulating device is as follows. If the load of the machine changes, then the lever k, under the action of the centrifugal regulator i, rotates around the point of rotation /. The levers s and "should then turn both simultaneously around a common point of rotation up or down, so that the regulators d, e, f are rearranged in the same direction. If a pressure change occurs at the sampling point b, then the lever k, under the pressure of the pressure regulator g, rotates around point t. Due to this movement of lever k, one of the levers n and 5 should turn down, the other up, around the same point of rotation. Thus, the pressure regulator g shifts the organ to let in fresh steam in the opposite direction than the bypass valve f. If pressure fluctuations occur at branch point c, then lever A remains at rest, while levers L and 5 at point g, under the action of pressure regulator h, must simultaneously move up or down around points p and. Since the lever s has one shoulder, the lever n, on the contrary, in this case, two shoulders, whose point of rotation p lies between valve e and /, thanks to the pressure regulator / g, both valves d and e are rearranged in the same direction, and bypass valve / - in the opposite direction to them.

The subject of the patent.

1. A device for regulating turbines with double or multiple steam extraction in which the pressure in the extraction stages is regulated by bypass valves influenced by the centrifugal regulator and individual pressure regulators, characterized by the fact that the steam inlet valve d and the bypass valves are e and / are resetted in one direction, while each individual pressure regulator (g or K), independently of the other regulators, shifts all valves lying down to the corresponding stage steam extraction in one general

between themselves, the valves, which lie behind this step, in the opposite direction.

2. The form of implementation of the device described in claim 1, characterized in that the pressure regulator h of the second stage is articulated with two levers, of which the lever S has a pivot point in and re-sets the steam inlet valve and the arm p with a pivot point p reattaches the overflow valve In the first selection stage, in the same direction as the valve d, the same bypass valve / second selection stage is opposite to the first two directions, and the levers s and at the points and p are reset by the pressure regulator g of the first selection stage in opposite directions, and the centrifugal regulator i-in the same.