CS217037B1 - Insurance body of printing spaces of steam turbines - Google Patents

Abstract

The invention solves the problem of a safety device for pressure spaces of steam turbines, which, when used, does not require the turbine and operation to be shut down, with the possibility of not installing it and testing it during operation. The stated effect is achieved by means of a shaped laminated elastic member, placed in the body and connected to the pressure space of the steam turbine, by means of which the expansion space valve is opened.

Description

The invention is solved by an insurance authority of the printing space of steam turbines.

Currently, the most widely used safety device for pressure and vacuum spaces in steam turbines are disposable diaphragms in which the vapor pressure acts either directly on the diaphragm or on the diaphragm in which the cutting mandrel is located against the positive pressure or on the diaphragm secured by the shear lever pin. In case of actuation, the diaphragm and the pin are permanently damaged if all these safety authorities are actuated. Further, conical closures, rotary shutters acting as a locking member in conjunction with various auxiliary transfer cylinders are known. However, these devices have the disadvantage that they cannot be used to test the steam turbine in operation, despite the relatively complicated adjustment of the prescribed pressure.

The object of the invention substantially reduces the disadvantages of current safety devices and is based on the fact that in the hollow body of the resilient member a shaped laminated elastic member is interleaved with a sliding coating, sealed with a sealing insert and firmly fixed by a clamping flange. an elastic link rod fastened by means of a gripper, on which the inner spring support with the elastic member spring is firmly attached from the outside against the shaped, layered elastic member and slidingly slidably adjusted the spring adjusting support supported by the outer surface; the regulating head of the elastic member is secured, secured by a lock nut, where the regulating insert head is adjustablely mounted on the threaded part of the valve stem against the regulating head of the elastic member, behind which the same threaded part d Valve spring support with valve spring, supported by a fixed valve spring support, firmly connected to the expansion chamber cover, in which the bearing with the valve stem seal is housed, where the expansion space is bounded by the expansion chamber body between which and the pressure chamber of the steam turbine is located in the seat of the valve disc and where in the axis of the body of the expansion chamber is located the body of the auxiliary cylinder, with a piston firmly connected to the valve stem, passing through the bearing with the auxiliary cylinder and its cover and where the auxiliary working cylinder is connected to the venting pipe and the auxiliary working cylinder pipe to which they are connected, both the solenoid valve with the pressure escape line and the solenoid valve with the steam turbine pressure chamber connecting line and where of the electromagnetic valve.

Since the pressure chamber of the steam turbine is connected to the body of the laminated, shaped, resilient member, the same pressure is exerted on the member, the bulging of the resilient member at overpressure injecting the overpressure into the auxiliary working cylinder. everything returns to the operating state, where it can be done! operational testing of this device by simply shutting down the operating pressure and using another test medium and measuring the course of overpressure, while the steam turbine is in full operation, simply by adjusting the control insert.

An exemplary embodiment of the invention is shown in the drawings, wherein FIG. 1 is a cross-sectional view of a hollow body of a resilient member having a basic pressure setting; FIG. 2 shows an enlarged cross-section and configuration of a shaped laminated resilient member; 4, the arrangement of the expansion chamber valve including the elastic member and the auxiliary working cylinder for the winding diameters.

In the hollow body 1 of the resilient member connected by a pipe 2 to the pressure space 16 of the steam turbine (Fig. 3), a shaped laminated resilient member 4, interspersed with sliding coatings 5, is disposed opposite the support yoke 2 as shown in Fig. 2. £. This shaped laminated elastic member 4 is sealed by a gasket 6 and fixedly fixed in the hollow body 1 of the elastic member 4 by a clamping flange 7. Along its axis, this shaped laminated elastic member 4 is firmly connected by a central gripper 8, also serving as a bearing surface to the support yoke. 2 'in the case of a vacuum in the steam turbine pressure chamber 16. The center retainer 8 is rigidly connected to a rod 2 »which means rigidly associated with the rod 2 inside the support 10 of the spring encloses the layered shaped elastic member 4, wherein the sliding coating as 2 l ^of a mixture of graphite used oil, high temperature tolerant. The number of layers of the shaped resilient member 4 is determined by the operating pressure of the pressure space 16 of the steam turbine. Slider 9 slidably mounted on ^E-axis regulating spring abutment 12 between which and the inner abutment 10 of the spring is a spring 11 of the elastic member 4. The outer surface of abutment 12 of the control spring is mounted adjustably in the housing 13 of the control support 12 and the body is rigidly connected with the the body 7 of the elastic member. By means of a spring support 12, the bias of the spring member 11 for the maximum allowable pressure in the pressure chamber 16 of the steam turbine is adjusted, and the threaded portion of the drawbar 2 is adjustable to accommodate a regulating head 15 which is supplemented by a stop 39 in the case of larger diameters. In the case of smaller diameters of the expansion spaces 21, as shown in FIG. 3, in the axis of the control member 15 of the resilient member is located on the threaded portion of the valve stem 19, a control insert 28 extending laterally into the control head 15 of the resilient member. In the same threaded portion of the valve stem 19, the valve spring control support 26 is adjustable, secured by a lock nut 27 where a valve spring 25 is mounted between a fixed valve spring support 24 firmly connected to the expansion chamber cover 23. In the body. 20 of the expansion chamber, a bearing with a valve stem seal 22 is disposed on the inside of the cover 23. In FIG. The valve seat 17 with the valve plate 18 then separates the expansion space 21 from the pressure space 16 of the steam turbine. When the overpressure in the pressure space 16 of the steam turbine and hence the same overpressure in the body 1 of the elastic member exceeds a predetermined limit, the elastic deformation of the shaped, layered elastic member is thereby deformed, thereby shifting the rod. 2 ^{with the} control member 15, the resilient member, which by pressure not the regulating insertion head 28 and thereby pressure on the valve stem 19, opens the valve plate 18 in the valve seat 17 and overpressure from the pressure space 16 of the steam turbine escapes into the expansion chamber 21. overpressure in the pressure space 16 of the steam turbine and hence in the elastic member body 1 to a predetermined limit, the shaped, layered elastic member 4 returns to the operating position and releasing the elastic member head 15 also releases the regulating insertion head 28 with valve stem 19 and the pressure of the valve spring 25, closes the valve plate 18 in the valve seat 17. As shown in FIG. 4, for large diameters of expansion spaces, an auxiliary working cylinder body 29 is coaxially fixed to the expansion chamber body 20, in the axis of which the valve stem 19 extends with the piston 30 fixedly connected to the auxiliary working cylinder cover 32. a bearing with a seal 31 is mounted on the inside and the valve spring support 24 is again fixed on the outside. From the space of the auxiliary working cylinder 29, the ducts are vented 33 and the auxiliary working cylinder ducts 36 to which they are connected, on the one hand the solenoid valve 37 with line 2 for pressure leakage, and the solenoid valve 22 with the connecting line 21 '. which is connected to the pressure space 16 of the steam turbine.

A spacer gap is left between the regulating head 15 of the resilient member and the valve insertion head 26 to operate the stop 39. If overpressure exceeds the permissible pressure in the pressure space 16 of the steam turbine, the shaped, layered resilient member 4 is resiliently deformed and thereby displaced connecting rod 9. ^»e control head 15 of the elastic member with the stop 39, which opens the electromagnetic valve 35. the connecting line 34, which pressure line 36, enters the auxiliary working cylinder 29 pushing the plunger 30 opens the valve plate 18 in the seat 17 of the valves, This connects the expansion space 21 with the printing space 16 of the turbine. By dropping the overpressure, the shaped, laminated resilient member 4 and thus the resilient member 15 of the resilient member are returned, with a stop 39 which, on return, closes the solenoid valve 35 from the connecting line 34, thereby closing the pressure supply from the hammer. The space 39 of the steam turbine, on the one hand in reverse, opens the cue 39, ^{not the} time. 30, a solenoid valve 37 with a pressure escape line 38 thereby relieving pressure from the auxiliary working cylinder 28, whereupon the valve spring 25 closes the valve plate 18 in the valve seat 17.

It is also possible to attach another solenoid valve to the vent line 23 and back pressure, closing the valve plate 18 in the valve seat 17. After the pressure is released from the auxiliary work cylinder 29, the pressure escape solenoid valve 38 is closed again, whereby everything is returned to operating condition. When operating, the cushion 39 must also be released.

Claims (2)

SUBJECT OF THE INVENTION A steam turbine pressure chamber relief member comprising an expansion chamber actuated by a resilient member, characterized in that a shaped laminate resilient member (4) is disposed in a hollow body (1) of the resilient member (4) against the support bracket (3), interspersed with sliding coatings (5), sealed with a sealing insert (6) and firmly fixed by a clamping flange (7), in the axis of which a tie rod (9) on which it is externally fastened against a shaped laminated resilient member (4) a fixed spring inner support (10) with a spring (11) of the resilient member (4) with a non-slidable spring adjuster (12) slidably mounted on an outer surface in an adjustable body (13) of the control support (12); the adjusting head (15) of the elastic member (4) is adjustable, secured by a lock nut (14), where the threaded part of the elastic member (4) is a three-way valve stem (19) is adjustable to receive a regulating insert (28) from which the same threaded part of the valve stem (19) is adjustable and secured by a lock nut (27) a regulating support (26) of the valve spring (25) a fixed abutment (24) firmly connected to the expansion chamber cover (23) in which the bearing with the seal (22) of the valve stem (19) is accommodated, the expansion chamber (21) being bounded by the expansion chamber body (20) between a valve disc (18) is mounted in the seat (17) and in the pressure chamber (16) of the steam turbine. 2. A safety device according to claim 1, characterized in that an auxiliary working cylinder body (29) with a piston (30) fixedly connected to the valve stem (19) extending through the bearing with the seal (31) is arranged in the axis of the expansion chamber body (20). ) of the auxiliary working cylinder and its cover (32) and wherein in the auxiliary working cylinder body (29) the venting pipe (33) and the auxiliary working cylinder pipe (36) to which they are connected are connected and the solenoid valve (37) 38) for the pressure leakage, the solenoid valve (35) is connected via a connecting line (34) of the pressure chamber (16) of the steam turbine, and a control stop (39 of the solenoid valves (35,37) is mounted on the control head (15) of the flexible member.