CN211549787U - Steam turbine independent control high-pressure main steam regulating valve - Google Patents

Abstract

The utility model relates to a turbine independent control high pressure main steam regulating valve, which comprises a valve body, wherein a valve A, a valve B and a valve C which are parallel to each other are transversely arranged on the valve body, and the three valves have the same structure; the valve body is provided with a steam inlet, the upper side of the valve body corresponding to the steam inlet is provided with three guide holes for mounting the valve, and the lower side of the valve body corresponding to the steam inlet is provided with three steam outlet holes coaxially opposite to the guide holes; the three valves respectively comprise a guide valve sleeve, a valve rod and a valve seat, the guide valve sleeve is arranged in the guide hole, the valve rod penetrates through a central through hole of the guide valve sleeve, the valve tail of the valve rod upwards extends out of the guide valve sleeve and is connected with the servomotor through a coupler, the valve head of the valve rod is assembled at the lower part of the guide valve sleeve and matched with the servomotor to enter and exit the guide valve sleeve, and the valve seat is correspondingly arranged below the valve head and is fixed at a steam outlet; the utility model provides a steam turbine independent control high pressure main vapour governing valve, through independent combination steam valve design that can work jointly again each other, realize the function of coordinated steam flow.

Description

Steam turbine independent control high-pressure main steam regulating valve

Technical Field

The utility model relates to a steam turbine valve equipment technical field especially relates to a steam turbine independent control high pressure main steam governing valve.

Background

The steam turbine is the main equipment of thermal power factory, realizes the admission of steam, the steam extraction of steam turbine through the cooperation action of various valves, and wherein high pressure main vapour governing valve is the valve of adjusting main steam flow. The steam turbine is generally arranged at the rear end of a main steam valve, the number of the arranged steam valves is 4, the steam valves are dispersedly and symmetrically arranged on two sides of the steam turbine, and the speed of steam entering a high-pressure cylinder to do work is regulated respectively. Each high-pressure main steam regulating valve is provided with a self oil engine, a valve body, a valve rod, a valve seat and other part sleeves. The conventional high-pressure main steam regulating valve has the following problems in the working process:

1. the valve seat of the high-pressure main steam regulating valve is assembled on the valve body in an interference fit mode, and is fixed in a surfacing mode and generally cannot be detached. After long-term operation, the valve seat is damaged, only the valve seat can be broken and replaced, the maintenance and installation cost is high, and the field operation is not easy.

2. The high-pressure main steam regulating valve adopts a valve sleeve to realize the sliding and sealing between a valve rod and a valve body. The valve sleeve structure is a through long structure, the inner hole is sprayed with stellite alloy for treatment or is matched with the valve rod for sliding after nitriding treatment, and the valve rod is long, so that the sprayed coating falls off after long-term operation, the straightness is poor, the oxide skin is serious, and the clamping stagnation phenomenon is frequent.

3. In the operation process of the steam turbine unit, the valve rod and the valve head are required to be incapable of rotating relative to the valve seat, the valve rod and the valve head are two parts in the design structure of the high-pressure main steam regulating valve generally, a rotation preventing key and a positioning pin are arranged between the valve rod and the valve head, rotation prevention and connection fixing functions are achieved respectively, however, the structural design is complex, and after long-term operation, the connection position is seriously oxidized, so that the disassembly and the maintenance are difficult.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a steam turbine independent control high pressure main vapour governing valve, through independent combination steam valve design that again can the combined operation each other, realize coordinating the function of steam flow.

The technical scheme adopted by the utility model is that: a high-pressure main steam regulating valve independently controlled by a steam turbine comprises a valve body, wherein a valve A, a valve B and a valve C which are transversely arranged in parallel are arranged on the valve body, and the three valves have the same structure;

the valve body is provided with a steam inlet, the upper side of the valve body corresponding to the steam inlet is provided with three guide holes for mounting the valve, and the lower side of the valve body corresponding to the steam inlet is provided with three steam outlet holes coaxially opposite to the guide holes;

the three valves respectively comprise a guide valve sleeve, a valve rod and a valve seat, the guide valve sleeve is arranged in the guide hole, the valve rod penetrates through a central through hole of the guide valve sleeve, the valve tail of the valve rod upwards extends out of the guide valve sleeve and is connected with the servomotor through a coupler, the valve head of the valve rod is assembled at the lower part of the guide valve sleeve and matched with the servomotor to enter and exit the guide valve sleeve, and the valve seat is correspondingly arranged below the valve head and is fixed at a steam outlet;

the guide valve sleeve comprises a positioning part which is provided with a central through hole and integrally penetrates through the central through hole and is positioned in the middle, a sliding part which is integrally connected above the positioning part and has a diameter smaller than that of the positioning part, and an action part which is integrally connected below the positioning part and has a diameter smaller than that of the positioning part; the outer side surface of the middle part of the positioning part is tightly clamped in a stepped hole preset in the guide hole, the outer edge of the top of the positioning part is provided with a circle of pressing ring groove, the lower groove surface of the pressing ring groove is provided with a sealing ring and a middle ring, the guide hole on the outer side of the upper end surface of the middle ring is provided with a circular ring groove, a split structure is arranged in the ring groove, the outer side surface of the split structure is clamped in the ring groove, and the inner side surface of the split structure is clamped with a;

the upper part of the sliding part extends out of the guide hole, the upper end surface of the guide hole is fixedly provided with a middle disc, the center of the middle disc is tightly sleeved on the outer side surface of the sliding part, and the upper end surface of the middle disc is pressed with a fastening nut in threaded connection with the outer side surface of the sliding part; a sealing assembly is arranged between a central through hole in the sliding part and the valve rod, and the upper end of the sealing assembly is pressed and fixed through a hollow locking nut which is assembled at the outer side of the valve rod and the outer side of which is screwed and embedded into a preset threaded hole in the center of the top of the sliding part;

the valve head of valve rod has open-ended cup dress structure for the lower part that the diameter is greater than valve rod middle section diameter, the ladder hole of the cooperation valve head that communicates with central through hole is seted up to the action portion, installs the piston ring between the lateral surface of valve head and the ladder hole lateral wall of action portion, and the first balancing hole that link up from top to bottom is seted up to the top cup bottom department of valve head.

As a further limitation to the above technical solution, the diameters of the valve B and the valve C are equal and largest, and the diameter of the valve a is smallest.

As a further limitation to the above technical solution, the valve head is provided with a plurality of spiral grooves on the outer side corresponding to the lower part of the piston ring, the outer side of the lower end of the valve head is provided with an arc chamfer, and the inner side of the valve seat, corresponding to the arc chamfer contacting with the valve head, of the central through hole is provided with an arc surface.

As a further limitation to the above technical scheme, the valve seat is in interference fit in a step hole preset in the steam outlet hole through a cold-assembling process, an anti-rotation pin in interference fit with the valve body is installed on the side surface of the valve seat, a second balance hole for balancing the internal and external air pressures of the anti-rotation pin body is formed in the anti-rotation pin along the axis of the anti-rotation pin, a pin-unloading thread is processed at the outer end of the second balance hole, and a plug screw is installed on the valve body outside the anti-rotation pin.

As a further limitation to the technical scheme, two sides of the valve seat in the valve body are provided with turbulence peaks.

As a further limitation to the above technical solution, the servomotor is connected to the valve body through a hollow servomotor spool, the upper end of the servomotor spool is fixedly connected to the servomotor through a flange with a spigot structure and a bolt, the lower end of the servomotor spool is fittingly clamped to a middle plate on the upper end face of the valve body through the flange with the spigot, a stud is inserted into a flange hole of the lower end flange, the stud downwardly penetrates through the middle plate and is threadedly connected to a thread preset on the side wall of a guide hole of the valve body, and the upper end of the stud is screwed and fixed through a nut.

As a further limitation to the technical scheme, the coupler comprises an intermediate shaft, a main body, a safety plate and a vertical bracket, wherein an output shaft of the servomotor is connected with the upper part of the intermediate shaft through threads and is provided with a locking gasket; the lower part of the intermediate shaft is arranged in a threaded hole which is pre-arranged in the center of the upper part of the main body in a threaded fit manner, the lower part of the main body is provided with a notch groove which is vertically communicated with the threaded hole and is through from front to back, and the top of the notch groove is fixedly clamped with a safety plate which is assembled with the bottom of the intermediate shaft in a directional flat manner; an annular groove with a square cross section is formed in the notch groove below the safety plate, two half nuts which are oppositely opened from left to right and have the outer four aspects corresponding to the annular groove are installed in the annular groove, one side of each of the two half nut buckles is fixedly connected through a screw, and the other side of each of the two half nut buckles is fixedly connected with a vertical support; the upper end of the valve rod extends into the lower part of the main body and is installed in the threaded through holes of the two half nuts through threads, a circle of square flat cross section is processed below the valve rod extending out of the main body, the lower part of the vertical support is provided with a fork which horizontally clamps the left side face and the right side face of the square flat cross section, and the tail end of the fork is fixedly connected through a screw.

As a further limitation to the above technical solution, the directional flat is a cuboid whose cross section is rectangular, a positioning groove matched with the directional flat is formed in the center of the safety plate, and the groove edge of the positioning groove is closely matched with the short edge of the directional flat and is in clearance fit with the long edge of the directional flat.

As a further limitation to the above technical solution, the middle upper section of the positioning portion of the guide valve sleeve is tightly fitted with the stepped hole of the guide hole, the middle lower section of the positioning portion and the lower portion of the positioning portion are provided with stepped shafts having gradually smaller diameters, and a gap is reserved between the middle lower section of the positioning portion and the stepped hole.

As a further limitation to the above technical solution, the sealing assembly includes a group of graphite sealing rings and carbon pressure ring bushings press-fitted at upper and lower ends of the graphite sealing rings, the carbon pressure ring bushing at the lower end is clamped on a step preset in the central through hole, a locking nut is press-fitted on the carbon pressure ring bushing at the upper end, and an outer end of the locking nut extending out of the sliding portion is fixedly connected with an adjusting wrench for providing a screwing force.

Adopt above-mentioned technique, the utility model has the advantages of:

the utility model provides a novel integral type independent control high pressure main vapour governing valve, it has abandoned the mode that traditional high pressure main vapour governing valve dispersion was arranged, by independent three sets of servomotor, the valve rod, the disk seat, parts such as valve barrel assemble respectively into the A valve, the B valve, the C valve, every valve can independent action adjust self steam flow, can close a joint steam valve again, realize that the three valves coordinate the steam flow jointly, can realize carrying out independent regulation control to the steam flow to different load operating modes, satisfy the operation demand under the different operating modes of steam turbine, very big installation space that saves, and the production cost is reduced.

The utility model discloses well main vapour governing valve's valve rod possesses two functions, not only can realize the stroke action at the internal reciprocating motion of governing valve, and the valve rod lower extreme can be regarded as the valve head again, realizes the valve with the sealed face cooperation of disk seat and opens and close the action, and structural design is simple and convenient, and the dismouting maintenance is swift.

The utility model discloses well main vapour governing valve's valve rod rotation-proof structure sets up at the adjusting valve body outside, through shaft coupling, vertical support with servomotor output shaft, jackshaft fixed connection, realizes preventing of jackshaft and shaft coupling through the installation cooperation of constant head tank and directional flat and prevents changeing the function, clamps through the flat forked cooperation with vertical support in four directions, has realized preventing of shaft coupling and jackshaft, valve rod and has changeed the function. Compare with the inside structure that sets up the rotation prevention round pin of traditional valve body, the utility model discloses well valve rod has solved the problem that produces the bite because of high temperature after long-term the use, and has prevented that the rotation structure setting is outside, and the dismouting maintenance is simple and convenient, improves on-the-spot maintenance efficiency.

The utility model discloses well disk seat sets up to detachable construction with the valve body, and disk seat interference fit installs in the valve body exhaust hole and set up the stop pin in one side and realize fixing a position and prevent changeing dual function. During maintenance, the valve seat and the anti-rotation pin can be pulled out to replace a new valve seat or repaired offline. The problem of traditional disk seat build-up welding unable dismantlement after the installation is solved, easy dismounting has, the efficient advantage of maintenance.

The utility model discloses in through setting up the vortex peak, block steam to the blow-damage of valve rod, valve head on the one hand, on the other hand carries out the shear reposition of redundant personnel to the steam of valve body inside.

The utility model discloses carbon clamping ring bush and graphite sealing ring that set up between well valve rod and the direction valve barrel have hardness low, high temperature resistant, corrosion-resistant, stand wear and tear characteristic, effectual protected with the contact surface of valve rod and improved life.

Drawings

FIG. 1 is a schematic view of the connection between the high-pressure main steam control valve and the high-pressure cylinder;

FIG. 2 is a sectional view taken along the line A-A of FIG. 1 of the high pressure main steam control valve of the present invention;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is an enlarged view of FIG. 2 at B;

FIG. 5 is a D-D sectional view of the high pressure main steam regulating valve of the present invention shown in FIG. 2;

fig. 6 is a cross-sectional view from E to E of the high-pressure main steam regulating valve of the present invention shown in fig. 2.

In the figure: 1-a valve body; 101-a steam inlet; 102-steam outlet holes; 103-flange hole; 104-a seal groove; 2-valve a; 3-valve B; 4-valve C;

5-a guide valve sleeve; 501-positioning part; 502-a slide; 503-an action part; 504-a seal ring; 505-an intermediate ring; 506-a pressure ring; 507-steam outlet holes; 508-intermediate disk; 509-vent hole; 510-a graphite sealing ring; 511-carbon pressure ring liner; 512-lock nut; 513-adjusting wrench; 514-fastening nuts;

6-valve stem; 601-a piston ring; 602-a cyclone tank; 603-a first balancing hole;

7-valve seat; 701-an anti-rotation pin; 702-a second balancing hole; 703-plug screw; 704-spoiler peak;

801-intermediate shaft; 802-a body; 804-a vertical support; 805-anti-loose gaskets; 806-oriented flat; 807-security plate; 808-half nuts; 809-square flat; 810-a second insulation board;

9-oil engine; 901-servomotor spool; 902-a gasket; 903-a stud; 904-support sleeve; 905-a support plate; 906-a first insulation board; 10-high pressure cylinder.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Example 1

As shown in fig. 1-6, the turbine independently-controlled high-pressure main steam regulating valve comprises a valve body 1, a cavity is formed in the valve body 1, a steam inlet 101 is formed in the left end face of the valve body 1, three guide holes located in the same row are formed in the upper side face of the valve body 1 at intervals, a valve a2, a valve B3 and a valve C4 are respectively installed in the three guide holes, three steam outlets 102 are formed in the lower side face of the valve body 1, and the three steam outlets 102 are coaxially opposite to the three guide holes.

The end face of the steam inlet 101 of the valve body 1 is provided with a flange plate integrally connected with the valve body 1, the flange plate is connected with the main steam valve through a bolt arranged in a flange hole, the flange plate is provided with a sealing groove 104, and a tooth-shaped sealing gasket is arranged in the sealing groove 104, so that the end face sealing of the two valves is realized. The main steam regulating valve regulates and controls the steam input by the main steam valve through the steam inlet 101, and the steam is conveyed into the high-pressure cylinder and then subsequently operated by the high-pressure cylinder.

A valve a2, a valve B3 and a valve C4 are respectively installed in three guide holes on the valve body 1 from left to right, and the three valves have the same internal structure and respectively comprise a guide valve sleeve 5, a valve rod 6 and a valve seat 7. The guide valve sleeve 5 is arranged in the guide hole, and the middle section of the valve rod 6 is arranged in the central through hole of the guide valve sleeve 5 in a penetrating manner; the valve tail of the valve rod 6 extends upwards out of the guide valve sleeve 5 and is connected with the servomotor 9 through a coupling; the valve head of the valve rod 6 is assembled at the lower part of the guide valve sleeve 5 and is matched with the servomotor 9 to enter and exit the guide valve sleeve 5; the valve seat 7 is corresponding to the position below the valve head and fixed at the steam outlet hole 102.

The connection between the valve rod 6 and the valve body 1 is shown in fig. 3-4, and the guiding valve sleeve 5 includes a positioning portion 501 located in the middle, a sliding portion 502 integrally connected above the positioning portion 501, and an actuating portion 503 integrally connected below the positioning portion 501. The sliding portion 502 has a diameter smaller than that of the operating portion 503, and the operating portion 503 has a diameter smaller than that of the positioning portion 501.

The positioning portion 501 is provided with an integrally penetrated central through hole, the middle upper section of the positioning portion 501 is tightly matched with a stepped hole preset in the guide hole, the middle lower section of the positioning portion 501 and the lower portion of the positioning portion 501 are stepped shafts with gradually reduced diameters, and a gap is reserved between the middle lower section of the positioning portion 501 and the stepped hole.

The outer fringe at location portion 501 top is processed the round and is compressed tightly the annular, compresses tightly the lower part groove face of annular and from bottom to top and install sealing ring 504 and intermediate ring 505 in proper order, and sealing ring 504 adopts high temperature resistant, the resistant graphite material of wearing and tearing to compress and process. A circular ring groove is formed in a guide hole on the outer side of the upper end face of the middle ring 505, a pressure ring 506 is installed in the ring groove, the pressure ring 506 is of a split four-half structure, the outer side face of the pressure ring 506 is clamped in the ring groove, and the inner side face of the pressure ring 506 is clamped on the upper groove face of the pressing ring groove, so that the axial positioning of the guide valve sleeve 5 is realized. The annular groove surface matched with the pressure ring 506 is provided with a steam outlet 507 communicated with the outside, and the right side of the steam outlet 507 is connected with a steam exhaust steel pipe through threads to guide steam to the drainage flash tank.

The upper part of the sliding part 502 extends out of the guide hole, the upper end surface of the guide hole is fixedly provided with the intermediate disc 508, the center of the intermediate disc 508 is tightly sleeved on the outer side surface of the sliding part 502, the upper end surface of the intermediate disc 508 is pressed with the fastening nut 514 in threaded connection with the outer side surface of the sliding part 502, and the center of the upper end surface of the intermediate disc 508 is provided with a rabbet groove matched with the mounting nut, so that the axial positioning of the guide valve sleeve 5 is realized. The intermediate plate 508 is provided with a steam exhaust hole 509 communicated with the outside inside the valve body 1, and the steam exhaust hole 509 is in threaded connection with a steam exhaust steel pipe so as to lead the steam entering the sliding part 502 out of the valve body 1 in time.

The sliding part 502 is provided with a central through hole integrally communicated with the positioning part 501, and a sealing assembly is arranged between the central through hole and the valve rod 6, wherein the sealing assembly comprises a group of graphite sealing rings 510 and carbon pressure ring bushings 511 which are pressed on the upper end and the lower end of the graphite sealing rings 510. The arrangement of the series of the grouped graphite sealing rings 510 has the characteristics of low hardness, high temperature resistance, corrosion resistance and wear resistance, effectively protects the contact surface with the valve rod 6 and prolongs the service life. The carbon pressure ring liner 511 is composed of a liner base body and a graphite ring mounted in the base body. The carbon compression ring bushing 511 positioned at the lower end is clamped on a step preset in a central through hole in the sliding part 502; the carbon pressure ring bushing 511 located at the upper end is pressed and fixed by a lock nut 512. The lock nut 512 is hollow and fitted outside the valve stem 6, and the outer side surface of the lock nut 512 is screwed into a screw hole penetrating the central through hole in the upper part of the sliding part 502. The upper end of the lock nut 512 extends out of the top of the sliding part 502, and the extending part is fixedly connected with an adjusting wrench 513, so as to provide a screwing force, apply a proper torque and a pretightening force to the sealing assembly and ensure the adjustment of the installation clearance with the valve rod 6.

The valve head of the valve rod 6 is of a cup-shaped structure with the diameter increased and the lower part opened. The lower end face of the action part 503 extends into the space between the steam inlet axis and the upper end face of the valve seat, the action part 503 is provided with a stepped inner hole communicated with the central through hole in the sliding part 502, and the stepped inner hole is matched with the valve head.

A piston ring 601 is arranged between the outer side surface of the valve head and the side wall of the stepped inner hole of the action part 503 and is used for blocking steam leakage. A plurality of cyclone grooves 602 are formed on the outer side surface of the valve head and corresponding to the lower part of the piston ring 601, the number of the cyclone grooves 602 is 4-6, and the cyclone grooves are always matched in the stepped inner hole of the action part 503, so that steam resistance is generated on steam entering the gap, the direction of the air flow is changed, and cyclones are formed, and therefore the permeation of the steam to the piston ring 601 is weakened and eliminated.

In order to correspond to the work quantity of three independent steam outlet grooves and the anticlockwise blades of the subsequent guide controller, the drift diameter of the valve seat 7 of the valve A2 is the minimum, and the drift diameters of the valve seats 7 of the valve B3 and the valve C4 are equal and the maximum. That is, the inner diameter of the valve seat 7 of the valve a2 is the smallest, the inner diameters of the valve seat 7 of the valve B3 and the valve C4 are the same and the largest, and the difference in the diameters indicates the difference in the maximum steam admission amount. To achieve rotor rotation direction and speed, valve a2 is located at inlet 101. According to the valve A2, the valve B3 and the valve C4, drift diameter difference is set, and opening and closing strokes are independently controlled, so that the function of independently adjusting the flow of steam is realized.

The top cup bottom of the valve head is provided with a first balance hole 603 which is through up and down, the first balance hole 603 is symmetrically distributed along the axis of the valve rod 6, and can be a straight hole which is parallel to the axis of the valve rod 6 or an inclined hole which forms an angle with the axis of the valve rod 6. When the valve rod 6 moves upwards, one path of steam enters the valve seat 7 and flows downwards to the guide controller, the other path of steam enters the upper part of the valve head through the first balance hole 603 and is blocked by the sealing function of the sealing assembly to flow downwards and rotate into the valve seat 7, and therefore air pressure balance and follow-up performance of the upper part of the valve head and the lower part of the valve head under working conditions are achieved.

The outer side of valve head lower extreme processing circular arc chamfer, central through-hole is seted up to disk seat 7, and the central through-hole of disk seat 7 corresponds the inner side processing of the circular arc chamfer contact with the valve head and is the arc surface, and the valve head through valve rod 6 slides downwards at the ladder hole of action part 503 and cooperates with the arc surface contact of disk seat 7, realizes opening and closing of valve.

The cross-sectional view of the valve seat 7 is shown in fig. 5, the valve seat 7 is in interference fit in a step hole preset in the steam outlet hole 102 through a cold-assembling process, a groove is formed in the side surface of the valve seat 7, and an anti-rotation pin 701 in interference fit with the valve body 1 is installed on the side surface of the valve seat 7, so that the anti-rotation function and the positioning function of the valve seat 7 are realized. The anti-rotation pin 701 is provided with a second balance hole 702 for balancing the internal and external air pressures of the anti-rotation pin 701 body along the axis of the anti-rotation pin, so that the internal and external air pressures of the anti-rotation pin 701 are balanced and the anti-rotation pin is smoothly installed in the interference assembly process. The outer end of the second balance hole 702 is provided with a pin dismounting thread so as to be dismounted by pulling after screwing in a tool, and a screw plug 703 for sealing is arranged on the valve body 1 outside the anti-rotation pin 701. After the main steam regulating valve runs for a long time, the valve seat 7 damaged in running can be maintained or replaced by detaching the anti-rotation pin 701 and the plug screw 703, so that the maintenance cost is reduced, and the maintenance time is shortened.

The left and right sides of valve body 1 inside, disk seat 7 sets up vortex peak 704, and vortex peak 704 is the design of mountain peak type to block the blow-off of steam to the valve head of valve rod 6, and carry out the shear reposition of redundant personnel to the steam that gets into valve body 1 inside. The height of the turbulence peak 704 is higher than the height of the valve head of the valve rod 6 exposed outside the action part 503 of the guide valve sleeve 5 and is flush with the axis of the valve body 1. The length of the turbulence peak 704 opposite to the side of the steam inlet 101 of the valve body 1 is 1/2 of the diameter of the valve head. The distance of the turbulent flow peak 704 distributed at the position of the valve B3 is 2 times that of the turbulent flow peak 704 distributed at the positions of the valve A2 and the valve C4, so that the valve B3 is a main adjusting valve, and the valve A2 and the valve C4 are auxiliary adjusting valves. The flow rates of the steam outputted from the respective motors are controlled by the operation of the servomotor 9 which controls the valve a2, the valve B3, and the valve C4.

The cross-sectional views of the valve rod 6 and the coupling are shown in fig. 3 and 6, the servomotor 9 is connected with the valve body 1 through a hollow servomotor valve column 901, the upper end of the servomotor valve column 901 is fixedly connected with the servomotor 9 through a flange plate with a spigot structure and a bolt, the lower end of the servomotor valve column 901 is clamped on a middle disc 508 on the upper end face of the valve body 1 through the flange plate with the spigot in a matching manner, and gaskets 902 are mounted on two faces of the middle disc 508. The lower end face of the middle disc 508 is provided with a protruding spigot matched with the valve body 1, and the upper end face of the middle disc 508 is provided with a protruding spigot matched with the oil engine valve column 901.

The stud 903 penetrates through a flange hole at the lower end of the servomotor valve column 901, downwards penetrates through the middle disc 508 and is in threaded connection with a thread preset on the side wall of a guide hole of the valve body 1, the upper end of the stud 903 penetrates through a support sleeve 904 and is screwed and fixed through a nut, and the stud 903 is conveniently dismounted and mounted through the support sleeve 904.

A supporting plate 905 is fixed on the valve body 1, the servomotor valve column 901 or the intermediate disk 508 through screws, the cross section of the supporting plate 905 is inverted-L-shaped, the vertical section of the supporting plate 905 is fixed with the valve body 1, the servomotor valve column 901 or the intermediate disk 508, the horizontal section of the supporting plate 905 is fixedly connected with first heat insulation plates 906 arranged on the periphery of the lower portion of the servomotor valve column 901, and therefore heat influence on the servomotor valve column 901 and the servomotor 9 when the whole valve body 1 is heated is prevented.

The coupling includes a central shaft 801, a body 802, a safety plate 807, and a vertical brace 804.

The upper portion of the intermediate shaft 801 is a cylinder with a regular hexagonal cross section, the upper portion of the intermediate shaft 801 is connected with the output shaft of the servomotor 9 through a central threaded blind hole, a locking gasket 805 is mounted between the output shaft of the servomotor 9 and the intermediate shaft 801, the locking gasket 805 is provided with two foldable long sides, the two long sides are respectively attached to the outer side face of the intermediate shaft 801 and the outer side face of the output shaft of the servomotor 9, and a locking function of screwing the output shaft of the servomotor 9 and the intermediate shaft 801 is achieved. The lower part of the middle shaft 801 is installed in a threaded hole which is pre-opened in the center of the upper part of the main body 802 in a threaded fit mode. The threaded end face of the bottom of the intermediate shaft 801 is provided with a flat orientation 806. The orientation flat 806 is a rectangular parallelepiped with a rectangular cross section.

The lower part of main part 802 is seted up and is link up from top to bottom and the penetrating opening groove of front and back side with the screw hole, the safety plate 807 of the top of opening groove through the fix with screw and directional flat assembly, the constant head tank that matches with directional flat 806 is seted up at the center of safety plate 807, the groove edge of constant head tank closely cooperates with the minor face of directional flat 806, with the long limit clearance fit of directional flat 806 to the rotation-proof function of jackshaft 801 with main part 802 has been realized.

An annular groove with a square cross section is formed in the notch groove below the safety plate 807, two half nuts 808 which are oppositely opened from left to right are installed in the annular groove, and the two half nuts 808 have four outer sides corresponding to the annular groove. One side of the two half nuts 808 is fixedly connected through a screw, so that the two half nuts 808 are tensioned and positioned, and the other side of the two half nuts 808 is fixedly connected with a vertical support 804 through a screw. The vertical support is L-shaped and comprises a vertical plate and two branches arranged at the lower part of the vertical plate, the vertical plate is connected to the other side of the two half nuts 808, the branches are horizontal plates, and the branches are arranged towards the valve rod 6.

The upper end of the valve rod 6 extends into the lower part of the main body 802 and is installed in the threaded through holes of the two half nuts 808 through threads, a circle of square flat 809 with a square cross section is machined below the valve rod 6 extending out of the main body 802, the square flat 809 is clamped and forked in the square flat 809, the forked tail end is clamped in the square flat 809 through screw fixed connection, the intermediate shaft 801 and the valve rod 6 are fixed and connected together through the main body 802, and meanwhile, the anti-rotation positioning function is achieved.

The top of the main body 802 is fixedly provided with a second heat insulation plate 810 with a two-half structure, the second heat insulation plate 810 is provided with a central hole, and the central hole of the second heat insulation plate 810 penetrates through the thread root part of the intermediate shaft 801 and is fixed on the main body 802 through a screw, so that steam heat conducted by the valve rod 6 is blocked and dispersed, the normal working temperature of the oil engine is ensured, and the normal and stable operation of the valve under the high-temperature working condition is ensured.

A steam turbine independent control high pressure main vapour governing valve, its working process, steam gets into valve body 1 inside from steam inlet 101, then shunts via vortex peak 704, flows to around disk seat 7, servomotor 9 drives valve rod 6 and slides from top to bottom in the central through-hole of direction valve barrel 5, when the valve head of valve rod 6 contacts with disk seat 7, the valve is closed. When the valve head moves upwards to leave the valve seat 7, the valve is opened, steam comes out from the steam outlet hole 102, the flow of the steam is further adjusted by adjusting the distance between the valve head and the valve seat 7, and the valve A2, the valve B3 and the valve C4 can respectively control the flow of the steam output by themselves and can coordinate the flow of the steam together, so that the operation requirements of the steam turbine under different working conditions are met.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be covered by the present invention within the technical scope of the present invention, and the technical solution obtained by replacing or changing the technical idea of the present invention with equivalents.

Claims (10)

1. The utility model provides a steam turbine independent control high pressure main steam governing valve which characterized in that: the valve comprises a valve body (1), wherein a valve A (2), a valve B (3) and a valve C (4) which are transversely arranged and parallel to each other are arranged on the valve body (1), and the three valves have the same structure;

the steam valve is characterized in that the valve body (1) is provided with a steam inlet (101), the upper side of the valve body (1) corresponding to the steam inlet (101) is provided with three guide holes for mounting a valve, and the lower side of the valve body (1) corresponding to the steam inlet (101) is provided with three steam outlet holes (102) coaxially opposite to the guide holes;

the three valves respectively comprise a guide valve sleeve (5), a valve rod (6) and a valve seat (7), the guide valve sleeves (5) are installed in the guide holes, the valve rods (6) penetrate through central through holes of the guide valve sleeves (5), valve tails of the valve rods (6) upwards extend out of the guide valve sleeves (5) and are connected with the servomotor (9) through a coupler, valve heads of the valve rods (6) are assembled at the lower parts of the guide valve sleeves (5) and matched with the servomotor (9) to enter and exit the guide valve sleeves (5), and the valve seats (7) are correspondingly arranged below the valve heads and fixed at steam outlet holes (102);

the guide valve sleeve (5) comprises a positioning part (501) which is provided with a central through hole and penetrates through the positioning part integrally, a sliding part (502) which is connected above the positioning part (501) integrally and has a diameter smaller than that of the positioning part (501), and an action part (503) which is connected below the positioning part (501) integrally and has a diameter smaller than that of the positioning part (501); the outer side surface of the middle part of the positioning part (501) is tightly clamped in a stepped hole preset in a guide hole, a circle of pressing ring groove is processed at the outer edge of the top of the positioning part (501), a sealing ring (504) and an intermediate ring (505) are installed on the groove surface of the lower part of the pressing ring groove, a circular ring groove is formed in the guide hole on the outer side of the upper end surface of the intermediate ring (505), a split structure is installed in the ring groove, a pressure ring (506) with the outer side surface clamped in the ring groove and the inner side surface clamped and connected with the groove surface;

the upper part of the sliding part (502) extends out of the guide hole, the upper end surface of the guide hole is fixedly provided with an intermediate disc (508) the center of which is tightly sleeved on the outer side surface of the sliding part (502), and the upper end surface of the intermediate disc (508) is pressed with a fastening nut (514) in threaded connection with the outer side surface of the sliding part (502); a sealing component is arranged between a central through hole in the sliding part (502) and the valve rod (6), and the upper end of the sealing component is pressed and fixed by a locking nut (512) which is arranged outside the valve rod (6) in a hollow mode and is screwed and embedded into a threaded hole preset in the center of the top of the sliding part (502) through threads on the outer side surface;

the valve head of valve rod (6) has open-ended cup dress structure for the lower part that the diameter is greater than valve rod (6) middle section diameter, action portion (503) offer with the ladder hole of the cooperation valve head of central through hole intercommunication, install piston ring (601) between the lateral surface of valve head and the ladder hole lateral wall of action portion (503), the first balancing hole (603) that link up from top to bottom is seted up to the top cup bottom department of valve head.

2. The turbine independently controlled high pressure main steam regulating valve of claim 1, wherein: the drift diameters of the valve B (3) and the valve C (4) are equal and maximum, and the drift diameter of the valve A (2) is minimum.

3. The turbine independently controlled high pressure main steam regulating valve of claim 1, wherein: the valve head is provided with a plurality of cyclone grooves (602) corresponding to the outer side surface of the lower part of the piston ring (601), the outer side surface of the lower end of the valve head is provided with an arc chamfer, and the inner side surface of the valve seat (7) which is provided with a central through hole and is in contact with the arc chamfer of the valve head is provided with an arc surface.

4. The turbine independently controlled high pressure main steam regulating valve of claim 1, wherein: the valve seat (7) is in interference fit in a step hole preset in the steam outlet hole (102) through a cold-assembling process, an anti-rotation pin (701) in interference fit with the valve body (1) is installed on the side face of the valve seat (7), a second balance hole (702) for balancing the internal and external air pressure of the anti-rotation pin (701) body is formed in the anti-rotation pin (701) along the axis of the anti-rotation pin, pin-unloading threads are machined in the outer end of the second balance hole (702), and a screw plug (703) is installed on the valve body (1) outside the anti-rotation pin (701).

5. The turbine independently controlled high pressure main steam regulating valve of claim 1, wherein: and turbulent flow peaks (704) are arranged on two sides of the valve seat (7) in the valve body (1).

6. The turbine independently controlled high pressure main steam regulating valve of claim 1, wherein: the hydraulic servomotor (9) is connected with the valve body (1) through a hollow servomotor valve column (901), the upper end of the servomotor valve column (901) is fixedly connected with the servomotor (9) through a flange plate with a spigot structure and a bolt, the lower end of the servomotor valve column (901) is clamped on a middle disc (508) on the upper end face of the valve body (1) in a matched mode through the flange plate with the spigot, a stud (903) penetrates through a flange hole of the flange plate at the lower end, the stud (903) penetrates through the middle disc (508) downwards and is in threaded connection with a thread preset on the side wall of a guide hole of the valve body (1), and the upper end of the stud (903) is screwed and fixed through a nut.

7. The turbine independently controlled high pressure main steam regulating valve of claim 1, wherein: the coupler comprises an intermediate shaft (801), a main body (802), a safety plate (807) and a vertical support (804), wherein an output shaft of the servomotor (9) is connected with the upper part of the intermediate shaft (801) through threads, and a locking gasket (805) is installed on the output shaft; the lower part of the intermediate shaft (801) is arranged in a threaded hole which is pre-arranged in the center of the upper part of the main body (802) in a threaded fit manner, the lower part of the main body (802) is provided with a notch groove which is vertically communicated with the threaded hole and is through from front to back, and the top of the notch groove is fixedly clamped with a safety plate (807) which is assembled with a directional flat plate (806) which is pre-arranged at the bottom of the intermediate shaft (801); an annular groove with a square cross section is formed in a notch groove below the safety plate (807), two half nuts (808) which are oppositely opened left and right and have four outer sides corresponding to the annular groove are installed in the annular groove, one side of each of the two half nuts (808) is fixedly connected through a screw, and the other side of each of the two half nuts (808) is fixedly connected with a vertical support (804); the upper end of the valve rod (6) extends into the lower part of the main body (802) and is installed in the threaded through holes of the two half nuts (808) through threads, a circle of square flat (809) with a square cross section is processed below the valve rod (6) extending out of the main body (802), the lower part of the vertical support (804) is provided with a fork which horizontally clamps the left side surface and the right side surface of the square flat (809), and the tail end of the fork is fixedly connected through a screw.

8. The turbine independently controlled high pressure main steam control valve of claim 7, wherein: the cross section of the directional flat plate (806) is a rectangular cuboid, a positioning groove matched with the directional flat plate (806) is formed in the center of the safety plate (807), and the groove edge of the positioning groove is tightly matched with the short edge of the directional flat plate (806) and is in clearance fit with the long edge of the directional flat plate (806).

9. The turbine independently controlled high pressure main steam regulating valve of claim 1, wherein: the middle upper section of the positioning part (501) of the guide valve sleeve (5) is tightly matched with the stepped hole of the guide hole, the middle lower section of the positioning part (501) and the lower part of the positioning part (501) are provided with stepped shafts with gradually reduced diameters, and a gap is reserved between the middle lower section of the positioning part (501) and the stepped hole.

10. The turbine independently controlled high pressure main steam regulating valve of claim 1, wherein: the sealing assembly comprises a group of graphite sealing rings (510) and carbon pressure ring bushings (511) which are arranged at the upper end and the lower end of the graphite sealing rings (510) in a press-fitting mode, the carbon pressure ring bushings (511) located at the lower end are clamped on a preset step of the central through hole, locking nuts (512) are arranged on the carbon pressure ring bushings (511) located at the upper end in a press-fitting mode, and the outer ends, extending out of the sliding portions (502), of the locking nuts (512) are fixedly connected with adjusting wrenches (513) used for providing screwing force.

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