CN201568596U

CN201568596U - Ball valve

Info

Publication number: CN201568596U
Application number: CN2009201220662U
Authority: CN
Inventors: 郑科辉; 竺国荣
Original assignee: NINGBO XINGJIAN SPACE MANUFACTORY
Current assignee: Ningbo Xingjian Space Manufactory Inc.
Priority date: 2009-06-05
Filing date: 2009-06-05
Publication date: 2010-09-01
Anticipated expiration: 2019-06-05

Abstract

Disclosed is a ball valve, a main valve body component (300) comprises a main valve body (1), a ball body (3) arranged in the main valve body (1), an upper shaft (4) which is rotatably matched with the main valve body (1), a gland (5) which is connected with the main valve body (1) and axially limits the upper shaft (4), and a lower shaft (6) which is connected with the main valve body (1), wherein the upper shaft (4) is fixedly connected with the upper end of the ball body (3), the lower end of the ball body (3) is rotatably connected with the lower shaft (6), the right end of a left valve seat 9 is connected with the left end of the main valve body 1 in a sliding way, the left end of a right valve seat 9.1 is connected with the right end of the main valve body 1 in a sliding way, the vertical distance between the right end surface of a left auxiliary valve body (2) and the left end surface of a right pair valve body (2.1) is larger than the axial distance of the main valve body (1). Compared with the prior art, the ball valve simultaneously has the advantages of a float ball valve and a fixed ball valve, further has small operation torque, long service life and better sealing reliability.

Description

Ball valve

Technical field:

The utility model belongs to valve class device field, particularly relates to a kind of ball valve.

Background technique:

At present, ball valve is mainly used to make the flow direction of cut-out, distribution and change medium in pipeline.Ball valve is little with fluid resistance, simple in structure, the sealing surface of spheroid and valve seat and media isolated, passage is smooth smooth, be difficult for deposition medium, and be not only applicable to the general work medium, but also be applicable to the medium that operating conditions is abominable, be widely used in each field such as oil, chemical industry, generating, papermaking, atomic power, aviation, rocket, and in people's daily life.

The valve body of ball valve can be whole, also can be knockdown.What prior art was used at the bigbore environment of high pressure is fixing spherical ball valve, and the last lower rotary shaft of this ball valve is fixed on the spheroid, so spheroid is also fixed, does not produce mobilely behind the pressurized, is used in the high-pressure large-caliber environment.Because fixedly spherical ball valve all has unsteady valve seat, after being subjected to pressure medium or spring action, valve seat produces and moves, and seal ring is pressed on the spheroid, to guarantee sealing, but spheroid is fixed, and valve seat presses on the spheroid all the time, so there are wear problems all the time in valve seat and ball seal face, working life is short, and switching process belongs to the dynamic seal (packing) process, and the valve seat dynamic stress causes easily and seals inhomogeneous and the appearance leakage, and sealing reliability is poor; What use at the small-bore environment of mesolow is the floating ball ball valve, and the spheroid of this ball valve floats, and under the pressure medium effect, spheroid can produce certain displacement and be pressed on the sealing surface of outlet end, and the assurance outlet end seals.Though the good airproof performance of floating ball ball valve, but spheroid bears the load of working medium and has all passed to the exit seal circle, therefore the seal ring of outlet end is standing the work loads of medium, only be applicable to the small-bore environment of mesolow, and spheroid is unsteady, and valve rod is fixed, then in opening process, because the axis of spheroid and valve rod exists and departs from, this refuses with regard to having caused extra operation to turn round, and makes operation turn round and refuses to increase.

The model utility content:

The utility model provides a kind of possess simultaneously the floating ball ball valve and the fixing advantage of spherical ball valve at above problem, has operation again and turns round and refuse for a short time, and long service life and sealing reliability be ball valve preferably.

The utility model overcomes the above problems used technological scheme: a kind of ball valve with following structure is provided, it comprises the main valve body assembly, valve seat that is connected with the main valve body assembly and the auxiliary valve body that is connected with valve seat one end, be provided with spring between described valve seat and the auxiliary valve body, described valve seat comprises left valve seat and right valve seat, described auxiliary valve body comprises left auxiliary valve body and right auxiliary valve body, described main valve body assembly comprises main valve body, be positioned at the spheroid of main valve body, go up axle with main valve body is rotatably assorted, be connected with main valve body and to the gland and the lower shaft that is connected with main valve body of last axle axial limiting, the described axle of going up is fixedlyed connected with the upper end of spheroid, the lower end and the lower shaft of spheroid are rotationally connected, the right-hand member of described left valve seat and the left end of main valve body are slidingly connected, the left end of described right valve seat and the right-hand member of main valve body are slidingly connected, during the central position of main valve body between left auxiliary valve body and right auxiliary valve body, be provided with spacing I between described left auxiliary valve body right side and the main valve body left side, be provided with spacing II between right auxiliary valve body left side and the main valve body right side.

Be provided with Sealing between described valve seat and the spheroid.

Be provided with stud and supporting strut between described left valve seat and the right valve seat.

Described spring is a disk spring.

After adopting above structure, the utility model compared with prior art, because the distance between left auxiliary valve body right side and the right auxiliary valve body left side is greater than the axial distance of main valve body, and a valve seat part is that sliding fit is in main valve body, another part sliding fit of valve seat is in auxiliary valve body, then when the certain pressure opening state, right valve seat is subjected to the pressure medium effect, right valve seat floats to the right, fit fully until the end face of right valve seat and the end face of right auxiliary valve body, disk spring is compressed into minimum position, and at this moment, spheroid and right valve seat break away from fully, left side valve seat does not have active force to spheroid, so sealing surface is not fitted, and does not have friction, closing torque mainly is to go up the axial force that axle forms and moment of torsion that the frictional force that produces causes under the pressure medium effect; When the certain pressure closed condition, in the moment of quick closedown, because effective actual internal area of outlet is much smaller than the sectional area of inlet caliber, form pressure reduction, spheroid floats to outlet end under the effect of pressure reduction, float to outlet end thereby drive valve component integral body, be fitted on the right valve seat until spheroid.Therefore the utility model possesses the floating ball ball valve and the fixing advantage of spherical ball valve, has operation simultaneously again and turns round and refuse for a short time, closes rapidly, and valve seat and ball seal face can not exist wearing and tearing and good seal performance can realize the characteristics of " zero " leakage all the time.

As improvement, described spacing I and spacing II are all greater than the distance of spacing III, but the summation that all adds the extrusion deformation degree allowable of Sealing less than spacing III, then can guarantee when the certain pressure closed condition, spheroid has the amount of deformation of an extruding to be no more than the extrusion deformation degree allowable of Sealing itself to the Sealing between right valve seat and the spheroid, so that keep good sealing state at the working environment of high-pressure high-flow.

As further improvement, be equipped with the groove that matches with disk spring on described left auxiliary valve body and the right auxiliary valve body, the degree of depth of described groove is the perpendicular distance between disk spring two working ends when freely placing, when fitting with the end face of the end face that prevents valve seat and auxiliary valve body, disk spring is driven plain and lost efficacy, thereby guarantees the reliability of sealing.

Description of drawings:

Fig. 1 is the structural representation of the utility model ball valve.

Fig. 2 is the plan structure schematic representation of Fig. 1.

Fig. 3 is the structure for amplifying schematic representation of A part under the certain pressure opening state of Fig. 1.

Fig. 4 is the structure for amplifying schematic representation of A part under the certain pressure closed condition of Fig. 1.

As shown in the figure: 1, main valve body, 101, spacing I, 102, spacing II, 103, spacing III, 2, left auxiliary valve body, 2.1, right auxiliary valve body, 3, spheroid, 300, main valve body assembly, 4, go up axle, 5, gland, 6, lower shaft, 7, sliding bearing I, 8, sliding bearing II, 9, left valve seat, 9.1, right valve seat, 10, disk spring, 11, supporting strut, 12, pad, 13, stud.

Embodiment:

Below in conjunction with accompanying drawing and concrete embodiment, the utility model is described further, but the utility model is not limited to following embodiment:

A kind of ball valve as depicted in figs. 1 and 2, it comprises main valve body assembly 300, valve seat that is connected with main valve body assembly 300 and the auxiliary valve body that is connected with valve seat one end, be provided with disk spring 10 between described valve seat and the auxiliary valve body, described valve seat comprises left valve seat 9 and right valve seat 9.1, described auxiliary valve body comprises left auxiliary valve body 2 and right auxiliary valve body 2.1, the left end sliding fit of left side valve seat 9 is at the right-hand member of left auxiliary valve body 2 inner chambers, the right-hand member sliding fit of left side valve seat 9 is at the left end of main valve body 1 inner chamber, and be equipped with the O RunddichtringO between left valve seat 9 and the left auxiliary valve body 2 and between left valve seat 9 and the main valve body 1, to guarantee sealability each other; The left end sliding fit of right valve seat 9.1 is at the left end of right auxiliary valve body 2.1 inner chambers, the left end sliding fit of right valve seat 9.1 is at the right-hand member of main valve body 1 inner chamber, and be equipped with the O RunddichtringO between right valve seat 9.1 and the right auxiliary valve body 2.1 and between right valve seat 9.1 and the main valve body 1, to guarantee sealability each other; Described main valve body assembly 300 comprises main valve body 1, be positioned at the spheroid 3 of main valve body 1, go up axle 4 with main valve body 1 is rotatably assorted, be connected with main valve body 1 and to the gland 5 and the lower shaft 6 that is connected with main valve body 1 of last axle 4 axial limitings, between main valve body 1 and the lower shaft 6 the O RunddichtringO is housed, last axle 4 one ends extend main valve body 1, be provided with sliding bearing I 7 between last axle 4 and the main valve body 1, and last axle 4 is glanded 5 by spacing on main valve body 1 about the step on the last axle 4, axle 4 rotations are the frictional force that is subjected in order to reduce upward, gland 5 and on the axle 4 steps between the pad on the lower pad 12 of friction factor, simultaneously in order to guarantee the sealing effect of main valve body 1, reach sliding bearing I 7 between sliding bearing I 7 and the main valve body 1 and between last axle 4, be equipped with the O RunddichtringO, the described axle 4 gone up is fixedlyed connected with the upper end of spheroid 3, the lower end of spheroid 3 and lower shaft 6 are rotationally connected, the lower end and the lower shaft 6 that are meant spheroid 3 are provided with sliding bearing II 8, the other end of described valve seat and main valve body 1 are slidingly connected, be meant the left end inner chamber of the right-hand member sliding fit of left valve seat 9 at main valve body 1, the left end sliding fit of right valve seat 9.1 is at the right-hand member inner chamber of main valve body 1, during the central position of main valve body 1 between left auxiliary valve body 2 and right auxiliary valve body 2.1, be provided with spacing I 101 between described left auxiliary valve body 2 right sides and main valve body 1 left side, be provided with spacing II 102 between right auxiliary valve body 2.1 left sides and main valve body 1 right side.

Be provided with Sealing between described valve seat and the spheroid 3, be provided with spacing III103 between described Sealing and the spheroid 3, described spacing III103 is not less than zero.

Be provided with stud 13 and supporting strut 11 between described left auxiliary valve body 2 and the right auxiliary valve body 2.1.

Described spacing I 101 and spacing II 102 be all greater than the distance of spacing III103, but all add the summation of the extrusion deformation degree allowable of Sealing less than spacing III103.

Be equipped with the groove that matches with disk spring 10 on described left auxiliary valve body 2 and the right auxiliary valve body 2.1, the perpendicular distance between two working ends of the degree of depth of described groove disk spring 10 when freely placing.

During assembling, at first assemble main valve body assembly 300, sliding bearing I 7 is packed in the main valve body 1, sliding bearing II8 packs in the spheroid 3, subsequently spheroid 3 is packed in the main valve body 1, to go up axle 4 and lower shaft 6 more respectively and put the main valve body 1 of packing into behind the O RunddichtringO, and allocate spheroid 3 upper and lower end respectively into, with bolt lower shaft 6 is fixed on the main valve body 1 again, on last axle 4, pack into successively subsequently pad 12 and gland 5, by bolt gland 5 is fixed on the main valve body 1 again, at this moment, last axle 4 is glanded 5 end face and is pressed on the main valve body 1, after more left valve seat 9 and right valve seat 9.1 being put the O RunddichtringO, about the main valve body 1 of packing into, allocate disk spring 10 in the groove on left auxiliary valve body 2 and right auxiliary valve body 2.1 subsequently after, be assembled to respectively again on corresponding left valve seat 9 and the right valve seat 9.1, simultaneously pillar 11 is assembled on left valve seat 9 and the right valve seat 9.1, with stud 13 that left valve seat 9 and right valve seat 9.1 is fixing again.

As shown in Figure 3, when the certain pressure opening state, in left side auxiliary valve body 2, right auxiliary valve body 2.1, left valve seat 9, right valve seat 9.1 and the spheroid 3 pressure is arranged all, to the pressure medium effect, when this active force surpassed the elastic force of disk spring 10, right valve seat 9.1 floated to the right, right side and right auxiliary valve body 2.1 until right valve seat 9.1 are fitted fully, at this moment disk spring 10 is compressed into minimum position, owing to be provided with groove on the right auxiliary valve body 2.1, can avoid disk spring 10 to be driven plain and loses efficacy.At this moment, spheroid 3 breaks away from fully with right valve seat 9.1, under this state, because spheroid 3 is not fitted with the sealing surface of right valve seat 9.1, just there is not friction problem, so the moment of torsion when closing mainly is to go up axle 4 to form axial force under the effect of pressure, and the moment of torsion that the frictional force that produces causes, moreover, make moment of torsion drop to minimum owing to the extremely low pad 12 of friction factor has been installed at the step place of last axle 4.

As shown in Figure 4, when the certain pressure closed condition, in the moment of quick closedown, because effective actual internal area of outlet is much smaller than the sectional area of inlet caliber, in passage, form pressure reduction, spheroid 3 is under differential pressure action, float to outlet end, effect spheroid 3 drive valve components 300 integral body by last axle 4 and lower shaft 6 are floated to outlet end, the sealing surface of Sealing is fitted on spheroid 3 and right valve seat 9.1, this time interval III103 equals zero, and under this state, the distance of spacing II 102 is less than the extrusion deformation degree allowable of seal ring.Then under the continuation effect of pressure; the spacing of spacing II 102 constantly reduces until equalling zero; because spacing II 102 remaining distances are less than the extrusion deformation degree allowable of seal ring; the Sealing of pressure-bearing is also in extrusion-deformation scope allowable; still can normally use; when medium load keeps increase; the medium load of this part increase this moment is by active force and the reaction force of main valve body assembly 300 with right auxiliary valve body 2; and bear indirectly at last axle 4; sliding bearing I 7; on lower shaft 6 and the sliding bearing II 8; the stressed fixedly spherical ball valve stress that is equal under the then this state; the load that increases so subsequent medium pressure increases; do not act directly on the seal ring; can keep certain seal pressure again, sealing is well reliable and can effectively protect seal ring not to be damaged.

Claims

1. ball valve, it comprises main valve body assembly (300), valve seat that is connected with main valve body assembly (300) and the auxiliary valve body that is connected with valve seat one end, be provided with spring between described valve seat and the auxiliary valve body, described valve seat comprises left valve seat (9) and right valve seat (9.1), described auxiliary valve body comprises left auxiliary valve body (2) and right auxiliary valve body (2.1), described main valve body assembly (300) comprises main valve body (1), be positioned at the spheroid (3) of main valve body (1), go up axle (4) with main valve body (1) is rotatably assorted, be connected with main valve body (1) and to the gland (5) and the lower shaft (6) that is connected with main valve body (1) of last axle (4) axial limiting, the described axle (4) of going up is fixedlyed connected with the upper end of spheroid (3), the lower end of spheroid (3) and lower shaft (6) are rotationally connected, it is characterized in that: the left end of the right-hand member of described left valve seat (9) and main valve body (1) is slidingly connected, the right-hand member of the left end of described right valve seat (9.1) and main valve body (1) is slidingly connected, when main valve body (1) is positioned at central position between left auxiliary valve body (2) and the right auxiliary valve body (2.1), be provided with spacing I (101) between described left auxiliary valve body (2) right side and main valve body (1) left side, be provided with spacing II (102) between right auxiliary valve body (2.1) left side and main valve body (1) right side.

2. ball valve according to claim 1 is characterized in that: described valve seat and spheroid are provided with Sealing between (3), are provided with spacing III (103) between described Sealing and the spheroid (3), and described spacing III (103) is not less than zero.

3. ball valve according to claim 1 is characterized in that: be provided with stud (13) and supporting strut (11) between described left auxiliary valve body (2) and the right auxiliary valve body (2.1).

4. ball valve according to claim 1 is characterized in that: described spacing I (101) and spacing II (102) be all greater than the distance of spacing III (103), but all add the summation of the extrusion deformation degree allowable of Sealing less than spacing III (103).

5. ball valve according to claim 1 is characterized in that: described spring is disk spring (10).

6. ball valve according to claim 5, it is characterized in that: be equipped with the groove that matches with disk spring (10) on described left auxiliary valve body (2) and the right auxiliary valve body (2.1), the degree of depth of described groove is the perpendicular distance between disk spring (10) two working ends when freely placing.