CN104006189A

CN104006189A - Erosive wear-resisting flow control system

Info

Publication number: CN104006189A
Application number: CN201410244638.XA
Authority: CN
Inventors: 邱晓来; 黄明金; 唐成泽; 殷志强; 胡志安; 郝晓虹; 王汉洲
Original assignee: CHAODA VALVE GROUP Co Ltd
Current assignee: CHAODA VALVE GROUP Co Ltd
Priority date: 2014-06-03
Filing date: 2014-06-03
Publication date: 2014-08-27

Abstract

The invention relates to an erosive wear-resisting flow control system. The erosive wear-resisting flow control system comprises a main pipe, a main ball valve and an auxiliary pipe. Both ends of the auxiliary pipe are connected with the inlet side and the outlet side of the main pipe; the flow area of the auxiliary pipe is smaller than that of the main pipe; the auxiliary pipe is provided with an auxiliary valve and a flow limiting mechanism, wherein the flow limiting mechanism is arranged on the inlet side of the auxiliary valve, which corresponds to the main pipe, and comprises a flow limiting hole formed in the flow channel of the auxiliary pipe, and the area of the flow limiting hole is smaller than the flow area of the auxiliary pipe. The erosive wear-resisting flow control system achieves the erosive wear-resisting effects.

Description

A kind of flow control system of protection against erosion wearing and tearing

Technical field

The present invention relates to a kind of flow control system of protection against erosion wearing and tearing of the pipe-line system that contains a large amount of hard solid particles for medium.

Background technique

For some pipe-line system, not only need switch to control, also need the parameters such as flow in regulation and control pipeline.For the pipe-line system that contains a large amount of hard solid particles in medium, conventionally adopt ball valve as the control valve of pipe-line system, conventionally ball valve is only controlled for the switch of pipe-line system, if adopt ball valve to carry out adjusting and the control of flow, needs to realize by changing the aperture of ball valve.Accompanying drawing 1 is by changing the aperture of ball valve, to carry out the situation of regulation and control flow, now ball valve is in the position that part is opened, due to dwindling of channel cross-section A and cross section B area, therefore flow that can regulation and control pipe-line system, but cause the rate of flow of fluid at this position to increase simultaneously, but also changed the flow circuits of medium, make high-velocity fluid directly be washed into sphere inner wall and valve interior wall, while containing hard solid particle in medium, fluid high-speed with hard solid particle washes away the erosive wear that is easy to cause spheroid C position and valve body D position, the aperture of spheroid is less, the pressure reduction of fluid is larger, the rate of flow of fluid of ball valve local location is just larger, valve is more easily washed wearing and tearing, when in fluid, the content of hard solid particle is higher, valve is more easily washed wearing and tearing.Therefore, for the medium operating mode containing hard solid particle, ball valve is conventionally only applicable to the switch of pipe-line system and controls, and is not suitable for Flow-rate adjustment and the control of pipe-line system.

In Practical Project, user has following usage requirement: the medium in pipe-line system contains a large amount of hard solid particles, when pipe-line system pressure is higher, need to carry out by valve the flow of regulation and control pipeline medium, avoid having an accident because flow is excessive, and pressure decreased in pipeline is after the pressure of regulation, require the unimpeded medium that makes of pipeline to discharge rapidly.

For containing a large amount of hard solid particles in medium, conventionally select ball valve as the control valve of pipeline, and during ball valve full open, pipeline is completely unimpeded, can meet the medium requirement of discharge rapidly, but system requirements need to carry out adjust flux by valve when loine pressure is higher, according to analysis above, when ball valve is used for containing the Flow-rate adjustment of hard solid particle medium, valve is easy to damage because of erosive wear, therefore, only adopts a billiard ball valve cannot meet user's usage requirement.

Summary of the invention

The deficiency existing for prior art, the flow control system that the object of the present invention is to provide a kind of protection against erosion to wear and tear.

For achieving the above object, the invention provides following technological scheme: a kind of flow control system of protection against erosion wearing and tearing, comprise main line and be arranged on the cue ball valve on main line, also comprise looped pipeline road, the two ends on described looped pipeline road respectively with the suction side of main line, outlet side is connected, the Flow area on described looped pipeline road is less than the Flow area of described main line, described looped pipeline is provided with auxiliary-valve and current-limiting mechanism on road, described current-limiting mechanism is arranged on the suction side position of the corresponding main line of auxiliary-valve, described current-limiting mechanism comprises the metering hole in the runner that is placed in looped pipeline road, the area of described metering hole is less than the Flow area on described looped pipeline road.

By adopting technique scheme, when cue ball valve and auxiliary-valve are closed, pipe-line system is in closed condition, when suction side pressure higher, while needing Open valve, can be by the auxiliary-valve full open on looped pipeline road, now, the high-pressure medium of suction side flows to outlet side by bypass, because the current limliting of current-limiting mechanism is under control flow, in addition, because the Flow area on looped pipeline road is greater than the area of metering hole, the restriction of restricted flow mechanism, the flow velocity on looped pipeline road has also obtained restriction, has avoided looped pipeline road because flow velocity is washed more greatly wearing and tearing.When suction side pressure, by looped pipeline road, release while being reduced to the pressure of regulation, cue ball valve can be opened, now can guarantee that main line is unimpeded, medium is discharged rapidly.Native system cue ball valve and auxiliary-valve all only need completely open and close operation, and do not need part to open, and therefore, can prevent valve and because part is opened, cause erosive wear.The design of native system can be good at meeting user's usage requirement.

The present invention further arranges: described current-limiting mechanism is set to flow-limiting plate, and described metering hole is arranged on the runner central position on the corresponding looped pipeline of flow-limiting plate road.

By adopting technique scheme, current limliting due to looped pipeline road, in MEDIA FLOW, have higher flow velocity during through current-limiting mechanism, because metering hole is arranged on the runner central position on the corresponding looped pipeline of flow-limiting plate road, therefore the high-velocity fluid through flow-limiting plate can directly not be washed into tube wall, guarantees that looped pipeline Lu Buhui is washed wearing and tearing.

The present invention further arranges: described looped pipeline road comprise the first pipeline section that one end is connected with the suction side of main line, the second pipeline section that one end is connected with the outlet side of main line and be arranged on the first pipeline section and the second pipeline section between the 3rd pipeline section, described auxiliary-valve is arranged between described the second pipeline section and the 3rd pipeline section, described flow-limiting plate is folded between described the first pipeline section and the 3rd pipeline section, and described the first pipeline section and the 3rd pipeline section are and removably connect.

By adopting technique scheme, when flow-limiting plate, can be changed after wearing and tearing easily through long-term use.

The present invention further arranges: described flow-limiting plate consists of high-abrasive material.

By adopting technique scheme, improved the working life of flow-limiting plate, thereby improved the working life of whole system.

The present invention further arranges: described cue ball valve and auxiliary-valve are all set to metal hard-sealing ball valve.

By adopting technique scheme, the working life of having improved cue ball valve and auxiliary-valve, thereby the working life of further having improved whole system.

Below in conjunction with accompanying drawing, the invention will be further described.

Accompanying drawing explanation

Fig. 1 is structural drawing when ball valve is for Flow-rate adjustment in prior art;

Fig. 2 is embodiment of the present invention structural drawing;

Fig. 3 is the E portion enlarged view of Fig. 2.

Embodiment

Referring to accompanying drawing 2, 3, the flow control system of protection against erosion wearing and tearing disclosed by the invention, comprise main line 1 and be arranged on the cue ball valve 2 on main line 1, also comprise looped pipeline road 3, the two ends on described looped pipeline road 3 respectively with the suction side 101 of main line 1, outlet side 102 is connected, the Flow area on described looped pipeline road 3 is less than the Flow area of described main line 1, on described looped pipeline road 3, be provided with auxiliary-valve 4 and current-limiting mechanism 5, described current-limiting mechanism 5 is arranged on suction side 101 positions of the corresponding main line 1 of auxiliary-valve 4, described current-limiting mechanism 5 comprises the metering hole 501 in the runner that is placed in looped pipeline road 3, the area of described metering hole 501 is less than the Flow area on described looped pipeline road 3.By adopting technique scheme, when cue ball valve 2 and auxiliary-valve 4 are closed, pipe-line system is in closed condition, when suction side 101 pressure higher, while needing Open valve, can be by the auxiliary-valve on looped pipeline road 34 full open, now, the high-pressure medium of suction side 101 flows to outlet side 102 by bypass, because the current limliting of current-limiting mechanism 5 is under control flow, in addition, because the Flow area on looped pipeline road 3 is greater than the area of metering hole 501, the restriction of restricted flow mechanism 5, the flow velocity on looped pipeline road 3 has also obtained restriction, avoided looped pipeline road 3 because flow velocity is washed more greatly wearing and tearing.When suction side 101 pressure, by looped pipeline road 3, release while being reduced to the pressure of regulation, cue ball valve 2 can be opened, now can guarantee that main line 1 is unimpeded, medium is discharged rapidly.Native system cue ball valve 2 and auxiliary-valve 4 all only need completely open and close operation, and do not need part to open, and therefore, can prevent valve and because part is opened, cause erosive wear.The design of native system can be good at meeting user's usage requirement.

The present embodiment further arranges: described current-limiting mechanism 5 is set to flow-limiting plate, and described metering hole 501 is arranged on the runner central position on the corresponding looped pipeline of flow-limiting plate road 3.By adopting technique scheme, current limliting due to looped pipeline road 3, in MEDIA FLOW, have higher flow velocity during through current-limiting mechanism 5, because metering hole 501 is arranged on the runner central position on the corresponding looped pipeline of flow-limiting plate road 3, therefore the high-velocity fluid through flow-limiting plate can directly not be washed into tube wall, guarantees that looped pipeline road 3 can not be washed wearing and tearing.

The present embodiment further arranges: described looped pipeline road 3 comprise the first pipeline section 301 that one end is connected with the suction side 101 of main line 1, the second pipeline section 302 that one end is connected with the outlet side 102 of main line 1 and be arranged on the first pipeline section 301 and the second pipeline section 302 between the 3rd pipeline section 303, described auxiliary-valve 4 is arranged between described the second pipeline section 302 and the 3rd pipeline section 303, described flow-limiting plate is folded between described the first pipeline section 301 and the 3rd pipeline section 303, and described the first pipeline section 301 and the 3rd pipeline section 303 are and removably connect.By adopting technique scheme, when flow-limiting plate, can be changed after wearing and tearing easily through long-term use.

The present embodiment further arranges: described flow-limiting plate consists of high-abrasive material.High-abrasive material can adopt cemented carbide, pottery etc.By adopting technique scheme, improved the working life of flow-limiting plate, thereby improved the working life of whole system.

The present embodiment further arranges: described cue ball valve 2 is all set to metal hard-sealing ball valve with auxiliary-valve 4.By adopting technique scheme, improved the working life of cue ball valve 2 and auxiliary-valve 4, thus the working life of further having improved whole system.

Claims

1. the flow control system of protection against erosion wearing and tearing, comprise main line and be arranged on the cue ball valve on main line, it is characterized in that: also comprise looped pipeline road, the two ends on described looped pipeline road respectively with the suction side of main line, outlet side is connected, the Flow area on described looped pipeline road is less than the Flow area of described main line, described looped pipeline is provided with auxiliary-valve and current-limiting mechanism on road, described current-limiting mechanism is arranged on the suction side position of the corresponding main line of auxiliary-valve, described current-limiting mechanism comprises the metering hole in the runner that is placed in looped pipeline road, the area of described metering hole is less than the Flow area on described looped pipeline road.

2. the flow control system of protection against erosion wearing and tearing according to claim 1, is characterized in that: described current-limiting mechanism is set to flow-limiting plate, and described metering hole is arranged on the runner central position on the corresponding looped pipeline of flow-limiting plate road.

3. the flow control system that protection against erosion according to claim 2 weares and teares, it is characterized in that: described looped pipeline road comprise the first pipeline section that one end is connected with the suction side of main line, the second pipeline section that one end is connected with the outlet side of main line and be arranged on the first pipeline section and the second pipeline section between the 3rd pipeline section, described auxiliary-valve is arranged between described the second pipeline section and the 3rd pipeline section, described flow-limiting plate is folded between described the first pipeline section and the 3rd pipeline section, and described the first pipeline section and the 3rd pipeline section are and removably connect.

4. according to the flow control system of the protection against erosion wearing and tearing described in claim 2 or 3, it is characterized in that: described flow-limiting plate consists of high-abrasive material.

5. according to the flow control system of the protection against erosion wearing and tearing described in claim 1 or 2 or 3, it is characterized in that: described cue ball valve and auxiliary-valve are all set to metal hard-sealing ball valve.

6. the flow control system of protection against erosion wearing and tearing according to claim 4, is characterized in that: described cue ball valve and auxiliary-valve are all set to metal hard-sealing ball valve.